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|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Prims.Tot | val full_perm_tm:R.term | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let full_perm_tm : R.term =
let open R in
pack_ln (Tv_FVar (pack_fv full_perm_lid)) | val full_perm_tm:R.term
let full_perm_tm:R.term = | false | null | false | let open R in pack_ln (Tv_FVar (pack_fv full_perm_lid)) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_FVar",
"FStar.Reflection.V2.Builtins.pack_fv",
"Pulse.Reflection.Util.full_perm_lid"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv
let mk_total t = R.C_Total t
let mk_ghost t = R.C_GTotal t
let binder_of_t_q t q = RT.binder_of_t_q t q
let binder_of_t_q_s (t:R.term) (q:R.aqualv) (s:RT.pp_name_t) = RT.mk_binder s t q
let bound_var i : R.term = RT.bound_var i
let mk_name i : R.term = R.pack_ln (R.Tv_Var (R.pack_namedv (RT.make_namedv i)))
let arrow_dom = (R.term & R.aqualv)
let mk_arrow (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q ty q) (R.pack_comp (mk_total out)))
let mk_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_total out)))
let mk_ghost_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_ghost out)))
let mk_abs ty qual t : R.term = RT.mk_abs ty qual t
let mk_abs_with_name s ty qual t : R.term = R.pack_ln (R.Tv_Abs (binder_of_t_q_s ty qual s) t)
let mk_abs_with_name_and_range s r ty qual t : R.term =
let b = (binder_of_t_q_s ty qual s) in
let b = RU.binder_set_range b r in
R.pack_ln (R.Tv_Abs b t)
let mk_erased (u:R.universe) (t:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv erased_lid) [u]) in
R.pack_ln (R.Tv_App hd (t, R.Q_Explicit))
let mk_reveal (u:R.universe) (t:R.term) (e:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv reveal_lid) [u]) in
let hd = R.pack_ln (R.Tv_App hd (t, R.Q_Implicit)) in
R.pack_ln (R.Tv_App hd (e, R.Q_Explicit))
let elim_exists_lid = mk_pulse_lib_core_lid "elim_exists"
let intro_exists_lid = mk_pulse_lib_core_lid "intro_exists"
let intro_exists_erased_lid = mk_pulse_lib_core_lid "intro_exists_erased"
let mk_exists (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_forall (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv forall_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_elim_exists (u:R.universe) (a p:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv elim_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_intro_exists (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let mk_intro_exists_erased (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_erased_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let while_lid = mk_pulse_lib_core_lid "while_loop"
let mk_while (inv cond body:R.term) : R.term =
let t = R.pack_ln (R.Tv_FVar (R.pack_fv while_lid)) in
let t = R.pack_ln (R.Tv_App t (inv, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (cond, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (body, R.Q_Explicit))
let vprop_eq_tm t1 t2 =
let open R in
let u2 =
pack_universe (Uv_Succ (pack_universe (Uv_Succ (pack_universe Uv_Zero)))) in
let t = pack_ln (Tv_UInst (pack_fv eq2_qn) [u2]) in
let t = pack_ln (Tv_App t (pack_ln (Tv_FVar (pack_fv vprop_lid)), Q_Implicit)) in
let t = pack_ln (Tv_App t (t1, Q_Explicit)) in
let t = pack_ln (Tv_App t (t2, Q_Explicit)) in
t
let emp_inames_tm : R.term = R.pack_ln (R.Tv_FVar (R.pack_fv emp_inames_lid))
let non_informative_witness_lid = mk_pulse_lib_core_lid "non_informative_witness"
let non_informative_witness_rt (u:R.universe) (a:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv non_informative_witness_lid) [u]) in
let t = pack_ln (Tv_App t (a, Q_Explicit)) in
t
let stt_vprop_equiv_fv =
R.pack_fv (mk_pulse_lib_core_lid "vprop_equiv")
let stt_vprop_equiv_tm =
R.pack_ln (R.Tv_FVar stt_vprop_equiv_fv)
let stt_vprop_equiv (t1 t2:R.term) =
let open R in
let t = pack_ln (Tv_App stt_vprop_equiv_tm (t1, Q_Explicit)) in
pack_ln (Tv_App t (t2, Q_Explicit))
let return_stt_lid = mk_pulse_lib_core_lid "return_stt"
let return_stt_noeq_lid = mk_pulse_lib_core_lid "return"
let return_stt_atomic_lid = mk_pulse_lib_core_lid "return_stt_atomic"
let return_stt_atomic_noeq_lid = mk_pulse_lib_core_lid "return_stt_atomic_noeq"
let return_stt_ghost_lid = mk_pulse_lib_core_lid "return_stt_ghost"
let return_stt_ghost_noeq_lid = mk_pulse_lib_core_lid "return_stt_ghost_noeq"
let mk_stt_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_atomic_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_atomic_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_atomic_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_atomic_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_ghost_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_ghost_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
// Wrapper.lift_stt_atomic<u> #a #pre #post e
let mk_lift_atomic_stt (u:R.universe) (a pre post e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "lift_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.lift_stt_ghost<u> #a #opened #pre #post e reveal_a
let mk_lift_ghost_atomic (u:R.universe) (a opened pre post e reveal_a:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "lift_stt_ghost" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_a, Q_Explicit))
// Wrapper.bind_stt<u1, u2> #a #b #pre1 #post1 #post2 e1 e2
let mk_bind_stt
(u1 u2:R.universe)
(ty1 ty2:R.term)
(pre1 post1: R.term)
(post2: R.term)
(t1 t2:R.term)
: R.term
= let bind_lid = mk_pulse_lib_core_lid "bind_stt" in
let head = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app head
[(ty1, R.Q_Implicit)])
[(ty2, R.Q_Implicit)])
[(pre1, R.Q_Implicit)])
[(post1, R.Q_Implicit)])
[(post2, R.Q_Implicit)])
[(t1, R.Q_Explicit)])
[(t2, R.Q_Explicit)]
// Wrapper.bind_sttg<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2
let mk_bind_ghost
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_sttg" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
pack_ln (R.Tv_App t (e2, Q_Explicit))
// Wrapper.bind_stt_ghost_atomic<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2 reveal_a
let mk_bind_ghost_atomic
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2 reveal_a:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_stt_ghost_atomic" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (e2, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_a, Q_Explicit))
// Wrapper.bind_stt_atomic_ghost<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2 reveal_b
let mk_bind_atomic_ghost
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2 reveal_b:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_stt_atomic_ghost" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (e2, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_b, Q_Explicit))
// Wrapper.frame_stt<u> #ty #pre #post frame t
let mk_frame_stt
(u:R.universe)
(ty:R.term)
(pre: R.term)
(post: R.term)
(frame: R.term)
(t:R.term)
: R.term
= let frame_lid = mk_pulse_lib_core_lid "frame_stt" in
let frame_fv = R.pack_fv frame_lid in
let frame_univ_inst u = R.pack_ln (R.Tv_UInst (R.pack_fv frame_lid) [u]) in
let head = frame_univ_inst u in
R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app head [(ty, R.Q_Implicit)])
[(pre, R.Q_Implicit)])
[(post, R.Q_Implicit)])
[(frame, R.Q_Explicit)])
[(t, R.Q_Explicit)]
// Wrapper.frame_stt_atomic<u> #a #opened #pre #post frame e
let mk_frame_stt_atomic (u:R.universe) (a opened pre post frame e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "frame_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (frame, Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.frame_stt_ghost<u> #a #opened #pre #post frame e
let mk_frame_stt_ghost (u:R.universe) (a opened pre post frame e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "frame_stt_ghost" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (frame, Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.sub_stt<u> #ty #pre1 pre2 #post1 post2 () () e
let mk_sub_stt
(u:R.universe)
(ty:R.term)
(pre1 pre2: R.term)
(post1 post2: R.term)
(t:R.term)
: R.term
= let subsumption_lid = mk_pulse_lib_core_lid "sub_stt" in
let subsumption_fv = R.pack_fv subsumption_lid in
let subsumption_univ_inst u = R.pack_ln (R.Tv_UInst subsumption_fv [u]) in
let head = subsumption_univ_inst u in
R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app head [(ty, R.Q_Implicit)])
[(pre1, R.Q_Implicit)])
[(pre2, R.Q_Explicit)])
[(post1, R.Q_Implicit)])
[(post2, R.Q_Explicit)])
[(`(), R.Q_Explicit)])
[(`(), R.Q_Explicit)])
[(t, R.Q_Explicit)]
// Wrapper.sub_stt_atomic<u> #a #opened #pre1 pre2 #post1 post2 () () e
let mk_sub_stt_atomic (u:R.universe) (a opened pre1 pre2 post1 post2 e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "sub_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.sub_stt_ghost<u> #a #opened #pre1 pre2 #post1 post2 () () e
let mk_sub_stt_ghost (u:R.universe) (a opened pre1 pre2 post1 post2 e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "sub_stt_ghost" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
let mk_par (u:R.universe) (aL aR preL postL preR postR eL eR:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "stt_par" in
let t = pack_ln (Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (Tv_App t (aL, Q_Implicit)) in
let t = pack_ln (Tv_App t (aR, Q_Implicit)) in
let t = pack_ln (Tv_App t (preL, Q_Implicit)) in
let t = pack_ln (Tv_App t (postL, Q_Implicit)) in
let t = pack_ln (Tv_App t (preR, Q_Implicit)) in
let t = pack_ln (Tv_App t (postR, Q_Implicit)) in
let t = pack_ln (Tv_App t (eL, Q_Explicit)) in
pack_ln (Tv_App t (eR, Q_Explicit))
let mk_rewrite (p q:R.term) =
let open R in
let t = pack_ln (Tv_FVar (pack_fv (mk_pulse_lib_core_lid "rewrite"))) in
let t = pack_ln (Tv_App t (p, Q_Explicit)) in
let t = pack_ln (Tv_App t (q, Q_Explicit)) in
pack_ln (Tv_App t (`(), Q_Explicit))
let mk_withlocal (ret_u:R.universe) (a init pre ret_t post body:R.term) =
let open R in
let lid = mk_pulse_lib_reference_lid "with_local" in
let t = pack_ln (Tv_UInst (R.pack_fv lid) [ret_u]) in
let t = pack_ln (Tv_App t (a, Q_Implicit)) in
let t = pack_ln (Tv_App t (init, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (Tv_App t (ret_t, Q_Implicit)) in
let t = pack_ln (Tv_App t (post, Q_Implicit)) in
pack_ln (Tv_App t (body, Q_Explicit))
///// Utils to derive equiv for common constructs /////
let mk_star_equiv (g:R.env) (t1 t2 t3 t4:R.term)
(eq1:RT.equiv g t1 t3)
(eq2:RT.equiv g t2 t4)
: RT.equiv g (mk_star t1 t2) (mk_star t3 t4) =
admit ()
let mk_stt_comp_equiv (g:R.env) (u:R.universe) (res1 pre1 post1 res2 pre2 post2:R.term)
(res_eq: RT.equiv g res1 res2)
(pre_eq:RT.equiv g pre1 pre2)
(post_eq:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_comp u res1 pre1 post1)
(mk_stt_comp u res2 pre2 post2)
= admit ()
let mk_stt_atomic_comp_equiv (g:R.env) (u:R.universe) (res inames pre1 post1 pre2 post2:R.term)
(pre_eq:RT.equiv g pre1 pre2)
(post_eq:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_atomic_comp u res inames pre1 post1)
(mk_stt_atomic_comp u res inames pre2 post2)
= admit ()
let mk_stt_ghost_comp_equiv (g:R.env) (u:R.universe) (res inames pre1 post1 pre2 post2:R.term)
(pre_eq:RT.equiv g pre1 pre2)
(post_eq:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u res inames pre1 post1)
(mk_stt_ghost_comp u res inames pre2 post2)
= admit ()
let ref_lid = mk_pulse_lib_reference_lid "ref"
let pts_to_lid = mk_pulse_lib_reference_lid "pts_to"
let full_perm_lid = ["Steel"; "FractionalPermission"; "full_perm"]
let mk_ref (a:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv ref_lid)) in
pack_ln (Tv_App t (a, Q_Explicit))
let mk_pts_to (a:R.term) (r:R.term) (perm:R.term) (v:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pts_to_lid)) in
let t = pack_ln (Tv_App t (a, Q_Implicit)) in
let t = pack_ln (Tv_App t (r, Q_Explicit)) in
let t = pack_ln (Tv_App t (perm, Q_Implicit)) in
pack_ln (Tv_App t (v, Q_Explicit))
let full_perm_tm : R.term = | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val full_perm_tm:R.term | [] | Pulse.Reflection.Util.full_perm_tm | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | FStar.Reflection.Types.term | {
"end_col": 43,
"end_line": 614,
"start_col": 2,
"start_line": 614
} |
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let vprop_eq_tm t1 t2 =
let open R in
let u2 =
pack_universe (Uv_Succ (pack_universe (Uv_Succ (pack_universe Uv_Zero)))) in
let t = pack_ln (Tv_UInst (pack_fv eq2_qn) [u2]) in
let t = pack_ln (Tv_App t (pack_ln (Tv_FVar (pack_fv vprop_lid)), Q_Implicit)) in
let t = pack_ln (Tv_App t (t1, Q_Explicit)) in
let t = pack_ln (Tv_App t (t2, Q_Explicit)) in
t | let vprop_eq_tm t1 t2 = | false | null | false | let open R in
let u2 = pack_universe (Uv_Succ (pack_universe (Uv_Succ (pack_universe Uv_Zero)))) in
let t = pack_ln (Tv_UInst (pack_fv eq2_qn) [u2]) in
let t = pack_ln (Tv_App t (pack_ln (Tv_FVar (pack_fv vprop_lid)), Q_Implicit)) in
let t = pack_ln (Tv_App t (t1, Q_Explicit)) in
let t = pack_ln (Tv_App t (t2, Q_Explicit)) in
t | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.Types.term",
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_App",
"FStar.Pervasives.Native.Mktuple2",
"FStar.Reflection.V2.Data.aqualv",
"FStar.Reflection.V2.Data.Q_Explicit",
"FStar.Reflection.V2.Data.Tv_FVar",
"FStar.Reflection.V2.Builtins.pack_fv",
"Pulse.Reflection.Util.vprop_lid",
"FStar.Reflection.V2.Data.Q_Implicit",
"FStar.Reflection.V2.Data.Tv_UInst",
"FStar.Reflection.Const.eq2_qn",
"Prims.Cons",
"FStar.Reflection.Types.universe",
"Prims.Nil",
"FStar.Reflection.V2.Builtins.pack_universe",
"FStar.Reflection.V2.Data.Uv_Succ",
"FStar.Reflection.V2.Data.Uv_Zero"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv
let mk_total t = R.C_Total t
let mk_ghost t = R.C_GTotal t
let binder_of_t_q t q = RT.binder_of_t_q t q
let binder_of_t_q_s (t:R.term) (q:R.aqualv) (s:RT.pp_name_t) = RT.mk_binder s t q
let bound_var i : R.term = RT.bound_var i
let mk_name i : R.term = R.pack_ln (R.Tv_Var (R.pack_namedv (RT.make_namedv i)))
let arrow_dom = (R.term & R.aqualv)
let mk_arrow (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q ty q) (R.pack_comp (mk_total out)))
let mk_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_total out)))
let mk_ghost_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_ghost out)))
let mk_abs ty qual t : R.term = RT.mk_abs ty qual t
let mk_abs_with_name s ty qual t : R.term = R.pack_ln (R.Tv_Abs (binder_of_t_q_s ty qual s) t)
let mk_abs_with_name_and_range s r ty qual t : R.term =
let b = (binder_of_t_q_s ty qual s) in
let b = RU.binder_set_range b r in
R.pack_ln (R.Tv_Abs b t)
let mk_erased (u:R.universe) (t:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv erased_lid) [u]) in
R.pack_ln (R.Tv_App hd (t, R.Q_Explicit))
let mk_reveal (u:R.universe) (t:R.term) (e:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv reveal_lid) [u]) in
let hd = R.pack_ln (R.Tv_App hd (t, R.Q_Implicit)) in
R.pack_ln (R.Tv_App hd (e, R.Q_Explicit))
let elim_exists_lid = mk_pulse_lib_core_lid "elim_exists"
let intro_exists_lid = mk_pulse_lib_core_lid "intro_exists"
let intro_exists_erased_lid = mk_pulse_lib_core_lid "intro_exists_erased"
let mk_exists (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_forall (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv forall_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_elim_exists (u:R.universe) (a p:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv elim_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_intro_exists (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let mk_intro_exists_erased (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_erased_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let while_lid = mk_pulse_lib_core_lid "while_loop"
let mk_while (inv cond body:R.term) : R.term =
let t = R.pack_ln (R.Tv_FVar (R.pack_fv while_lid)) in
let t = R.pack_ln (R.Tv_App t (inv, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (cond, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (body, R.Q_Explicit)) | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val vprop_eq_tm : t1: FStar.Reflection.Types.term -> t2: FStar.Reflection.Types.term -> FStar.Reflection.Types.term | [] | Pulse.Reflection.Util.vprop_eq_tm | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | t1: FStar.Reflection.Types.term -> t2: FStar.Reflection.Types.term -> FStar.Reflection.Types.term | {
"end_col": 3,
"end_line": 256,
"start_col": 2,
"start_line": 249
} |
|
Prims.Tot | val mk_sub_stt (u: R.universe) (ty pre1 pre2 post1 post2 t: R.term) : R.term | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let mk_sub_stt
(u:R.universe)
(ty:R.term)
(pre1 pre2: R.term)
(post1 post2: R.term)
(t:R.term)
: R.term
= let subsumption_lid = mk_pulse_lib_core_lid "sub_stt" in
let subsumption_fv = R.pack_fv subsumption_lid in
let subsumption_univ_inst u = R.pack_ln (R.Tv_UInst subsumption_fv [u]) in
let head = subsumption_univ_inst u in
R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app head [(ty, R.Q_Implicit)])
[(pre1, R.Q_Implicit)])
[(pre2, R.Q_Explicit)])
[(post1, R.Q_Implicit)])
[(post2, R.Q_Explicit)])
[(`(), R.Q_Explicit)])
[(`(), R.Q_Explicit)])
[(t, R.Q_Explicit)] | val mk_sub_stt (u: R.universe) (ty pre1 pre2 post1 post2 t: R.term) : R.term
let mk_sub_stt (u: R.universe) (ty pre1 pre2 post1 post2 t: R.term) : R.term = | false | null | false | let subsumption_lid = mk_pulse_lib_core_lid "sub_stt" in
let subsumption_fv = R.pack_fv subsumption_lid in
let subsumption_univ_inst u = R.pack_ln (R.Tv_UInst subsumption_fv [u]) in
let head = subsumption_univ_inst u in
R.mk_app (R.mk_app (R.mk_app (R.mk_app (R.mk_app (R.mk_app (R.mk_app (R.mk_app head
[(ty, R.Q_Implicit)])
[(pre1, R.Q_Implicit)])
[(pre2, R.Q_Explicit)])
[(post1, R.Q_Implicit)])
[(post2, R.Q_Explicit)])
[((`()), R.Q_Explicit)])
[((`()), R.Q_Explicit)])
[(t, R.Q_Explicit)] | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.Types.universe",
"FStar.Reflection.Types.term",
"FStar.Reflection.V2.Derived.mk_app",
"Prims.Cons",
"FStar.Reflection.V2.Data.argv",
"FStar.Pervasives.Native.Mktuple2",
"FStar.Reflection.V2.Data.aqualv",
"FStar.Reflection.V2.Data.Q_Implicit",
"Prims.Nil",
"FStar.Reflection.V2.Data.Q_Explicit",
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_UInst",
"FStar.Reflection.Types.fv",
"FStar.Reflection.V2.Builtins.pack_fv",
"Prims.list",
"Prims.string",
"Pulse.Reflection.Util.mk_pulse_lib_core_lid"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv
let mk_total t = R.C_Total t
let mk_ghost t = R.C_GTotal t
let binder_of_t_q t q = RT.binder_of_t_q t q
let binder_of_t_q_s (t:R.term) (q:R.aqualv) (s:RT.pp_name_t) = RT.mk_binder s t q
let bound_var i : R.term = RT.bound_var i
let mk_name i : R.term = R.pack_ln (R.Tv_Var (R.pack_namedv (RT.make_namedv i)))
let arrow_dom = (R.term & R.aqualv)
let mk_arrow (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q ty q) (R.pack_comp (mk_total out)))
let mk_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_total out)))
let mk_ghost_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_ghost out)))
let mk_abs ty qual t : R.term = RT.mk_abs ty qual t
let mk_abs_with_name s ty qual t : R.term = R.pack_ln (R.Tv_Abs (binder_of_t_q_s ty qual s) t)
let mk_abs_with_name_and_range s r ty qual t : R.term =
let b = (binder_of_t_q_s ty qual s) in
let b = RU.binder_set_range b r in
R.pack_ln (R.Tv_Abs b t)
let mk_erased (u:R.universe) (t:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv erased_lid) [u]) in
R.pack_ln (R.Tv_App hd (t, R.Q_Explicit))
let mk_reveal (u:R.universe) (t:R.term) (e:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv reveal_lid) [u]) in
let hd = R.pack_ln (R.Tv_App hd (t, R.Q_Implicit)) in
R.pack_ln (R.Tv_App hd (e, R.Q_Explicit))
let elim_exists_lid = mk_pulse_lib_core_lid "elim_exists"
let intro_exists_lid = mk_pulse_lib_core_lid "intro_exists"
let intro_exists_erased_lid = mk_pulse_lib_core_lid "intro_exists_erased"
let mk_exists (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_forall (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv forall_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_elim_exists (u:R.universe) (a p:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv elim_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_intro_exists (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let mk_intro_exists_erased (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_erased_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let while_lid = mk_pulse_lib_core_lid "while_loop"
let mk_while (inv cond body:R.term) : R.term =
let t = R.pack_ln (R.Tv_FVar (R.pack_fv while_lid)) in
let t = R.pack_ln (R.Tv_App t (inv, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (cond, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (body, R.Q_Explicit))
let vprop_eq_tm t1 t2 =
let open R in
let u2 =
pack_universe (Uv_Succ (pack_universe (Uv_Succ (pack_universe Uv_Zero)))) in
let t = pack_ln (Tv_UInst (pack_fv eq2_qn) [u2]) in
let t = pack_ln (Tv_App t (pack_ln (Tv_FVar (pack_fv vprop_lid)), Q_Implicit)) in
let t = pack_ln (Tv_App t (t1, Q_Explicit)) in
let t = pack_ln (Tv_App t (t2, Q_Explicit)) in
t
let emp_inames_tm : R.term = R.pack_ln (R.Tv_FVar (R.pack_fv emp_inames_lid))
let non_informative_witness_lid = mk_pulse_lib_core_lid "non_informative_witness"
let non_informative_witness_rt (u:R.universe) (a:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv non_informative_witness_lid) [u]) in
let t = pack_ln (Tv_App t (a, Q_Explicit)) in
t
let stt_vprop_equiv_fv =
R.pack_fv (mk_pulse_lib_core_lid "vprop_equiv")
let stt_vprop_equiv_tm =
R.pack_ln (R.Tv_FVar stt_vprop_equiv_fv)
let stt_vprop_equiv (t1 t2:R.term) =
let open R in
let t = pack_ln (Tv_App stt_vprop_equiv_tm (t1, Q_Explicit)) in
pack_ln (Tv_App t (t2, Q_Explicit))
let return_stt_lid = mk_pulse_lib_core_lid "return_stt"
let return_stt_noeq_lid = mk_pulse_lib_core_lid "return"
let return_stt_atomic_lid = mk_pulse_lib_core_lid "return_stt_atomic"
let return_stt_atomic_noeq_lid = mk_pulse_lib_core_lid "return_stt_atomic_noeq"
let return_stt_ghost_lid = mk_pulse_lib_core_lid "return_stt_ghost"
let return_stt_ghost_noeq_lid = mk_pulse_lib_core_lid "return_stt_ghost_noeq"
let mk_stt_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_atomic_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_atomic_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_atomic_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_atomic_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_ghost_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_ghost_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
// Wrapper.lift_stt_atomic<u> #a #pre #post e
let mk_lift_atomic_stt (u:R.universe) (a pre post e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "lift_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.lift_stt_ghost<u> #a #opened #pre #post e reveal_a
let mk_lift_ghost_atomic (u:R.universe) (a opened pre post e reveal_a:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "lift_stt_ghost" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_a, Q_Explicit))
// Wrapper.bind_stt<u1, u2> #a #b #pre1 #post1 #post2 e1 e2
let mk_bind_stt
(u1 u2:R.universe)
(ty1 ty2:R.term)
(pre1 post1: R.term)
(post2: R.term)
(t1 t2:R.term)
: R.term
= let bind_lid = mk_pulse_lib_core_lid "bind_stt" in
let head = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app head
[(ty1, R.Q_Implicit)])
[(ty2, R.Q_Implicit)])
[(pre1, R.Q_Implicit)])
[(post1, R.Q_Implicit)])
[(post2, R.Q_Implicit)])
[(t1, R.Q_Explicit)])
[(t2, R.Q_Explicit)]
// Wrapper.bind_sttg<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2
let mk_bind_ghost
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_sttg" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
pack_ln (R.Tv_App t (e2, Q_Explicit))
// Wrapper.bind_stt_ghost_atomic<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2 reveal_a
let mk_bind_ghost_atomic
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2 reveal_a:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_stt_ghost_atomic" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (e2, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_a, Q_Explicit))
// Wrapper.bind_stt_atomic_ghost<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2 reveal_b
let mk_bind_atomic_ghost
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2 reveal_b:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_stt_atomic_ghost" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (e2, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_b, Q_Explicit))
// Wrapper.frame_stt<u> #ty #pre #post frame t
let mk_frame_stt
(u:R.universe)
(ty:R.term)
(pre: R.term)
(post: R.term)
(frame: R.term)
(t:R.term)
: R.term
= let frame_lid = mk_pulse_lib_core_lid "frame_stt" in
let frame_fv = R.pack_fv frame_lid in
let frame_univ_inst u = R.pack_ln (R.Tv_UInst (R.pack_fv frame_lid) [u]) in
let head = frame_univ_inst u in
R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app head [(ty, R.Q_Implicit)])
[(pre, R.Q_Implicit)])
[(post, R.Q_Implicit)])
[(frame, R.Q_Explicit)])
[(t, R.Q_Explicit)]
// Wrapper.frame_stt_atomic<u> #a #opened #pre #post frame e
let mk_frame_stt_atomic (u:R.universe) (a opened pre post frame e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "frame_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (frame, Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.frame_stt_ghost<u> #a #opened #pre #post frame e
let mk_frame_stt_ghost (u:R.universe) (a opened pre post frame e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "frame_stt_ghost" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (frame, Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.sub_stt<u> #ty #pre1 pre2 #post1 post2 () () e
let mk_sub_stt
(u:R.universe)
(ty:R.term)
(pre1 pre2: R.term)
(post1 post2: R.term)
(t:R.term) | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val mk_sub_stt (u: R.universe) (ty pre1 pre2 post1 post2 t: R.term) : R.term | [] | Pulse.Reflection.Util.mk_sub_stt | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} |
u224: FStar.Reflection.Types.universe ->
ty: FStar.Reflection.Types.term ->
pre1: FStar.Reflection.Types.term ->
pre2: FStar.Reflection.Types.term ->
post1: FStar.Reflection.Types.term ->
post2: FStar.Reflection.Types.term ->
t: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | {
"end_col": 24,
"end_line": 502,
"start_col": 3,
"start_line": 484
} |
Prims.Tot | val mk_intro_exists_erased (u: R.universe) (a p e: R.term) : R.term | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let mk_intro_exists_erased (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_erased_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit)) | val mk_intro_exists_erased (u: R.universe) (a p e: R.term) : R.term
let mk_intro_exists_erased (u: R.universe) (a p e: R.term) : R.term = | false | null | false | let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_erased_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit)) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.Types.universe",
"FStar.Reflection.Types.term",
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_App",
"FStar.Pervasives.Native.Mktuple2",
"FStar.Reflection.V2.Data.aqualv",
"FStar.Reflection.V2.Data.Q_Explicit",
"FStar.Reflection.V2.Data.Q_Implicit",
"FStar.Reflection.V2.Data.Tv_UInst",
"FStar.Reflection.V2.Builtins.pack_fv",
"Pulse.Reflection.Util.intro_exists_erased_lid",
"Prims.Cons",
"Prims.Nil"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv
let mk_total t = R.C_Total t
let mk_ghost t = R.C_GTotal t
let binder_of_t_q t q = RT.binder_of_t_q t q
let binder_of_t_q_s (t:R.term) (q:R.aqualv) (s:RT.pp_name_t) = RT.mk_binder s t q
let bound_var i : R.term = RT.bound_var i
let mk_name i : R.term = R.pack_ln (R.Tv_Var (R.pack_namedv (RT.make_namedv i)))
let arrow_dom = (R.term & R.aqualv)
let mk_arrow (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q ty q) (R.pack_comp (mk_total out)))
let mk_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_total out)))
let mk_ghost_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_ghost out)))
let mk_abs ty qual t : R.term = RT.mk_abs ty qual t
let mk_abs_with_name s ty qual t : R.term = R.pack_ln (R.Tv_Abs (binder_of_t_q_s ty qual s) t)
let mk_abs_with_name_and_range s r ty qual t : R.term =
let b = (binder_of_t_q_s ty qual s) in
let b = RU.binder_set_range b r in
R.pack_ln (R.Tv_Abs b t)
let mk_erased (u:R.universe) (t:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv erased_lid) [u]) in
R.pack_ln (R.Tv_App hd (t, R.Q_Explicit))
let mk_reveal (u:R.universe) (t:R.term) (e:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv reveal_lid) [u]) in
let hd = R.pack_ln (R.Tv_App hd (t, R.Q_Implicit)) in
R.pack_ln (R.Tv_App hd (e, R.Q_Explicit))
let elim_exists_lid = mk_pulse_lib_core_lid "elim_exists"
let intro_exists_lid = mk_pulse_lib_core_lid "intro_exists"
let intro_exists_erased_lid = mk_pulse_lib_core_lid "intro_exists_erased"
let mk_exists (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_forall (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv forall_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_elim_exists (u:R.universe) (a p:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv elim_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_intro_exists (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit)) | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val mk_intro_exists_erased (u: R.universe) (a p e: R.term) : R.term | [] | Pulse.Reflection.Util.mk_intro_exists_erased | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} |
u111: FStar.Reflection.Types.universe ->
a: FStar.Reflection.Types.term ->
p: FStar.Reflection.Types.term ->
e: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | {
"end_col": 42,
"end_line": 238,
"start_col": 76,
"start_line": 234
} |
Prims.Tot | val mk_pts_to (a r perm v: R.term) : R.term | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let mk_pts_to (a:R.term) (r:R.term) (perm:R.term) (v:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pts_to_lid)) in
let t = pack_ln (Tv_App t (a, Q_Implicit)) in
let t = pack_ln (Tv_App t (r, Q_Explicit)) in
let t = pack_ln (Tv_App t (perm, Q_Implicit)) in
pack_ln (Tv_App t (v, Q_Explicit)) | val mk_pts_to (a r perm v: R.term) : R.term
let mk_pts_to (a r perm v: R.term) : R.term = | false | null | false | let open R in
let t = pack_ln (Tv_FVar (pack_fv pts_to_lid)) in
let t = pack_ln (Tv_App t (a, Q_Implicit)) in
let t = pack_ln (Tv_App t (r, Q_Explicit)) in
let t = pack_ln (Tv_App t (perm, Q_Implicit)) in
pack_ln (Tv_App t (v, Q_Explicit)) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.Types.term",
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_App",
"FStar.Pervasives.Native.Mktuple2",
"FStar.Reflection.V2.Data.aqualv",
"FStar.Reflection.V2.Data.Q_Explicit",
"FStar.Reflection.V2.Data.Q_Implicit",
"FStar.Reflection.V2.Data.Tv_FVar",
"FStar.Reflection.V2.Builtins.pack_fv",
"Pulse.Reflection.Util.pts_to_lid"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv
let mk_total t = R.C_Total t
let mk_ghost t = R.C_GTotal t
let binder_of_t_q t q = RT.binder_of_t_q t q
let binder_of_t_q_s (t:R.term) (q:R.aqualv) (s:RT.pp_name_t) = RT.mk_binder s t q
let bound_var i : R.term = RT.bound_var i
let mk_name i : R.term = R.pack_ln (R.Tv_Var (R.pack_namedv (RT.make_namedv i)))
let arrow_dom = (R.term & R.aqualv)
let mk_arrow (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q ty q) (R.pack_comp (mk_total out)))
let mk_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_total out)))
let mk_ghost_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_ghost out)))
let mk_abs ty qual t : R.term = RT.mk_abs ty qual t
let mk_abs_with_name s ty qual t : R.term = R.pack_ln (R.Tv_Abs (binder_of_t_q_s ty qual s) t)
let mk_abs_with_name_and_range s r ty qual t : R.term =
let b = (binder_of_t_q_s ty qual s) in
let b = RU.binder_set_range b r in
R.pack_ln (R.Tv_Abs b t)
let mk_erased (u:R.universe) (t:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv erased_lid) [u]) in
R.pack_ln (R.Tv_App hd (t, R.Q_Explicit))
let mk_reveal (u:R.universe) (t:R.term) (e:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv reveal_lid) [u]) in
let hd = R.pack_ln (R.Tv_App hd (t, R.Q_Implicit)) in
R.pack_ln (R.Tv_App hd (e, R.Q_Explicit))
let elim_exists_lid = mk_pulse_lib_core_lid "elim_exists"
let intro_exists_lid = mk_pulse_lib_core_lid "intro_exists"
let intro_exists_erased_lid = mk_pulse_lib_core_lid "intro_exists_erased"
let mk_exists (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_forall (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv forall_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_elim_exists (u:R.universe) (a p:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv elim_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_intro_exists (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let mk_intro_exists_erased (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_erased_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let while_lid = mk_pulse_lib_core_lid "while_loop"
let mk_while (inv cond body:R.term) : R.term =
let t = R.pack_ln (R.Tv_FVar (R.pack_fv while_lid)) in
let t = R.pack_ln (R.Tv_App t (inv, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (cond, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (body, R.Q_Explicit))
let vprop_eq_tm t1 t2 =
let open R in
let u2 =
pack_universe (Uv_Succ (pack_universe (Uv_Succ (pack_universe Uv_Zero)))) in
let t = pack_ln (Tv_UInst (pack_fv eq2_qn) [u2]) in
let t = pack_ln (Tv_App t (pack_ln (Tv_FVar (pack_fv vprop_lid)), Q_Implicit)) in
let t = pack_ln (Tv_App t (t1, Q_Explicit)) in
let t = pack_ln (Tv_App t (t2, Q_Explicit)) in
t
let emp_inames_tm : R.term = R.pack_ln (R.Tv_FVar (R.pack_fv emp_inames_lid))
let non_informative_witness_lid = mk_pulse_lib_core_lid "non_informative_witness"
let non_informative_witness_rt (u:R.universe) (a:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv non_informative_witness_lid) [u]) in
let t = pack_ln (Tv_App t (a, Q_Explicit)) in
t
let stt_vprop_equiv_fv =
R.pack_fv (mk_pulse_lib_core_lid "vprop_equiv")
let stt_vprop_equiv_tm =
R.pack_ln (R.Tv_FVar stt_vprop_equiv_fv)
let stt_vprop_equiv (t1 t2:R.term) =
let open R in
let t = pack_ln (Tv_App stt_vprop_equiv_tm (t1, Q_Explicit)) in
pack_ln (Tv_App t (t2, Q_Explicit))
let return_stt_lid = mk_pulse_lib_core_lid "return_stt"
let return_stt_noeq_lid = mk_pulse_lib_core_lid "return"
let return_stt_atomic_lid = mk_pulse_lib_core_lid "return_stt_atomic"
let return_stt_atomic_noeq_lid = mk_pulse_lib_core_lid "return_stt_atomic_noeq"
let return_stt_ghost_lid = mk_pulse_lib_core_lid "return_stt_ghost"
let return_stt_ghost_noeq_lid = mk_pulse_lib_core_lid "return_stt_ghost_noeq"
let mk_stt_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_atomic_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_atomic_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_atomic_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_atomic_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_ghost_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_ghost_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
// Wrapper.lift_stt_atomic<u> #a #pre #post e
let mk_lift_atomic_stt (u:R.universe) (a pre post e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "lift_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.lift_stt_ghost<u> #a #opened #pre #post e reveal_a
let mk_lift_ghost_atomic (u:R.universe) (a opened pre post e reveal_a:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "lift_stt_ghost" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_a, Q_Explicit))
// Wrapper.bind_stt<u1, u2> #a #b #pre1 #post1 #post2 e1 e2
let mk_bind_stt
(u1 u2:R.universe)
(ty1 ty2:R.term)
(pre1 post1: R.term)
(post2: R.term)
(t1 t2:R.term)
: R.term
= let bind_lid = mk_pulse_lib_core_lid "bind_stt" in
let head = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app head
[(ty1, R.Q_Implicit)])
[(ty2, R.Q_Implicit)])
[(pre1, R.Q_Implicit)])
[(post1, R.Q_Implicit)])
[(post2, R.Q_Implicit)])
[(t1, R.Q_Explicit)])
[(t2, R.Q_Explicit)]
// Wrapper.bind_sttg<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2
let mk_bind_ghost
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_sttg" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
pack_ln (R.Tv_App t (e2, Q_Explicit))
// Wrapper.bind_stt_ghost_atomic<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2 reveal_a
let mk_bind_ghost_atomic
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2 reveal_a:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_stt_ghost_atomic" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (e2, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_a, Q_Explicit))
// Wrapper.bind_stt_atomic_ghost<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2 reveal_b
let mk_bind_atomic_ghost
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2 reveal_b:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_stt_atomic_ghost" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (e2, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_b, Q_Explicit))
// Wrapper.frame_stt<u> #ty #pre #post frame t
let mk_frame_stt
(u:R.universe)
(ty:R.term)
(pre: R.term)
(post: R.term)
(frame: R.term)
(t:R.term)
: R.term
= let frame_lid = mk_pulse_lib_core_lid "frame_stt" in
let frame_fv = R.pack_fv frame_lid in
let frame_univ_inst u = R.pack_ln (R.Tv_UInst (R.pack_fv frame_lid) [u]) in
let head = frame_univ_inst u in
R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app head [(ty, R.Q_Implicit)])
[(pre, R.Q_Implicit)])
[(post, R.Q_Implicit)])
[(frame, R.Q_Explicit)])
[(t, R.Q_Explicit)]
// Wrapper.frame_stt_atomic<u> #a #opened #pre #post frame e
let mk_frame_stt_atomic (u:R.universe) (a opened pre post frame e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "frame_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (frame, Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.frame_stt_ghost<u> #a #opened #pre #post frame e
let mk_frame_stt_ghost (u:R.universe) (a opened pre post frame e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "frame_stt_ghost" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (frame, Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.sub_stt<u> #ty #pre1 pre2 #post1 post2 () () e
let mk_sub_stt
(u:R.universe)
(ty:R.term)
(pre1 pre2: R.term)
(post1 post2: R.term)
(t:R.term)
: R.term
= let subsumption_lid = mk_pulse_lib_core_lid "sub_stt" in
let subsumption_fv = R.pack_fv subsumption_lid in
let subsumption_univ_inst u = R.pack_ln (R.Tv_UInst subsumption_fv [u]) in
let head = subsumption_univ_inst u in
R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app head [(ty, R.Q_Implicit)])
[(pre1, R.Q_Implicit)])
[(pre2, R.Q_Explicit)])
[(post1, R.Q_Implicit)])
[(post2, R.Q_Explicit)])
[(`(), R.Q_Explicit)])
[(`(), R.Q_Explicit)])
[(t, R.Q_Explicit)]
// Wrapper.sub_stt_atomic<u> #a #opened #pre1 pre2 #post1 post2 () () e
let mk_sub_stt_atomic (u:R.universe) (a opened pre1 pre2 post1 post2 e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "sub_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.sub_stt_ghost<u> #a #opened #pre1 pre2 #post1 post2 () () e
let mk_sub_stt_ghost (u:R.universe) (a opened pre1 pre2 post1 post2 e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "sub_stt_ghost" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
let mk_par (u:R.universe) (aL aR preL postL preR postR eL eR:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "stt_par" in
let t = pack_ln (Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (Tv_App t (aL, Q_Implicit)) in
let t = pack_ln (Tv_App t (aR, Q_Implicit)) in
let t = pack_ln (Tv_App t (preL, Q_Implicit)) in
let t = pack_ln (Tv_App t (postL, Q_Implicit)) in
let t = pack_ln (Tv_App t (preR, Q_Implicit)) in
let t = pack_ln (Tv_App t (postR, Q_Implicit)) in
let t = pack_ln (Tv_App t (eL, Q_Explicit)) in
pack_ln (Tv_App t (eR, Q_Explicit))
let mk_rewrite (p q:R.term) =
let open R in
let t = pack_ln (Tv_FVar (pack_fv (mk_pulse_lib_core_lid "rewrite"))) in
let t = pack_ln (Tv_App t (p, Q_Explicit)) in
let t = pack_ln (Tv_App t (q, Q_Explicit)) in
pack_ln (Tv_App t (`(), Q_Explicit))
let mk_withlocal (ret_u:R.universe) (a init pre ret_t post body:R.term) =
let open R in
let lid = mk_pulse_lib_reference_lid "with_local" in
let t = pack_ln (Tv_UInst (R.pack_fv lid) [ret_u]) in
let t = pack_ln (Tv_App t (a, Q_Implicit)) in
let t = pack_ln (Tv_App t (init, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (Tv_App t (ret_t, Q_Implicit)) in
let t = pack_ln (Tv_App t (post, Q_Implicit)) in
pack_ln (Tv_App t (body, Q_Explicit))
///// Utils to derive equiv for common constructs /////
let mk_star_equiv (g:R.env) (t1 t2 t3 t4:R.term)
(eq1:RT.equiv g t1 t3)
(eq2:RT.equiv g t2 t4)
: RT.equiv g (mk_star t1 t2) (mk_star t3 t4) =
admit ()
let mk_stt_comp_equiv (g:R.env) (u:R.universe) (res1 pre1 post1 res2 pre2 post2:R.term)
(res_eq: RT.equiv g res1 res2)
(pre_eq:RT.equiv g pre1 pre2)
(post_eq:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_comp u res1 pre1 post1)
(mk_stt_comp u res2 pre2 post2)
= admit ()
let mk_stt_atomic_comp_equiv (g:R.env) (u:R.universe) (res inames pre1 post1 pre2 post2:R.term)
(pre_eq:RT.equiv g pre1 pre2)
(post_eq:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_atomic_comp u res inames pre1 post1)
(mk_stt_atomic_comp u res inames pre2 post2)
= admit ()
let mk_stt_ghost_comp_equiv (g:R.env) (u:R.universe) (res inames pre1 post1 pre2 post2:R.term)
(pre_eq:RT.equiv g pre1 pre2)
(post_eq:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u res inames pre1 post1)
(mk_stt_ghost_comp u res inames pre2 post2)
= admit ()
let ref_lid = mk_pulse_lib_reference_lid "ref"
let pts_to_lid = mk_pulse_lib_reference_lid "pts_to"
let full_perm_lid = ["Steel"; "FractionalPermission"; "full_perm"]
let mk_ref (a:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv ref_lid)) in
pack_ln (Tv_App t (a, Q_Explicit)) | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val mk_pts_to (a r perm v: R.term) : R.term | [] | Pulse.Reflection.Util.mk_pts_to | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} |
a: FStar.Reflection.Types.term ->
r: FStar.Reflection.Types.term ->
perm: FStar.Reflection.Types.term ->
v: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | {
"end_col": 36,
"end_line": 610,
"start_col": 2,
"start_line": 605
} |
Prims.Tot | val mk_stt_ghost_return (u: R.universe) (ty t post: R.term) : R.term | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let mk_stt_ghost_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_ghost_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit)) | val mk_stt_ghost_return (u: R.universe) (ty t post: R.term) : R.term
let mk_stt_ghost_return (u: R.universe) (ty t post: R.term) : R.term = | false | null | false | let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_ghost_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit)) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.Types.universe",
"FStar.Reflection.Types.term",
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_App",
"FStar.Pervasives.Native.Mktuple2",
"FStar.Reflection.V2.Data.aqualv",
"FStar.Reflection.V2.Data.Q_Explicit",
"FStar.Reflection.V2.Data.Q_Implicit",
"FStar.Reflection.V2.Data.Tv_UInst",
"FStar.Reflection.V2.Builtins.pack_fv",
"Pulse.Reflection.Util.return_stt_ghost_lid",
"Prims.Cons",
"Prims.Nil"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv
let mk_total t = R.C_Total t
let mk_ghost t = R.C_GTotal t
let binder_of_t_q t q = RT.binder_of_t_q t q
let binder_of_t_q_s (t:R.term) (q:R.aqualv) (s:RT.pp_name_t) = RT.mk_binder s t q
let bound_var i : R.term = RT.bound_var i
let mk_name i : R.term = R.pack_ln (R.Tv_Var (R.pack_namedv (RT.make_namedv i)))
let arrow_dom = (R.term & R.aqualv)
let mk_arrow (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q ty q) (R.pack_comp (mk_total out)))
let mk_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_total out)))
let mk_ghost_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_ghost out)))
let mk_abs ty qual t : R.term = RT.mk_abs ty qual t
let mk_abs_with_name s ty qual t : R.term = R.pack_ln (R.Tv_Abs (binder_of_t_q_s ty qual s) t)
let mk_abs_with_name_and_range s r ty qual t : R.term =
let b = (binder_of_t_q_s ty qual s) in
let b = RU.binder_set_range b r in
R.pack_ln (R.Tv_Abs b t)
let mk_erased (u:R.universe) (t:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv erased_lid) [u]) in
R.pack_ln (R.Tv_App hd (t, R.Q_Explicit))
let mk_reveal (u:R.universe) (t:R.term) (e:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv reveal_lid) [u]) in
let hd = R.pack_ln (R.Tv_App hd (t, R.Q_Implicit)) in
R.pack_ln (R.Tv_App hd (e, R.Q_Explicit))
let elim_exists_lid = mk_pulse_lib_core_lid "elim_exists"
let intro_exists_lid = mk_pulse_lib_core_lid "intro_exists"
let intro_exists_erased_lid = mk_pulse_lib_core_lid "intro_exists_erased"
let mk_exists (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_forall (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv forall_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_elim_exists (u:R.universe) (a p:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv elim_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_intro_exists (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let mk_intro_exists_erased (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_erased_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let while_lid = mk_pulse_lib_core_lid "while_loop"
let mk_while (inv cond body:R.term) : R.term =
let t = R.pack_ln (R.Tv_FVar (R.pack_fv while_lid)) in
let t = R.pack_ln (R.Tv_App t (inv, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (cond, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (body, R.Q_Explicit))
let vprop_eq_tm t1 t2 =
let open R in
let u2 =
pack_universe (Uv_Succ (pack_universe (Uv_Succ (pack_universe Uv_Zero)))) in
let t = pack_ln (Tv_UInst (pack_fv eq2_qn) [u2]) in
let t = pack_ln (Tv_App t (pack_ln (Tv_FVar (pack_fv vprop_lid)), Q_Implicit)) in
let t = pack_ln (Tv_App t (t1, Q_Explicit)) in
let t = pack_ln (Tv_App t (t2, Q_Explicit)) in
t
let emp_inames_tm : R.term = R.pack_ln (R.Tv_FVar (R.pack_fv emp_inames_lid))
let non_informative_witness_lid = mk_pulse_lib_core_lid "non_informative_witness"
let non_informative_witness_rt (u:R.universe) (a:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv non_informative_witness_lid) [u]) in
let t = pack_ln (Tv_App t (a, Q_Explicit)) in
t
let stt_vprop_equiv_fv =
R.pack_fv (mk_pulse_lib_core_lid "vprop_equiv")
let stt_vprop_equiv_tm =
R.pack_ln (R.Tv_FVar stt_vprop_equiv_fv)
let stt_vprop_equiv (t1 t2:R.term) =
let open R in
let t = pack_ln (Tv_App stt_vprop_equiv_tm (t1, Q_Explicit)) in
pack_ln (Tv_App t (t2, Q_Explicit))
let return_stt_lid = mk_pulse_lib_core_lid "return_stt"
let return_stt_noeq_lid = mk_pulse_lib_core_lid "return"
let return_stt_atomic_lid = mk_pulse_lib_core_lid "return_stt_atomic"
let return_stt_atomic_noeq_lid = mk_pulse_lib_core_lid "return_stt_atomic_noeq"
let return_stt_ghost_lid = mk_pulse_lib_core_lid "return_stt_ghost"
let return_stt_ghost_noeq_lid = mk_pulse_lib_core_lid "return_stt_ghost_noeq"
let mk_stt_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_atomic_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_atomic_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_atomic_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_atomic_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit)) | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val mk_stt_ghost_return (u: R.universe) (ty t post: R.term) : R.term | [] | Pulse.Reflection.Util.mk_stt_ghost_return | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} |
u140: FStar.Reflection.Types.universe ->
ty: FStar.Reflection.Types.term ->
t: FStar.Reflection.Types.term ->
post: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | {
"end_col": 45,
"end_line": 322,
"start_col": 12,
"start_line": 317
} |
Prims.Tot | val mk_stt_return (u: R.universe) (ty t post: R.term) : R.term | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let mk_stt_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit)) | val mk_stt_return (u: R.universe) (ty t post: R.term) : R.term
let mk_stt_return (u: R.universe) (ty t post: R.term) : R.term = | false | null | false | let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit)) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.Types.universe",
"FStar.Reflection.Types.term",
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_App",
"FStar.Pervasives.Native.Mktuple2",
"FStar.Reflection.V2.Data.aqualv",
"FStar.Reflection.V2.Data.Q_Explicit",
"FStar.Reflection.V2.Data.Q_Implicit",
"FStar.Reflection.V2.Data.Tv_UInst",
"FStar.Reflection.V2.Builtins.pack_fv",
"Pulse.Reflection.Util.return_stt_lid",
"Prims.Cons",
"Prims.Nil"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv
let mk_total t = R.C_Total t
let mk_ghost t = R.C_GTotal t
let binder_of_t_q t q = RT.binder_of_t_q t q
let binder_of_t_q_s (t:R.term) (q:R.aqualv) (s:RT.pp_name_t) = RT.mk_binder s t q
let bound_var i : R.term = RT.bound_var i
let mk_name i : R.term = R.pack_ln (R.Tv_Var (R.pack_namedv (RT.make_namedv i)))
let arrow_dom = (R.term & R.aqualv)
let mk_arrow (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q ty q) (R.pack_comp (mk_total out)))
let mk_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_total out)))
let mk_ghost_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_ghost out)))
let mk_abs ty qual t : R.term = RT.mk_abs ty qual t
let mk_abs_with_name s ty qual t : R.term = R.pack_ln (R.Tv_Abs (binder_of_t_q_s ty qual s) t)
let mk_abs_with_name_and_range s r ty qual t : R.term =
let b = (binder_of_t_q_s ty qual s) in
let b = RU.binder_set_range b r in
R.pack_ln (R.Tv_Abs b t)
let mk_erased (u:R.universe) (t:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv erased_lid) [u]) in
R.pack_ln (R.Tv_App hd (t, R.Q_Explicit))
let mk_reveal (u:R.universe) (t:R.term) (e:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv reveal_lid) [u]) in
let hd = R.pack_ln (R.Tv_App hd (t, R.Q_Implicit)) in
R.pack_ln (R.Tv_App hd (e, R.Q_Explicit))
let elim_exists_lid = mk_pulse_lib_core_lid "elim_exists"
let intro_exists_lid = mk_pulse_lib_core_lid "intro_exists"
let intro_exists_erased_lid = mk_pulse_lib_core_lid "intro_exists_erased"
let mk_exists (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_forall (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv forall_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_elim_exists (u:R.universe) (a p:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv elim_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_intro_exists (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let mk_intro_exists_erased (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_erased_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let while_lid = mk_pulse_lib_core_lid "while_loop"
let mk_while (inv cond body:R.term) : R.term =
let t = R.pack_ln (R.Tv_FVar (R.pack_fv while_lid)) in
let t = R.pack_ln (R.Tv_App t (inv, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (cond, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (body, R.Q_Explicit))
let vprop_eq_tm t1 t2 =
let open R in
let u2 =
pack_universe (Uv_Succ (pack_universe (Uv_Succ (pack_universe Uv_Zero)))) in
let t = pack_ln (Tv_UInst (pack_fv eq2_qn) [u2]) in
let t = pack_ln (Tv_App t (pack_ln (Tv_FVar (pack_fv vprop_lid)), Q_Implicit)) in
let t = pack_ln (Tv_App t (t1, Q_Explicit)) in
let t = pack_ln (Tv_App t (t2, Q_Explicit)) in
t
let emp_inames_tm : R.term = R.pack_ln (R.Tv_FVar (R.pack_fv emp_inames_lid))
let non_informative_witness_lid = mk_pulse_lib_core_lid "non_informative_witness"
let non_informative_witness_rt (u:R.universe) (a:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv non_informative_witness_lid) [u]) in
let t = pack_ln (Tv_App t (a, Q_Explicit)) in
t
let stt_vprop_equiv_fv =
R.pack_fv (mk_pulse_lib_core_lid "vprop_equiv")
let stt_vprop_equiv_tm =
R.pack_ln (R.Tv_FVar stt_vprop_equiv_fv)
let stt_vprop_equiv (t1 t2:R.term) =
let open R in
let t = pack_ln (Tv_App stt_vprop_equiv_tm (t1, Q_Explicit)) in
pack_ln (Tv_App t (t2, Q_Explicit))
let return_stt_lid = mk_pulse_lib_core_lid "return_stt"
let return_stt_noeq_lid = mk_pulse_lib_core_lid "return"
let return_stt_atomic_lid = mk_pulse_lib_core_lid "return_stt_atomic"
let return_stt_atomic_noeq_lid = mk_pulse_lib_core_lid "return_stt_atomic_noeq"
let return_stt_ghost_lid = mk_pulse_lib_core_lid "return_stt_ghost"
let return_stt_ghost_noeq_lid = mk_pulse_lib_core_lid "return_stt_ghost_noeq" | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val mk_stt_return (u: R.universe) (ty t post: R.term) : R.term | [] | Pulse.Reflection.Util.mk_stt_return | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} |
u124: FStar.Reflection.Types.universe ->
ty: FStar.Reflection.Types.term ->
t: FStar.Reflection.Types.term ->
post: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | {
"end_col": 45,
"end_line": 290,
"start_col": 12,
"start_line": 285
} |
Prims.Tot | val mk_seq (u: R.universe) (a: R.term) : R.term | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let mk_seq (u:R.universe) (a:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (R.pack_fv seq_lid) [u]) in
pack_ln (Tv_App t (a, Q_Explicit)) | val mk_seq (u: R.universe) (a: R.term) : R.term
let mk_seq (u: R.universe) (a: R.term) : R.term = | false | null | false | let open R in
let t = pack_ln (Tv_UInst (R.pack_fv seq_lid) [u]) in
pack_ln (Tv_App t (a, Q_Explicit)) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.Types.universe",
"FStar.Reflection.Types.term",
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_App",
"FStar.Pervasives.Native.Mktuple2",
"FStar.Reflection.V2.Data.aqualv",
"FStar.Reflection.V2.Data.Q_Explicit",
"FStar.Reflection.V2.Data.Tv_UInst",
"FStar.Reflection.V2.Builtins.pack_fv",
"Pulse.Reflection.Util.seq_lid",
"Prims.Cons",
"Prims.Nil"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv
let mk_total t = R.C_Total t
let mk_ghost t = R.C_GTotal t
let binder_of_t_q t q = RT.binder_of_t_q t q
let binder_of_t_q_s (t:R.term) (q:R.aqualv) (s:RT.pp_name_t) = RT.mk_binder s t q
let bound_var i : R.term = RT.bound_var i
let mk_name i : R.term = R.pack_ln (R.Tv_Var (R.pack_namedv (RT.make_namedv i)))
let arrow_dom = (R.term & R.aqualv)
let mk_arrow (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q ty q) (R.pack_comp (mk_total out)))
let mk_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_total out)))
let mk_ghost_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_ghost out)))
let mk_abs ty qual t : R.term = RT.mk_abs ty qual t
let mk_abs_with_name s ty qual t : R.term = R.pack_ln (R.Tv_Abs (binder_of_t_q_s ty qual s) t)
let mk_abs_with_name_and_range s r ty qual t : R.term =
let b = (binder_of_t_q_s ty qual s) in
let b = RU.binder_set_range b r in
R.pack_ln (R.Tv_Abs b t)
let mk_erased (u:R.universe) (t:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv erased_lid) [u]) in
R.pack_ln (R.Tv_App hd (t, R.Q_Explicit))
let mk_reveal (u:R.universe) (t:R.term) (e:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv reveal_lid) [u]) in
let hd = R.pack_ln (R.Tv_App hd (t, R.Q_Implicit)) in
R.pack_ln (R.Tv_App hd (e, R.Q_Explicit))
let elim_exists_lid = mk_pulse_lib_core_lid "elim_exists"
let intro_exists_lid = mk_pulse_lib_core_lid "intro_exists"
let intro_exists_erased_lid = mk_pulse_lib_core_lid "intro_exists_erased"
let mk_exists (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_forall (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv forall_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_elim_exists (u:R.universe) (a p:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv elim_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_intro_exists (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let mk_intro_exists_erased (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_erased_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let while_lid = mk_pulse_lib_core_lid "while_loop"
let mk_while (inv cond body:R.term) : R.term =
let t = R.pack_ln (R.Tv_FVar (R.pack_fv while_lid)) in
let t = R.pack_ln (R.Tv_App t (inv, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (cond, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (body, R.Q_Explicit))
let vprop_eq_tm t1 t2 =
let open R in
let u2 =
pack_universe (Uv_Succ (pack_universe (Uv_Succ (pack_universe Uv_Zero)))) in
let t = pack_ln (Tv_UInst (pack_fv eq2_qn) [u2]) in
let t = pack_ln (Tv_App t (pack_ln (Tv_FVar (pack_fv vprop_lid)), Q_Implicit)) in
let t = pack_ln (Tv_App t (t1, Q_Explicit)) in
let t = pack_ln (Tv_App t (t2, Q_Explicit)) in
t
let emp_inames_tm : R.term = R.pack_ln (R.Tv_FVar (R.pack_fv emp_inames_lid))
let non_informative_witness_lid = mk_pulse_lib_core_lid "non_informative_witness"
let non_informative_witness_rt (u:R.universe) (a:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv non_informative_witness_lid) [u]) in
let t = pack_ln (Tv_App t (a, Q_Explicit)) in
t
let stt_vprop_equiv_fv =
R.pack_fv (mk_pulse_lib_core_lid "vprop_equiv")
let stt_vprop_equiv_tm =
R.pack_ln (R.Tv_FVar stt_vprop_equiv_fv)
let stt_vprop_equiv (t1 t2:R.term) =
let open R in
let t = pack_ln (Tv_App stt_vprop_equiv_tm (t1, Q_Explicit)) in
pack_ln (Tv_App t (t2, Q_Explicit))
let return_stt_lid = mk_pulse_lib_core_lid "return_stt"
let return_stt_noeq_lid = mk_pulse_lib_core_lid "return"
let return_stt_atomic_lid = mk_pulse_lib_core_lid "return_stt_atomic"
let return_stt_atomic_noeq_lid = mk_pulse_lib_core_lid "return_stt_atomic_noeq"
let return_stt_ghost_lid = mk_pulse_lib_core_lid "return_stt_ghost"
let return_stt_ghost_noeq_lid = mk_pulse_lib_core_lid "return_stt_ghost_noeq"
let mk_stt_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_atomic_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_atomic_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_atomic_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_atomic_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_ghost_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_ghost_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
// Wrapper.lift_stt_atomic<u> #a #pre #post e
let mk_lift_atomic_stt (u:R.universe) (a pre post e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "lift_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.lift_stt_ghost<u> #a #opened #pre #post e reveal_a
let mk_lift_ghost_atomic (u:R.universe) (a opened pre post e reveal_a:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "lift_stt_ghost" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_a, Q_Explicit))
// Wrapper.bind_stt<u1, u2> #a #b #pre1 #post1 #post2 e1 e2
let mk_bind_stt
(u1 u2:R.universe)
(ty1 ty2:R.term)
(pre1 post1: R.term)
(post2: R.term)
(t1 t2:R.term)
: R.term
= let bind_lid = mk_pulse_lib_core_lid "bind_stt" in
let head = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app head
[(ty1, R.Q_Implicit)])
[(ty2, R.Q_Implicit)])
[(pre1, R.Q_Implicit)])
[(post1, R.Q_Implicit)])
[(post2, R.Q_Implicit)])
[(t1, R.Q_Explicit)])
[(t2, R.Q_Explicit)]
// Wrapper.bind_sttg<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2
let mk_bind_ghost
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_sttg" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
pack_ln (R.Tv_App t (e2, Q_Explicit))
// Wrapper.bind_stt_ghost_atomic<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2 reveal_a
let mk_bind_ghost_atomic
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2 reveal_a:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_stt_ghost_atomic" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (e2, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_a, Q_Explicit))
// Wrapper.bind_stt_atomic_ghost<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2 reveal_b
let mk_bind_atomic_ghost
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2 reveal_b:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_stt_atomic_ghost" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (e2, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_b, Q_Explicit))
// Wrapper.frame_stt<u> #ty #pre #post frame t
let mk_frame_stt
(u:R.universe)
(ty:R.term)
(pre: R.term)
(post: R.term)
(frame: R.term)
(t:R.term)
: R.term
= let frame_lid = mk_pulse_lib_core_lid "frame_stt" in
let frame_fv = R.pack_fv frame_lid in
let frame_univ_inst u = R.pack_ln (R.Tv_UInst (R.pack_fv frame_lid) [u]) in
let head = frame_univ_inst u in
R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app head [(ty, R.Q_Implicit)])
[(pre, R.Q_Implicit)])
[(post, R.Q_Implicit)])
[(frame, R.Q_Explicit)])
[(t, R.Q_Explicit)]
// Wrapper.frame_stt_atomic<u> #a #opened #pre #post frame e
let mk_frame_stt_atomic (u:R.universe) (a opened pre post frame e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "frame_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (frame, Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.frame_stt_ghost<u> #a #opened #pre #post frame e
let mk_frame_stt_ghost (u:R.universe) (a opened pre post frame e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "frame_stt_ghost" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (frame, Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.sub_stt<u> #ty #pre1 pre2 #post1 post2 () () e
let mk_sub_stt
(u:R.universe)
(ty:R.term)
(pre1 pre2: R.term)
(post1 post2: R.term)
(t:R.term)
: R.term
= let subsumption_lid = mk_pulse_lib_core_lid "sub_stt" in
let subsumption_fv = R.pack_fv subsumption_lid in
let subsumption_univ_inst u = R.pack_ln (R.Tv_UInst subsumption_fv [u]) in
let head = subsumption_univ_inst u in
R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app head [(ty, R.Q_Implicit)])
[(pre1, R.Q_Implicit)])
[(pre2, R.Q_Explicit)])
[(post1, R.Q_Implicit)])
[(post2, R.Q_Explicit)])
[(`(), R.Q_Explicit)])
[(`(), R.Q_Explicit)])
[(t, R.Q_Explicit)]
// Wrapper.sub_stt_atomic<u> #a #opened #pre1 pre2 #post1 post2 () () e
let mk_sub_stt_atomic (u:R.universe) (a opened pre1 pre2 post1 post2 e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "sub_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.sub_stt_ghost<u> #a #opened #pre1 pre2 #post1 post2 () () e
let mk_sub_stt_ghost (u:R.universe) (a opened pre1 pre2 post1 post2 e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "sub_stt_ghost" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
let mk_par (u:R.universe) (aL aR preL postL preR postR eL eR:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "stt_par" in
let t = pack_ln (Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (Tv_App t (aL, Q_Implicit)) in
let t = pack_ln (Tv_App t (aR, Q_Implicit)) in
let t = pack_ln (Tv_App t (preL, Q_Implicit)) in
let t = pack_ln (Tv_App t (postL, Q_Implicit)) in
let t = pack_ln (Tv_App t (preR, Q_Implicit)) in
let t = pack_ln (Tv_App t (postR, Q_Implicit)) in
let t = pack_ln (Tv_App t (eL, Q_Explicit)) in
pack_ln (Tv_App t (eR, Q_Explicit))
let mk_rewrite (p q:R.term) =
let open R in
let t = pack_ln (Tv_FVar (pack_fv (mk_pulse_lib_core_lid "rewrite"))) in
let t = pack_ln (Tv_App t (p, Q_Explicit)) in
let t = pack_ln (Tv_App t (q, Q_Explicit)) in
pack_ln (Tv_App t (`(), Q_Explicit))
let mk_withlocal (ret_u:R.universe) (a init pre ret_t post body:R.term) =
let open R in
let lid = mk_pulse_lib_reference_lid "with_local" in
let t = pack_ln (Tv_UInst (R.pack_fv lid) [ret_u]) in
let t = pack_ln (Tv_App t (a, Q_Implicit)) in
let t = pack_ln (Tv_App t (init, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (Tv_App t (ret_t, Q_Implicit)) in
let t = pack_ln (Tv_App t (post, Q_Implicit)) in
pack_ln (Tv_App t (body, Q_Explicit))
///// Utils to derive equiv for common constructs /////
let mk_star_equiv (g:R.env) (t1 t2 t3 t4:R.term)
(eq1:RT.equiv g t1 t3)
(eq2:RT.equiv g t2 t4)
: RT.equiv g (mk_star t1 t2) (mk_star t3 t4) =
admit ()
let mk_stt_comp_equiv (g:R.env) (u:R.universe) (res1 pre1 post1 res2 pre2 post2:R.term)
(res_eq: RT.equiv g res1 res2)
(pre_eq:RT.equiv g pre1 pre2)
(post_eq:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_comp u res1 pre1 post1)
(mk_stt_comp u res2 pre2 post2)
= admit ()
let mk_stt_atomic_comp_equiv (g:R.env) (u:R.universe) (res inames pre1 post1 pre2 post2:R.term)
(pre_eq:RT.equiv g pre1 pre2)
(post_eq:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_atomic_comp u res inames pre1 post1)
(mk_stt_atomic_comp u res inames pre2 post2)
= admit ()
let mk_stt_ghost_comp_equiv (g:R.env) (u:R.universe) (res inames pre1 post1 pre2 post2:R.term)
(pre_eq:RT.equiv g pre1 pre2)
(post_eq:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u res inames pre1 post1)
(mk_stt_ghost_comp u res inames pre2 post2)
= admit ()
let ref_lid = mk_pulse_lib_reference_lid "ref"
let pts_to_lid = mk_pulse_lib_reference_lid "pts_to"
let full_perm_lid = ["Steel"; "FractionalPermission"; "full_perm"]
let mk_ref (a:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv ref_lid)) in
pack_ln (Tv_App t (a, Q_Explicit))
let mk_pts_to (a:R.term) (r:R.term) (perm:R.term) (v:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pts_to_lid)) in
let t = pack_ln (Tv_App t (a, Q_Implicit)) in
let t = pack_ln (Tv_App t (r, Q_Explicit)) in
let t = pack_ln (Tv_App t (perm, Q_Implicit)) in
pack_ln (Tv_App t (v, Q_Explicit))
let full_perm_tm : R.term =
let open R in
pack_ln (Tv_FVar (pack_fv full_perm_lid))
let pulse_lib_array_core = ["Pulse"; "Lib"; "Array"; "Core"]
let mk_pulse_lib_array_core_lid s = pulse_lib_array_core @ [s]
let array_lid = mk_pulse_lib_array_core_lid "array"
let array_pts_to_lid = mk_pulse_lib_array_core_lid "pts_to"
let array_length_lid = mk_pulse_lib_array_core_lid "length"
let array_is_full_lid = mk_pulse_lib_array_core_lid "is_full_array"
let mk_array (a:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv array_lid)) in
pack_ln (Tv_App t (a, Q_Explicit))
let mk_array_length (a:R.term) (arr:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv array_length_lid)) in
let t = pack_ln (Tv_App t (a, Q_Implicit)) in
pack_ln (Tv_App t (arr, Q_Explicit))
let mk_array_pts_to (a:R.term) (arr:R.term) (perm:R.term) (v:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv array_pts_to_lid)) in
let t = pack_ln (Tv_App t (a, Q_Implicit)) in
let t = pack_ln (Tv_App t (arr, Q_Explicit)) in
let t = pack_ln (Tv_App t (perm, Q_Implicit)) in
pack_ln (Tv_App t (v, Q_Explicit))
let mk_array_is_full (a:R.term) (arr:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv array_is_full_lid)) in
let t = pack_ln (Tv_App t (a, Q_Implicit)) in
pack_ln (Tv_App t (arr, Q_Explicit)) | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val mk_seq (u: R.universe) (a: R.term) : R.term | [] | Pulse.Reflection.Util.mk_seq | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | u313: FStar.Reflection.Types.universe -> a: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | {
"end_col": 36,
"end_line": 652,
"start_col": 2,
"start_line": 650
} |
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let array_length_lid = mk_pulse_lib_array_core_lid "length" | let array_length_lid = | false | null | false | mk_pulse_lib_array_core_lid "length" | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"Pulse.Reflection.Util.mk_pulse_lib_array_core_lid"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv
let mk_total t = R.C_Total t
let mk_ghost t = R.C_GTotal t
let binder_of_t_q t q = RT.binder_of_t_q t q
let binder_of_t_q_s (t:R.term) (q:R.aqualv) (s:RT.pp_name_t) = RT.mk_binder s t q
let bound_var i : R.term = RT.bound_var i
let mk_name i : R.term = R.pack_ln (R.Tv_Var (R.pack_namedv (RT.make_namedv i)))
let arrow_dom = (R.term & R.aqualv)
let mk_arrow (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q ty q) (R.pack_comp (mk_total out)))
let mk_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_total out)))
let mk_ghost_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_ghost out)))
let mk_abs ty qual t : R.term = RT.mk_abs ty qual t
let mk_abs_with_name s ty qual t : R.term = R.pack_ln (R.Tv_Abs (binder_of_t_q_s ty qual s) t)
let mk_abs_with_name_and_range s r ty qual t : R.term =
let b = (binder_of_t_q_s ty qual s) in
let b = RU.binder_set_range b r in
R.pack_ln (R.Tv_Abs b t)
let mk_erased (u:R.universe) (t:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv erased_lid) [u]) in
R.pack_ln (R.Tv_App hd (t, R.Q_Explicit))
let mk_reveal (u:R.universe) (t:R.term) (e:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv reveal_lid) [u]) in
let hd = R.pack_ln (R.Tv_App hd (t, R.Q_Implicit)) in
R.pack_ln (R.Tv_App hd (e, R.Q_Explicit))
let elim_exists_lid = mk_pulse_lib_core_lid "elim_exists"
let intro_exists_lid = mk_pulse_lib_core_lid "intro_exists"
let intro_exists_erased_lid = mk_pulse_lib_core_lid "intro_exists_erased"
let mk_exists (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_forall (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv forall_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_elim_exists (u:R.universe) (a p:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv elim_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_intro_exists (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let mk_intro_exists_erased (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_erased_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let while_lid = mk_pulse_lib_core_lid "while_loop"
let mk_while (inv cond body:R.term) : R.term =
let t = R.pack_ln (R.Tv_FVar (R.pack_fv while_lid)) in
let t = R.pack_ln (R.Tv_App t (inv, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (cond, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (body, R.Q_Explicit))
let vprop_eq_tm t1 t2 =
let open R in
let u2 =
pack_universe (Uv_Succ (pack_universe (Uv_Succ (pack_universe Uv_Zero)))) in
let t = pack_ln (Tv_UInst (pack_fv eq2_qn) [u2]) in
let t = pack_ln (Tv_App t (pack_ln (Tv_FVar (pack_fv vprop_lid)), Q_Implicit)) in
let t = pack_ln (Tv_App t (t1, Q_Explicit)) in
let t = pack_ln (Tv_App t (t2, Q_Explicit)) in
t
let emp_inames_tm : R.term = R.pack_ln (R.Tv_FVar (R.pack_fv emp_inames_lid))
let non_informative_witness_lid = mk_pulse_lib_core_lid "non_informative_witness"
let non_informative_witness_rt (u:R.universe) (a:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv non_informative_witness_lid) [u]) in
let t = pack_ln (Tv_App t (a, Q_Explicit)) in
t
let stt_vprop_equiv_fv =
R.pack_fv (mk_pulse_lib_core_lid "vprop_equiv")
let stt_vprop_equiv_tm =
R.pack_ln (R.Tv_FVar stt_vprop_equiv_fv)
let stt_vprop_equiv (t1 t2:R.term) =
let open R in
let t = pack_ln (Tv_App stt_vprop_equiv_tm (t1, Q_Explicit)) in
pack_ln (Tv_App t (t2, Q_Explicit))
let return_stt_lid = mk_pulse_lib_core_lid "return_stt"
let return_stt_noeq_lid = mk_pulse_lib_core_lid "return"
let return_stt_atomic_lid = mk_pulse_lib_core_lid "return_stt_atomic"
let return_stt_atomic_noeq_lid = mk_pulse_lib_core_lid "return_stt_atomic_noeq"
let return_stt_ghost_lid = mk_pulse_lib_core_lid "return_stt_ghost"
let return_stt_ghost_noeq_lid = mk_pulse_lib_core_lid "return_stt_ghost_noeq"
let mk_stt_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_atomic_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_atomic_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_atomic_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_atomic_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_ghost_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_ghost_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
// Wrapper.lift_stt_atomic<u> #a #pre #post e
let mk_lift_atomic_stt (u:R.universe) (a pre post e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "lift_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.lift_stt_ghost<u> #a #opened #pre #post e reveal_a
let mk_lift_ghost_atomic (u:R.universe) (a opened pre post e reveal_a:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "lift_stt_ghost" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_a, Q_Explicit))
// Wrapper.bind_stt<u1, u2> #a #b #pre1 #post1 #post2 e1 e2
let mk_bind_stt
(u1 u2:R.universe)
(ty1 ty2:R.term)
(pre1 post1: R.term)
(post2: R.term)
(t1 t2:R.term)
: R.term
= let bind_lid = mk_pulse_lib_core_lid "bind_stt" in
let head = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app head
[(ty1, R.Q_Implicit)])
[(ty2, R.Q_Implicit)])
[(pre1, R.Q_Implicit)])
[(post1, R.Q_Implicit)])
[(post2, R.Q_Implicit)])
[(t1, R.Q_Explicit)])
[(t2, R.Q_Explicit)]
// Wrapper.bind_sttg<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2
let mk_bind_ghost
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_sttg" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
pack_ln (R.Tv_App t (e2, Q_Explicit))
// Wrapper.bind_stt_ghost_atomic<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2 reveal_a
let mk_bind_ghost_atomic
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2 reveal_a:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_stt_ghost_atomic" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (e2, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_a, Q_Explicit))
// Wrapper.bind_stt_atomic_ghost<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2 reveal_b
let mk_bind_atomic_ghost
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2 reveal_b:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_stt_atomic_ghost" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (e2, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_b, Q_Explicit))
// Wrapper.frame_stt<u> #ty #pre #post frame t
let mk_frame_stt
(u:R.universe)
(ty:R.term)
(pre: R.term)
(post: R.term)
(frame: R.term)
(t:R.term)
: R.term
= let frame_lid = mk_pulse_lib_core_lid "frame_stt" in
let frame_fv = R.pack_fv frame_lid in
let frame_univ_inst u = R.pack_ln (R.Tv_UInst (R.pack_fv frame_lid) [u]) in
let head = frame_univ_inst u in
R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app head [(ty, R.Q_Implicit)])
[(pre, R.Q_Implicit)])
[(post, R.Q_Implicit)])
[(frame, R.Q_Explicit)])
[(t, R.Q_Explicit)]
// Wrapper.frame_stt_atomic<u> #a #opened #pre #post frame e
let mk_frame_stt_atomic (u:R.universe) (a opened pre post frame e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "frame_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (frame, Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.frame_stt_ghost<u> #a #opened #pre #post frame e
let mk_frame_stt_ghost (u:R.universe) (a opened pre post frame e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "frame_stt_ghost" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (frame, Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.sub_stt<u> #ty #pre1 pre2 #post1 post2 () () e
let mk_sub_stt
(u:R.universe)
(ty:R.term)
(pre1 pre2: R.term)
(post1 post2: R.term)
(t:R.term)
: R.term
= let subsumption_lid = mk_pulse_lib_core_lid "sub_stt" in
let subsumption_fv = R.pack_fv subsumption_lid in
let subsumption_univ_inst u = R.pack_ln (R.Tv_UInst subsumption_fv [u]) in
let head = subsumption_univ_inst u in
R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app head [(ty, R.Q_Implicit)])
[(pre1, R.Q_Implicit)])
[(pre2, R.Q_Explicit)])
[(post1, R.Q_Implicit)])
[(post2, R.Q_Explicit)])
[(`(), R.Q_Explicit)])
[(`(), R.Q_Explicit)])
[(t, R.Q_Explicit)]
// Wrapper.sub_stt_atomic<u> #a #opened #pre1 pre2 #post1 post2 () () e
let mk_sub_stt_atomic (u:R.universe) (a opened pre1 pre2 post1 post2 e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "sub_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.sub_stt_ghost<u> #a #opened #pre1 pre2 #post1 post2 () () e
let mk_sub_stt_ghost (u:R.universe) (a opened pre1 pre2 post1 post2 e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "sub_stt_ghost" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
let mk_par (u:R.universe) (aL aR preL postL preR postR eL eR:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "stt_par" in
let t = pack_ln (Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (Tv_App t (aL, Q_Implicit)) in
let t = pack_ln (Tv_App t (aR, Q_Implicit)) in
let t = pack_ln (Tv_App t (preL, Q_Implicit)) in
let t = pack_ln (Tv_App t (postL, Q_Implicit)) in
let t = pack_ln (Tv_App t (preR, Q_Implicit)) in
let t = pack_ln (Tv_App t (postR, Q_Implicit)) in
let t = pack_ln (Tv_App t (eL, Q_Explicit)) in
pack_ln (Tv_App t (eR, Q_Explicit))
let mk_rewrite (p q:R.term) =
let open R in
let t = pack_ln (Tv_FVar (pack_fv (mk_pulse_lib_core_lid "rewrite"))) in
let t = pack_ln (Tv_App t (p, Q_Explicit)) in
let t = pack_ln (Tv_App t (q, Q_Explicit)) in
pack_ln (Tv_App t (`(), Q_Explicit))
let mk_withlocal (ret_u:R.universe) (a init pre ret_t post body:R.term) =
let open R in
let lid = mk_pulse_lib_reference_lid "with_local" in
let t = pack_ln (Tv_UInst (R.pack_fv lid) [ret_u]) in
let t = pack_ln (Tv_App t (a, Q_Implicit)) in
let t = pack_ln (Tv_App t (init, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (Tv_App t (ret_t, Q_Implicit)) in
let t = pack_ln (Tv_App t (post, Q_Implicit)) in
pack_ln (Tv_App t (body, Q_Explicit))
///// Utils to derive equiv for common constructs /////
let mk_star_equiv (g:R.env) (t1 t2 t3 t4:R.term)
(eq1:RT.equiv g t1 t3)
(eq2:RT.equiv g t2 t4)
: RT.equiv g (mk_star t1 t2) (mk_star t3 t4) =
admit ()
let mk_stt_comp_equiv (g:R.env) (u:R.universe) (res1 pre1 post1 res2 pre2 post2:R.term)
(res_eq: RT.equiv g res1 res2)
(pre_eq:RT.equiv g pre1 pre2)
(post_eq:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_comp u res1 pre1 post1)
(mk_stt_comp u res2 pre2 post2)
= admit ()
let mk_stt_atomic_comp_equiv (g:R.env) (u:R.universe) (res inames pre1 post1 pre2 post2:R.term)
(pre_eq:RT.equiv g pre1 pre2)
(post_eq:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_atomic_comp u res inames pre1 post1)
(mk_stt_atomic_comp u res inames pre2 post2)
= admit ()
let mk_stt_ghost_comp_equiv (g:R.env) (u:R.universe) (res inames pre1 post1 pre2 post2:R.term)
(pre_eq:RT.equiv g pre1 pre2)
(post_eq:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u res inames pre1 post1)
(mk_stt_ghost_comp u res inames pre2 post2)
= admit ()
let ref_lid = mk_pulse_lib_reference_lid "ref"
let pts_to_lid = mk_pulse_lib_reference_lid "pts_to"
let full_perm_lid = ["Steel"; "FractionalPermission"; "full_perm"]
let mk_ref (a:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv ref_lid)) in
pack_ln (Tv_App t (a, Q_Explicit))
let mk_pts_to (a:R.term) (r:R.term) (perm:R.term) (v:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pts_to_lid)) in
let t = pack_ln (Tv_App t (a, Q_Implicit)) in
let t = pack_ln (Tv_App t (r, Q_Explicit)) in
let t = pack_ln (Tv_App t (perm, Q_Implicit)) in
pack_ln (Tv_App t (v, Q_Explicit))
let full_perm_tm : R.term =
let open R in
pack_ln (Tv_FVar (pack_fv full_perm_lid))
let pulse_lib_array_core = ["Pulse"; "Lib"; "Array"; "Core"]
let mk_pulse_lib_array_core_lid s = pulse_lib_array_core @ [s]
let array_lid = mk_pulse_lib_array_core_lid "array" | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val array_length_lid : Prims.list Prims.string | [] | Pulse.Reflection.Util.array_length_lid | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | Prims.list Prims.string | {
"end_col": 59,
"end_line": 621,
"start_col": 23,
"start_line": 621
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let pulse_lib_core = ["Pulse"; "Lib"; "Core"] | let pulse_lib_core = | false | null | false | ["Pulse"; "Lib"; "Core"] | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"Prims.Cons",
"Prims.string",
"Prims.Nil"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val pulse_lib_core : Prims.list Prims.string | [] | Pulse.Reflection.Util.pulse_lib_core | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | Prims.list Prims.string | {
"end_col": 45,
"end_line": 9,
"start_col": 21,
"start_line": 9
} |
|
Prims.Tot | val mk_while (inv cond body: R.term) : R.term | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let mk_while (inv cond body:R.term) : R.term =
let t = R.pack_ln (R.Tv_FVar (R.pack_fv while_lid)) in
let t = R.pack_ln (R.Tv_App t (inv, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (cond, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (body, R.Q_Explicit)) | val mk_while (inv cond body: R.term) : R.term
let mk_while (inv cond body: R.term) : R.term = | false | null | false | let t = R.pack_ln (R.Tv_FVar (R.pack_fv while_lid)) in
let t = R.pack_ln (R.Tv_App t (inv, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (cond, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (body, R.Q_Explicit)) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.Types.term",
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_App",
"FStar.Pervasives.Native.Mktuple2",
"FStar.Reflection.V2.Data.aqualv",
"FStar.Reflection.V2.Data.Q_Explicit",
"FStar.Reflection.V2.Data.Tv_FVar",
"FStar.Reflection.V2.Builtins.pack_fv",
"Pulse.Reflection.Util.while_lid"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv
let mk_total t = R.C_Total t
let mk_ghost t = R.C_GTotal t
let binder_of_t_q t q = RT.binder_of_t_q t q
let binder_of_t_q_s (t:R.term) (q:R.aqualv) (s:RT.pp_name_t) = RT.mk_binder s t q
let bound_var i : R.term = RT.bound_var i
let mk_name i : R.term = R.pack_ln (R.Tv_Var (R.pack_namedv (RT.make_namedv i)))
let arrow_dom = (R.term & R.aqualv)
let mk_arrow (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q ty q) (R.pack_comp (mk_total out)))
let mk_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_total out)))
let mk_ghost_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_ghost out)))
let mk_abs ty qual t : R.term = RT.mk_abs ty qual t
let mk_abs_with_name s ty qual t : R.term = R.pack_ln (R.Tv_Abs (binder_of_t_q_s ty qual s) t)
let mk_abs_with_name_and_range s r ty qual t : R.term =
let b = (binder_of_t_q_s ty qual s) in
let b = RU.binder_set_range b r in
R.pack_ln (R.Tv_Abs b t)
let mk_erased (u:R.universe) (t:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv erased_lid) [u]) in
R.pack_ln (R.Tv_App hd (t, R.Q_Explicit))
let mk_reveal (u:R.universe) (t:R.term) (e:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv reveal_lid) [u]) in
let hd = R.pack_ln (R.Tv_App hd (t, R.Q_Implicit)) in
R.pack_ln (R.Tv_App hd (e, R.Q_Explicit))
let elim_exists_lid = mk_pulse_lib_core_lid "elim_exists"
let intro_exists_lid = mk_pulse_lib_core_lid "intro_exists"
let intro_exists_erased_lid = mk_pulse_lib_core_lid "intro_exists_erased"
let mk_exists (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_forall (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv forall_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_elim_exists (u:R.universe) (a p:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv elim_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_intro_exists (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let mk_intro_exists_erased (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_erased_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let while_lid = mk_pulse_lib_core_lid "while_loop" | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val mk_while (inv cond body: R.term) : R.term | [] | Pulse.Reflection.Util.mk_while | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} |
inv: FStar.Reflection.Types.term ->
cond: FStar.Reflection.Types.term ->
body: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | {
"end_col": 45,
"end_line": 246,
"start_col": 46,
"start_line": 242
} |
Prims.Tot | val mk_array (a: R.term) : R.term | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let mk_array (a:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv array_lid)) in
pack_ln (Tv_App t (a, Q_Explicit)) | val mk_array (a: R.term) : R.term
let mk_array (a: R.term) : R.term = | false | null | false | let open R in
let t = pack_ln (Tv_FVar (pack_fv array_lid)) in
pack_ln (Tv_App t (a, Q_Explicit)) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.Types.term",
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_App",
"FStar.Pervasives.Native.Mktuple2",
"FStar.Reflection.V2.Data.aqualv",
"FStar.Reflection.V2.Data.Q_Explicit",
"FStar.Reflection.V2.Data.Tv_FVar",
"FStar.Reflection.V2.Builtins.pack_fv",
"Pulse.Reflection.Util.array_lid"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv
let mk_total t = R.C_Total t
let mk_ghost t = R.C_GTotal t
let binder_of_t_q t q = RT.binder_of_t_q t q
let binder_of_t_q_s (t:R.term) (q:R.aqualv) (s:RT.pp_name_t) = RT.mk_binder s t q
let bound_var i : R.term = RT.bound_var i
let mk_name i : R.term = R.pack_ln (R.Tv_Var (R.pack_namedv (RT.make_namedv i)))
let arrow_dom = (R.term & R.aqualv)
let mk_arrow (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q ty q) (R.pack_comp (mk_total out)))
let mk_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_total out)))
let mk_ghost_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_ghost out)))
let mk_abs ty qual t : R.term = RT.mk_abs ty qual t
let mk_abs_with_name s ty qual t : R.term = R.pack_ln (R.Tv_Abs (binder_of_t_q_s ty qual s) t)
let mk_abs_with_name_and_range s r ty qual t : R.term =
let b = (binder_of_t_q_s ty qual s) in
let b = RU.binder_set_range b r in
R.pack_ln (R.Tv_Abs b t)
let mk_erased (u:R.universe) (t:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv erased_lid) [u]) in
R.pack_ln (R.Tv_App hd (t, R.Q_Explicit))
let mk_reveal (u:R.universe) (t:R.term) (e:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv reveal_lid) [u]) in
let hd = R.pack_ln (R.Tv_App hd (t, R.Q_Implicit)) in
R.pack_ln (R.Tv_App hd (e, R.Q_Explicit))
let elim_exists_lid = mk_pulse_lib_core_lid "elim_exists"
let intro_exists_lid = mk_pulse_lib_core_lid "intro_exists"
let intro_exists_erased_lid = mk_pulse_lib_core_lid "intro_exists_erased"
let mk_exists (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_forall (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv forall_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_elim_exists (u:R.universe) (a p:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv elim_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_intro_exists (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let mk_intro_exists_erased (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_erased_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let while_lid = mk_pulse_lib_core_lid "while_loop"
let mk_while (inv cond body:R.term) : R.term =
let t = R.pack_ln (R.Tv_FVar (R.pack_fv while_lid)) in
let t = R.pack_ln (R.Tv_App t (inv, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (cond, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (body, R.Q_Explicit))
let vprop_eq_tm t1 t2 =
let open R in
let u2 =
pack_universe (Uv_Succ (pack_universe (Uv_Succ (pack_universe Uv_Zero)))) in
let t = pack_ln (Tv_UInst (pack_fv eq2_qn) [u2]) in
let t = pack_ln (Tv_App t (pack_ln (Tv_FVar (pack_fv vprop_lid)), Q_Implicit)) in
let t = pack_ln (Tv_App t (t1, Q_Explicit)) in
let t = pack_ln (Tv_App t (t2, Q_Explicit)) in
t
let emp_inames_tm : R.term = R.pack_ln (R.Tv_FVar (R.pack_fv emp_inames_lid))
let non_informative_witness_lid = mk_pulse_lib_core_lid "non_informative_witness"
let non_informative_witness_rt (u:R.universe) (a:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv non_informative_witness_lid) [u]) in
let t = pack_ln (Tv_App t (a, Q_Explicit)) in
t
let stt_vprop_equiv_fv =
R.pack_fv (mk_pulse_lib_core_lid "vprop_equiv")
let stt_vprop_equiv_tm =
R.pack_ln (R.Tv_FVar stt_vprop_equiv_fv)
let stt_vprop_equiv (t1 t2:R.term) =
let open R in
let t = pack_ln (Tv_App stt_vprop_equiv_tm (t1, Q_Explicit)) in
pack_ln (Tv_App t (t2, Q_Explicit))
let return_stt_lid = mk_pulse_lib_core_lid "return_stt"
let return_stt_noeq_lid = mk_pulse_lib_core_lid "return"
let return_stt_atomic_lid = mk_pulse_lib_core_lid "return_stt_atomic"
let return_stt_atomic_noeq_lid = mk_pulse_lib_core_lid "return_stt_atomic_noeq"
let return_stt_ghost_lid = mk_pulse_lib_core_lid "return_stt_ghost"
let return_stt_ghost_noeq_lid = mk_pulse_lib_core_lid "return_stt_ghost_noeq"
let mk_stt_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_atomic_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_atomic_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_atomic_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_atomic_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_ghost_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_ghost_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
// Wrapper.lift_stt_atomic<u> #a #pre #post e
let mk_lift_atomic_stt (u:R.universe) (a pre post e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "lift_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.lift_stt_ghost<u> #a #opened #pre #post e reveal_a
let mk_lift_ghost_atomic (u:R.universe) (a opened pre post e reveal_a:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "lift_stt_ghost" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_a, Q_Explicit))
// Wrapper.bind_stt<u1, u2> #a #b #pre1 #post1 #post2 e1 e2
let mk_bind_stt
(u1 u2:R.universe)
(ty1 ty2:R.term)
(pre1 post1: R.term)
(post2: R.term)
(t1 t2:R.term)
: R.term
= let bind_lid = mk_pulse_lib_core_lid "bind_stt" in
let head = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app head
[(ty1, R.Q_Implicit)])
[(ty2, R.Q_Implicit)])
[(pre1, R.Q_Implicit)])
[(post1, R.Q_Implicit)])
[(post2, R.Q_Implicit)])
[(t1, R.Q_Explicit)])
[(t2, R.Q_Explicit)]
// Wrapper.bind_sttg<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2
let mk_bind_ghost
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_sttg" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
pack_ln (R.Tv_App t (e2, Q_Explicit))
// Wrapper.bind_stt_ghost_atomic<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2 reveal_a
let mk_bind_ghost_atomic
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2 reveal_a:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_stt_ghost_atomic" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (e2, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_a, Q_Explicit))
// Wrapper.bind_stt_atomic_ghost<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2 reveal_b
let mk_bind_atomic_ghost
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2 reveal_b:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_stt_atomic_ghost" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (e2, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_b, Q_Explicit))
// Wrapper.frame_stt<u> #ty #pre #post frame t
let mk_frame_stt
(u:R.universe)
(ty:R.term)
(pre: R.term)
(post: R.term)
(frame: R.term)
(t:R.term)
: R.term
= let frame_lid = mk_pulse_lib_core_lid "frame_stt" in
let frame_fv = R.pack_fv frame_lid in
let frame_univ_inst u = R.pack_ln (R.Tv_UInst (R.pack_fv frame_lid) [u]) in
let head = frame_univ_inst u in
R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app head [(ty, R.Q_Implicit)])
[(pre, R.Q_Implicit)])
[(post, R.Q_Implicit)])
[(frame, R.Q_Explicit)])
[(t, R.Q_Explicit)]
// Wrapper.frame_stt_atomic<u> #a #opened #pre #post frame e
let mk_frame_stt_atomic (u:R.universe) (a opened pre post frame e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "frame_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (frame, Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.frame_stt_ghost<u> #a #opened #pre #post frame e
let mk_frame_stt_ghost (u:R.universe) (a opened pre post frame e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "frame_stt_ghost" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (frame, Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.sub_stt<u> #ty #pre1 pre2 #post1 post2 () () e
let mk_sub_stt
(u:R.universe)
(ty:R.term)
(pre1 pre2: R.term)
(post1 post2: R.term)
(t:R.term)
: R.term
= let subsumption_lid = mk_pulse_lib_core_lid "sub_stt" in
let subsumption_fv = R.pack_fv subsumption_lid in
let subsumption_univ_inst u = R.pack_ln (R.Tv_UInst subsumption_fv [u]) in
let head = subsumption_univ_inst u in
R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app head [(ty, R.Q_Implicit)])
[(pre1, R.Q_Implicit)])
[(pre2, R.Q_Explicit)])
[(post1, R.Q_Implicit)])
[(post2, R.Q_Explicit)])
[(`(), R.Q_Explicit)])
[(`(), R.Q_Explicit)])
[(t, R.Q_Explicit)]
// Wrapper.sub_stt_atomic<u> #a #opened #pre1 pre2 #post1 post2 () () e
let mk_sub_stt_atomic (u:R.universe) (a opened pre1 pre2 post1 post2 e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "sub_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.sub_stt_ghost<u> #a #opened #pre1 pre2 #post1 post2 () () e
let mk_sub_stt_ghost (u:R.universe) (a opened pre1 pre2 post1 post2 e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "sub_stt_ghost" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
let mk_par (u:R.universe) (aL aR preL postL preR postR eL eR:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "stt_par" in
let t = pack_ln (Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (Tv_App t (aL, Q_Implicit)) in
let t = pack_ln (Tv_App t (aR, Q_Implicit)) in
let t = pack_ln (Tv_App t (preL, Q_Implicit)) in
let t = pack_ln (Tv_App t (postL, Q_Implicit)) in
let t = pack_ln (Tv_App t (preR, Q_Implicit)) in
let t = pack_ln (Tv_App t (postR, Q_Implicit)) in
let t = pack_ln (Tv_App t (eL, Q_Explicit)) in
pack_ln (Tv_App t (eR, Q_Explicit))
let mk_rewrite (p q:R.term) =
let open R in
let t = pack_ln (Tv_FVar (pack_fv (mk_pulse_lib_core_lid "rewrite"))) in
let t = pack_ln (Tv_App t (p, Q_Explicit)) in
let t = pack_ln (Tv_App t (q, Q_Explicit)) in
pack_ln (Tv_App t (`(), Q_Explicit))
let mk_withlocal (ret_u:R.universe) (a init pre ret_t post body:R.term) =
let open R in
let lid = mk_pulse_lib_reference_lid "with_local" in
let t = pack_ln (Tv_UInst (R.pack_fv lid) [ret_u]) in
let t = pack_ln (Tv_App t (a, Q_Implicit)) in
let t = pack_ln (Tv_App t (init, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (Tv_App t (ret_t, Q_Implicit)) in
let t = pack_ln (Tv_App t (post, Q_Implicit)) in
pack_ln (Tv_App t (body, Q_Explicit))
///// Utils to derive equiv for common constructs /////
let mk_star_equiv (g:R.env) (t1 t2 t3 t4:R.term)
(eq1:RT.equiv g t1 t3)
(eq2:RT.equiv g t2 t4)
: RT.equiv g (mk_star t1 t2) (mk_star t3 t4) =
admit ()
let mk_stt_comp_equiv (g:R.env) (u:R.universe) (res1 pre1 post1 res2 pre2 post2:R.term)
(res_eq: RT.equiv g res1 res2)
(pre_eq:RT.equiv g pre1 pre2)
(post_eq:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_comp u res1 pre1 post1)
(mk_stt_comp u res2 pre2 post2)
= admit ()
let mk_stt_atomic_comp_equiv (g:R.env) (u:R.universe) (res inames pre1 post1 pre2 post2:R.term)
(pre_eq:RT.equiv g pre1 pre2)
(post_eq:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_atomic_comp u res inames pre1 post1)
(mk_stt_atomic_comp u res inames pre2 post2)
= admit ()
let mk_stt_ghost_comp_equiv (g:R.env) (u:R.universe) (res inames pre1 post1 pre2 post2:R.term)
(pre_eq:RT.equiv g pre1 pre2)
(post_eq:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u res inames pre1 post1)
(mk_stt_ghost_comp u res inames pre2 post2)
= admit ()
let ref_lid = mk_pulse_lib_reference_lid "ref"
let pts_to_lid = mk_pulse_lib_reference_lid "pts_to"
let full_perm_lid = ["Steel"; "FractionalPermission"; "full_perm"]
let mk_ref (a:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv ref_lid)) in
pack_ln (Tv_App t (a, Q_Explicit))
let mk_pts_to (a:R.term) (r:R.term) (perm:R.term) (v:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pts_to_lid)) in
let t = pack_ln (Tv_App t (a, Q_Implicit)) in
let t = pack_ln (Tv_App t (r, Q_Explicit)) in
let t = pack_ln (Tv_App t (perm, Q_Implicit)) in
pack_ln (Tv_App t (v, Q_Explicit))
let full_perm_tm : R.term =
let open R in
pack_ln (Tv_FVar (pack_fv full_perm_lid))
let pulse_lib_array_core = ["Pulse"; "Lib"; "Array"; "Core"]
let mk_pulse_lib_array_core_lid s = pulse_lib_array_core @ [s]
let array_lid = mk_pulse_lib_array_core_lid "array"
let array_pts_to_lid = mk_pulse_lib_array_core_lid "pts_to"
let array_length_lid = mk_pulse_lib_array_core_lid "length"
let array_is_full_lid = mk_pulse_lib_array_core_lid "is_full_array" | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val mk_array (a: R.term) : R.term | [] | Pulse.Reflection.Util.mk_array | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | a: FStar.Reflection.Types.term -> FStar.Reflection.Types.term | {
"end_col": 36,
"end_line": 627,
"start_col": 2,
"start_line": 625
} |
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let while_lid = mk_pulse_lib_core_lid "while_loop" | let while_lid = | false | null | false | mk_pulse_lib_core_lid "while_loop" | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"Pulse.Reflection.Util.mk_pulse_lib_core_lid"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv
let mk_total t = R.C_Total t
let mk_ghost t = R.C_GTotal t
let binder_of_t_q t q = RT.binder_of_t_q t q
let binder_of_t_q_s (t:R.term) (q:R.aqualv) (s:RT.pp_name_t) = RT.mk_binder s t q
let bound_var i : R.term = RT.bound_var i
let mk_name i : R.term = R.pack_ln (R.Tv_Var (R.pack_namedv (RT.make_namedv i)))
let arrow_dom = (R.term & R.aqualv)
let mk_arrow (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q ty q) (R.pack_comp (mk_total out)))
let mk_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_total out)))
let mk_ghost_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_ghost out)))
let mk_abs ty qual t : R.term = RT.mk_abs ty qual t
let mk_abs_with_name s ty qual t : R.term = R.pack_ln (R.Tv_Abs (binder_of_t_q_s ty qual s) t)
let mk_abs_with_name_and_range s r ty qual t : R.term =
let b = (binder_of_t_q_s ty qual s) in
let b = RU.binder_set_range b r in
R.pack_ln (R.Tv_Abs b t)
let mk_erased (u:R.universe) (t:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv erased_lid) [u]) in
R.pack_ln (R.Tv_App hd (t, R.Q_Explicit))
let mk_reveal (u:R.universe) (t:R.term) (e:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv reveal_lid) [u]) in
let hd = R.pack_ln (R.Tv_App hd (t, R.Q_Implicit)) in
R.pack_ln (R.Tv_App hd (e, R.Q_Explicit))
let elim_exists_lid = mk_pulse_lib_core_lid "elim_exists"
let intro_exists_lid = mk_pulse_lib_core_lid "intro_exists"
let intro_exists_erased_lid = mk_pulse_lib_core_lid "intro_exists_erased"
let mk_exists (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_forall (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv forall_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_elim_exists (u:R.universe) (a p:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv elim_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_intro_exists (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let mk_intro_exists_erased (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_erased_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit)) | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val while_lid : Prims.list Prims.string | [] | Pulse.Reflection.Util.while_lid | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | Prims.list Prims.string | {
"end_col": 50,
"end_line": 240,
"start_col": 16,
"start_line": 240
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let erased_lid = ["FStar"; "Ghost"; "erased"] | let erased_lid = | false | null | false | ["FStar"; "Ghost"; "erased"] | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"Prims.Cons",
"Prims.string",
"Prims.Nil"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val erased_lid : Prims.list Prims.string | [] | Pulse.Reflection.Util.erased_lid | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | Prims.list Prims.string | {
"end_col": 45,
"end_line": 16,
"start_col": 17,
"start_line": 16
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let mk_sub_stt_ghost (u:R.universe) (a opened pre1 pre2 post1 post2 e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "sub_stt_ghost" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit)) | let mk_sub_stt_ghost (u: R.universe) (a opened pre1 pre2 post1 post2 e: R.term) = | false | null | false | let open R in
let lid = mk_pulse_lib_core_lid "sub_stt_ghost" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t ((`()), Q_Explicit)) in
let t = pack_ln (R.Tv_App t ((`()), Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit)) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.Types.universe",
"FStar.Reflection.Types.term",
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_App",
"FStar.Pervasives.Native.Mktuple2",
"FStar.Reflection.V2.Data.aqualv",
"FStar.Reflection.V2.Data.Q_Explicit",
"FStar.Reflection.V2.Data.Q_Implicit",
"FStar.Reflection.V2.Data.Tv_UInst",
"FStar.Reflection.V2.Builtins.pack_fv",
"Prims.Cons",
"Prims.Nil",
"Prims.list",
"Prims.string",
"Pulse.Reflection.Util.mk_pulse_lib_core_lid"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv
let mk_total t = R.C_Total t
let mk_ghost t = R.C_GTotal t
let binder_of_t_q t q = RT.binder_of_t_q t q
let binder_of_t_q_s (t:R.term) (q:R.aqualv) (s:RT.pp_name_t) = RT.mk_binder s t q
let bound_var i : R.term = RT.bound_var i
let mk_name i : R.term = R.pack_ln (R.Tv_Var (R.pack_namedv (RT.make_namedv i)))
let arrow_dom = (R.term & R.aqualv)
let mk_arrow (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q ty q) (R.pack_comp (mk_total out)))
let mk_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_total out)))
let mk_ghost_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_ghost out)))
let mk_abs ty qual t : R.term = RT.mk_abs ty qual t
let mk_abs_with_name s ty qual t : R.term = R.pack_ln (R.Tv_Abs (binder_of_t_q_s ty qual s) t)
let mk_abs_with_name_and_range s r ty qual t : R.term =
let b = (binder_of_t_q_s ty qual s) in
let b = RU.binder_set_range b r in
R.pack_ln (R.Tv_Abs b t)
let mk_erased (u:R.universe) (t:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv erased_lid) [u]) in
R.pack_ln (R.Tv_App hd (t, R.Q_Explicit))
let mk_reveal (u:R.universe) (t:R.term) (e:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv reveal_lid) [u]) in
let hd = R.pack_ln (R.Tv_App hd (t, R.Q_Implicit)) in
R.pack_ln (R.Tv_App hd (e, R.Q_Explicit))
let elim_exists_lid = mk_pulse_lib_core_lid "elim_exists"
let intro_exists_lid = mk_pulse_lib_core_lid "intro_exists"
let intro_exists_erased_lid = mk_pulse_lib_core_lid "intro_exists_erased"
let mk_exists (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_forall (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv forall_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_elim_exists (u:R.universe) (a p:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv elim_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_intro_exists (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let mk_intro_exists_erased (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_erased_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let while_lid = mk_pulse_lib_core_lid "while_loop"
let mk_while (inv cond body:R.term) : R.term =
let t = R.pack_ln (R.Tv_FVar (R.pack_fv while_lid)) in
let t = R.pack_ln (R.Tv_App t (inv, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (cond, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (body, R.Q_Explicit))
let vprop_eq_tm t1 t2 =
let open R in
let u2 =
pack_universe (Uv_Succ (pack_universe (Uv_Succ (pack_universe Uv_Zero)))) in
let t = pack_ln (Tv_UInst (pack_fv eq2_qn) [u2]) in
let t = pack_ln (Tv_App t (pack_ln (Tv_FVar (pack_fv vprop_lid)), Q_Implicit)) in
let t = pack_ln (Tv_App t (t1, Q_Explicit)) in
let t = pack_ln (Tv_App t (t2, Q_Explicit)) in
t
let emp_inames_tm : R.term = R.pack_ln (R.Tv_FVar (R.pack_fv emp_inames_lid))
let non_informative_witness_lid = mk_pulse_lib_core_lid "non_informative_witness"
let non_informative_witness_rt (u:R.universe) (a:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv non_informative_witness_lid) [u]) in
let t = pack_ln (Tv_App t (a, Q_Explicit)) in
t
let stt_vprop_equiv_fv =
R.pack_fv (mk_pulse_lib_core_lid "vprop_equiv")
let stt_vprop_equiv_tm =
R.pack_ln (R.Tv_FVar stt_vprop_equiv_fv)
let stt_vprop_equiv (t1 t2:R.term) =
let open R in
let t = pack_ln (Tv_App stt_vprop_equiv_tm (t1, Q_Explicit)) in
pack_ln (Tv_App t (t2, Q_Explicit))
let return_stt_lid = mk_pulse_lib_core_lid "return_stt"
let return_stt_noeq_lid = mk_pulse_lib_core_lid "return"
let return_stt_atomic_lid = mk_pulse_lib_core_lid "return_stt_atomic"
let return_stt_atomic_noeq_lid = mk_pulse_lib_core_lid "return_stt_atomic_noeq"
let return_stt_ghost_lid = mk_pulse_lib_core_lid "return_stt_ghost"
let return_stt_ghost_noeq_lid = mk_pulse_lib_core_lid "return_stt_ghost_noeq"
let mk_stt_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_atomic_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_atomic_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_atomic_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_atomic_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_ghost_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_ghost_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
// Wrapper.lift_stt_atomic<u> #a #pre #post e
let mk_lift_atomic_stt (u:R.universe) (a pre post e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "lift_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.lift_stt_ghost<u> #a #opened #pre #post e reveal_a
let mk_lift_ghost_atomic (u:R.universe) (a opened pre post e reveal_a:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "lift_stt_ghost" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_a, Q_Explicit))
// Wrapper.bind_stt<u1, u2> #a #b #pre1 #post1 #post2 e1 e2
let mk_bind_stt
(u1 u2:R.universe)
(ty1 ty2:R.term)
(pre1 post1: R.term)
(post2: R.term)
(t1 t2:R.term)
: R.term
= let bind_lid = mk_pulse_lib_core_lid "bind_stt" in
let head = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app head
[(ty1, R.Q_Implicit)])
[(ty2, R.Q_Implicit)])
[(pre1, R.Q_Implicit)])
[(post1, R.Q_Implicit)])
[(post2, R.Q_Implicit)])
[(t1, R.Q_Explicit)])
[(t2, R.Q_Explicit)]
// Wrapper.bind_sttg<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2
let mk_bind_ghost
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_sttg" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
pack_ln (R.Tv_App t (e2, Q_Explicit))
// Wrapper.bind_stt_ghost_atomic<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2 reveal_a
let mk_bind_ghost_atomic
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2 reveal_a:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_stt_ghost_atomic" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (e2, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_a, Q_Explicit))
// Wrapper.bind_stt_atomic_ghost<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2 reveal_b
let mk_bind_atomic_ghost
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2 reveal_b:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_stt_atomic_ghost" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (e2, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_b, Q_Explicit))
// Wrapper.frame_stt<u> #ty #pre #post frame t
let mk_frame_stt
(u:R.universe)
(ty:R.term)
(pre: R.term)
(post: R.term)
(frame: R.term)
(t:R.term)
: R.term
= let frame_lid = mk_pulse_lib_core_lid "frame_stt" in
let frame_fv = R.pack_fv frame_lid in
let frame_univ_inst u = R.pack_ln (R.Tv_UInst (R.pack_fv frame_lid) [u]) in
let head = frame_univ_inst u in
R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app head [(ty, R.Q_Implicit)])
[(pre, R.Q_Implicit)])
[(post, R.Q_Implicit)])
[(frame, R.Q_Explicit)])
[(t, R.Q_Explicit)]
// Wrapper.frame_stt_atomic<u> #a #opened #pre #post frame e
let mk_frame_stt_atomic (u:R.universe) (a opened pre post frame e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "frame_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (frame, Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.frame_stt_ghost<u> #a #opened #pre #post frame e
let mk_frame_stt_ghost (u:R.universe) (a opened pre post frame e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "frame_stt_ghost" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (frame, Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.sub_stt<u> #ty #pre1 pre2 #post1 post2 () () e
let mk_sub_stt
(u:R.universe)
(ty:R.term)
(pre1 pre2: R.term)
(post1 post2: R.term)
(t:R.term)
: R.term
= let subsumption_lid = mk_pulse_lib_core_lid "sub_stt" in
let subsumption_fv = R.pack_fv subsumption_lid in
let subsumption_univ_inst u = R.pack_ln (R.Tv_UInst subsumption_fv [u]) in
let head = subsumption_univ_inst u in
R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app head [(ty, R.Q_Implicit)])
[(pre1, R.Q_Implicit)])
[(pre2, R.Q_Explicit)])
[(post1, R.Q_Implicit)])
[(post2, R.Q_Explicit)])
[(`(), R.Q_Explicit)])
[(`(), R.Q_Explicit)])
[(t, R.Q_Explicit)]
// Wrapper.sub_stt_atomic<u> #a #opened #pre1 pre2 #post1 post2 () () e
let mk_sub_stt_atomic (u:R.universe) (a opened pre1 pre2 post1 post2 e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "sub_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.sub_stt_ghost<u> #a #opened #pre1 pre2 #post1 post2 () () e | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val mk_sub_stt_ghost : u240: FStar.Reflection.Types.universe ->
a: FStar.Reflection.Types.term ->
opened: FStar.Reflection.Types.term ->
pre1: FStar.Reflection.Types.term ->
pre2: FStar.Reflection.Types.term ->
post1: FStar.Reflection.Types.term ->
post2: FStar.Reflection.Types.term ->
e: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | [] | Pulse.Reflection.Util.mk_sub_stt_ghost | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} |
u240: FStar.Reflection.Types.universe ->
a: FStar.Reflection.Types.term ->
opened: FStar.Reflection.Types.term ->
pre1: FStar.Reflection.Types.term ->
pre2: FStar.Reflection.Types.term ->
post1: FStar.Reflection.Types.term ->
post2: FStar.Reflection.Types.term ->
e: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | {
"end_col": 38,
"end_line": 532,
"start_col": 2,
"start_line": 521
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit)) | let mk_stt_atomic_comp (u: R.universe) (a inames pre post: R.term) = | false | null | false | let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit)) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.Types.universe",
"FStar.Reflection.Types.term",
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_App",
"FStar.Pervasives.Native.Mktuple2",
"FStar.Reflection.V2.Data.aqualv",
"FStar.Reflection.V2.Data.Q_Explicit",
"FStar.Reflection.V2.Data.Tv_UInst",
"Pulse.Reflection.Util.stt_atomic_fv",
"Prims.Cons",
"Prims.Nil"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val mk_stt_atomic_comp : u47: FStar.Reflection.Types.universe ->
a: FStar.Reflection.Types.term ->
inames: FStar.Reflection.Types.term ->
pre: FStar.Reflection.Types.term ->
post: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | [] | Pulse.Reflection.Util.mk_stt_atomic_comp | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} |
u47: FStar.Reflection.Types.universe ->
a: FStar.Reflection.Types.term ->
inames: FStar.Reflection.Types.term ->
pre: FStar.Reflection.Types.term ->
post: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | {
"end_col": 45,
"end_line": 150,
"start_col": 66,
"start_line": 145
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let ref_lid = mk_pulse_lib_reference_lid "ref" | let ref_lid = | false | null | false | mk_pulse_lib_reference_lid "ref" | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"Pulse.Reflection.Util.mk_pulse_lib_reference_lid"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv
let mk_total t = R.C_Total t
let mk_ghost t = R.C_GTotal t
let binder_of_t_q t q = RT.binder_of_t_q t q
let binder_of_t_q_s (t:R.term) (q:R.aqualv) (s:RT.pp_name_t) = RT.mk_binder s t q
let bound_var i : R.term = RT.bound_var i
let mk_name i : R.term = R.pack_ln (R.Tv_Var (R.pack_namedv (RT.make_namedv i)))
let arrow_dom = (R.term & R.aqualv)
let mk_arrow (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q ty q) (R.pack_comp (mk_total out)))
let mk_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_total out)))
let mk_ghost_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_ghost out)))
let mk_abs ty qual t : R.term = RT.mk_abs ty qual t
let mk_abs_with_name s ty qual t : R.term = R.pack_ln (R.Tv_Abs (binder_of_t_q_s ty qual s) t)
let mk_abs_with_name_and_range s r ty qual t : R.term =
let b = (binder_of_t_q_s ty qual s) in
let b = RU.binder_set_range b r in
R.pack_ln (R.Tv_Abs b t)
let mk_erased (u:R.universe) (t:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv erased_lid) [u]) in
R.pack_ln (R.Tv_App hd (t, R.Q_Explicit))
let mk_reveal (u:R.universe) (t:R.term) (e:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv reveal_lid) [u]) in
let hd = R.pack_ln (R.Tv_App hd (t, R.Q_Implicit)) in
R.pack_ln (R.Tv_App hd (e, R.Q_Explicit))
let elim_exists_lid = mk_pulse_lib_core_lid "elim_exists"
let intro_exists_lid = mk_pulse_lib_core_lid "intro_exists"
let intro_exists_erased_lid = mk_pulse_lib_core_lid "intro_exists_erased"
let mk_exists (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_forall (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv forall_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_elim_exists (u:R.universe) (a p:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv elim_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_intro_exists (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let mk_intro_exists_erased (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_erased_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let while_lid = mk_pulse_lib_core_lid "while_loop"
let mk_while (inv cond body:R.term) : R.term =
let t = R.pack_ln (R.Tv_FVar (R.pack_fv while_lid)) in
let t = R.pack_ln (R.Tv_App t (inv, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (cond, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (body, R.Q_Explicit))
let vprop_eq_tm t1 t2 =
let open R in
let u2 =
pack_universe (Uv_Succ (pack_universe (Uv_Succ (pack_universe Uv_Zero)))) in
let t = pack_ln (Tv_UInst (pack_fv eq2_qn) [u2]) in
let t = pack_ln (Tv_App t (pack_ln (Tv_FVar (pack_fv vprop_lid)), Q_Implicit)) in
let t = pack_ln (Tv_App t (t1, Q_Explicit)) in
let t = pack_ln (Tv_App t (t2, Q_Explicit)) in
t
let emp_inames_tm : R.term = R.pack_ln (R.Tv_FVar (R.pack_fv emp_inames_lid))
let non_informative_witness_lid = mk_pulse_lib_core_lid "non_informative_witness"
let non_informative_witness_rt (u:R.universe) (a:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv non_informative_witness_lid) [u]) in
let t = pack_ln (Tv_App t (a, Q_Explicit)) in
t
let stt_vprop_equiv_fv =
R.pack_fv (mk_pulse_lib_core_lid "vprop_equiv")
let stt_vprop_equiv_tm =
R.pack_ln (R.Tv_FVar stt_vprop_equiv_fv)
let stt_vprop_equiv (t1 t2:R.term) =
let open R in
let t = pack_ln (Tv_App stt_vprop_equiv_tm (t1, Q_Explicit)) in
pack_ln (Tv_App t (t2, Q_Explicit))
let return_stt_lid = mk_pulse_lib_core_lid "return_stt"
let return_stt_noeq_lid = mk_pulse_lib_core_lid "return"
let return_stt_atomic_lid = mk_pulse_lib_core_lid "return_stt_atomic"
let return_stt_atomic_noeq_lid = mk_pulse_lib_core_lid "return_stt_atomic_noeq"
let return_stt_ghost_lid = mk_pulse_lib_core_lid "return_stt_ghost"
let return_stt_ghost_noeq_lid = mk_pulse_lib_core_lid "return_stt_ghost_noeq"
let mk_stt_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_atomic_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_atomic_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_atomic_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_atomic_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_ghost_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_ghost_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
// Wrapper.lift_stt_atomic<u> #a #pre #post e
let mk_lift_atomic_stt (u:R.universe) (a pre post e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "lift_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.lift_stt_ghost<u> #a #opened #pre #post e reveal_a
let mk_lift_ghost_atomic (u:R.universe) (a opened pre post e reveal_a:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "lift_stt_ghost" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_a, Q_Explicit))
// Wrapper.bind_stt<u1, u2> #a #b #pre1 #post1 #post2 e1 e2
let mk_bind_stt
(u1 u2:R.universe)
(ty1 ty2:R.term)
(pre1 post1: R.term)
(post2: R.term)
(t1 t2:R.term)
: R.term
= let bind_lid = mk_pulse_lib_core_lid "bind_stt" in
let head = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app head
[(ty1, R.Q_Implicit)])
[(ty2, R.Q_Implicit)])
[(pre1, R.Q_Implicit)])
[(post1, R.Q_Implicit)])
[(post2, R.Q_Implicit)])
[(t1, R.Q_Explicit)])
[(t2, R.Q_Explicit)]
// Wrapper.bind_sttg<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2
let mk_bind_ghost
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_sttg" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
pack_ln (R.Tv_App t (e2, Q_Explicit))
// Wrapper.bind_stt_ghost_atomic<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2 reveal_a
let mk_bind_ghost_atomic
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2 reveal_a:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_stt_ghost_atomic" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (e2, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_a, Q_Explicit))
// Wrapper.bind_stt_atomic_ghost<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2 reveal_b
let mk_bind_atomic_ghost
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2 reveal_b:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_stt_atomic_ghost" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (e2, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_b, Q_Explicit))
// Wrapper.frame_stt<u> #ty #pre #post frame t
let mk_frame_stt
(u:R.universe)
(ty:R.term)
(pre: R.term)
(post: R.term)
(frame: R.term)
(t:R.term)
: R.term
= let frame_lid = mk_pulse_lib_core_lid "frame_stt" in
let frame_fv = R.pack_fv frame_lid in
let frame_univ_inst u = R.pack_ln (R.Tv_UInst (R.pack_fv frame_lid) [u]) in
let head = frame_univ_inst u in
R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app head [(ty, R.Q_Implicit)])
[(pre, R.Q_Implicit)])
[(post, R.Q_Implicit)])
[(frame, R.Q_Explicit)])
[(t, R.Q_Explicit)]
// Wrapper.frame_stt_atomic<u> #a #opened #pre #post frame e
let mk_frame_stt_atomic (u:R.universe) (a opened pre post frame e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "frame_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (frame, Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.frame_stt_ghost<u> #a #opened #pre #post frame e
let mk_frame_stt_ghost (u:R.universe) (a opened pre post frame e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "frame_stt_ghost" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (frame, Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.sub_stt<u> #ty #pre1 pre2 #post1 post2 () () e
let mk_sub_stt
(u:R.universe)
(ty:R.term)
(pre1 pre2: R.term)
(post1 post2: R.term)
(t:R.term)
: R.term
= let subsumption_lid = mk_pulse_lib_core_lid "sub_stt" in
let subsumption_fv = R.pack_fv subsumption_lid in
let subsumption_univ_inst u = R.pack_ln (R.Tv_UInst subsumption_fv [u]) in
let head = subsumption_univ_inst u in
R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app head [(ty, R.Q_Implicit)])
[(pre1, R.Q_Implicit)])
[(pre2, R.Q_Explicit)])
[(post1, R.Q_Implicit)])
[(post2, R.Q_Explicit)])
[(`(), R.Q_Explicit)])
[(`(), R.Q_Explicit)])
[(t, R.Q_Explicit)]
// Wrapper.sub_stt_atomic<u> #a #opened #pre1 pre2 #post1 post2 () () e
let mk_sub_stt_atomic (u:R.universe) (a opened pre1 pre2 post1 post2 e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "sub_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.sub_stt_ghost<u> #a #opened #pre1 pre2 #post1 post2 () () e
let mk_sub_stt_ghost (u:R.universe) (a opened pre1 pre2 post1 post2 e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "sub_stt_ghost" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
let mk_par (u:R.universe) (aL aR preL postL preR postR eL eR:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "stt_par" in
let t = pack_ln (Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (Tv_App t (aL, Q_Implicit)) in
let t = pack_ln (Tv_App t (aR, Q_Implicit)) in
let t = pack_ln (Tv_App t (preL, Q_Implicit)) in
let t = pack_ln (Tv_App t (postL, Q_Implicit)) in
let t = pack_ln (Tv_App t (preR, Q_Implicit)) in
let t = pack_ln (Tv_App t (postR, Q_Implicit)) in
let t = pack_ln (Tv_App t (eL, Q_Explicit)) in
pack_ln (Tv_App t (eR, Q_Explicit))
let mk_rewrite (p q:R.term) =
let open R in
let t = pack_ln (Tv_FVar (pack_fv (mk_pulse_lib_core_lid "rewrite"))) in
let t = pack_ln (Tv_App t (p, Q_Explicit)) in
let t = pack_ln (Tv_App t (q, Q_Explicit)) in
pack_ln (Tv_App t (`(), Q_Explicit))
let mk_withlocal (ret_u:R.universe) (a init pre ret_t post body:R.term) =
let open R in
let lid = mk_pulse_lib_reference_lid "with_local" in
let t = pack_ln (Tv_UInst (R.pack_fv lid) [ret_u]) in
let t = pack_ln (Tv_App t (a, Q_Implicit)) in
let t = pack_ln (Tv_App t (init, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (Tv_App t (ret_t, Q_Implicit)) in
let t = pack_ln (Tv_App t (post, Q_Implicit)) in
pack_ln (Tv_App t (body, Q_Explicit))
///// Utils to derive equiv for common constructs /////
let mk_star_equiv (g:R.env) (t1 t2 t3 t4:R.term)
(eq1:RT.equiv g t1 t3)
(eq2:RT.equiv g t2 t4)
: RT.equiv g (mk_star t1 t2) (mk_star t3 t4) =
admit ()
let mk_stt_comp_equiv (g:R.env) (u:R.universe) (res1 pre1 post1 res2 pre2 post2:R.term)
(res_eq: RT.equiv g res1 res2)
(pre_eq:RT.equiv g pre1 pre2)
(post_eq:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_comp u res1 pre1 post1)
(mk_stt_comp u res2 pre2 post2)
= admit ()
let mk_stt_atomic_comp_equiv (g:R.env) (u:R.universe) (res inames pre1 post1 pre2 post2:R.term)
(pre_eq:RT.equiv g pre1 pre2)
(post_eq:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_atomic_comp u res inames pre1 post1)
(mk_stt_atomic_comp u res inames pre2 post2)
= admit ()
let mk_stt_ghost_comp_equiv (g:R.env) (u:R.universe) (res inames pre1 post1 pre2 post2:R.term)
(pre_eq:RT.equiv g pre1 pre2)
(post_eq:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u res inames pre1 post1)
(mk_stt_ghost_comp u res inames pre2 post2)
= admit () | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val ref_lid : Prims.list Prims.string | [] | Pulse.Reflection.Util.ref_lid | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | Prims.list Prims.string | {
"end_col": 46,
"end_line": 595,
"start_col": 14,
"start_line": 595
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let unit_lid = R.unit_lid | let unit_lid = | false | null | false | R.unit_lid | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.Const.unit_lid"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s] | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val unit_lid : Prims.list Prims.string | [] | Pulse.Reflection.Util.unit_lid | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | Prims.list Prims.string | {
"end_col": 25,
"end_line": 13,
"start_col": 15,
"start_line": 13
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let mk_pulse_lib_core_lid s = pulse_lib_core@[s] | let mk_pulse_lib_core_lid s = | false | null | false | pulse_lib_core @ [s] | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"Prims.string",
"FStar.List.Tot.Base.op_At",
"Pulse.Reflection.Util.pulse_lib_core",
"Prims.Cons",
"Prims.Nil",
"Prims.list"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val mk_pulse_lib_core_lid : s: Prims.string -> Prims.list Prims.string | [] | Pulse.Reflection.Util.mk_pulse_lib_core_lid | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | s: Prims.string -> Prims.list Prims.string | {
"end_col": 48,
"end_line": 10,
"start_col": 30,
"start_line": 10
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv) | let vprop_tm = | false | null | false | R.pack_ln (R.Tv_FVar vprop_fv) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_FVar",
"Pulse.Reflection.Util.vprop_fv"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop" | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val vprop_tm : FStar.Reflection.Types.term | [] | Pulse.Reflection.Util.vprop_tm | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | FStar.Reflection.Types.term | {
"end_col": 45,
"end_line": 21,
"start_col": 15,
"start_line": 21
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let reveal_lid = ["FStar"; "Ghost"; "reveal"] | let reveal_lid = | false | null | false | ["FStar"; "Ghost"; "reveal"] | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"Prims.Cons",
"Prims.string",
"Prims.Nil"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"] | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val reveal_lid : Prims.list Prims.string | [] | Pulse.Reflection.Util.reveal_lid | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | Prims.list Prims.string | {
"end_col": 45,
"end_line": 18,
"start_col": 17,
"start_line": 18
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let tun = R.pack_ln R.Tv_Unknown | let tun = | false | null | false | R.pack_ln R.Tv_Unknown | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_Unknown"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s] | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val tun : FStar.Reflection.Types.term | [] | Pulse.Reflection.Util.tun | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | FStar.Reflection.Types.term | {
"end_col": 32,
"end_line": 12,
"start_col": 10,
"start_line": 12
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let hide_lid = ["FStar"; "Ghost"; "hide"] | let hide_lid = | false | null | false | ["FStar"; "Ghost"; "hide"] | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"Prims.Cons",
"Prims.string",
"Prims.Nil"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val hide_lid : Prims.list Prims.string | [] | Pulse.Reflection.Util.hide_lid | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | Prims.list Prims.string | {
"end_col": 41,
"end_line": 17,
"start_col": 15,
"start_line": 17
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let nat_fv = R.pack_fv nat_lid | let nat_fv = | false | null | false | R.pack_fv nat_lid | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.V2.Builtins.pack_fv",
"Pulse.Reflection.Util.nat_lid"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv) | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val nat_fv : FStar.Reflection.Types.fv | [] | Pulse.Reflection.Util.nat_fv | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | FStar.Reflection.Types.fv | {
"end_col": 30,
"end_line": 27,
"start_col": 13,
"start_line": 27
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let vprop_lid = mk_pulse_lib_core_lid "vprop" | let vprop_lid = | false | null | false | mk_pulse_lib_core_lid "vprop" | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"Pulse.Reflection.Util.mk_pulse_lib_core_lid"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"] | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val vprop_lid : Prims.list Prims.string | [] | Pulse.Reflection.Util.vprop_lid | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | Prims.list Prims.string | {
"end_col": 45,
"end_line": 19,
"start_col": 16,
"start_line": 19
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"] | let seq_create_lid = | false | null | false | ["FStar"; "Seq"; "Base"; "create"] | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"Prims.Cons",
"Prims.string",
"Prims.Nil"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv) | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val seq_create_lid : Prims.list Prims.string | [] | Pulse.Reflection.Util.seq_create_lid | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | Prims.list Prims.string | {
"end_col": 55,
"end_line": 36,
"start_col": 21,
"start_line": 36
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let szt_lid = ["FStar"; "SizeT"; "t"] | let szt_lid = | false | null | false | ["FStar"; "SizeT"; "t"] | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"Prims.Cons",
"Prims.string",
"Prims.Nil"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val szt_lid : Prims.list Prims.string | [] | Pulse.Reflection.Util.szt_lid | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | Prims.list Prims.string | {
"end_col": 37,
"end_line": 29,
"start_col": 14,
"start_line": 29
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let vprop_fv = R.pack_fv vprop_lid | let vprop_fv = | false | null | false | R.pack_fv vprop_lid | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.V2.Builtins.pack_fv",
"Pulse.Reflection.Util.vprop_lid"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"] | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val vprop_fv : FStar.Reflection.Types.fv | [] | Pulse.Reflection.Util.vprop_fv | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | FStar.Reflection.Types.fv | {
"end_col": 34,
"end_line": 20,
"start_col": 15,
"start_line": 20
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let nat_lid = ["Prims"; "nat"] | let nat_lid = | false | null | false | ["Prims"; "nat"] | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"Prims.Cons",
"Prims.string",
"Prims.Nil"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val nat_lid : Prims.list Prims.string | [] | Pulse.Reflection.Util.nat_lid | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | Prims.list Prims.string | {
"end_col": 30,
"end_line": 26,
"start_col": 14,
"start_line": 26
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let unit_tm = R.pack_ln (R.Tv_FVar unit_fv) | let unit_tm = | false | null | false | R.pack_ln (R.Tv_FVar unit_fv) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_FVar",
"Pulse.Reflection.Util.unit_fv"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv) | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val unit_tm : FStar.Reflection.Types.term | [] | Pulse.Reflection.Util.unit_tm | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | FStar.Reflection.Types.term | {
"end_col": 43,
"end_line": 23,
"start_col": 14,
"start_line": 23
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let szt_tm = R.pack_ln (R.Tv_FVar szt_fv) | let szt_tm = | false | null | false | R.pack_ln (R.Tv_FVar szt_fv) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_FVar",
"Pulse.Reflection.Util.szt_fv"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"] | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val szt_tm : FStar.Reflection.Types.term | [] | Pulse.Reflection.Util.szt_tm | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | FStar.Reflection.Types.term | {
"end_col": 41,
"end_line": 31,
"start_col": 13,
"start_line": 31
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let seq_lid = ["FStar"; "Seq"; "Base"; "seq"] | let seq_lid = | false | null | false | ["FStar"; "Seq"; "Base"; "seq"] | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"Prims.Cons",
"Prims.string",
"Prims.Nil"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val seq_lid : Prims.list Prims.string | [] | Pulse.Reflection.Util.seq_lid | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | Prims.list Prims.string | {
"end_col": 45,
"end_line": 35,
"start_col": 14,
"start_line": 35
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let szv_tm = R.pack_ln (R.Tv_FVar szv_fv) | let szv_tm = | false | null | false | R.pack_ln (R.Tv_FVar szv_fv) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_FVar",
"Pulse.Reflection.Util.szv_fv"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"] | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val szv_tm : FStar.Reflection.Types.term | [] | Pulse.Reflection.Util.szv_tm | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | FStar.Reflection.Types.term | {
"end_col": 41,
"end_line": 34,
"start_col": 13,
"start_line": 34
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let szv_fv = R.pack_fv szv_lid | let szv_fv = | false | null | false | R.pack_fv szv_lid | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.V2.Builtins.pack_fv",
"Pulse.Reflection.Util.szv_lid"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv) | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val szv_fv : FStar.Reflection.Types.fv | [] | Pulse.Reflection.Util.szv_fv | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | FStar.Reflection.Types.fv | {
"end_col": 30,
"end_line": 33,
"start_col": 13,
"start_line": 33
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"] | let pulse_lib_reference = | false | null | false | ["Pulse"; "Lib"; "Reference"] | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"Prims.Cons",
"Prims.string",
"Prims.Nil"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero) | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val pulse_lib_reference : Prims.list Prims.string | [] | Pulse.Reflection.Util.pulse_lib_reference | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | Prims.list Prims.string | {
"end_col": 55,
"end_line": 90,
"start_col": 26,
"start_line": 90
} |
|
Prims.Tot | val mk_stt_ghost_admit (u: R.universe) (t pre post: R.term) : R.term | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit)) | val mk_stt_ghost_admit (u: R.universe) (t pre post: R.term) : R.term
let mk_stt_ghost_admit (u: R.universe) (t pre post: R.term) : R.term = | false | null | false | let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit)) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.Types.universe",
"FStar.Reflection.Types.term",
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_App",
"FStar.Pervasives.Native.Mktuple2",
"FStar.Reflection.V2.Data.aqualv",
"FStar.Reflection.V2.Data.Q_Explicit",
"FStar.Reflection.V2.Data.Tv_UInst",
"FStar.Reflection.V2.Builtins.pack_fv",
"Pulse.Reflection.Util.stt_ghost_admit_lid",
"Prims.Cons",
"Prims.Nil"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit" | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val mk_stt_ghost_admit (u: R.universe) (t pre post: R.term) : R.term | [] | Pulse.Reflection.Util.mk_stt_ghost_admit | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} |
u38: FStar.Reflection.Types.universe ->
t: FStar.Reflection.Types.term ->
pre: FStar.Reflection.Types.term ->
post: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | {
"end_col": 39,
"end_line": 127,
"start_col": 2,
"start_line": 123
} |
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"] | let tuple2_lid = | false | null | false | ["FStar"; "Pervasives"; "Native"; "tuple2"] | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"Prims.Cons",
"Prims.string",
"Prims.Nil"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"] | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val tuple2_lid : Prims.list Prims.string | [] | Pulse.Reflection.Util.tuple2_lid | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | Prims.list Prims.string | {
"end_col": 60,
"end_line": 39,
"start_col": 17,
"start_line": 39
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let star_lid = mk_pulse_lib_core_lid "op_Star_Star" | let star_lid = | false | null | false | mk_pulse_lib_core_lid "op_Star_Star" | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"Pulse.Reflection.Util.mk_pulse_lib_core_lid"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames" | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val star_lid : Prims.list Prims.string | [] | Pulse.Reflection.Util.star_lid | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | Prims.list Prims.string | {
"end_col": 51,
"end_line": 69,
"start_col": 15,
"start_line": 69
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms | let args_of (tms: list R.term) = | false | null | false | List.Tot.map (fun x -> x, R.Q_Explicit) tms | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"Prims.list",
"FStar.Reflection.Types.term",
"FStar.List.Tot.Base.map",
"FStar.Pervasives.Native.tuple2",
"FStar.Reflection.V2.Data.aqualv",
"FStar.Pervasives.Native.Mktuple2",
"FStar.Reflection.V2.Data.Q_Explicit"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_" | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val args_of : tms: Prims.list FStar.Reflection.Types.term
-> Prims.list (FStar.Reflection.Types.term * FStar.Reflection.V2.Data.aqualv) | [] | Pulse.Reflection.Util.args_of | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | tms: Prims.list FStar.Reflection.Types.term
-> Prims.list (FStar.Reflection.Types.term * FStar.Reflection.V2.Data.aqualv) | {
"end_col": 45,
"end_line": 81,
"start_col": 2,
"start_line": 81
} |
|
Prims.Tot | val mk_stt_atomic_admit (u: R.universe) (t pre post: R.term) : R.term | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit)) | val mk_stt_atomic_admit (u: R.universe) (t pre post: R.term) : R.term
let mk_stt_atomic_admit (u: R.universe) (t pre post: R.term) : R.term = | false | null | false | let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit)) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.Types.universe",
"FStar.Reflection.Types.term",
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_App",
"FStar.Pervasives.Native.Mktuple2",
"FStar.Reflection.V2.Data.aqualv",
"FStar.Reflection.V2.Data.Q_Explicit",
"FStar.Reflection.V2.Data.Tv_UInst",
"FStar.Reflection.V2.Builtins.pack_fv",
"Pulse.Reflection.Util.stt_atomic_admit_lid",
"Prims.Cons",
"Prims.Nil"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit" | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val mk_stt_atomic_admit (u: R.universe) (t pre post: R.term) : R.term | [] | Pulse.Reflection.Util.mk_stt_atomic_admit | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} |
u34: FStar.Reflection.Types.universe ->
t: FStar.Reflection.Types.term ->
pre: FStar.Reflection.Types.term ->
post: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | {
"end_col": 39,
"end_line": 119,
"start_col": 2,
"start_line": 115
} |
Prims.Tot | val mk_fst (u1 u2: R.universe) (a1 a2 e: R.term) : R.term | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit)) | val mk_fst (u1 u2: R.universe) (a1 a2 e: R.term) : R.term
let mk_fst (u1 u2: R.universe) (a1 a2 e: R.term) : R.term = | false | null | false | let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit)) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.Types.universe",
"FStar.Reflection.Types.term",
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_App",
"FStar.Pervasives.Native.Mktuple2",
"FStar.Reflection.V2.Data.aqualv",
"FStar.Reflection.V2.Data.Q_Explicit",
"FStar.Reflection.V2.Data.Q_Implicit",
"FStar.Reflection.V2.Data.Tv_UInst",
"FStar.Reflection.V2.Builtins.pack_fv",
"Pulse.Reflection.Util.fst_lid",
"Prims.Cons",
"Prims.Nil"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit)) | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val mk_fst (u1 u2: R.universe) (a1 a2 e: R.term) : R.term | [] | Pulse.Reflection.Util.mk_fst | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} |
u1: FStar.Reflection.Types.universe ->
u2: FStar.Reflection.Types.universe ->
a1: FStar.Reflection.Types.term ->
a2: FStar.Reflection.Types.term ->
e: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | {
"end_col": 36,
"end_line": 54,
"start_col": 2,
"start_line": 50
} |
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"] | let fst_lid = | false | null | false | ["FStar"; "Pervasives"; "Native"; "fst"] | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"Prims.Cons",
"Prims.string",
"Prims.Nil"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"] | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val fst_lid : Prims.list Prims.string | [] | Pulse.Reflection.Util.fst_lid | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | Prims.list Prims.string | {
"end_col": 54,
"end_line": 40,
"start_col": 14,
"start_line": 40
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv) | let stt_ghost_tm = | false | null | false | R.pack_ln (R.Tv_FVar stt_ghost_fv) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_FVar",
"Pulse.Reflection.Util.stt_ghost_fv"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost" | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val stt_ghost_tm : FStar.Reflection.Types.term | [] | Pulse.Reflection.Util.stt_ghost_tm | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | FStar.Reflection.Types.term | {
"end_col": 53,
"end_line": 154,
"start_col": 19,
"start_line": 154
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit" | let stt_admit_lid = | false | null | false | mk_pulse_lib_core_lid "stt_admit" | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"Pulse.Reflection.Util.mk_pulse_lib_core_lid"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit)) | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val stt_admit_lid : Prims.list Prims.string | [] | Pulse.Reflection.Util.stt_admit_lid | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | Prims.list Prims.string | {
"end_col": 53,
"end_line": 105,
"start_col": 20,
"start_line": 105
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let uzero = R.pack_universe (R.Uv_Zero) | let uzero = | false | null | false | R.pack_universe (R.Uv_Zero) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.V2.Builtins.pack_universe",
"FStar.Reflection.V2.Data.Uv_Zero"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit)) | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val uzero : FStar.Reflection.Types.universe | [] | Pulse.Reflection.Util.uzero | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | FStar.Reflection.Types.universe | {
"end_col": 39,
"end_line": 88,
"start_col": 12,
"start_line": 88
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let exists_lid = mk_pulse_lib_core_lid "exists_" | let exists_lid = | false | null | false | mk_pulse_lib_core_lid "exists_" | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"Pulse.Reflection.Util.mk_pulse_lib_core_lid"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit)) | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val exists_lid : Prims.list Prims.string | [] | Pulse.Reflection.Util.exists_lid | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | Prims.list Prims.string | {
"end_col": 48,
"end_line": 78,
"start_col": 17,
"start_line": 78
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure" | let elim_pure_lid = | false | null | false | mk_pulse_lib_core_lid "elim_pure" | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"Pulse.Reflection.Util.mk_pulse_lib_core_lid"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit)) | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val elim_pure_lid : Prims.list Prims.string | [] | Pulse.Reflection.Util.elim_pure_lid | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | Prims.list Prims.string | {
"end_col": 53,
"end_line": 130,
"start_col": 20,
"start_line": 130
} |
|
Prims.Tot | val mk_snd (u1 u2: R.universe) (a1 a2 e: R.term) : R.term | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit)) | val mk_snd (u1 u2: R.universe) (a1 a2 e: R.term) : R.term
let mk_snd (u1 u2: R.universe) (a1 a2 e: R.term) : R.term = | false | null | false | let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit)) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.Types.universe",
"FStar.Reflection.Types.term",
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_App",
"FStar.Pervasives.Native.Mktuple2",
"FStar.Reflection.V2.Data.aqualv",
"FStar.Reflection.V2.Data.Q_Explicit",
"FStar.Reflection.V2.Data.Q_Implicit",
"FStar.Reflection.V2.Data.Tv_UInst",
"FStar.Reflection.V2.Builtins.pack_fv",
"Pulse.Reflection.Util.snd_lid",
"Prims.Cons",
"Prims.Nil"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit)) | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val mk_snd (u1 u2: R.universe) (a1 a2 e: R.term) : R.term | [] | Pulse.Reflection.Util.mk_snd | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} |
u1: FStar.Reflection.Types.universe ->
u2: FStar.Reflection.Types.universe ->
a1: FStar.Reflection.Types.term ->
a2: FStar.Reflection.Types.term ->
e: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | {
"end_col": 36,
"end_line": 61,
"start_col": 2,
"start_line": 57
} |
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let szv_lid = ["FStar"; "SizeT"; "v"] | let szv_lid = | false | null | false | ["FStar"; "SizeT"; "v"] | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"Prims.Cons",
"Prims.string",
"Prims.Nil"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val szv_lid : Prims.list Prims.string | [] | Pulse.Reflection.Util.szv_lid | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | Prims.list Prims.string | {
"end_col": 37,
"end_line": 32,
"start_col": 14,
"start_line": 32
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let bool_fv = R.pack_fv bool_lid | let bool_fv = | false | null | false | R.pack_fv bool_lid | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.V2.Builtins.pack_fv",
"Pulse.Reflection.Util.bool_lid"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val bool_fv : FStar.Reflection.Types.fv | [] | Pulse.Reflection.Util.bool_fv | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | FStar.Reflection.Types.fv | {
"end_col": 32,
"end_line": 24,
"start_col": 14,
"start_line": 24
} |
|
Prims.Tot | val mk_squash (u: R.universe) (ty: R.term) : R.term | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit)) | val mk_squash (u: R.universe) (ty: R.term) : R.term
let mk_squash (u: R.universe) (ty: R.term) : R.term = | false | null | false | let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit)) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.Types.universe",
"FStar.Reflection.Types.term",
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_App",
"FStar.Pervasives.Native.Mktuple2",
"FStar.Reflection.V2.Data.aqualv",
"FStar.Reflection.V2.Data.Q_Explicit",
"FStar.Reflection.V2.Data.Tv_UInst",
"FStar.Reflection.V2.Builtins.pack_fv",
"FStar.Reflection.Const.squash_qn",
"Prims.Cons",
"Prims.Nil"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s] | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val mk_squash (u: R.universe) (ty: R.term) : R.term | [] | Pulse.Reflection.Util.mk_squash | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | u22: FStar.Reflection.Types.universe -> ty: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | {
"end_col": 37,
"end_line": 96,
"start_col": 2,
"start_line": 94
} |
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let false_tm = R.pack_ln (R.Tv_Const (R.C_False)) | let false_tm = | false | null | false | R.pack_ln (R.Tv_Const (R.C_False)) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_Const",
"FStar.Reflection.V2.Data.C_False"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit)) | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val false_tm : FStar.Reflection.Types.term | [] | Pulse.Reflection.Util.false_tm | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | FStar.Reflection.Types.term | {
"end_col": 49,
"end_line": 64,
"start_col": 15,
"start_line": 64
} |
|
Prims.Tot | val mk_eq2 (u: R.universe) (ty e1 e2: R.term) : R.term | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit)) | val mk_eq2 (u: R.universe) (ty e1 e2: R.term) : R.term
let mk_eq2 (u: R.universe) (ty e1 e2: R.term) : R.term = | false | null | false | let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit)) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.Types.universe",
"FStar.Reflection.Types.term",
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_App",
"FStar.Pervasives.Native.Mktuple2",
"FStar.Reflection.V2.Data.aqualv",
"FStar.Reflection.V2.Data.Q_Explicit",
"FStar.Reflection.V2.Data.Q_Implicit",
"FStar.Reflection.V2.Data.Tv_UInst",
"FStar.Reflection.V2.Builtins.pack_fv",
"FStar.Reflection.Const.eq2_qn",
"Prims.Cons",
"Prims.Nil"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit)) | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val mk_eq2 (u: R.universe) (ty e1 e2: R.term) : R.term | [] | Pulse.Reflection.Util.mk_eq2 | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} |
u26: FStar.Reflection.Types.universe ->
ty: FStar.Reflection.Types.term ->
e1: FStar.Reflection.Types.term ->
e2: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | {
"end_col": 37,
"end_line": 103,
"start_col": 2,
"start_line": 99
} |
Prims.Tot | val mk_stt_admit (u: R.universe) (t pre post: R.term) : R.term | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit)) | val mk_stt_admit (u: R.universe) (t pre post: R.term) : R.term
let mk_stt_admit (u: R.universe) (t pre post: R.term) : R.term = | false | null | false | let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit)) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.Types.universe",
"FStar.Reflection.Types.term",
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_App",
"FStar.Pervasives.Native.Mktuple2",
"FStar.Reflection.V2.Data.aqualv",
"FStar.Reflection.V2.Data.Q_Explicit",
"FStar.Reflection.V2.Data.Tv_UInst",
"FStar.Reflection.V2.Builtins.pack_fv",
"Pulse.Reflection.Util.stt_admit_lid",
"Prims.Cons",
"Prims.Nil"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit" | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val mk_stt_admit (u: R.universe) (t pre post: R.term) : R.term | [] | Pulse.Reflection.Util.mk_stt_admit | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} |
u30: FStar.Reflection.Types.universe ->
t: FStar.Reflection.Types.term ->
pre: FStar.Reflection.Types.term ->
post: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | {
"end_col": 39,
"end_line": 111,
"start_col": 2,
"start_line": 107
} |
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s] | let mk_pulse_lib_reference_lid s = | false | null | false | pulse_lib_reference @ [s] | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"Prims.string",
"FStar.List.Tot.Base.op_At",
"Pulse.Reflection.Util.pulse_lib_reference",
"Prims.Cons",
"Prims.Nil",
"Prims.list"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero) | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val mk_pulse_lib_reference_lid : s: Prims.string -> Prims.list Prims.string | [] | Pulse.Reflection.Util.mk_pulse_lib_reference_lid | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | s: Prims.string -> Prims.list Prims.string | {
"end_col": 58,
"end_line": 91,
"start_col": 35,
"start_line": 91
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let stt_fv = R.pack_fv stt_lid | let stt_fv = | false | null | false | R.pack_fv stt_lid | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.V2.Builtins.pack_fv",
"Pulse.Reflection.Util.stt_lid"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val stt_fv : FStar.Reflection.Types.fv | [] | Pulse.Reflection.Util.stt_fv | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | FStar.Reflection.Types.fv | {
"end_col": 30,
"end_line": 134,
"start_col": 13,
"start_line": 134
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames" | let emp_inames_lid = | false | null | false | mk_pulse_lib_core_lid "emp_inames" | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"Pulse.Reflection.Util.mk_pulse_lib_core_lid"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit)) | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val emp_inames_lid : Prims.list Prims.string | [] | Pulse.Reflection.Util.emp_inames_lid | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | Prims.list Prims.string | {
"end_col": 55,
"end_line": 129,
"start_col": 21,
"start_line": 129
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let stt_tm = R.pack_ln (R.Tv_FVar stt_fv) | let stt_tm = | false | null | false | R.pack_ln (R.Tv_FVar stt_fv) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_FVar",
"Pulse.Reflection.Util.stt_fv"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt" | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val stt_tm : FStar.Reflection.Types.term | [] | Pulse.Reflection.Util.stt_tm | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | FStar.Reflection.Types.term | {
"end_col": 41,
"end_line": 135,
"start_col": 13,
"start_line": 135
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let stt_lid = mk_pulse_lib_core_lid "stt" | let stt_lid = | false | null | false | mk_pulse_lib_core_lid "stt" | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"Pulse.Reflection.Util.mk_pulse_lib_core_lid"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure" | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val stt_lid : Prims.list Prims.string | [] | Pulse.Reflection.Util.stt_lid | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | Prims.list Prims.string | {
"end_col": 41,
"end_line": 133,
"start_col": 14,
"start_line": 133
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let forall_lid = mk_pulse_lib_core_lid "forall_" | let forall_lid = | false | null | false | mk_pulse_lib_core_lid "forall_" | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"Pulse.Reflection.Util.mk_pulse_lib_core_lid"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure" | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val forall_lid : Prims.list Prims.string | [] | Pulse.Reflection.Util.forall_lid | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | Prims.list Prims.string | {
"end_col": 48,
"end_line": 79,
"start_col": 17,
"start_line": 79
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic" | let stt_atomic_lid = | false | null | false | mk_pulse_lib_core_lid "stt_atomic" | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"Pulse.Reflection.Util.mk_pulse_lib_core_lid"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit)) | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val stt_atomic_lid : Prims.list Prims.string | [] | Pulse.Reflection.Util.stt_atomic_lid | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | Prims.list Prims.string | {
"end_col": 55,
"end_line": 142,
"start_col": 21,
"start_line": 142
} |
|
Prims.Tot | val mk_star (l r: R.term) : R.term | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit)) | val mk_star (l r: R.term) : R.term
let mk_star (l r: R.term) : R.term = | false | null | false | let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit)) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.Types.term",
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_App",
"FStar.Pervasives.Native.Mktuple2",
"FStar.Reflection.V2.Data.aqualv",
"FStar.Reflection.V2.Data.Q_Explicit",
"FStar.Reflection.V2.Data.Tv_FVar",
"FStar.Reflection.V2.Builtins.pack_fv",
"Pulse.Reflection.Util.star_lid"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star" | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val mk_star (l r: R.term) : R.term | [] | Pulse.Reflection.Util.mk_star | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | l: FStar.Reflection.Types.term -> r: FStar.Reflection.Types.term -> FStar.Reflection.Types.term | {
"end_col": 36,
"end_line": 75,
"start_col": 2,
"start_line": 72
} |
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit" | let stt_ghost_admit_lid = | false | null | false | mk_pulse_lib_core_lid "stt_ghost_admit" | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"Pulse.Reflection.Util.mk_pulse_lib_core_lid"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit)) | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val stt_ghost_admit_lid : Prims.list Prims.string | [] | Pulse.Reflection.Util.stt_ghost_admit_lid | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | Prims.list Prims.string | {
"end_col": 65,
"end_line": 121,
"start_col": 26,
"start_line": 121
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let emp_lid = mk_pulse_lib_core_lid "emp" | let emp_lid = | false | null | false | mk_pulse_lib_core_lid "emp" | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"Pulse.Reflection.Util.mk_pulse_lib_core_lid"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False)) | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val emp_lid : Prims.list Prims.string | [] | Pulse.Reflection.Util.emp_lid | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | Prims.list Prims.string | {
"end_col": 41,
"end_line": 66,
"start_col": 14,
"start_line": 66
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost" | let stt_ghost_lid = | false | null | false | mk_pulse_lib_core_lid "stt_ghost" | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"Pulse.Reflection.Util.mk_pulse_lib_core_lid"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit)) | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val stt_ghost_lid : Prims.list Prims.string | [] | Pulse.Reflection.Util.stt_ghost_lid | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | Prims.list Prims.string | {
"end_col": 53,
"end_line": 152,
"start_col": 20,
"start_line": 152
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv) | let stt_atomic_tm = | false | null | false | R.pack_ln (R.Tv_FVar stt_atomic_fv) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_FVar",
"Pulse.Reflection.Util.stt_atomic_fv"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic" | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val stt_atomic_tm : FStar.Reflection.Types.term | [] | Pulse.Reflection.Util.stt_atomic_tm | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | FStar.Reflection.Types.term | {
"end_col": 55,
"end_line": 144,
"start_col": 20,
"start_line": 144
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit)) | let mk_stt_ghost_comp (u: R.universe) (a inames pre post: R.term) = | false | null | false | let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit)) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.Types.universe",
"FStar.Reflection.Types.term",
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_App",
"FStar.Pervasives.Native.Mktuple2",
"FStar.Reflection.V2.Data.aqualv",
"FStar.Reflection.V2.Data.Q_Explicit",
"FStar.Reflection.V2.Data.Tv_UInst",
"Pulse.Reflection.Util.stt_ghost_fv",
"Prims.Cons",
"Prims.Nil"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val mk_stt_ghost_comp : u52: FStar.Reflection.Types.universe ->
a: FStar.Reflection.Types.term ->
inames: FStar.Reflection.Types.term ->
pre: FStar.Reflection.Types.term ->
post: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | [] | Pulse.Reflection.Util.mk_stt_ghost_comp | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} |
u52: FStar.Reflection.Types.universe ->
a: FStar.Reflection.Types.term ->
inames: FStar.Reflection.Types.term ->
pre: FStar.Reflection.Types.term ->
post: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | {
"end_col": 45,
"end_line": 160,
"start_col": 65,
"start_line": 155
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let mk_total t = R.C_Total t | let mk_total t = | false | null | false | R.C_Total t | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.Types.typ",
"FStar.Reflection.V2.Data.C_Total",
"FStar.Reflection.V2.Data.comp_view"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val mk_total : t: FStar.Reflection.Types.typ -> FStar.Reflection.V2.Data.comp_view | [] | Pulse.Reflection.Util.mk_total | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | t: FStar.Reflection.Types.typ -> FStar.Reflection.V2.Data.comp_view | {
"end_col": 28,
"end_line": 176,
"start_col": 17,
"start_line": 176
} |
|
Prims.Tot | val mk_arrow_with_name (s: RT.pp_name_t) (f: arrow_dom) (out: R.term) : R.term | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let mk_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_total out))) | val mk_arrow_with_name (s: RT.pp_name_t) (f: arrow_dom) (out: R.term) : R.term
let mk_arrow_with_name (s: RT.pp_name_t) (f: arrow_dom) (out: R.term) : R.term = | false | null | false | let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_total out))) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.Typing.pp_name_t",
"Pulse.Reflection.Util.arrow_dom",
"FStar.Reflection.Types.term",
"FStar.Reflection.V2.Data.aqualv",
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_Arrow",
"Pulse.Reflection.Util.binder_of_t_q_s",
"FStar.Reflection.V2.Builtins.pack_comp",
"Pulse.Reflection.Util.mk_total"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv
let mk_total t = R.C_Total t
let mk_ghost t = R.C_GTotal t
let binder_of_t_q t q = RT.binder_of_t_q t q
let binder_of_t_q_s (t:R.term) (q:R.aqualv) (s:RT.pp_name_t) = RT.mk_binder s t q
let bound_var i : R.term = RT.bound_var i
let mk_name i : R.term = R.pack_ln (R.Tv_Var (R.pack_namedv (RT.make_namedv i)))
let arrow_dom = (R.term & R.aqualv)
let mk_arrow (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val mk_arrow_with_name (s: RT.pp_name_t) (f: arrow_dom) (out: R.term) : R.term | [] | Pulse.Reflection.Util.mk_arrow_with_name | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} |
s: FStar.Reflection.Typing.pp_name_t ->
f: Pulse.Reflection.Util.arrow_dom ->
out: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | {
"end_col": 78,
"end_line": 189,
"start_col": 77,
"start_line": 187
} |
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let binder_of_t_q t q = RT.binder_of_t_q t q | let binder_of_t_q t q = | false | null | false | RT.binder_of_t_q t q | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.Types.term",
"FStar.Reflection.V2.Data.aqualv",
"FStar.Reflection.Typing.binder_of_t_q",
"FStar.Reflection.Types.binder"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv
let mk_total t = R.C_Total t | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val binder_of_t_q : t: FStar.Reflection.Types.term -> q: FStar.Reflection.V2.Data.aqualv
-> FStar.Reflection.Types.binder | [] | Pulse.Reflection.Util.binder_of_t_q | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | t: FStar.Reflection.Types.term -> q: FStar.Reflection.V2.Data.aqualv
-> FStar.Reflection.Types.binder | {
"end_col": 44,
"end_line": 178,
"start_col": 24,
"start_line": 178
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let binder_of_t_q_s (t:R.term) (q:R.aqualv) (s:RT.pp_name_t) = RT.mk_binder s t q | let binder_of_t_q_s (t: R.term) (q: R.aqualv) (s: RT.pp_name_t) = | false | null | false | RT.mk_binder s t q | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.Types.term",
"FStar.Reflection.V2.Data.aqualv",
"FStar.Reflection.Typing.pp_name_t",
"FStar.Reflection.Typing.mk_binder",
"FStar.Reflection.Types.binder"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv
let mk_total t = R.C_Total t
let mk_ghost t = R.C_GTotal t | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val binder_of_t_q_s : t: FStar.Reflection.Types.term ->
q: FStar.Reflection.V2.Data.aqualv ->
s: FStar.Reflection.Typing.pp_name_t
-> FStar.Reflection.Types.binder | [] | Pulse.Reflection.Util.binder_of_t_q_s | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} |
t: FStar.Reflection.Types.term ->
q: FStar.Reflection.V2.Data.aqualv ->
s: FStar.Reflection.Typing.pp_name_t
-> FStar.Reflection.Types.binder | {
"end_col": 81,
"end_line": 179,
"start_col": 63,
"start_line": 179
} |
|
Prims.Tot | val mk_reveal (u: R.universe) (t e: R.term) : R.term | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let mk_reveal (u:R.universe) (t:R.term) (e:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv reveal_lid) [u]) in
let hd = R.pack_ln (R.Tv_App hd (t, R.Q_Implicit)) in
R.pack_ln (R.Tv_App hd (e, R.Q_Explicit)) | val mk_reveal (u: R.universe) (t e: R.term) : R.term
let mk_reveal (u: R.universe) (t e: R.term) : R.term = | false | null | false | let hd = R.pack_ln (R.Tv_UInst (R.pack_fv reveal_lid) [u]) in
let hd = R.pack_ln (R.Tv_App hd (t, R.Q_Implicit)) in
R.pack_ln (R.Tv_App hd (e, R.Q_Explicit)) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.Types.universe",
"FStar.Reflection.Types.term",
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_App",
"FStar.Pervasives.Native.Mktuple2",
"FStar.Reflection.V2.Data.aqualv",
"FStar.Reflection.V2.Data.Q_Explicit",
"FStar.Reflection.V2.Data.Q_Implicit",
"FStar.Reflection.V2.Data.Tv_UInst",
"FStar.Reflection.V2.Builtins.pack_fv",
"Pulse.Reflection.Util.reveal_lid",
"Prims.Cons",
"Prims.Nil"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv
let mk_total t = R.C_Total t
let mk_ghost t = R.C_GTotal t
let binder_of_t_q t q = RT.binder_of_t_q t q
let binder_of_t_q_s (t:R.term) (q:R.aqualv) (s:RT.pp_name_t) = RT.mk_binder s t q
let bound_var i : R.term = RT.bound_var i
let mk_name i : R.term = R.pack_ln (R.Tv_Var (R.pack_namedv (RT.make_namedv i)))
let arrow_dom = (R.term & R.aqualv)
let mk_arrow (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q ty q) (R.pack_comp (mk_total out)))
let mk_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_total out)))
let mk_ghost_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_ghost out)))
let mk_abs ty qual t : R.term = RT.mk_abs ty qual t
let mk_abs_with_name s ty qual t : R.term = R.pack_ln (R.Tv_Abs (binder_of_t_q_s ty qual s) t)
let mk_abs_with_name_and_range s r ty qual t : R.term =
let b = (binder_of_t_q_s ty qual s) in
let b = RU.binder_set_range b r in
R.pack_ln (R.Tv_Abs b t)
let mk_erased (u:R.universe) (t:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv erased_lid) [u]) in
R.pack_ln (R.Tv_App hd (t, R.Q_Explicit)) | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val mk_reveal (u: R.universe) (t e: R.term) : R.term | [] | Pulse.Reflection.Util.mk_reveal | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} |
u94: FStar.Reflection.Types.universe ->
t: FStar.Reflection.Types.term ->
e: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | {
"end_col": 43,
"end_line": 207,
"start_col": 61,
"start_line": 204
} |
Prims.Tot | val mk_erased (u: R.universe) (t: R.term) : R.term | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let mk_erased (u:R.universe) (t:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv erased_lid) [u]) in
R.pack_ln (R.Tv_App hd (t, R.Q_Explicit)) | val mk_erased (u: R.universe) (t: R.term) : R.term
let mk_erased (u: R.universe) (t: R.term) : R.term = | false | null | false | let hd = R.pack_ln (R.Tv_UInst (R.pack_fv erased_lid) [u]) in
R.pack_ln (R.Tv_App hd (t, R.Q_Explicit)) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.Types.universe",
"FStar.Reflection.Types.term",
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_App",
"FStar.Pervasives.Native.Mktuple2",
"FStar.Reflection.V2.Data.aqualv",
"FStar.Reflection.V2.Data.Q_Explicit",
"FStar.Reflection.V2.Data.Tv_UInst",
"FStar.Reflection.V2.Builtins.pack_fv",
"Pulse.Reflection.Util.erased_lid",
"Prims.Cons",
"Prims.Nil"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv
let mk_total t = R.C_Total t
let mk_ghost t = R.C_GTotal t
let binder_of_t_q t q = RT.binder_of_t_q t q
let binder_of_t_q_s (t:R.term) (q:R.aqualv) (s:RT.pp_name_t) = RT.mk_binder s t q
let bound_var i : R.term = RT.bound_var i
let mk_name i : R.term = R.pack_ln (R.Tv_Var (R.pack_namedv (RT.make_namedv i)))
let arrow_dom = (R.term & R.aqualv)
let mk_arrow (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q ty q) (R.pack_comp (mk_total out)))
let mk_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_total out)))
let mk_ghost_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_ghost out)))
let mk_abs ty qual t : R.term = RT.mk_abs ty qual t
let mk_abs_with_name s ty qual t : R.term = R.pack_ln (R.Tv_Abs (binder_of_t_q_s ty qual s) t)
let mk_abs_with_name_and_range s r ty qual t : R.term =
let b = (binder_of_t_q_s ty qual s) in
let b = RU.binder_set_range b r in
R.pack_ln (R.Tv_Abs b t) | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val mk_erased (u: R.universe) (t: R.term) : R.term | [] | Pulse.Reflection.Util.mk_erased | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | u91: FStar.Reflection.Types.universe -> t: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | {
"end_col": 43,
"end_line": 202,
"start_col": 50,
"start_line": 200
} |
Prims.Tot | val mk_ghost_arrow_with_name (s: RT.pp_name_t) (f: arrow_dom) (out: R.term) : R.term | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let mk_ghost_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_ghost out))) | val mk_ghost_arrow_with_name (s: RT.pp_name_t) (f: arrow_dom) (out: R.term) : R.term
let mk_ghost_arrow_with_name (s: RT.pp_name_t) (f: arrow_dom) (out: R.term) : R.term = | false | null | false | let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_ghost out))) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.Typing.pp_name_t",
"Pulse.Reflection.Util.arrow_dom",
"FStar.Reflection.Types.term",
"FStar.Reflection.V2.Data.aqualv",
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_Arrow",
"Pulse.Reflection.Util.binder_of_t_q_s",
"FStar.Reflection.V2.Builtins.pack_comp",
"Pulse.Reflection.Util.mk_ghost"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv
let mk_total t = R.C_Total t
let mk_ghost t = R.C_GTotal t
let binder_of_t_q t q = RT.binder_of_t_q t q
let binder_of_t_q_s (t:R.term) (q:R.aqualv) (s:RT.pp_name_t) = RT.mk_binder s t q
let bound_var i : R.term = RT.bound_var i
let mk_name i : R.term = R.pack_ln (R.Tv_Var (R.pack_namedv (RT.make_namedv i)))
let arrow_dom = (R.term & R.aqualv)
let mk_arrow (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q ty q) (R.pack_comp (mk_total out)))
let mk_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val mk_ghost_arrow_with_name (s: RT.pp_name_t) (f: arrow_dom) (out: R.term) : R.term | [] | Pulse.Reflection.Util.mk_ghost_arrow_with_name | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} |
s: FStar.Reflection.Typing.pp_name_t ->
f: Pulse.Reflection.Util.arrow_dom ->
out: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | {
"end_col": 78,
"end_line": 192,
"start_col": 83,
"start_line": 190
} |
Prims.Tot | val mk_arrow (f: arrow_dom) (out: R.term) : R.term | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let mk_arrow (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q ty q) (R.pack_comp (mk_total out))) | val mk_arrow (f: arrow_dom) (out: R.term) : R.term
let mk_arrow (f: arrow_dom) (out: R.term) : R.term = | false | null | false | let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q ty q) (R.pack_comp (mk_total out))) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"Pulse.Reflection.Util.arrow_dom",
"FStar.Reflection.Types.term",
"FStar.Reflection.V2.Data.aqualv",
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_Arrow",
"Pulse.Reflection.Util.binder_of_t_q",
"FStar.Reflection.V2.Builtins.pack_comp",
"Pulse.Reflection.Util.mk_total"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv
let mk_total t = R.C_Total t
let mk_ghost t = R.C_GTotal t
let binder_of_t_q t q = RT.binder_of_t_q t q
let binder_of_t_q_s (t:R.term) (q:R.aqualv) (s:RT.pp_name_t) = RT.mk_binder s t q
let bound_var i : R.term = RT.bound_var i
let mk_name i : R.term = R.pack_ln (R.Tv_Var (R.pack_namedv (RT.make_namedv i))) | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val mk_arrow (f: arrow_dom) (out: R.term) : R.term | [] | Pulse.Reflection.Util.mk_arrow | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | f: Pulse.Reflection.Util.arrow_dom -> out: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | {
"end_col": 74,
"end_line": 186,
"start_col": 50,
"start_line": 184
} |
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let mk_ghost t = R.C_GTotal t | let mk_ghost t = | false | null | false | R.C_GTotal t | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.Types.typ",
"FStar.Reflection.V2.Data.C_GTotal",
"FStar.Reflection.V2.Data.comp_view"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val mk_ghost : t: FStar.Reflection.Types.typ -> FStar.Reflection.V2.Data.comp_view | [] | Pulse.Reflection.Util.mk_ghost | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | t: FStar.Reflection.Types.typ -> FStar.Reflection.V2.Data.comp_view | {
"end_col": 29,
"end_line": 177,
"start_col": 17,
"start_line": 177
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let intro_exists_erased_lid = mk_pulse_lib_core_lid "intro_exists_erased" | let intro_exists_erased_lid = | false | null | false | mk_pulse_lib_core_lid "intro_exists_erased" | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"Pulse.Reflection.Util.mk_pulse_lib_core_lid"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv
let mk_total t = R.C_Total t
let mk_ghost t = R.C_GTotal t
let binder_of_t_q t q = RT.binder_of_t_q t q
let binder_of_t_q_s (t:R.term) (q:R.aqualv) (s:RT.pp_name_t) = RT.mk_binder s t q
let bound_var i : R.term = RT.bound_var i
let mk_name i : R.term = R.pack_ln (R.Tv_Var (R.pack_namedv (RT.make_namedv i)))
let arrow_dom = (R.term & R.aqualv)
let mk_arrow (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q ty q) (R.pack_comp (mk_total out)))
let mk_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_total out)))
let mk_ghost_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_ghost out)))
let mk_abs ty qual t : R.term = RT.mk_abs ty qual t
let mk_abs_with_name s ty qual t : R.term = R.pack_ln (R.Tv_Abs (binder_of_t_q_s ty qual s) t)
let mk_abs_with_name_and_range s r ty qual t : R.term =
let b = (binder_of_t_q_s ty qual s) in
let b = RU.binder_set_range b r in
R.pack_ln (R.Tv_Abs b t)
let mk_erased (u:R.universe) (t:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv erased_lid) [u]) in
R.pack_ln (R.Tv_App hd (t, R.Q_Explicit))
let mk_reveal (u:R.universe) (t:R.term) (e:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv reveal_lid) [u]) in
let hd = R.pack_ln (R.Tv_App hd (t, R.Q_Implicit)) in
R.pack_ln (R.Tv_App hd (e, R.Q_Explicit))
let elim_exists_lid = mk_pulse_lib_core_lid "elim_exists" | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val intro_exists_erased_lid : Prims.list Prims.string | [] | Pulse.Reflection.Util.intro_exists_erased_lid | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | Prims.list Prims.string | {
"end_col": 73,
"end_line": 211,
"start_col": 30,
"start_line": 211
} |
|
Prims.Tot | val emp_inames_tm:R.term | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let emp_inames_tm : R.term = R.pack_ln (R.Tv_FVar (R.pack_fv emp_inames_lid)) | val emp_inames_tm:R.term
let emp_inames_tm:R.term = | false | null | false | R.pack_ln (R.Tv_FVar (R.pack_fv emp_inames_lid)) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_FVar",
"FStar.Reflection.V2.Builtins.pack_fv",
"Pulse.Reflection.Util.emp_inames_lid"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv
let mk_total t = R.C_Total t
let mk_ghost t = R.C_GTotal t
let binder_of_t_q t q = RT.binder_of_t_q t q
let binder_of_t_q_s (t:R.term) (q:R.aqualv) (s:RT.pp_name_t) = RT.mk_binder s t q
let bound_var i : R.term = RT.bound_var i
let mk_name i : R.term = R.pack_ln (R.Tv_Var (R.pack_namedv (RT.make_namedv i)))
let arrow_dom = (R.term & R.aqualv)
let mk_arrow (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q ty q) (R.pack_comp (mk_total out)))
let mk_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_total out)))
let mk_ghost_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_ghost out)))
let mk_abs ty qual t : R.term = RT.mk_abs ty qual t
let mk_abs_with_name s ty qual t : R.term = R.pack_ln (R.Tv_Abs (binder_of_t_q_s ty qual s) t)
let mk_abs_with_name_and_range s r ty qual t : R.term =
let b = (binder_of_t_q_s ty qual s) in
let b = RU.binder_set_range b r in
R.pack_ln (R.Tv_Abs b t)
let mk_erased (u:R.universe) (t:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv erased_lid) [u]) in
R.pack_ln (R.Tv_App hd (t, R.Q_Explicit))
let mk_reveal (u:R.universe) (t:R.term) (e:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv reveal_lid) [u]) in
let hd = R.pack_ln (R.Tv_App hd (t, R.Q_Implicit)) in
R.pack_ln (R.Tv_App hd (e, R.Q_Explicit))
let elim_exists_lid = mk_pulse_lib_core_lid "elim_exists"
let intro_exists_lid = mk_pulse_lib_core_lid "intro_exists"
let intro_exists_erased_lid = mk_pulse_lib_core_lid "intro_exists_erased"
let mk_exists (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_forall (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv forall_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_elim_exists (u:R.universe) (a p:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv elim_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_intro_exists (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let mk_intro_exists_erased (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_erased_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let while_lid = mk_pulse_lib_core_lid "while_loop"
let mk_while (inv cond body:R.term) : R.term =
let t = R.pack_ln (R.Tv_FVar (R.pack_fv while_lid)) in
let t = R.pack_ln (R.Tv_App t (inv, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (cond, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (body, R.Q_Explicit))
let vprop_eq_tm t1 t2 =
let open R in
let u2 =
pack_universe (Uv_Succ (pack_universe (Uv_Succ (pack_universe Uv_Zero)))) in
let t = pack_ln (Tv_UInst (pack_fv eq2_qn) [u2]) in
let t = pack_ln (Tv_App t (pack_ln (Tv_FVar (pack_fv vprop_lid)), Q_Implicit)) in
let t = pack_ln (Tv_App t (t1, Q_Explicit)) in
let t = pack_ln (Tv_App t (t2, Q_Explicit)) in
t | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val emp_inames_tm:R.term | [] | Pulse.Reflection.Util.emp_inames_tm | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | FStar.Reflection.Types.term | {
"end_col": 77,
"end_line": 258,
"start_col": 29,
"start_line": 258
} |
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let mk_exists (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) | let mk_exists (u: R.universe) (a p: R.term) = | false | null | false | let t = R.pack_ln (R.Tv_UInst (R.pack_fv exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.Types.universe",
"FStar.Reflection.Types.term",
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_App",
"FStar.Pervasives.Native.Mktuple2",
"FStar.Reflection.V2.Data.aqualv",
"FStar.Reflection.V2.Data.Q_Explicit",
"FStar.Reflection.V2.Data.Q_Implicit",
"FStar.Reflection.V2.Data.Tv_UInst",
"FStar.Reflection.V2.Builtins.pack_fv",
"Pulse.Reflection.Util.exists_lid",
"Prims.Cons",
"Prims.Nil"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv
let mk_total t = R.C_Total t
let mk_ghost t = R.C_GTotal t
let binder_of_t_q t q = RT.binder_of_t_q t q
let binder_of_t_q_s (t:R.term) (q:R.aqualv) (s:RT.pp_name_t) = RT.mk_binder s t q
let bound_var i : R.term = RT.bound_var i
let mk_name i : R.term = R.pack_ln (R.Tv_Var (R.pack_namedv (RT.make_namedv i)))
let arrow_dom = (R.term & R.aqualv)
let mk_arrow (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q ty q) (R.pack_comp (mk_total out)))
let mk_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_total out)))
let mk_ghost_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_ghost out)))
let mk_abs ty qual t : R.term = RT.mk_abs ty qual t
let mk_abs_with_name s ty qual t : R.term = R.pack_ln (R.Tv_Abs (binder_of_t_q_s ty qual s) t)
let mk_abs_with_name_and_range s r ty qual t : R.term =
let b = (binder_of_t_q_s ty qual s) in
let b = RU.binder_set_range b r in
R.pack_ln (R.Tv_Abs b t)
let mk_erased (u:R.universe) (t:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv erased_lid) [u]) in
R.pack_ln (R.Tv_App hd (t, R.Q_Explicit))
let mk_reveal (u:R.universe) (t:R.term) (e:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv reveal_lid) [u]) in
let hd = R.pack_ln (R.Tv_App hd (t, R.Q_Implicit)) in
R.pack_ln (R.Tv_App hd (e, R.Q_Explicit))
let elim_exists_lid = mk_pulse_lib_core_lid "elim_exists"
let intro_exists_lid = mk_pulse_lib_core_lid "intro_exists"
let intro_exists_erased_lid = mk_pulse_lib_core_lid "intro_exists_erased" | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val mk_exists : u97: FStar.Reflection.Types.universe ->
a: FStar.Reflection.Types.term ->
p: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | [] | Pulse.Reflection.Util.mk_exists | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} |
u97: FStar.Reflection.Types.universe ->
a: FStar.Reflection.Types.term ->
p: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | {
"end_col": 42,
"end_line": 216,
"start_col": 43,
"start_line": 213
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let mk_forall (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv forall_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) | let mk_forall (u: R.universe) (a p: R.term) = | false | null | false | let t = R.pack_ln (R.Tv_UInst (R.pack_fv forall_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.Types.universe",
"FStar.Reflection.Types.term",
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_App",
"FStar.Pervasives.Native.Mktuple2",
"FStar.Reflection.V2.Data.aqualv",
"FStar.Reflection.V2.Data.Q_Explicit",
"FStar.Reflection.V2.Data.Q_Implicit",
"FStar.Reflection.V2.Data.Tv_UInst",
"FStar.Reflection.V2.Builtins.pack_fv",
"Pulse.Reflection.Util.forall_lid",
"Prims.Cons",
"Prims.Nil"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv
let mk_total t = R.C_Total t
let mk_ghost t = R.C_GTotal t
let binder_of_t_q t q = RT.binder_of_t_q t q
let binder_of_t_q_s (t:R.term) (q:R.aqualv) (s:RT.pp_name_t) = RT.mk_binder s t q
let bound_var i : R.term = RT.bound_var i
let mk_name i : R.term = R.pack_ln (R.Tv_Var (R.pack_namedv (RT.make_namedv i)))
let arrow_dom = (R.term & R.aqualv)
let mk_arrow (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q ty q) (R.pack_comp (mk_total out)))
let mk_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_total out)))
let mk_ghost_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_ghost out)))
let mk_abs ty qual t : R.term = RT.mk_abs ty qual t
let mk_abs_with_name s ty qual t : R.term = R.pack_ln (R.Tv_Abs (binder_of_t_q_s ty qual s) t)
let mk_abs_with_name_and_range s r ty qual t : R.term =
let b = (binder_of_t_q_s ty qual s) in
let b = RU.binder_set_range b r in
R.pack_ln (R.Tv_Abs b t)
let mk_erased (u:R.universe) (t:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv erased_lid) [u]) in
R.pack_ln (R.Tv_App hd (t, R.Q_Explicit))
let mk_reveal (u:R.universe) (t:R.term) (e:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv reveal_lid) [u]) in
let hd = R.pack_ln (R.Tv_App hd (t, R.Q_Implicit)) in
R.pack_ln (R.Tv_App hd (e, R.Q_Explicit))
let elim_exists_lid = mk_pulse_lib_core_lid "elim_exists"
let intro_exists_lid = mk_pulse_lib_core_lid "intro_exists"
let intro_exists_erased_lid = mk_pulse_lib_core_lid "intro_exists_erased"
let mk_exists (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val mk_forall : u100: FStar.Reflection.Types.universe ->
a: FStar.Reflection.Types.term ->
p: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | [] | Pulse.Reflection.Util.mk_forall | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} |
u100: FStar.Reflection.Types.universe ->
a: FStar.Reflection.Types.term ->
p: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | {
"end_col": 42,
"end_line": 221,
"start_col": 43,
"start_line": 218
} |
|
Prims.Tot | val non_informative_witness_rt (u: R.universe) (a: R.term) : R.term | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let non_informative_witness_rt (u:R.universe) (a:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv non_informative_witness_lid) [u]) in
let t = pack_ln (Tv_App t (a, Q_Explicit)) in
t | val non_informative_witness_rt (u: R.universe) (a: R.term) : R.term
let non_informative_witness_rt (u: R.universe) (a: R.term) : R.term = | false | null | false | let open R in
let t = pack_ln (Tv_UInst (pack_fv non_informative_witness_lid) [u]) in
let t = pack_ln (Tv_App t (a, Q_Explicit)) in
t | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.Types.universe",
"FStar.Reflection.Types.term",
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_App",
"FStar.Pervasives.Native.Mktuple2",
"FStar.Reflection.V2.Data.aqualv",
"FStar.Reflection.V2.Data.Q_Explicit",
"FStar.Reflection.V2.Data.Tv_UInst",
"FStar.Reflection.V2.Builtins.pack_fv",
"Pulse.Reflection.Util.non_informative_witness_lid",
"Prims.Cons",
"Prims.Nil"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv
let mk_total t = R.C_Total t
let mk_ghost t = R.C_GTotal t
let binder_of_t_q t q = RT.binder_of_t_q t q
let binder_of_t_q_s (t:R.term) (q:R.aqualv) (s:RT.pp_name_t) = RT.mk_binder s t q
let bound_var i : R.term = RT.bound_var i
let mk_name i : R.term = R.pack_ln (R.Tv_Var (R.pack_namedv (RT.make_namedv i)))
let arrow_dom = (R.term & R.aqualv)
let mk_arrow (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q ty q) (R.pack_comp (mk_total out)))
let mk_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_total out)))
let mk_ghost_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_ghost out)))
let mk_abs ty qual t : R.term = RT.mk_abs ty qual t
let mk_abs_with_name s ty qual t : R.term = R.pack_ln (R.Tv_Abs (binder_of_t_q_s ty qual s) t)
let mk_abs_with_name_and_range s r ty qual t : R.term =
let b = (binder_of_t_q_s ty qual s) in
let b = RU.binder_set_range b r in
R.pack_ln (R.Tv_Abs b t)
let mk_erased (u:R.universe) (t:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv erased_lid) [u]) in
R.pack_ln (R.Tv_App hd (t, R.Q_Explicit))
let mk_reveal (u:R.universe) (t:R.term) (e:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv reveal_lid) [u]) in
let hd = R.pack_ln (R.Tv_App hd (t, R.Q_Implicit)) in
R.pack_ln (R.Tv_App hd (e, R.Q_Explicit))
let elim_exists_lid = mk_pulse_lib_core_lid "elim_exists"
let intro_exists_lid = mk_pulse_lib_core_lid "intro_exists"
let intro_exists_erased_lid = mk_pulse_lib_core_lid "intro_exists_erased"
let mk_exists (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_forall (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv forall_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_elim_exists (u:R.universe) (a p:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv elim_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_intro_exists (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let mk_intro_exists_erased (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_erased_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let while_lid = mk_pulse_lib_core_lid "while_loop"
let mk_while (inv cond body:R.term) : R.term =
let t = R.pack_ln (R.Tv_FVar (R.pack_fv while_lid)) in
let t = R.pack_ln (R.Tv_App t (inv, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (cond, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (body, R.Q_Explicit))
let vprop_eq_tm t1 t2 =
let open R in
let u2 =
pack_universe (Uv_Succ (pack_universe (Uv_Succ (pack_universe Uv_Zero)))) in
let t = pack_ln (Tv_UInst (pack_fv eq2_qn) [u2]) in
let t = pack_ln (Tv_App t (pack_ln (Tv_FVar (pack_fv vprop_lid)), Q_Implicit)) in
let t = pack_ln (Tv_App t (t1, Q_Explicit)) in
let t = pack_ln (Tv_App t (t2, Q_Explicit)) in
t
let emp_inames_tm : R.term = R.pack_ln (R.Tv_FVar (R.pack_fv emp_inames_lid))
let non_informative_witness_lid = mk_pulse_lib_core_lid "non_informative_witness" | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val non_informative_witness_rt (u: R.universe) (a: R.term) : R.term | [] | Pulse.Reflection.Util.non_informative_witness_rt | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | u118: FStar.Reflection.Types.universe -> a: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | {
"end_col": 3,
"end_line": 265,
"start_col": 2,
"start_line": 262
} |
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let return_stt_noeq_lid = mk_pulse_lib_core_lid "return" | let return_stt_noeq_lid = | false | null | false | mk_pulse_lib_core_lid "return" | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"Pulse.Reflection.Util.mk_pulse_lib_core_lid"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv
let mk_total t = R.C_Total t
let mk_ghost t = R.C_GTotal t
let binder_of_t_q t q = RT.binder_of_t_q t q
let binder_of_t_q_s (t:R.term) (q:R.aqualv) (s:RT.pp_name_t) = RT.mk_binder s t q
let bound_var i : R.term = RT.bound_var i
let mk_name i : R.term = R.pack_ln (R.Tv_Var (R.pack_namedv (RT.make_namedv i)))
let arrow_dom = (R.term & R.aqualv)
let mk_arrow (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q ty q) (R.pack_comp (mk_total out)))
let mk_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_total out)))
let mk_ghost_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_ghost out)))
let mk_abs ty qual t : R.term = RT.mk_abs ty qual t
let mk_abs_with_name s ty qual t : R.term = R.pack_ln (R.Tv_Abs (binder_of_t_q_s ty qual s) t)
let mk_abs_with_name_and_range s r ty qual t : R.term =
let b = (binder_of_t_q_s ty qual s) in
let b = RU.binder_set_range b r in
R.pack_ln (R.Tv_Abs b t)
let mk_erased (u:R.universe) (t:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv erased_lid) [u]) in
R.pack_ln (R.Tv_App hd (t, R.Q_Explicit))
let mk_reveal (u:R.universe) (t:R.term) (e:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv reveal_lid) [u]) in
let hd = R.pack_ln (R.Tv_App hd (t, R.Q_Implicit)) in
R.pack_ln (R.Tv_App hd (e, R.Q_Explicit))
let elim_exists_lid = mk_pulse_lib_core_lid "elim_exists"
let intro_exists_lid = mk_pulse_lib_core_lid "intro_exists"
let intro_exists_erased_lid = mk_pulse_lib_core_lid "intro_exists_erased"
let mk_exists (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_forall (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv forall_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_elim_exists (u:R.universe) (a p:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv elim_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_intro_exists (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let mk_intro_exists_erased (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_erased_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let while_lid = mk_pulse_lib_core_lid "while_loop"
let mk_while (inv cond body:R.term) : R.term =
let t = R.pack_ln (R.Tv_FVar (R.pack_fv while_lid)) in
let t = R.pack_ln (R.Tv_App t (inv, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (cond, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (body, R.Q_Explicit))
let vprop_eq_tm t1 t2 =
let open R in
let u2 =
pack_universe (Uv_Succ (pack_universe (Uv_Succ (pack_universe Uv_Zero)))) in
let t = pack_ln (Tv_UInst (pack_fv eq2_qn) [u2]) in
let t = pack_ln (Tv_App t (pack_ln (Tv_FVar (pack_fv vprop_lid)), Q_Implicit)) in
let t = pack_ln (Tv_App t (t1, Q_Explicit)) in
let t = pack_ln (Tv_App t (t2, Q_Explicit)) in
t
let emp_inames_tm : R.term = R.pack_ln (R.Tv_FVar (R.pack_fv emp_inames_lid))
let non_informative_witness_lid = mk_pulse_lib_core_lid "non_informative_witness"
let non_informative_witness_rt (u:R.universe) (a:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv non_informative_witness_lid) [u]) in
let t = pack_ln (Tv_App t (a, Q_Explicit)) in
t
let stt_vprop_equiv_fv =
R.pack_fv (mk_pulse_lib_core_lid "vprop_equiv")
let stt_vprop_equiv_tm =
R.pack_ln (R.Tv_FVar stt_vprop_equiv_fv)
let stt_vprop_equiv (t1 t2:R.term) =
let open R in
let t = pack_ln (Tv_App stt_vprop_equiv_tm (t1, Q_Explicit)) in
pack_ln (Tv_App t (t2, Q_Explicit)) | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val return_stt_noeq_lid : Prims.list Prims.string | [] | Pulse.Reflection.Util.return_stt_noeq_lid | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | Prims.list Prims.string | {
"end_col": 56,
"end_line": 278,
"start_col": 26,
"start_line": 278
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let return_stt_atomic_noeq_lid = mk_pulse_lib_core_lid "return_stt_atomic_noeq" | let return_stt_atomic_noeq_lid = | false | null | false | mk_pulse_lib_core_lid "return_stt_atomic_noeq" | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"Pulse.Reflection.Util.mk_pulse_lib_core_lid"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv
let mk_total t = R.C_Total t
let mk_ghost t = R.C_GTotal t
let binder_of_t_q t q = RT.binder_of_t_q t q
let binder_of_t_q_s (t:R.term) (q:R.aqualv) (s:RT.pp_name_t) = RT.mk_binder s t q
let bound_var i : R.term = RT.bound_var i
let mk_name i : R.term = R.pack_ln (R.Tv_Var (R.pack_namedv (RT.make_namedv i)))
let arrow_dom = (R.term & R.aqualv)
let mk_arrow (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q ty q) (R.pack_comp (mk_total out)))
let mk_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_total out)))
let mk_ghost_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_ghost out)))
let mk_abs ty qual t : R.term = RT.mk_abs ty qual t
let mk_abs_with_name s ty qual t : R.term = R.pack_ln (R.Tv_Abs (binder_of_t_q_s ty qual s) t)
let mk_abs_with_name_and_range s r ty qual t : R.term =
let b = (binder_of_t_q_s ty qual s) in
let b = RU.binder_set_range b r in
R.pack_ln (R.Tv_Abs b t)
let mk_erased (u:R.universe) (t:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv erased_lid) [u]) in
R.pack_ln (R.Tv_App hd (t, R.Q_Explicit))
let mk_reveal (u:R.universe) (t:R.term) (e:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv reveal_lid) [u]) in
let hd = R.pack_ln (R.Tv_App hd (t, R.Q_Implicit)) in
R.pack_ln (R.Tv_App hd (e, R.Q_Explicit))
let elim_exists_lid = mk_pulse_lib_core_lid "elim_exists"
let intro_exists_lid = mk_pulse_lib_core_lid "intro_exists"
let intro_exists_erased_lid = mk_pulse_lib_core_lid "intro_exists_erased"
let mk_exists (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_forall (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv forall_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_elim_exists (u:R.universe) (a p:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv elim_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_intro_exists (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let mk_intro_exists_erased (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_erased_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let while_lid = mk_pulse_lib_core_lid "while_loop"
let mk_while (inv cond body:R.term) : R.term =
let t = R.pack_ln (R.Tv_FVar (R.pack_fv while_lid)) in
let t = R.pack_ln (R.Tv_App t (inv, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (cond, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (body, R.Q_Explicit))
let vprop_eq_tm t1 t2 =
let open R in
let u2 =
pack_universe (Uv_Succ (pack_universe (Uv_Succ (pack_universe Uv_Zero)))) in
let t = pack_ln (Tv_UInst (pack_fv eq2_qn) [u2]) in
let t = pack_ln (Tv_App t (pack_ln (Tv_FVar (pack_fv vprop_lid)), Q_Implicit)) in
let t = pack_ln (Tv_App t (t1, Q_Explicit)) in
let t = pack_ln (Tv_App t (t2, Q_Explicit)) in
t
let emp_inames_tm : R.term = R.pack_ln (R.Tv_FVar (R.pack_fv emp_inames_lid))
let non_informative_witness_lid = mk_pulse_lib_core_lid "non_informative_witness"
let non_informative_witness_rt (u:R.universe) (a:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv non_informative_witness_lid) [u]) in
let t = pack_ln (Tv_App t (a, Q_Explicit)) in
t
let stt_vprop_equiv_fv =
R.pack_fv (mk_pulse_lib_core_lid "vprop_equiv")
let stt_vprop_equiv_tm =
R.pack_ln (R.Tv_FVar stt_vprop_equiv_fv)
let stt_vprop_equiv (t1 t2:R.term) =
let open R in
let t = pack_ln (Tv_App stt_vprop_equiv_tm (t1, Q_Explicit)) in
pack_ln (Tv_App t (t2, Q_Explicit))
let return_stt_lid = mk_pulse_lib_core_lid "return_stt"
let return_stt_noeq_lid = mk_pulse_lib_core_lid "return" | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val return_stt_atomic_noeq_lid : Prims.list Prims.string | [] | Pulse.Reflection.Util.return_stt_atomic_noeq_lid | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | Prims.list Prims.string | {
"end_col": 79,
"end_line": 280,
"start_col": 33,
"start_line": 280
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let stt_vprop_equiv_fv =
R.pack_fv (mk_pulse_lib_core_lid "vprop_equiv") | let stt_vprop_equiv_fv = | false | null | false | R.pack_fv (mk_pulse_lib_core_lid "vprop_equiv") | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.V2.Builtins.pack_fv",
"Pulse.Reflection.Util.mk_pulse_lib_core_lid"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv
let mk_total t = R.C_Total t
let mk_ghost t = R.C_GTotal t
let binder_of_t_q t q = RT.binder_of_t_q t q
let binder_of_t_q_s (t:R.term) (q:R.aqualv) (s:RT.pp_name_t) = RT.mk_binder s t q
let bound_var i : R.term = RT.bound_var i
let mk_name i : R.term = R.pack_ln (R.Tv_Var (R.pack_namedv (RT.make_namedv i)))
let arrow_dom = (R.term & R.aqualv)
let mk_arrow (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q ty q) (R.pack_comp (mk_total out)))
let mk_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_total out)))
let mk_ghost_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_ghost out)))
let mk_abs ty qual t : R.term = RT.mk_abs ty qual t
let mk_abs_with_name s ty qual t : R.term = R.pack_ln (R.Tv_Abs (binder_of_t_q_s ty qual s) t)
let mk_abs_with_name_and_range s r ty qual t : R.term =
let b = (binder_of_t_q_s ty qual s) in
let b = RU.binder_set_range b r in
R.pack_ln (R.Tv_Abs b t)
let mk_erased (u:R.universe) (t:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv erased_lid) [u]) in
R.pack_ln (R.Tv_App hd (t, R.Q_Explicit))
let mk_reveal (u:R.universe) (t:R.term) (e:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv reveal_lid) [u]) in
let hd = R.pack_ln (R.Tv_App hd (t, R.Q_Implicit)) in
R.pack_ln (R.Tv_App hd (e, R.Q_Explicit))
let elim_exists_lid = mk_pulse_lib_core_lid "elim_exists"
let intro_exists_lid = mk_pulse_lib_core_lid "intro_exists"
let intro_exists_erased_lid = mk_pulse_lib_core_lid "intro_exists_erased"
let mk_exists (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_forall (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv forall_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_elim_exists (u:R.universe) (a p:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv elim_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_intro_exists (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let mk_intro_exists_erased (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_erased_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let while_lid = mk_pulse_lib_core_lid "while_loop"
let mk_while (inv cond body:R.term) : R.term =
let t = R.pack_ln (R.Tv_FVar (R.pack_fv while_lid)) in
let t = R.pack_ln (R.Tv_App t (inv, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (cond, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (body, R.Q_Explicit))
let vprop_eq_tm t1 t2 =
let open R in
let u2 =
pack_universe (Uv_Succ (pack_universe (Uv_Succ (pack_universe Uv_Zero)))) in
let t = pack_ln (Tv_UInst (pack_fv eq2_qn) [u2]) in
let t = pack_ln (Tv_App t (pack_ln (Tv_FVar (pack_fv vprop_lid)), Q_Implicit)) in
let t = pack_ln (Tv_App t (t1, Q_Explicit)) in
let t = pack_ln (Tv_App t (t2, Q_Explicit)) in
t
let emp_inames_tm : R.term = R.pack_ln (R.Tv_FVar (R.pack_fv emp_inames_lid))
let non_informative_witness_lid = mk_pulse_lib_core_lid "non_informative_witness"
let non_informative_witness_rt (u:R.universe) (a:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv non_informative_witness_lid) [u]) in
let t = pack_ln (Tv_App t (a, Q_Explicit)) in
t | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val stt_vprop_equiv_fv : FStar.Reflection.Types.fv | [] | Pulse.Reflection.Util.stt_vprop_equiv_fv | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | FStar.Reflection.Types.fv | {
"end_col": 49,
"end_line": 269,
"start_col": 2,
"start_line": 269
} |
|
Prims.Tot | val mk_elim_exists (u: R.universe) (a p: R.term) : R.term | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let mk_elim_exists (u:R.universe) (a p:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv elim_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) | val mk_elim_exists (u: R.universe) (a p: R.term) : R.term
let mk_elim_exists (u: R.universe) (a p: R.term) : R.term = | false | null | false | let t = R.pack_ln (R.Tv_UInst (R.pack_fv elim_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.Types.universe",
"FStar.Reflection.Types.term",
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_App",
"FStar.Pervasives.Native.Mktuple2",
"FStar.Reflection.V2.Data.aqualv",
"FStar.Reflection.V2.Data.Q_Explicit",
"FStar.Reflection.V2.Data.Q_Implicit",
"FStar.Reflection.V2.Data.Tv_UInst",
"FStar.Reflection.V2.Builtins.pack_fv",
"Pulse.Reflection.Util.elim_exists_lid",
"Prims.Cons",
"Prims.Nil"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv
let mk_total t = R.C_Total t
let mk_ghost t = R.C_GTotal t
let binder_of_t_q t q = RT.binder_of_t_q t q
let binder_of_t_q_s (t:R.term) (q:R.aqualv) (s:RT.pp_name_t) = RT.mk_binder s t q
let bound_var i : R.term = RT.bound_var i
let mk_name i : R.term = R.pack_ln (R.Tv_Var (R.pack_namedv (RT.make_namedv i)))
let arrow_dom = (R.term & R.aqualv)
let mk_arrow (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q ty q) (R.pack_comp (mk_total out)))
let mk_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_total out)))
let mk_ghost_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_ghost out)))
let mk_abs ty qual t : R.term = RT.mk_abs ty qual t
let mk_abs_with_name s ty qual t : R.term = R.pack_ln (R.Tv_Abs (binder_of_t_q_s ty qual s) t)
let mk_abs_with_name_and_range s r ty qual t : R.term =
let b = (binder_of_t_q_s ty qual s) in
let b = RU.binder_set_range b r in
R.pack_ln (R.Tv_Abs b t)
let mk_erased (u:R.universe) (t:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv erased_lid) [u]) in
R.pack_ln (R.Tv_App hd (t, R.Q_Explicit))
let mk_reveal (u:R.universe) (t:R.term) (e:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv reveal_lid) [u]) in
let hd = R.pack_ln (R.Tv_App hd (t, R.Q_Implicit)) in
R.pack_ln (R.Tv_App hd (e, R.Q_Explicit))
let elim_exists_lid = mk_pulse_lib_core_lid "elim_exists"
let intro_exists_lid = mk_pulse_lib_core_lid "intro_exists"
let intro_exists_erased_lid = mk_pulse_lib_core_lid "intro_exists_erased"
let mk_exists (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_forall (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv forall_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val mk_elim_exists (u: R.universe) (a p: R.term) : R.term | [] | Pulse.Reflection.Util.mk_elim_exists | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} |
u103: FStar.Reflection.Types.universe ->
a: FStar.Reflection.Types.term ->
p: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | {
"end_col": 42,
"end_line": 226,
"start_col": 57,
"start_line": 223
} |
Prims.Tot | val mk_stt_ghost_return_noeq (u: R.universe) (ty t post: R.term) : R.term | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let mk_stt_ghost_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_ghost_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit)) | val mk_stt_ghost_return_noeq (u: R.universe) (ty t post: R.term) : R.term
let mk_stt_ghost_return_noeq (u: R.universe) (ty t post: R.term) : R.term = | false | null | false | let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_ghost_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit)) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.Types.universe",
"FStar.Reflection.Types.term",
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_App",
"FStar.Pervasives.Native.Mktuple2",
"FStar.Reflection.V2.Data.aqualv",
"FStar.Reflection.V2.Data.Q_Explicit",
"FStar.Reflection.V2.Data.Q_Implicit",
"FStar.Reflection.V2.Data.Tv_UInst",
"FStar.Reflection.V2.Builtins.pack_fv",
"Pulse.Reflection.Util.return_stt_ghost_noeq_lid",
"Prims.Cons",
"Prims.Nil"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv
let mk_total t = R.C_Total t
let mk_ghost t = R.C_GTotal t
let binder_of_t_q t q = RT.binder_of_t_q t q
let binder_of_t_q_s (t:R.term) (q:R.aqualv) (s:RT.pp_name_t) = RT.mk_binder s t q
let bound_var i : R.term = RT.bound_var i
let mk_name i : R.term = R.pack_ln (R.Tv_Var (R.pack_namedv (RT.make_namedv i)))
let arrow_dom = (R.term & R.aqualv)
let mk_arrow (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q ty q) (R.pack_comp (mk_total out)))
let mk_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_total out)))
let mk_ghost_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_ghost out)))
let mk_abs ty qual t : R.term = RT.mk_abs ty qual t
let mk_abs_with_name s ty qual t : R.term = R.pack_ln (R.Tv_Abs (binder_of_t_q_s ty qual s) t)
let mk_abs_with_name_and_range s r ty qual t : R.term =
let b = (binder_of_t_q_s ty qual s) in
let b = RU.binder_set_range b r in
R.pack_ln (R.Tv_Abs b t)
let mk_erased (u:R.universe) (t:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv erased_lid) [u]) in
R.pack_ln (R.Tv_App hd (t, R.Q_Explicit))
let mk_reveal (u:R.universe) (t:R.term) (e:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv reveal_lid) [u]) in
let hd = R.pack_ln (R.Tv_App hd (t, R.Q_Implicit)) in
R.pack_ln (R.Tv_App hd (e, R.Q_Explicit))
let elim_exists_lid = mk_pulse_lib_core_lid "elim_exists"
let intro_exists_lid = mk_pulse_lib_core_lid "intro_exists"
let intro_exists_erased_lid = mk_pulse_lib_core_lid "intro_exists_erased"
let mk_exists (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_forall (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv forall_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_elim_exists (u:R.universe) (a p:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv elim_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_intro_exists (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let mk_intro_exists_erased (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_erased_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let while_lid = mk_pulse_lib_core_lid "while_loop"
let mk_while (inv cond body:R.term) : R.term =
let t = R.pack_ln (R.Tv_FVar (R.pack_fv while_lid)) in
let t = R.pack_ln (R.Tv_App t (inv, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (cond, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (body, R.Q_Explicit))
let vprop_eq_tm t1 t2 =
let open R in
let u2 =
pack_universe (Uv_Succ (pack_universe (Uv_Succ (pack_universe Uv_Zero)))) in
let t = pack_ln (Tv_UInst (pack_fv eq2_qn) [u2]) in
let t = pack_ln (Tv_App t (pack_ln (Tv_FVar (pack_fv vprop_lid)), Q_Implicit)) in
let t = pack_ln (Tv_App t (t1, Q_Explicit)) in
let t = pack_ln (Tv_App t (t2, Q_Explicit)) in
t
let emp_inames_tm : R.term = R.pack_ln (R.Tv_FVar (R.pack_fv emp_inames_lid))
let non_informative_witness_lid = mk_pulse_lib_core_lid "non_informative_witness"
let non_informative_witness_rt (u:R.universe) (a:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv non_informative_witness_lid) [u]) in
let t = pack_ln (Tv_App t (a, Q_Explicit)) in
t
let stt_vprop_equiv_fv =
R.pack_fv (mk_pulse_lib_core_lid "vprop_equiv")
let stt_vprop_equiv_tm =
R.pack_ln (R.Tv_FVar stt_vprop_equiv_fv)
let stt_vprop_equiv (t1 t2:R.term) =
let open R in
let t = pack_ln (Tv_App stt_vprop_equiv_tm (t1, Q_Explicit)) in
pack_ln (Tv_App t (t2, Q_Explicit))
let return_stt_lid = mk_pulse_lib_core_lid "return_stt"
let return_stt_noeq_lid = mk_pulse_lib_core_lid "return"
let return_stt_atomic_lid = mk_pulse_lib_core_lid "return_stt_atomic"
let return_stt_atomic_noeq_lid = mk_pulse_lib_core_lid "return_stt_atomic_noeq"
let return_stt_ghost_lid = mk_pulse_lib_core_lid "return_stt_ghost"
let return_stt_ghost_noeq_lid = mk_pulse_lib_core_lid "return_stt_ghost_noeq"
let mk_stt_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_atomic_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_atomic_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_atomic_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_atomic_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_ghost_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit)) | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val mk_stt_ghost_return_noeq (u: R.universe) (ty t post: R.term) : R.term | [] | Pulse.Reflection.Util.mk_stt_ghost_return_noeq | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} |
u144: FStar.Reflection.Types.universe ->
ty: FStar.Reflection.Types.term ->
t: FStar.Reflection.Types.term ->
post: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | {
"end_col": 45,
"end_line": 330,
"start_col": 12,
"start_line": 325
} |
Prims.Tot | val mk_stt_return_noeq (u: R.universe) (ty t post: R.term) : R.term | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let mk_stt_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit)) | val mk_stt_return_noeq (u: R.universe) (ty t post: R.term) : R.term
let mk_stt_return_noeq (u: R.universe) (ty t post: R.term) : R.term = | false | null | false | let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit)) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.Types.universe",
"FStar.Reflection.Types.term",
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_App",
"FStar.Pervasives.Native.Mktuple2",
"FStar.Reflection.V2.Data.aqualv",
"FStar.Reflection.V2.Data.Q_Explicit",
"FStar.Reflection.V2.Data.Q_Implicit",
"FStar.Reflection.V2.Data.Tv_UInst",
"FStar.Reflection.V2.Builtins.pack_fv",
"Pulse.Reflection.Util.return_stt_noeq_lid",
"Prims.Cons",
"Prims.Nil"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv
let mk_total t = R.C_Total t
let mk_ghost t = R.C_GTotal t
let binder_of_t_q t q = RT.binder_of_t_q t q
let binder_of_t_q_s (t:R.term) (q:R.aqualv) (s:RT.pp_name_t) = RT.mk_binder s t q
let bound_var i : R.term = RT.bound_var i
let mk_name i : R.term = R.pack_ln (R.Tv_Var (R.pack_namedv (RT.make_namedv i)))
let arrow_dom = (R.term & R.aqualv)
let mk_arrow (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q ty q) (R.pack_comp (mk_total out)))
let mk_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_total out)))
let mk_ghost_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_ghost out)))
let mk_abs ty qual t : R.term = RT.mk_abs ty qual t
let mk_abs_with_name s ty qual t : R.term = R.pack_ln (R.Tv_Abs (binder_of_t_q_s ty qual s) t)
let mk_abs_with_name_and_range s r ty qual t : R.term =
let b = (binder_of_t_q_s ty qual s) in
let b = RU.binder_set_range b r in
R.pack_ln (R.Tv_Abs b t)
let mk_erased (u:R.universe) (t:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv erased_lid) [u]) in
R.pack_ln (R.Tv_App hd (t, R.Q_Explicit))
let mk_reveal (u:R.universe) (t:R.term) (e:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv reveal_lid) [u]) in
let hd = R.pack_ln (R.Tv_App hd (t, R.Q_Implicit)) in
R.pack_ln (R.Tv_App hd (e, R.Q_Explicit))
let elim_exists_lid = mk_pulse_lib_core_lid "elim_exists"
let intro_exists_lid = mk_pulse_lib_core_lid "intro_exists"
let intro_exists_erased_lid = mk_pulse_lib_core_lid "intro_exists_erased"
let mk_exists (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_forall (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv forall_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_elim_exists (u:R.universe) (a p:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv elim_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_intro_exists (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let mk_intro_exists_erased (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_erased_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let while_lid = mk_pulse_lib_core_lid "while_loop"
let mk_while (inv cond body:R.term) : R.term =
let t = R.pack_ln (R.Tv_FVar (R.pack_fv while_lid)) in
let t = R.pack_ln (R.Tv_App t (inv, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (cond, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (body, R.Q_Explicit))
let vprop_eq_tm t1 t2 =
let open R in
let u2 =
pack_universe (Uv_Succ (pack_universe (Uv_Succ (pack_universe Uv_Zero)))) in
let t = pack_ln (Tv_UInst (pack_fv eq2_qn) [u2]) in
let t = pack_ln (Tv_App t (pack_ln (Tv_FVar (pack_fv vprop_lid)), Q_Implicit)) in
let t = pack_ln (Tv_App t (t1, Q_Explicit)) in
let t = pack_ln (Tv_App t (t2, Q_Explicit)) in
t
let emp_inames_tm : R.term = R.pack_ln (R.Tv_FVar (R.pack_fv emp_inames_lid))
let non_informative_witness_lid = mk_pulse_lib_core_lid "non_informative_witness"
let non_informative_witness_rt (u:R.universe) (a:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv non_informative_witness_lid) [u]) in
let t = pack_ln (Tv_App t (a, Q_Explicit)) in
t
let stt_vprop_equiv_fv =
R.pack_fv (mk_pulse_lib_core_lid "vprop_equiv")
let stt_vprop_equiv_tm =
R.pack_ln (R.Tv_FVar stt_vprop_equiv_fv)
let stt_vprop_equiv (t1 t2:R.term) =
let open R in
let t = pack_ln (Tv_App stt_vprop_equiv_tm (t1, Q_Explicit)) in
pack_ln (Tv_App t (t2, Q_Explicit))
let return_stt_lid = mk_pulse_lib_core_lid "return_stt"
let return_stt_noeq_lid = mk_pulse_lib_core_lid "return"
let return_stt_atomic_lid = mk_pulse_lib_core_lid "return_stt_atomic"
let return_stt_atomic_noeq_lid = mk_pulse_lib_core_lid "return_stt_atomic_noeq"
let return_stt_ghost_lid = mk_pulse_lib_core_lid "return_stt_ghost"
let return_stt_ghost_noeq_lid = mk_pulse_lib_core_lid "return_stt_ghost_noeq"
let mk_stt_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit)) | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val mk_stt_return_noeq (u: R.universe) (ty t post: R.term) : R.term | [] | Pulse.Reflection.Util.mk_stt_return_noeq | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} |
u128: FStar.Reflection.Types.universe ->
ty: FStar.Reflection.Types.term ->
t: FStar.Reflection.Types.term ->
post: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | {
"end_col": 45,
"end_line": 298,
"start_col": 12,
"start_line": 293
} |
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let mk_frame_stt_ghost (u:R.universe) (a opened pre post frame e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "frame_stt_ghost" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (frame, Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit)) | let mk_frame_stt_ghost (u: R.universe) (a opened pre post frame e: R.term) = | false | null | false | let open R in
let lid = mk_pulse_lib_core_lid "frame_stt_ghost" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (frame, Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit)) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.Types.universe",
"FStar.Reflection.Types.term",
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_App",
"FStar.Pervasives.Native.Mktuple2",
"FStar.Reflection.V2.Data.aqualv",
"FStar.Reflection.V2.Data.Q_Explicit",
"FStar.Reflection.V2.Data.Q_Implicit",
"FStar.Reflection.V2.Data.Tv_UInst",
"FStar.Reflection.V2.Builtins.pack_fv",
"Prims.Cons",
"Prims.Nil",
"Prims.list",
"Prims.string",
"Pulse.Reflection.Util.mk_pulse_lib_core_lid"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv
let mk_total t = R.C_Total t
let mk_ghost t = R.C_GTotal t
let binder_of_t_q t q = RT.binder_of_t_q t q
let binder_of_t_q_s (t:R.term) (q:R.aqualv) (s:RT.pp_name_t) = RT.mk_binder s t q
let bound_var i : R.term = RT.bound_var i
let mk_name i : R.term = R.pack_ln (R.Tv_Var (R.pack_namedv (RT.make_namedv i)))
let arrow_dom = (R.term & R.aqualv)
let mk_arrow (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q ty q) (R.pack_comp (mk_total out)))
let mk_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_total out)))
let mk_ghost_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_ghost out)))
let mk_abs ty qual t : R.term = RT.mk_abs ty qual t
let mk_abs_with_name s ty qual t : R.term = R.pack_ln (R.Tv_Abs (binder_of_t_q_s ty qual s) t)
let mk_abs_with_name_and_range s r ty qual t : R.term =
let b = (binder_of_t_q_s ty qual s) in
let b = RU.binder_set_range b r in
R.pack_ln (R.Tv_Abs b t)
let mk_erased (u:R.universe) (t:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv erased_lid) [u]) in
R.pack_ln (R.Tv_App hd (t, R.Q_Explicit))
let mk_reveal (u:R.universe) (t:R.term) (e:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv reveal_lid) [u]) in
let hd = R.pack_ln (R.Tv_App hd (t, R.Q_Implicit)) in
R.pack_ln (R.Tv_App hd (e, R.Q_Explicit))
let elim_exists_lid = mk_pulse_lib_core_lid "elim_exists"
let intro_exists_lid = mk_pulse_lib_core_lid "intro_exists"
let intro_exists_erased_lid = mk_pulse_lib_core_lid "intro_exists_erased"
let mk_exists (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_forall (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv forall_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_elim_exists (u:R.universe) (a p:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv elim_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_intro_exists (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let mk_intro_exists_erased (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_erased_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let while_lid = mk_pulse_lib_core_lid "while_loop"
let mk_while (inv cond body:R.term) : R.term =
let t = R.pack_ln (R.Tv_FVar (R.pack_fv while_lid)) in
let t = R.pack_ln (R.Tv_App t (inv, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (cond, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (body, R.Q_Explicit))
let vprop_eq_tm t1 t2 =
let open R in
let u2 =
pack_universe (Uv_Succ (pack_universe (Uv_Succ (pack_universe Uv_Zero)))) in
let t = pack_ln (Tv_UInst (pack_fv eq2_qn) [u2]) in
let t = pack_ln (Tv_App t (pack_ln (Tv_FVar (pack_fv vprop_lid)), Q_Implicit)) in
let t = pack_ln (Tv_App t (t1, Q_Explicit)) in
let t = pack_ln (Tv_App t (t2, Q_Explicit)) in
t
let emp_inames_tm : R.term = R.pack_ln (R.Tv_FVar (R.pack_fv emp_inames_lid))
let non_informative_witness_lid = mk_pulse_lib_core_lid "non_informative_witness"
let non_informative_witness_rt (u:R.universe) (a:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv non_informative_witness_lid) [u]) in
let t = pack_ln (Tv_App t (a, Q_Explicit)) in
t
let stt_vprop_equiv_fv =
R.pack_fv (mk_pulse_lib_core_lid "vprop_equiv")
let stt_vprop_equiv_tm =
R.pack_ln (R.Tv_FVar stt_vprop_equiv_fv)
let stt_vprop_equiv (t1 t2:R.term) =
let open R in
let t = pack_ln (Tv_App stt_vprop_equiv_tm (t1, Q_Explicit)) in
pack_ln (Tv_App t (t2, Q_Explicit))
let return_stt_lid = mk_pulse_lib_core_lid "return_stt"
let return_stt_noeq_lid = mk_pulse_lib_core_lid "return"
let return_stt_atomic_lid = mk_pulse_lib_core_lid "return_stt_atomic"
let return_stt_atomic_noeq_lid = mk_pulse_lib_core_lid "return_stt_atomic_noeq"
let return_stt_ghost_lid = mk_pulse_lib_core_lid "return_stt_ghost"
let return_stt_ghost_noeq_lid = mk_pulse_lib_core_lid "return_stt_ghost_noeq"
let mk_stt_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_atomic_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_atomic_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_atomic_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_atomic_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_ghost_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_ghost_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
// Wrapper.lift_stt_atomic<u> #a #pre #post e
let mk_lift_atomic_stt (u:R.universe) (a pre post e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "lift_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.lift_stt_ghost<u> #a #opened #pre #post e reveal_a
let mk_lift_ghost_atomic (u:R.universe) (a opened pre post e reveal_a:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "lift_stt_ghost" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_a, Q_Explicit))
// Wrapper.bind_stt<u1, u2> #a #b #pre1 #post1 #post2 e1 e2
let mk_bind_stt
(u1 u2:R.universe)
(ty1 ty2:R.term)
(pre1 post1: R.term)
(post2: R.term)
(t1 t2:R.term)
: R.term
= let bind_lid = mk_pulse_lib_core_lid "bind_stt" in
let head = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app head
[(ty1, R.Q_Implicit)])
[(ty2, R.Q_Implicit)])
[(pre1, R.Q_Implicit)])
[(post1, R.Q_Implicit)])
[(post2, R.Q_Implicit)])
[(t1, R.Q_Explicit)])
[(t2, R.Q_Explicit)]
// Wrapper.bind_sttg<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2
let mk_bind_ghost
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_sttg" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
pack_ln (R.Tv_App t (e2, Q_Explicit))
// Wrapper.bind_stt_ghost_atomic<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2 reveal_a
let mk_bind_ghost_atomic
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2 reveal_a:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_stt_ghost_atomic" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (e2, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_a, Q_Explicit))
// Wrapper.bind_stt_atomic_ghost<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2 reveal_b
let mk_bind_atomic_ghost
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2 reveal_b:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_stt_atomic_ghost" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (e2, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_b, Q_Explicit))
// Wrapper.frame_stt<u> #ty #pre #post frame t
let mk_frame_stt
(u:R.universe)
(ty:R.term)
(pre: R.term)
(post: R.term)
(frame: R.term)
(t:R.term)
: R.term
= let frame_lid = mk_pulse_lib_core_lid "frame_stt" in
let frame_fv = R.pack_fv frame_lid in
let frame_univ_inst u = R.pack_ln (R.Tv_UInst (R.pack_fv frame_lid) [u]) in
let head = frame_univ_inst u in
R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app head [(ty, R.Q_Implicit)])
[(pre, R.Q_Implicit)])
[(post, R.Q_Implicit)])
[(frame, R.Q_Explicit)])
[(t, R.Q_Explicit)]
// Wrapper.frame_stt_atomic<u> #a #opened #pre #post frame e
let mk_frame_stt_atomic (u:R.universe) (a opened pre post frame e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "frame_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (frame, Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.frame_stt_ghost<u> #a #opened #pre #post frame e | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val mk_frame_stt_ghost : u217: FStar.Reflection.Types.universe ->
a: FStar.Reflection.Types.term ->
opened: FStar.Reflection.Types.term ->
pre: FStar.Reflection.Types.term ->
post: FStar.Reflection.Types.term ->
frame: FStar.Reflection.Types.term ->
e: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | [] | Pulse.Reflection.Util.mk_frame_stt_ghost | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} |
u217: FStar.Reflection.Types.universe ->
a: FStar.Reflection.Types.term ->
opened: FStar.Reflection.Types.term ->
pre: FStar.Reflection.Types.term ->
post: FStar.Reflection.Types.term ->
frame: FStar.Reflection.Types.term ->
e: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | {
"end_col": 38,
"end_line": 474,
"start_col": 2,
"start_line": 466
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let mk_bind_atomic_ghost
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2 reveal_b:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_stt_atomic_ghost" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (e2, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_b, Q_Explicit)) | let mk_bind_atomic_ghost (u1 u2: R.universe) (a b opened pre1 post1 post2 e1 e2 reveal_b: R.term) = | false | null | false | let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_stt_atomic_ghost" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1; u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (e2, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_b, Q_Explicit)) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.Types.universe",
"FStar.Reflection.Types.term",
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_App",
"FStar.Pervasives.Native.Mktuple2",
"FStar.Reflection.V2.Data.aqualv",
"FStar.Reflection.V2.Data.Q_Explicit",
"FStar.Reflection.V2.Data.Q_Implicit",
"FStar.Reflection.V2.Data.Tv_UInst",
"FStar.Reflection.V2.Builtins.pack_fv",
"Prims.Cons",
"Prims.Nil",
"Prims.list",
"Prims.string",
"Pulse.Reflection.Util.mk_pulse_lib_core_lid"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv
let mk_total t = R.C_Total t
let mk_ghost t = R.C_GTotal t
let binder_of_t_q t q = RT.binder_of_t_q t q
let binder_of_t_q_s (t:R.term) (q:R.aqualv) (s:RT.pp_name_t) = RT.mk_binder s t q
let bound_var i : R.term = RT.bound_var i
let mk_name i : R.term = R.pack_ln (R.Tv_Var (R.pack_namedv (RT.make_namedv i)))
let arrow_dom = (R.term & R.aqualv)
let mk_arrow (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q ty q) (R.pack_comp (mk_total out)))
let mk_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_total out)))
let mk_ghost_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_ghost out)))
let mk_abs ty qual t : R.term = RT.mk_abs ty qual t
let mk_abs_with_name s ty qual t : R.term = R.pack_ln (R.Tv_Abs (binder_of_t_q_s ty qual s) t)
let mk_abs_with_name_and_range s r ty qual t : R.term =
let b = (binder_of_t_q_s ty qual s) in
let b = RU.binder_set_range b r in
R.pack_ln (R.Tv_Abs b t)
let mk_erased (u:R.universe) (t:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv erased_lid) [u]) in
R.pack_ln (R.Tv_App hd (t, R.Q_Explicit))
let mk_reveal (u:R.universe) (t:R.term) (e:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv reveal_lid) [u]) in
let hd = R.pack_ln (R.Tv_App hd (t, R.Q_Implicit)) in
R.pack_ln (R.Tv_App hd (e, R.Q_Explicit))
let elim_exists_lid = mk_pulse_lib_core_lid "elim_exists"
let intro_exists_lid = mk_pulse_lib_core_lid "intro_exists"
let intro_exists_erased_lid = mk_pulse_lib_core_lid "intro_exists_erased"
let mk_exists (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_forall (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv forall_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_elim_exists (u:R.universe) (a p:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv elim_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_intro_exists (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let mk_intro_exists_erased (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_erased_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let while_lid = mk_pulse_lib_core_lid "while_loop"
let mk_while (inv cond body:R.term) : R.term =
let t = R.pack_ln (R.Tv_FVar (R.pack_fv while_lid)) in
let t = R.pack_ln (R.Tv_App t (inv, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (cond, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (body, R.Q_Explicit))
let vprop_eq_tm t1 t2 =
let open R in
let u2 =
pack_universe (Uv_Succ (pack_universe (Uv_Succ (pack_universe Uv_Zero)))) in
let t = pack_ln (Tv_UInst (pack_fv eq2_qn) [u2]) in
let t = pack_ln (Tv_App t (pack_ln (Tv_FVar (pack_fv vprop_lid)), Q_Implicit)) in
let t = pack_ln (Tv_App t (t1, Q_Explicit)) in
let t = pack_ln (Tv_App t (t2, Q_Explicit)) in
t
let emp_inames_tm : R.term = R.pack_ln (R.Tv_FVar (R.pack_fv emp_inames_lid))
let non_informative_witness_lid = mk_pulse_lib_core_lid "non_informative_witness"
let non_informative_witness_rt (u:R.universe) (a:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv non_informative_witness_lid) [u]) in
let t = pack_ln (Tv_App t (a, Q_Explicit)) in
t
let stt_vprop_equiv_fv =
R.pack_fv (mk_pulse_lib_core_lid "vprop_equiv")
let stt_vprop_equiv_tm =
R.pack_ln (R.Tv_FVar stt_vprop_equiv_fv)
let stt_vprop_equiv (t1 t2:R.term) =
let open R in
let t = pack_ln (Tv_App stt_vprop_equiv_tm (t1, Q_Explicit)) in
pack_ln (Tv_App t (t2, Q_Explicit))
let return_stt_lid = mk_pulse_lib_core_lid "return_stt"
let return_stt_noeq_lid = mk_pulse_lib_core_lid "return"
let return_stt_atomic_lid = mk_pulse_lib_core_lid "return_stt_atomic"
let return_stt_atomic_noeq_lid = mk_pulse_lib_core_lid "return_stt_atomic_noeq"
let return_stt_ghost_lid = mk_pulse_lib_core_lid "return_stt_ghost"
let return_stt_ghost_noeq_lid = mk_pulse_lib_core_lid "return_stt_ghost_noeq"
let mk_stt_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_atomic_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_atomic_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_atomic_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_atomic_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_ghost_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_ghost_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
// Wrapper.lift_stt_atomic<u> #a #pre #post e
let mk_lift_atomic_stt (u:R.universe) (a pre post e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "lift_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.lift_stt_ghost<u> #a #opened #pre #post e reveal_a
let mk_lift_ghost_atomic (u:R.universe) (a opened pre post e reveal_a:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "lift_stt_ghost" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_a, Q_Explicit))
// Wrapper.bind_stt<u1, u2> #a #b #pre1 #post1 #post2 e1 e2
let mk_bind_stt
(u1 u2:R.universe)
(ty1 ty2:R.term)
(pre1 post1: R.term)
(post2: R.term)
(t1 t2:R.term)
: R.term
= let bind_lid = mk_pulse_lib_core_lid "bind_stt" in
let head = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app head
[(ty1, R.Q_Implicit)])
[(ty2, R.Q_Implicit)])
[(pre1, R.Q_Implicit)])
[(post1, R.Q_Implicit)])
[(post2, R.Q_Implicit)])
[(t1, R.Q_Explicit)])
[(t2, R.Q_Explicit)]
// Wrapper.bind_sttg<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2
let mk_bind_ghost
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_sttg" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
pack_ln (R.Tv_App t (e2, Q_Explicit))
// Wrapper.bind_stt_ghost_atomic<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2 reveal_a
let mk_bind_ghost_atomic
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2 reveal_a:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_stt_ghost_atomic" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (e2, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_a, Q_Explicit))
// Wrapper.bind_stt_atomic_ghost<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2 reveal_b
let mk_bind_atomic_ghost
(u1 u2:R.universe) | false | false | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val mk_bind_atomic_ghost : u1: FStar.Reflection.Types.universe ->
u2: FStar.Reflection.Types.universe ->
a: FStar.Reflection.Types.term ->
b: FStar.Reflection.Types.term ->
opened: FStar.Reflection.Types.term ->
pre1: FStar.Reflection.Types.term ->
post1: FStar.Reflection.Types.term ->
post2: FStar.Reflection.Types.term ->
e1: FStar.Reflection.Types.term ->
e2: FStar.Reflection.Types.term ->
reveal_b: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | [] | Pulse.Reflection.Util.mk_bind_atomic_ghost | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} |
u1: FStar.Reflection.Types.universe ->
u2: FStar.Reflection.Types.universe ->
a: FStar.Reflection.Types.term ->
b: FStar.Reflection.Types.term ->
opened: FStar.Reflection.Types.term ->
pre1: FStar.Reflection.Types.term ->
post1: FStar.Reflection.Types.term ->
post2: FStar.Reflection.Types.term ->
e1: FStar.Reflection.Types.term ->
e2: FStar.Reflection.Types.term ->
reveal_b: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | {
"end_col": 45,
"end_line": 427,
"start_col": 2,
"start_line": 416
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let mk_frame_stt_atomic (u:R.universe) (a opened pre post frame e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "frame_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (frame, Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit)) | let mk_frame_stt_atomic (u: R.universe) (a opened pre post frame e: R.term) = | false | null | false | let open R in
let lid = mk_pulse_lib_core_lid "frame_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (frame, Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit)) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.Types.universe",
"FStar.Reflection.Types.term",
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_App",
"FStar.Pervasives.Native.Mktuple2",
"FStar.Reflection.V2.Data.aqualv",
"FStar.Reflection.V2.Data.Q_Explicit",
"FStar.Reflection.V2.Data.Q_Implicit",
"FStar.Reflection.V2.Data.Tv_UInst",
"FStar.Reflection.V2.Builtins.pack_fv",
"Prims.Cons",
"Prims.Nil",
"Prims.list",
"Prims.string",
"Pulse.Reflection.Util.mk_pulse_lib_core_lid"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv
let mk_total t = R.C_Total t
let mk_ghost t = R.C_GTotal t
let binder_of_t_q t q = RT.binder_of_t_q t q
let binder_of_t_q_s (t:R.term) (q:R.aqualv) (s:RT.pp_name_t) = RT.mk_binder s t q
let bound_var i : R.term = RT.bound_var i
let mk_name i : R.term = R.pack_ln (R.Tv_Var (R.pack_namedv (RT.make_namedv i)))
let arrow_dom = (R.term & R.aqualv)
let mk_arrow (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q ty q) (R.pack_comp (mk_total out)))
let mk_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_total out)))
let mk_ghost_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_ghost out)))
let mk_abs ty qual t : R.term = RT.mk_abs ty qual t
let mk_abs_with_name s ty qual t : R.term = R.pack_ln (R.Tv_Abs (binder_of_t_q_s ty qual s) t)
let mk_abs_with_name_and_range s r ty qual t : R.term =
let b = (binder_of_t_q_s ty qual s) in
let b = RU.binder_set_range b r in
R.pack_ln (R.Tv_Abs b t)
let mk_erased (u:R.universe) (t:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv erased_lid) [u]) in
R.pack_ln (R.Tv_App hd (t, R.Q_Explicit))
let mk_reveal (u:R.universe) (t:R.term) (e:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv reveal_lid) [u]) in
let hd = R.pack_ln (R.Tv_App hd (t, R.Q_Implicit)) in
R.pack_ln (R.Tv_App hd (e, R.Q_Explicit))
let elim_exists_lid = mk_pulse_lib_core_lid "elim_exists"
let intro_exists_lid = mk_pulse_lib_core_lid "intro_exists"
let intro_exists_erased_lid = mk_pulse_lib_core_lid "intro_exists_erased"
let mk_exists (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_forall (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv forall_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_elim_exists (u:R.universe) (a p:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv elim_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_intro_exists (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let mk_intro_exists_erased (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_erased_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let while_lid = mk_pulse_lib_core_lid "while_loop"
let mk_while (inv cond body:R.term) : R.term =
let t = R.pack_ln (R.Tv_FVar (R.pack_fv while_lid)) in
let t = R.pack_ln (R.Tv_App t (inv, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (cond, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (body, R.Q_Explicit))
let vprop_eq_tm t1 t2 =
let open R in
let u2 =
pack_universe (Uv_Succ (pack_universe (Uv_Succ (pack_universe Uv_Zero)))) in
let t = pack_ln (Tv_UInst (pack_fv eq2_qn) [u2]) in
let t = pack_ln (Tv_App t (pack_ln (Tv_FVar (pack_fv vprop_lid)), Q_Implicit)) in
let t = pack_ln (Tv_App t (t1, Q_Explicit)) in
let t = pack_ln (Tv_App t (t2, Q_Explicit)) in
t
let emp_inames_tm : R.term = R.pack_ln (R.Tv_FVar (R.pack_fv emp_inames_lid))
let non_informative_witness_lid = mk_pulse_lib_core_lid "non_informative_witness"
let non_informative_witness_rt (u:R.universe) (a:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv non_informative_witness_lid) [u]) in
let t = pack_ln (Tv_App t (a, Q_Explicit)) in
t
let stt_vprop_equiv_fv =
R.pack_fv (mk_pulse_lib_core_lid "vprop_equiv")
let stt_vprop_equiv_tm =
R.pack_ln (R.Tv_FVar stt_vprop_equiv_fv)
let stt_vprop_equiv (t1 t2:R.term) =
let open R in
let t = pack_ln (Tv_App stt_vprop_equiv_tm (t1, Q_Explicit)) in
pack_ln (Tv_App t (t2, Q_Explicit))
let return_stt_lid = mk_pulse_lib_core_lid "return_stt"
let return_stt_noeq_lid = mk_pulse_lib_core_lid "return"
let return_stt_atomic_lid = mk_pulse_lib_core_lid "return_stt_atomic"
let return_stt_atomic_noeq_lid = mk_pulse_lib_core_lid "return_stt_atomic_noeq"
let return_stt_ghost_lid = mk_pulse_lib_core_lid "return_stt_ghost"
let return_stt_ghost_noeq_lid = mk_pulse_lib_core_lid "return_stt_ghost_noeq"
let mk_stt_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_atomic_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_atomic_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_atomic_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_atomic_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_ghost_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_ghost_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
// Wrapper.lift_stt_atomic<u> #a #pre #post e
let mk_lift_atomic_stt (u:R.universe) (a pre post e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "lift_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.lift_stt_ghost<u> #a #opened #pre #post e reveal_a
let mk_lift_ghost_atomic (u:R.universe) (a opened pre post e reveal_a:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "lift_stt_ghost" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_a, Q_Explicit))
// Wrapper.bind_stt<u1, u2> #a #b #pre1 #post1 #post2 e1 e2
let mk_bind_stt
(u1 u2:R.universe)
(ty1 ty2:R.term)
(pre1 post1: R.term)
(post2: R.term)
(t1 t2:R.term)
: R.term
= let bind_lid = mk_pulse_lib_core_lid "bind_stt" in
let head = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app head
[(ty1, R.Q_Implicit)])
[(ty2, R.Q_Implicit)])
[(pre1, R.Q_Implicit)])
[(post1, R.Q_Implicit)])
[(post2, R.Q_Implicit)])
[(t1, R.Q_Explicit)])
[(t2, R.Q_Explicit)]
// Wrapper.bind_sttg<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2
let mk_bind_ghost
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_sttg" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
pack_ln (R.Tv_App t (e2, Q_Explicit))
// Wrapper.bind_stt_ghost_atomic<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2 reveal_a
let mk_bind_ghost_atomic
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2 reveal_a:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_stt_ghost_atomic" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (e2, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_a, Q_Explicit))
// Wrapper.bind_stt_atomic_ghost<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2 reveal_b
let mk_bind_atomic_ghost
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2 reveal_b:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_stt_atomic_ghost" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (e2, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_b, Q_Explicit))
// Wrapper.frame_stt<u> #ty #pre #post frame t
let mk_frame_stt
(u:R.universe)
(ty:R.term)
(pre: R.term)
(post: R.term)
(frame: R.term)
(t:R.term)
: R.term
= let frame_lid = mk_pulse_lib_core_lid "frame_stt" in
let frame_fv = R.pack_fv frame_lid in
let frame_univ_inst u = R.pack_ln (R.Tv_UInst (R.pack_fv frame_lid) [u]) in
let head = frame_univ_inst u in
R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app head [(ty, R.Q_Implicit)])
[(pre, R.Q_Implicit)])
[(post, R.Q_Implicit)])
[(frame, R.Q_Explicit)])
[(t, R.Q_Explicit)]
// Wrapper.frame_stt_atomic<u> #a #opened #pre #post frame e | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val mk_frame_stt_atomic : u210: FStar.Reflection.Types.universe ->
a: FStar.Reflection.Types.term ->
opened: FStar.Reflection.Types.term ->
pre: FStar.Reflection.Types.term ->
post: FStar.Reflection.Types.term ->
frame: FStar.Reflection.Types.term ->
e: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | [] | Pulse.Reflection.Util.mk_frame_stt_atomic | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} |
u210: FStar.Reflection.Types.universe ->
a: FStar.Reflection.Types.term ->
opened: FStar.Reflection.Types.term ->
pre: FStar.Reflection.Types.term ->
post: FStar.Reflection.Types.term ->
frame: FStar.Reflection.Types.term ->
e: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | {
"end_col": 38,
"end_line": 462,
"start_col": 2,
"start_line": 454
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let mk_bind_ghost_atomic
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2 reveal_a:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_stt_ghost_atomic" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (e2, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_a, Q_Explicit)) | let mk_bind_ghost_atomic (u1 u2: R.universe) (a b opened pre1 post1 post2 e1 e2 reveal_a: R.term) = | false | null | false | let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_stt_ghost_atomic" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1; u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (e2, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_a, Q_Explicit)) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.Types.universe",
"FStar.Reflection.Types.term",
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_App",
"FStar.Pervasives.Native.Mktuple2",
"FStar.Reflection.V2.Data.aqualv",
"FStar.Reflection.V2.Data.Q_Explicit",
"FStar.Reflection.V2.Data.Q_Implicit",
"FStar.Reflection.V2.Data.Tv_UInst",
"FStar.Reflection.V2.Builtins.pack_fv",
"Prims.Cons",
"Prims.Nil",
"Prims.list",
"Prims.string",
"Pulse.Reflection.Util.mk_pulse_lib_core_lid"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv
let mk_total t = R.C_Total t
let mk_ghost t = R.C_GTotal t
let binder_of_t_q t q = RT.binder_of_t_q t q
let binder_of_t_q_s (t:R.term) (q:R.aqualv) (s:RT.pp_name_t) = RT.mk_binder s t q
let bound_var i : R.term = RT.bound_var i
let mk_name i : R.term = R.pack_ln (R.Tv_Var (R.pack_namedv (RT.make_namedv i)))
let arrow_dom = (R.term & R.aqualv)
let mk_arrow (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q ty q) (R.pack_comp (mk_total out)))
let mk_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_total out)))
let mk_ghost_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_ghost out)))
let mk_abs ty qual t : R.term = RT.mk_abs ty qual t
let mk_abs_with_name s ty qual t : R.term = R.pack_ln (R.Tv_Abs (binder_of_t_q_s ty qual s) t)
let mk_abs_with_name_and_range s r ty qual t : R.term =
let b = (binder_of_t_q_s ty qual s) in
let b = RU.binder_set_range b r in
R.pack_ln (R.Tv_Abs b t)
let mk_erased (u:R.universe) (t:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv erased_lid) [u]) in
R.pack_ln (R.Tv_App hd (t, R.Q_Explicit))
let mk_reveal (u:R.universe) (t:R.term) (e:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv reveal_lid) [u]) in
let hd = R.pack_ln (R.Tv_App hd (t, R.Q_Implicit)) in
R.pack_ln (R.Tv_App hd (e, R.Q_Explicit))
let elim_exists_lid = mk_pulse_lib_core_lid "elim_exists"
let intro_exists_lid = mk_pulse_lib_core_lid "intro_exists"
let intro_exists_erased_lid = mk_pulse_lib_core_lid "intro_exists_erased"
let mk_exists (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_forall (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv forall_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_elim_exists (u:R.universe) (a p:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv elim_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_intro_exists (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let mk_intro_exists_erased (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_erased_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let while_lid = mk_pulse_lib_core_lid "while_loop"
let mk_while (inv cond body:R.term) : R.term =
let t = R.pack_ln (R.Tv_FVar (R.pack_fv while_lid)) in
let t = R.pack_ln (R.Tv_App t (inv, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (cond, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (body, R.Q_Explicit))
let vprop_eq_tm t1 t2 =
let open R in
let u2 =
pack_universe (Uv_Succ (pack_universe (Uv_Succ (pack_universe Uv_Zero)))) in
let t = pack_ln (Tv_UInst (pack_fv eq2_qn) [u2]) in
let t = pack_ln (Tv_App t (pack_ln (Tv_FVar (pack_fv vprop_lid)), Q_Implicit)) in
let t = pack_ln (Tv_App t (t1, Q_Explicit)) in
let t = pack_ln (Tv_App t (t2, Q_Explicit)) in
t
let emp_inames_tm : R.term = R.pack_ln (R.Tv_FVar (R.pack_fv emp_inames_lid))
let non_informative_witness_lid = mk_pulse_lib_core_lid "non_informative_witness"
let non_informative_witness_rt (u:R.universe) (a:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv non_informative_witness_lid) [u]) in
let t = pack_ln (Tv_App t (a, Q_Explicit)) in
t
let stt_vprop_equiv_fv =
R.pack_fv (mk_pulse_lib_core_lid "vprop_equiv")
let stt_vprop_equiv_tm =
R.pack_ln (R.Tv_FVar stt_vprop_equiv_fv)
let stt_vprop_equiv (t1 t2:R.term) =
let open R in
let t = pack_ln (Tv_App stt_vprop_equiv_tm (t1, Q_Explicit)) in
pack_ln (Tv_App t (t2, Q_Explicit))
let return_stt_lid = mk_pulse_lib_core_lid "return_stt"
let return_stt_noeq_lid = mk_pulse_lib_core_lid "return"
let return_stt_atomic_lid = mk_pulse_lib_core_lid "return_stt_atomic"
let return_stt_atomic_noeq_lid = mk_pulse_lib_core_lid "return_stt_atomic_noeq"
let return_stt_ghost_lid = mk_pulse_lib_core_lid "return_stt_ghost"
let return_stt_ghost_noeq_lid = mk_pulse_lib_core_lid "return_stt_ghost_noeq"
let mk_stt_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_atomic_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_atomic_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_atomic_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_atomic_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_ghost_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_ghost_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
// Wrapper.lift_stt_atomic<u> #a #pre #post e
let mk_lift_atomic_stt (u:R.universe) (a pre post e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "lift_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.lift_stt_ghost<u> #a #opened #pre #post e reveal_a
let mk_lift_ghost_atomic (u:R.universe) (a opened pre post e reveal_a:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "lift_stt_ghost" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_a, Q_Explicit))
// Wrapper.bind_stt<u1, u2> #a #b #pre1 #post1 #post2 e1 e2
let mk_bind_stt
(u1 u2:R.universe)
(ty1 ty2:R.term)
(pre1 post1: R.term)
(post2: R.term)
(t1 t2:R.term)
: R.term
= let bind_lid = mk_pulse_lib_core_lid "bind_stt" in
let head = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app head
[(ty1, R.Q_Implicit)])
[(ty2, R.Q_Implicit)])
[(pre1, R.Q_Implicit)])
[(post1, R.Q_Implicit)])
[(post2, R.Q_Implicit)])
[(t1, R.Q_Explicit)])
[(t2, R.Q_Explicit)]
// Wrapper.bind_sttg<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2
let mk_bind_ghost
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_sttg" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
pack_ln (R.Tv_App t (e2, Q_Explicit))
// Wrapper.bind_stt_ghost_atomic<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2 reveal_a
let mk_bind_ghost_atomic
(u1 u2:R.universe) | false | false | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val mk_bind_ghost_atomic : u1: FStar.Reflection.Types.universe ->
u2: FStar.Reflection.Types.universe ->
a: FStar.Reflection.Types.term ->
b: FStar.Reflection.Types.term ->
opened: FStar.Reflection.Types.term ->
pre1: FStar.Reflection.Types.term ->
post1: FStar.Reflection.Types.term ->
post2: FStar.Reflection.Types.term ->
e1: FStar.Reflection.Types.term ->
e2: FStar.Reflection.Types.term ->
reveal_a: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | [] | Pulse.Reflection.Util.mk_bind_ghost_atomic | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} |
u1: FStar.Reflection.Types.universe ->
u2: FStar.Reflection.Types.universe ->
a: FStar.Reflection.Types.term ->
b: FStar.Reflection.Types.term ->
opened: FStar.Reflection.Types.term ->
pre1: FStar.Reflection.Types.term ->
post1: FStar.Reflection.Types.term ->
post2: FStar.Reflection.Types.term ->
e1: FStar.Reflection.Types.term ->
e2: FStar.Reflection.Types.term ->
reveal_a: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | {
"end_col": 45,
"end_line": 410,
"start_col": 2,
"start_line": 399
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let non_informative_witness_lid = mk_pulse_lib_core_lid "non_informative_witness" | let non_informative_witness_lid = | false | null | false | mk_pulse_lib_core_lid "non_informative_witness" | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"Pulse.Reflection.Util.mk_pulse_lib_core_lid"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv
let mk_total t = R.C_Total t
let mk_ghost t = R.C_GTotal t
let binder_of_t_q t q = RT.binder_of_t_q t q
let binder_of_t_q_s (t:R.term) (q:R.aqualv) (s:RT.pp_name_t) = RT.mk_binder s t q
let bound_var i : R.term = RT.bound_var i
let mk_name i : R.term = R.pack_ln (R.Tv_Var (R.pack_namedv (RT.make_namedv i)))
let arrow_dom = (R.term & R.aqualv)
let mk_arrow (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q ty q) (R.pack_comp (mk_total out)))
let mk_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_total out)))
let mk_ghost_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_ghost out)))
let mk_abs ty qual t : R.term = RT.mk_abs ty qual t
let mk_abs_with_name s ty qual t : R.term = R.pack_ln (R.Tv_Abs (binder_of_t_q_s ty qual s) t)
let mk_abs_with_name_and_range s r ty qual t : R.term =
let b = (binder_of_t_q_s ty qual s) in
let b = RU.binder_set_range b r in
R.pack_ln (R.Tv_Abs b t)
let mk_erased (u:R.universe) (t:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv erased_lid) [u]) in
R.pack_ln (R.Tv_App hd (t, R.Q_Explicit))
let mk_reveal (u:R.universe) (t:R.term) (e:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv reveal_lid) [u]) in
let hd = R.pack_ln (R.Tv_App hd (t, R.Q_Implicit)) in
R.pack_ln (R.Tv_App hd (e, R.Q_Explicit))
let elim_exists_lid = mk_pulse_lib_core_lid "elim_exists"
let intro_exists_lid = mk_pulse_lib_core_lid "intro_exists"
let intro_exists_erased_lid = mk_pulse_lib_core_lid "intro_exists_erased"
let mk_exists (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_forall (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv forall_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_elim_exists (u:R.universe) (a p:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv elim_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_intro_exists (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let mk_intro_exists_erased (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_erased_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let while_lid = mk_pulse_lib_core_lid "while_loop"
let mk_while (inv cond body:R.term) : R.term =
let t = R.pack_ln (R.Tv_FVar (R.pack_fv while_lid)) in
let t = R.pack_ln (R.Tv_App t (inv, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (cond, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (body, R.Q_Explicit))
let vprop_eq_tm t1 t2 =
let open R in
let u2 =
pack_universe (Uv_Succ (pack_universe (Uv_Succ (pack_universe Uv_Zero)))) in
let t = pack_ln (Tv_UInst (pack_fv eq2_qn) [u2]) in
let t = pack_ln (Tv_App t (pack_ln (Tv_FVar (pack_fv vprop_lid)), Q_Implicit)) in
let t = pack_ln (Tv_App t (t1, Q_Explicit)) in
let t = pack_ln (Tv_App t (t2, Q_Explicit)) in
t
let emp_inames_tm : R.term = R.pack_ln (R.Tv_FVar (R.pack_fv emp_inames_lid)) | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val non_informative_witness_lid : Prims.list Prims.string | [] | Pulse.Reflection.Util.non_informative_witness_lid | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | Prims.list Prims.string | {
"end_col": 81,
"end_line": 260,
"start_col": 34,
"start_line": 260
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let mk_sub_stt_atomic (u:R.universe) (a opened pre1 pre2 post1 post2 e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "sub_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit)) | let mk_sub_stt_atomic (u: R.universe) (a opened pre1 pre2 post1 post2 e: R.term) = | false | null | false | let open R in
let lid = mk_pulse_lib_core_lid "sub_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t ((`()), Q_Explicit)) in
let t = pack_ln (R.Tv_App t ((`()), Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit)) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.Types.universe",
"FStar.Reflection.Types.term",
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_App",
"FStar.Pervasives.Native.Mktuple2",
"FStar.Reflection.V2.Data.aqualv",
"FStar.Reflection.V2.Data.Q_Explicit",
"FStar.Reflection.V2.Data.Q_Implicit",
"FStar.Reflection.V2.Data.Tv_UInst",
"FStar.Reflection.V2.Builtins.pack_fv",
"Prims.Cons",
"Prims.Nil",
"Prims.list",
"Prims.string",
"Pulse.Reflection.Util.mk_pulse_lib_core_lid"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv
let mk_total t = R.C_Total t
let mk_ghost t = R.C_GTotal t
let binder_of_t_q t q = RT.binder_of_t_q t q
let binder_of_t_q_s (t:R.term) (q:R.aqualv) (s:RT.pp_name_t) = RT.mk_binder s t q
let bound_var i : R.term = RT.bound_var i
let mk_name i : R.term = R.pack_ln (R.Tv_Var (R.pack_namedv (RT.make_namedv i)))
let arrow_dom = (R.term & R.aqualv)
let mk_arrow (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q ty q) (R.pack_comp (mk_total out)))
let mk_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_total out)))
let mk_ghost_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_ghost out)))
let mk_abs ty qual t : R.term = RT.mk_abs ty qual t
let mk_abs_with_name s ty qual t : R.term = R.pack_ln (R.Tv_Abs (binder_of_t_q_s ty qual s) t)
let mk_abs_with_name_and_range s r ty qual t : R.term =
let b = (binder_of_t_q_s ty qual s) in
let b = RU.binder_set_range b r in
R.pack_ln (R.Tv_Abs b t)
let mk_erased (u:R.universe) (t:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv erased_lid) [u]) in
R.pack_ln (R.Tv_App hd (t, R.Q_Explicit))
let mk_reveal (u:R.universe) (t:R.term) (e:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv reveal_lid) [u]) in
let hd = R.pack_ln (R.Tv_App hd (t, R.Q_Implicit)) in
R.pack_ln (R.Tv_App hd (e, R.Q_Explicit))
let elim_exists_lid = mk_pulse_lib_core_lid "elim_exists"
let intro_exists_lid = mk_pulse_lib_core_lid "intro_exists"
let intro_exists_erased_lid = mk_pulse_lib_core_lid "intro_exists_erased"
let mk_exists (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_forall (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv forall_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_elim_exists (u:R.universe) (a p:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv elim_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_intro_exists (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let mk_intro_exists_erased (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_erased_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let while_lid = mk_pulse_lib_core_lid "while_loop"
let mk_while (inv cond body:R.term) : R.term =
let t = R.pack_ln (R.Tv_FVar (R.pack_fv while_lid)) in
let t = R.pack_ln (R.Tv_App t (inv, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (cond, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (body, R.Q_Explicit))
let vprop_eq_tm t1 t2 =
let open R in
let u2 =
pack_universe (Uv_Succ (pack_universe (Uv_Succ (pack_universe Uv_Zero)))) in
let t = pack_ln (Tv_UInst (pack_fv eq2_qn) [u2]) in
let t = pack_ln (Tv_App t (pack_ln (Tv_FVar (pack_fv vprop_lid)), Q_Implicit)) in
let t = pack_ln (Tv_App t (t1, Q_Explicit)) in
let t = pack_ln (Tv_App t (t2, Q_Explicit)) in
t
let emp_inames_tm : R.term = R.pack_ln (R.Tv_FVar (R.pack_fv emp_inames_lid))
let non_informative_witness_lid = mk_pulse_lib_core_lid "non_informative_witness"
let non_informative_witness_rt (u:R.universe) (a:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv non_informative_witness_lid) [u]) in
let t = pack_ln (Tv_App t (a, Q_Explicit)) in
t
let stt_vprop_equiv_fv =
R.pack_fv (mk_pulse_lib_core_lid "vprop_equiv")
let stt_vprop_equiv_tm =
R.pack_ln (R.Tv_FVar stt_vprop_equiv_fv)
let stt_vprop_equiv (t1 t2:R.term) =
let open R in
let t = pack_ln (Tv_App stt_vprop_equiv_tm (t1, Q_Explicit)) in
pack_ln (Tv_App t (t2, Q_Explicit))
let return_stt_lid = mk_pulse_lib_core_lid "return_stt"
let return_stt_noeq_lid = mk_pulse_lib_core_lid "return"
let return_stt_atomic_lid = mk_pulse_lib_core_lid "return_stt_atomic"
let return_stt_atomic_noeq_lid = mk_pulse_lib_core_lid "return_stt_atomic_noeq"
let return_stt_ghost_lid = mk_pulse_lib_core_lid "return_stt_ghost"
let return_stt_ghost_noeq_lid = mk_pulse_lib_core_lid "return_stt_ghost_noeq"
let mk_stt_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_atomic_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_atomic_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_atomic_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_atomic_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_ghost_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_ghost_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
// Wrapper.lift_stt_atomic<u> #a #pre #post e
let mk_lift_atomic_stt (u:R.universe) (a pre post e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "lift_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.lift_stt_ghost<u> #a #opened #pre #post e reveal_a
let mk_lift_ghost_atomic (u:R.universe) (a opened pre post e reveal_a:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "lift_stt_ghost" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_a, Q_Explicit))
// Wrapper.bind_stt<u1, u2> #a #b #pre1 #post1 #post2 e1 e2
let mk_bind_stt
(u1 u2:R.universe)
(ty1 ty2:R.term)
(pre1 post1: R.term)
(post2: R.term)
(t1 t2:R.term)
: R.term
= let bind_lid = mk_pulse_lib_core_lid "bind_stt" in
let head = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app head
[(ty1, R.Q_Implicit)])
[(ty2, R.Q_Implicit)])
[(pre1, R.Q_Implicit)])
[(post1, R.Q_Implicit)])
[(post2, R.Q_Implicit)])
[(t1, R.Q_Explicit)])
[(t2, R.Q_Explicit)]
// Wrapper.bind_sttg<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2
let mk_bind_ghost
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_sttg" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
pack_ln (R.Tv_App t (e2, Q_Explicit))
// Wrapper.bind_stt_ghost_atomic<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2 reveal_a
let mk_bind_ghost_atomic
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2 reveal_a:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_stt_ghost_atomic" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (e2, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_a, Q_Explicit))
// Wrapper.bind_stt_atomic_ghost<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2 reveal_b
let mk_bind_atomic_ghost
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2 reveal_b:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_stt_atomic_ghost" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (e2, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_b, Q_Explicit))
// Wrapper.frame_stt<u> #ty #pre #post frame t
let mk_frame_stt
(u:R.universe)
(ty:R.term)
(pre: R.term)
(post: R.term)
(frame: R.term)
(t:R.term)
: R.term
= let frame_lid = mk_pulse_lib_core_lid "frame_stt" in
let frame_fv = R.pack_fv frame_lid in
let frame_univ_inst u = R.pack_ln (R.Tv_UInst (R.pack_fv frame_lid) [u]) in
let head = frame_univ_inst u in
R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app head [(ty, R.Q_Implicit)])
[(pre, R.Q_Implicit)])
[(post, R.Q_Implicit)])
[(frame, R.Q_Explicit)])
[(t, R.Q_Explicit)]
// Wrapper.frame_stt_atomic<u> #a #opened #pre #post frame e
let mk_frame_stt_atomic (u:R.universe) (a opened pre post frame e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "frame_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (frame, Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.frame_stt_ghost<u> #a #opened #pre #post frame e
let mk_frame_stt_ghost (u:R.universe) (a opened pre post frame e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "frame_stt_ghost" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (frame, Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.sub_stt<u> #ty #pre1 pre2 #post1 post2 () () e
let mk_sub_stt
(u:R.universe)
(ty:R.term)
(pre1 pre2: R.term)
(post1 post2: R.term)
(t:R.term)
: R.term
= let subsumption_lid = mk_pulse_lib_core_lid "sub_stt" in
let subsumption_fv = R.pack_fv subsumption_lid in
let subsumption_univ_inst u = R.pack_ln (R.Tv_UInst subsumption_fv [u]) in
let head = subsumption_univ_inst u in
R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app head [(ty, R.Q_Implicit)])
[(pre1, R.Q_Implicit)])
[(pre2, R.Q_Explicit)])
[(post1, R.Q_Implicit)])
[(post2, R.Q_Explicit)])
[(`(), R.Q_Explicit)])
[(`(), R.Q_Explicit)])
[(t, R.Q_Explicit)]
// Wrapper.sub_stt_atomic<u> #a #opened #pre1 pre2 #post1 post2 () () e | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val mk_sub_stt_atomic : u232: FStar.Reflection.Types.universe ->
a: FStar.Reflection.Types.term ->
opened: FStar.Reflection.Types.term ->
pre1: FStar.Reflection.Types.term ->
pre2: FStar.Reflection.Types.term ->
post1: FStar.Reflection.Types.term ->
post2: FStar.Reflection.Types.term ->
e: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | [] | Pulse.Reflection.Util.mk_sub_stt_atomic | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} |
u232: FStar.Reflection.Types.universe ->
a: FStar.Reflection.Types.term ->
opened: FStar.Reflection.Types.term ->
pre1: FStar.Reflection.Types.term ->
pre2: FStar.Reflection.Types.term ->
post1: FStar.Reflection.Types.term ->
post2: FStar.Reflection.Types.term ->
e: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | {
"end_col": 38,
"end_line": 517,
"start_col": 2,
"start_line": 506
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let pts_to_lid = mk_pulse_lib_reference_lid "pts_to" | let pts_to_lid = | false | null | false | mk_pulse_lib_reference_lid "pts_to" | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"Pulse.Reflection.Util.mk_pulse_lib_reference_lid"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv
let mk_total t = R.C_Total t
let mk_ghost t = R.C_GTotal t
let binder_of_t_q t q = RT.binder_of_t_q t q
let binder_of_t_q_s (t:R.term) (q:R.aqualv) (s:RT.pp_name_t) = RT.mk_binder s t q
let bound_var i : R.term = RT.bound_var i
let mk_name i : R.term = R.pack_ln (R.Tv_Var (R.pack_namedv (RT.make_namedv i)))
let arrow_dom = (R.term & R.aqualv)
let mk_arrow (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q ty q) (R.pack_comp (mk_total out)))
let mk_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_total out)))
let mk_ghost_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_ghost out)))
let mk_abs ty qual t : R.term = RT.mk_abs ty qual t
let mk_abs_with_name s ty qual t : R.term = R.pack_ln (R.Tv_Abs (binder_of_t_q_s ty qual s) t)
let mk_abs_with_name_and_range s r ty qual t : R.term =
let b = (binder_of_t_q_s ty qual s) in
let b = RU.binder_set_range b r in
R.pack_ln (R.Tv_Abs b t)
let mk_erased (u:R.universe) (t:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv erased_lid) [u]) in
R.pack_ln (R.Tv_App hd (t, R.Q_Explicit))
let mk_reveal (u:R.universe) (t:R.term) (e:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv reveal_lid) [u]) in
let hd = R.pack_ln (R.Tv_App hd (t, R.Q_Implicit)) in
R.pack_ln (R.Tv_App hd (e, R.Q_Explicit))
let elim_exists_lid = mk_pulse_lib_core_lid "elim_exists"
let intro_exists_lid = mk_pulse_lib_core_lid "intro_exists"
let intro_exists_erased_lid = mk_pulse_lib_core_lid "intro_exists_erased"
let mk_exists (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_forall (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv forall_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_elim_exists (u:R.universe) (a p:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv elim_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_intro_exists (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let mk_intro_exists_erased (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_erased_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let while_lid = mk_pulse_lib_core_lid "while_loop"
let mk_while (inv cond body:R.term) : R.term =
let t = R.pack_ln (R.Tv_FVar (R.pack_fv while_lid)) in
let t = R.pack_ln (R.Tv_App t (inv, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (cond, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (body, R.Q_Explicit))
let vprop_eq_tm t1 t2 =
let open R in
let u2 =
pack_universe (Uv_Succ (pack_universe (Uv_Succ (pack_universe Uv_Zero)))) in
let t = pack_ln (Tv_UInst (pack_fv eq2_qn) [u2]) in
let t = pack_ln (Tv_App t (pack_ln (Tv_FVar (pack_fv vprop_lid)), Q_Implicit)) in
let t = pack_ln (Tv_App t (t1, Q_Explicit)) in
let t = pack_ln (Tv_App t (t2, Q_Explicit)) in
t
let emp_inames_tm : R.term = R.pack_ln (R.Tv_FVar (R.pack_fv emp_inames_lid))
let non_informative_witness_lid = mk_pulse_lib_core_lid "non_informative_witness"
let non_informative_witness_rt (u:R.universe) (a:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv non_informative_witness_lid) [u]) in
let t = pack_ln (Tv_App t (a, Q_Explicit)) in
t
let stt_vprop_equiv_fv =
R.pack_fv (mk_pulse_lib_core_lid "vprop_equiv")
let stt_vprop_equiv_tm =
R.pack_ln (R.Tv_FVar stt_vprop_equiv_fv)
let stt_vprop_equiv (t1 t2:R.term) =
let open R in
let t = pack_ln (Tv_App stt_vprop_equiv_tm (t1, Q_Explicit)) in
pack_ln (Tv_App t (t2, Q_Explicit))
let return_stt_lid = mk_pulse_lib_core_lid "return_stt"
let return_stt_noeq_lid = mk_pulse_lib_core_lid "return"
let return_stt_atomic_lid = mk_pulse_lib_core_lid "return_stt_atomic"
let return_stt_atomic_noeq_lid = mk_pulse_lib_core_lid "return_stt_atomic_noeq"
let return_stt_ghost_lid = mk_pulse_lib_core_lid "return_stt_ghost"
let return_stt_ghost_noeq_lid = mk_pulse_lib_core_lid "return_stt_ghost_noeq"
let mk_stt_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_atomic_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_atomic_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_atomic_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_atomic_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_ghost_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_ghost_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
// Wrapper.lift_stt_atomic<u> #a #pre #post e
let mk_lift_atomic_stt (u:R.universe) (a pre post e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "lift_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.lift_stt_ghost<u> #a #opened #pre #post e reveal_a
let mk_lift_ghost_atomic (u:R.universe) (a opened pre post e reveal_a:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "lift_stt_ghost" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_a, Q_Explicit))
// Wrapper.bind_stt<u1, u2> #a #b #pre1 #post1 #post2 e1 e2
let mk_bind_stt
(u1 u2:R.universe)
(ty1 ty2:R.term)
(pre1 post1: R.term)
(post2: R.term)
(t1 t2:R.term)
: R.term
= let bind_lid = mk_pulse_lib_core_lid "bind_stt" in
let head = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app head
[(ty1, R.Q_Implicit)])
[(ty2, R.Q_Implicit)])
[(pre1, R.Q_Implicit)])
[(post1, R.Q_Implicit)])
[(post2, R.Q_Implicit)])
[(t1, R.Q_Explicit)])
[(t2, R.Q_Explicit)]
// Wrapper.bind_sttg<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2
let mk_bind_ghost
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_sttg" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
pack_ln (R.Tv_App t (e2, Q_Explicit))
// Wrapper.bind_stt_ghost_atomic<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2 reveal_a
let mk_bind_ghost_atomic
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2 reveal_a:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_stt_ghost_atomic" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (e2, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_a, Q_Explicit))
// Wrapper.bind_stt_atomic_ghost<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2 reveal_b
let mk_bind_atomic_ghost
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2 reveal_b:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_stt_atomic_ghost" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (e2, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_b, Q_Explicit))
// Wrapper.frame_stt<u> #ty #pre #post frame t
let mk_frame_stt
(u:R.universe)
(ty:R.term)
(pre: R.term)
(post: R.term)
(frame: R.term)
(t:R.term)
: R.term
= let frame_lid = mk_pulse_lib_core_lid "frame_stt" in
let frame_fv = R.pack_fv frame_lid in
let frame_univ_inst u = R.pack_ln (R.Tv_UInst (R.pack_fv frame_lid) [u]) in
let head = frame_univ_inst u in
R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app head [(ty, R.Q_Implicit)])
[(pre, R.Q_Implicit)])
[(post, R.Q_Implicit)])
[(frame, R.Q_Explicit)])
[(t, R.Q_Explicit)]
// Wrapper.frame_stt_atomic<u> #a #opened #pre #post frame e
let mk_frame_stt_atomic (u:R.universe) (a opened pre post frame e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "frame_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (frame, Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.frame_stt_ghost<u> #a #opened #pre #post frame e
let mk_frame_stt_ghost (u:R.universe) (a opened pre post frame e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "frame_stt_ghost" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (frame, Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.sub_stt<u> #ty #pre1 pre2 #post1 post2 () () e
let mk_sub_stt
(u:R.universe)
(ty:R.term)
(pre1 pre2: R.term)
(post1 post2: R.term)
(t:R.term)
: R.term
= let subsumption_lid = mk_pulse_lib_core_lid "sub_stt" in
let subsumption_fv = R.pack_fv subsumption_lid in
let subsumption_univ_inst u = R.pack_ln (R.Tv_UInst subsumption_fv [u]) in
let head = subsumption_univ_inst u in
R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app head [(ty, R.Q_Implicit)])
[(pre1, R.Q_Implicit)])
[(pre2, R.Q_Explicit)])
[(post1, R.Q_Implicit)])
[(post2, R.Q_Explicit)])
[(`(), R.Q_Explicit)])
[(`(), R.Q_Explicit)])
[(t, R.Q_Explicit)]
// Wrapper.sub_stt_atomic<u> #a #opened #pre1 pre2 #post1 post2 () () e
let mk_sub_stt_atomic (u:R.universe) (a opened pre1 pre2 post1 post2 e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "sub_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.sub_stt_ghost<u> #a #opened #pre1 pre2 #post1 post2 () () e
let mk_sub_stt_ghost (u:R.universe) (a opened pre1 pre2 post1 post2 e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "sub_stt_ghost" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
let mk_par (u:R.universe) (aL aR preL postL preR postR eL eR:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "stt_par" in
let t = pack_ln (Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (Tv_App t (aL, Q_Implicit)) in
let t = pack_ln (Tv_App t (aR, Q_Implicit)) in
let t = pack_ln (Tv_App t (preL, Q_Implicit)) in
let t = pack_ln (Tv_App t (postL, Q_Implicit)) in
let t = pack_ln (Tv_App t (preR, Q_Implicit)) in
let t = pack_ln (Tv_App t (postR, Q_Implicit)) in
let t = pack_ln (Tv_App t (eL, Q_Explicit)) in
pack_ln (Tv_App t (eR, Q_Explicit))
let mk_rewrite (p q:R.term) =
let open R in
let t = pack_ln (Tv_FVar (pack_fv (mk_pulse_lib_core_lid "rewrite"))) in
let t = pack_ln (Tv_App t (p, Q_Explicit)) in
let t = pack_ln (Tv_App t (q, Q_Explicit)) in
pack_ln (Tv_App t (`(), Q_Explicit))
let mk_withlocal (ret_u:R.universe) (a init pre ret_t post body:R.term) =
let open R in
let lid = mk_pulse_lib_reference_lid "with_local" in
let t = pack_ln (Tv_UInst (R.pack_fv lid) [ret_u]) in
let t = pack_ln (Tv_App t (a, Q_Implicit)) in
let t = pack_ln (Tv_App t (init, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (Tv_App t (ret_t, Q_Implicit)) in
let t = pack_ln (Tv_App t (post, Q_Implicit)) in
pack_ln (Tv_App t (body, Q_Explicit))
///// Utils to derive equiv for common constructs /////
let mk_star_equiv (g:R.env) (t1 t2 t3 t4:R.term)
(eq1:RT.equiv g t1 t3)
(eq2:RT.equiv g t2 t4)
: RT.equiv g (mk_star t1 t2) (mk_star t3 t4) =
admit ()
let mk_stt_comp_equiv (g:R.env) (u:R.universe) (res1 pre1 post1 res2 pre2 post2:R.term)
(res_eq: RT.equiv g res1 res2)
(pre_eq:RT.equiv g pre1 pre2)
(post_eq:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_comp u res1 pre1 post1)
(mk_stt_comp u res2 pre2 post2)
= admit ()
let mk_stt_atomic_comp_equiv (g:R.env) (u:R.universe) (res inames pre1 post1 pre2 post2:R.term)
(pre_eq:RT.equiv g pre1 pre2)
(post_eq:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_atomic_comp u res inames pre1 post1)
(mk_stt_atomic_comp u res inames pre2 post2)
= admit ()
let mk_stt_ghost_comp_equiv (g:R.env) (u:R.universe) (res inames pre1 post1 pre2 post2:R.term)
(pre_eq:RT.equiv g pre1 pre2)
(post_eq:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u res inames pre1 post1)
(mk_stt_ghost_comp u res inames pre2 post2)
= admit () | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val pts_to_lid : Prims.list Prims.string | [] | Pulse.Reflection.Util.pts_to_lid | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | Prims.list Prims.string | {
"end_col": 52,
"end_line": 596,
"start_col": 17,
"start_line": 596
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let mk_withlocal (ret_u:R.universe) (a init pre ret_t post body:R.term) =
let open R in
let lid = mk_pulse_lib_reference_lid "with_local" in
let t = pack_ln (Tv_UInst (R.pack_fv lid) [ret_u]) in
let t = pack_ln (Tv_App t (a, Q_Implicit)) in
let t = pack_ln (Tv_App t (init, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (Tv_App t (ret_t, Q_Implicit)) in
let t = pack_ln (Tv_App t (post, Q_Implicit)) in
pack_ln (Tv_App t (body, Q_Explicit)) | let mk_withlocal (ret_u: R.universe) (a init pre ret_t post body: R.term) = | false | null | false | let open R in
let lid = mk_pulse_lib_reference_lid "with_local" in
let t = pack_ln (Tv_UInst (R.pack_fv lid) [ret_u]) in
let t = pack_ln (Tv_App t (a, Q_Implicit)) in
let t = pack_ln (Tv_App t (init, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (Tv_App t (ret_t, Q_Implicit)) in
let t = pack_ln (Tv_App t (post, Q_Implicit)) in
pack_ln (Tv_App t (body, Q_Explicit)) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.Types.universe",
"FStar.Reflection.Types.term",
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_App",
"FStar.Pervasives.Native.Mktuple2",
"FStar.Reflection.V2.Data.aqualv",
"FStar.Reflection.V2.Data.Q_Explicit",
"FStar.Reflection.V2.Data.Q_Implicit",
"FStar.Reflection.V2.Data.Tv_UInst",
"FStar.Reflection.V2.Builtins.pack_fv",
"Prims.Cons",
"Prims.Nil",
"Prims.list",
"Prims.string",
"Pulse.Reflection.Util.mk_pulse_lib_reference_lid"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv
let mk_total t = R.C_Total t
let mk_ghost t = R.C_GTotal t
let binder_of_t_q t q = RT.binder_of_t_q t q
let binder_of_t_q_s (t:R.term) (q:R.aqualv) (s:RT.pp_name_t) = RT.mk_binder s t q
let bound_var i : R.term = RT.bound_var i
let mk_name i : R.term = R.pack_ln (R.Tv_Var (R.pack_namedv (RT.make_namedv i)))
let arrow_dom = (R.term & R.aqualv)
let mk_arrow (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q ty q) (R.pack_comp (mk_total out)))
let mk_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_total out)))
let mk_ghost_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_ghost out)))
let mk_abs ty qual t : R.term = RT.mk_abs ty qual t
let mk_abs_with_name s ty qual t : R.term = R.pack_ln (R.Tv_Abs (binder_of_t_q_s ty qual s) t)
let mk_abs_with_name_and_range s r ty qual t : R.term =
let b = (binder_of_t_q_s ty qual s) in
let b = RU.binder_set_range b r in
R.pack_ln (R.Tv_Abs b t)
let mk_erased (u:R.universe) (t:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv erased_lid) [u]) in
R.pack_ln (R.Tv_App hd (t, R.Q_Explicit))
let mk_reveal (u:R.universe) (t:R.term) (e:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv reveal_lid) [u]) in
let hd = R.pack_ln (R.Tv_App hd (t, R.Q_Implicit)) in
R.pack_ln (R.Tv_App hd (e, R.Q_Explicit))
let elim_exists_lid = mk_pulse_lib_core_lid "elim_exists"
let intro_exists_lid = mk_pulse_lib_core_lid "intro_exists"
let intro_exists_erased_lid = mk_pulse_lib_core_lid "intro_exists_erased"
let mk_exists (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_forall (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv forall_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_elim_exists (u:R.universe) (a p:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv elim_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_intro_exists (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let mk_intro_exists_erased (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_erased_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let while_lid = mk_pulse_lib_core_lid "while_loop"
let mk_while (inv cond body:R.term) : R.term =
let t = R.pack_ln (R.Tv_FVar (R.pack_fv while_lid)) in
let t = R.pack_ln (R.Tv_App t (inv, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (cond, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (body, R.Q_Explicit))
let vprop_eq_tm t1 t2 =
let open R in
let u2 =
pack_universe (Uv_Succ (pack_universe (Uv_Succ (pack_universe Uv_Zero)))) in
let t = pack_ln (Tv_UInst (pack_fv eq2_qn) [u2]) in
let t = pack_ln (Tv_App t (pack_ln (Tv_FVar (pack_fv vprop_lid)), Q_Implicit)) in
let t = pack_ln (Tv_App t (t1, Q_Explicit)) in
let t = pack_ln (Tv_App t (t2, Q_Explicit)) in
t
let emp_inames_tm : R.term = R.pack_ln (R.Tv_FVar (R.pack_fv emp_inames_lid))
let non_informative_witness_lid = mk_pulse_lib_core_lid "non_informative_witness"
let non_informative_witness_rt (u:R.universe) (a:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv non_informative_witness_lid) [u]) in
let t = pack_ln (Tv_App t (a, Q_Explicit)) in
t
let stt_vprop_equiv_fv =
R.pack_fv (mk_pulse_lib_core_lid "vprop_equiv")
let stt_vprop_equiv_tm =
R.pack_ln (R.Tv_FVar stt_vprop_equiv_fv)
let stt_vprop_equiv (t1 t2:R.term) =
let open R in
let t = pack_ln (Tv_App stt_vprop_equiv_tm (t1, Q_Explicit)) in
pack_ln (Tv_App t (t2, Q_Explicit))
let return_stt_lid = mk_pulse_lib_core_lid "return_stt"
let return_stt_noeq_lid = mk_pulse_lib_core_lid "return"
let return_stt_atomic_lid = mk_pulse_lib_core_lid "return_stt_atomic"
let return_stt_atomic_noeq_lid = mk_pulse_lib_core_lid "return_stt_atomic_noeq"
let return_stt_ghost_lid = mk_pulse_lib_core_lid "return_stt_ghost"
let return_stt_ghost_noeq_lid = mk_pulse_lib_core_lid "return_stt_ghost_noeq"
let mk_stt_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_atomic_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_atomic_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_atomic_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_atomic_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_ghost_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_ghost_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
// Wrapper.lift_stt_atomic<u> #a #pre #post e
let mk_lift_atomic_stt (u:R.universe) (a pre post e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "lift_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.lift_stt_ghost<u> #a #opened #pre #post e reveal_a
let mk_lift_ghost_atomic (u:R.universe) (a opened pre post e reveal_a:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "lift_stt_ghost" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_a, Q_Explicit))
// Wrapper.bind_stt<u1, u2> #a #b #pre1 #post1 #post2 e1 e2
let mk_bind_stt
(u1 u2:R.universe)
(ty1 ty2:R.term)
(pre1 post1: R.term)
(post2: R.term)
(t1 t2:R.term)
: R.term
= let bind_lid = mk_pulse_lib_core_lid "bind_stt" in
let head = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app head
[(ty1, R.Q_Implicit)])
[(ty2, R.Q_Implicit)])
[(pre1, R.Q_Implicit)])
[(post1, R.Q_Implicit)])
[(post2, R.Q_Implicit)])
[(t1, R.Q_Explicit)])
[(t2, R.Q_Explicit)]
// Wrapper.bind_sttg<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2
let mk_bind_ghost
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_sttg" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
pack_ln (R.Tv_App t (e2, Q_Explicit))
// Wrapper.bind_stt_ghost_atomic<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2 reveal_a
let mk_bind_ghost_atomic
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2 reveal_a:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_stt_ghost_atomic" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (e2, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_a, Q_Explicit))
// Wrapper.bind_stt_atomic_ghost<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2 reveal_b
let mk_bind_atomic_ghost
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2 reveal_b:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_stt_atomic_ghost" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (e2, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_b, Q_Explicit))
// Wrapper.frame_stt<u> #ty #pre #post frame t
let mk_frame_stt
(u:R.universe)
(ty:R.term)
(pre: R.term)
(post: R.term)
(frame: R.term)
(t:R.term)
: R.term
= let frame_lid = mk_pulse_lib_core_lid "frame_stt" in
let frame_fv = R.pack_fv frame_lid in
let frame_univ_inst u = R.pack_ln (R.Tv_UInst (R.pack_fv frame_lid) [u]) in
let head = frame_univ_inst u in
R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app head [(ty, R.Q_Implicit)])
[(pre, R.Q_Implicit)])
[(post, R.Q_Implicit)])
[(frame, R.Q_Explicit)])
[(t, R.Q_Explicit)]
// Wrapper.frame_stt_atomic<u> #a #opened #pre #post frame e
let mk_frame_stt_atomic (u:R.universe) (a opened pre post frame e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "frame_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (frame, Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.frame_stt_ghost<u> #a #opened #pre #post frame e
let mk_frame_stt_ghost (u:R.universe) (a opened pre post frame e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "frame_stt_ghost" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (frame, Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.sub_stt<u> #ty #pre1 pre2 #post1 post2 () () e
let mk_sub_stt
(u:R.universe)
(ty:R.term)
(pre1 pre2: R.term)
(post1 post2: R.term)
(t:R.term)
: R.term
= let subsumption_lid = mk_pulse_lib_core_lid "sub_stt" in
let subsumption_fv = R.pack_fv subsumption_lid in
let subsumption_univ_inst u = R.pack_ln (R.Tv_UInst subsumption_fv [u]) in
let head = subsumption_univ_inst u in
R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app head [(ty, R.Q_Implicit)])
[(pre1, R.Q_Implicit)])
[(pre2, R.Q_Explicit)])
[(post1, R.Q_Implicit)])
[(post2, R.Q_Explicit)])
[(`(), R.Q_Explicit)])
[(`(), R.Q_Explicit)])
[(t, R.Q_Explicit)]
// Wrapper.sub_stt_atomic<u> #a #opened #pre1 pre2 #post1 post2 () () e
let mk_sub_stt_atomic (u:R.universe) (a opened pre1 pre2 post1 post2 e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "sub_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.sub_stt_ghost<u> #a #opened #pre1 pre2 #post1 post2 () () e
let mk_sub_stt_ghost (u:R.universe) (a opened pre1 pre2 post1 post2 e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "sub_stt_ghost" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
let mk_par (u:R.universe) (aL aR preL postL preR postR eL eR:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "stt_par" in
let t = pack_ln (Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (Tv_App t (aL, Q_Implicit)) in
let t = pack_ln (Tv_App t (aR, Q_Implicit)) in
let t = pack_ln (Tv_App t (preL, Q_Implicit)) in
let t = pack_ln (Tv_App t (postL, Q_Implicit)) in
let t = pack_ln (Tv_App t (preR, Q_Implicit)) in
let t = pack_ln (Tv_App t (postR, Q_Implicit)) in
let t = pack_ln (Tv_App t (eL, Q_Explicit)) in
pack_ln (Tv_App t (eR, Q_Explicit))
let mk_rewrite (p q:R.term) =
let open R in
let t = pack_ln (Tv_FVar (pack_fv (mk_pulse_lib_core_lid "rewrite"))) in
let t = pack_ln (Tv_App t (p, Q_Explicit)) in
let t = pack_ln (Tv_App t (q, Q_Explicit)) in
pack_ln (Tv_App t (`(), Q_Explicit)) | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val mk_withlocal : ret_u: FStar.Reflection.Types.universe ->
a: FStar.Reflection.Types.term ->
init: FStar.Reflection.Types.term ->
pre: FStar.Reflection.Types.term ->
ret_t: FStar.Reflection.Types.term ->
post: FStar.Reflection.Types.term ->
body: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | [] | Pulse.Reflection.Util.mk_withlocal | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} |
ret_u: FStar.Reflection.Types.universe ->
a: FStar.Reflection.Types.term ->
init: FStar.Reflection.Types.term ->
pre: FStar.Reflection.Types.term ->
ret_t: FStar.Reflection.Types.term ->
post: FStar.Reflection.Types.term ->
body: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | {
"end_col": 39,
"end_line": 563,
"start_col": 2,
"start_line": 555
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let intro_exists_lid = mk_pulse_lib_core_lid "intro_exists" | let intro_exists_lid = | false | null | false | mk_pulse_lib_core_lid "intro_exists" | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"Pulse.Reflection.Util.mk_pulse_lib_core_lid"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv
let mk_total t = R.C_Total t
let mk_ghost t = R.C_GTotal t
let binder_of_t_q t q = RT.binder_of_t_q t q
let binder_of_t_q_s (t:R.term) (q:R.aqualv) (s:RT.pp_name_t) = RT.mk_binder s t q
let bound_var i : R.term = RT.bound_var i
let mk_name i : R.term = R.pack_ln (R.Tv_Var (R.pack_namedv (RT.make_namedv i)))
let arrow_dom = (R.term & R.aqualv)
let mk_arrow (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q ty q) (R.pack_comp (mk_total out)))
let mk_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_total out)))
let mk_ghost_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_ghost out)))
let mk_abs ty qual t : R.term = RT.mk_abs ty qual t
let mk_abs_with_name s ty qual t : R.term = R.pack_ln (R.Tv_Abs (binder_of_t_q_s ty qual s) t)
let mk_abs_with_name_and_range s r ty qual t : R.term =
let b = (binder_of_t_q_s ty qual s) in
let b = RU.binder_set_range b r in
R.pack_ln (R.Tv_Abs b t)
let mk_erased (u:R.universe) (t:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv erased_lid) [u]) in
R.pack_ln (R.Tv_App hd (t, R.Q_Explicit))
let mk_reveal (u:R.universe) (t:R.term) (e:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv reveal_lid) [u]) in
let hd = R.pack_ln (R.Tv_App hd (t, R.Q_Implicit)) in
R.pack_ln (R.Tv_App hd (e, R.Q_Explicit)) | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val intro_exists_lid : Prims.list Prims.string | [] | Pulse.Reflection.Util.intro_exists_lid | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | Prims.list Prims.string | {
"end_col": 59,
"end_line": 210,
"start_col": 23,
"start_line": 210
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let mk_rewrite (p q:R.term) =
let open R in
let t = pack_ln (Tv_FVar (pack_fv (mk_pulse_lib_core_lid "rewrite"))) in
let t = pack_ln (Tv_App t (p, Q_Explicit)) in
let t = pack_ln (Tv_App t (q, Q_Explicit)) in
pack_ln (Tv_App t (`(), Q_Explicit)) | let mk_rewrite (p q: R.term) = | false | null | false | let open R in
let t = pack_ln (Tv_FVar (pack_fv (mk_pulse_lib_core_lid "rewrite"))) in
let t = pack_ln (Tv_App t (p, Q_Explicit)) in
let t = pack_ln (Tv_App t (q, Q_Explicit)) in
pack_ln (Tv_App t ((`()), Q_Explicit)) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.Types.term",
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_App",
"FStar.Pervasives.Native.Mktuple2",
"FStar.Reflection.V2.Data.aqualv",
"FStar.Reflection.V2.Data.Q_Explicit",
"FStar.Reflection.V2.Data.Tv_FVar",
"FStar.Reflection.V2.Builtins.pack_fv",
"Pulse.Reflection.Util.mk_pulse_lib_core_lid"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv
let mk_total t = R.C_Total t
let mk_ghost t = R.C_GTotal t
let binder_of_t_q t q = RT.binder_of_t_q t q
let binder_of_t_q_s (t:R.term) (q:R.aqualv) (s:RT.pp_name_t) = RT.mk_binder s t q
let bound_var i : R.term = RT.bound_var i
let mk_name i : R.term = R.pack_ln (R.Tv_Var (R.pack_namedv (RT.make_namedv i)))
let arrow_dom = (R.term & R.aqualv)
let mk_arrow (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q ty q) (R.pack_comp (mk_total out)))
let mk_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_total out)))
let mk_ghost_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_ghost out)))
let mk_abs ty qual t : R.term = RT.mk_abs ty qual t
let mk_abs_with_name s ty qual t : R.term = R.pack_ln (R.Tv_Abs (binder_of_t_q_s ty qual s) t)
let mk_abs_with_name_and_range s r ty qual t : R.term =
let b = (binder_of_t_q_s ty qual s) in
let b = RU.binder_set_range b r in
R.pack_ln (R.Tv_Abs b t)
let mk_erased (u:R.universe) (t:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv erased_lid) [u]) in
R.pack_ln (R.Tv_App hd (t, R.Q_Explicit))
let mk_reveal (u:R.universe) (t:R.term) (e:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv reveal_lid) [u]) in
let hd = R.pack_ln (R.Tv_App hd (t, R.Q_Implicit)) in
R.pack_ln (R.Tv_App hd (e, R.Q_Explicit))
let elim_exists_lid = mk_pulse_lib_core_lid "elim_exists"
let intro_exists_lid = mk_pulse_lib_core_lid "intro_exists"
let intro_exists_erased_lid = mk_pulse_lib_core_lid "intro_exists_erased"
let mk_exists (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_forall (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv forall_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_elim_exists (u:R.universe) (a p:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv elim_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_intro_exists (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let mk_intro_exists_erased (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_erased_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let while_lid = mk_pulse_lib_core_lid "while_loop"
let mk_while (inv cond body:R.term) : R.term =
let t = R.pack_ln (R.Tv_FVar (R.pack_fv while_lid)) in
let t = R.pack_ln (R.Tv_App t (inv, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (cond, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (body, R.Q_Explicit))
let vprop_eq_tm t1 t2 =
let open R in
let u2 =
pack_universe (Uv_Succ (pack_universe (Uv_Succ (pack_universe Uv_Zero)))) in
let t = pack_ln (Tv_UInst (pack_fv eq2_qn) [u2]) in
let t = pack_ln (Tv_App t (pack_ln (Tv_FVar (pack_fv vprop_lid)), Q_Implicit)) in
let t = pack_ln (Tv_App t (t1, Q_Explicit)) in
let t = pack_ln (Tv_App t (t2, Q_Explicit)) in
t
let emp_inames_tm : R.term = R.pack_ln (R.Tv_FVar (R.pack_fv emp_inames_lid))
let non_informative_witness_lid = mk_pulse_lib_core_lid "non_informative_witness"
let non_informative_witness_rt (u:R.universe) (a:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv non_informative_witness_lid) [u]) in
let t = pack_ln (Tv_App t (a, Q_Explicit)) in
t
let stt_vprop_equiv_fv =
R.pack_fv (mk_pulse_lib_core_lid "vprop_equiv")
let stt_vprop_equiv_tm =
R.pack_ln (R.Tv_FVar stt_vprop_equiv_fv)
let stt_vprop_equiv (t1 t2:R.term) =
let open R in
let t = pack_ln (Tv_App stt_vprop_equiv_tm (t1, Q_Explicit)) in
pack_ln (Tv_App t (t2, Q_Explicit))
let return_stt_lid = mk_pulse_lib_core_lid "return_stt"
let return_stt_noeq_lid = mk_pulse_lib_core_lid "return"
let return_stt_atomic_lid = mk_pulse_lib_core_lid "return_stt_atomic"
let return_stt_atomic_noeq_lid = mk_pulse_lib_core_lid "return_stt_atomic_noeq"
let return_stt_ghost_lid = mk_pulse_lib_core_lid "return_stt_ghost"
let return_stt_ghost_noeq_lid = mk_pulse_lib_core_lid "return_stt_ghost_noeq"
let mk_stt_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_atomic_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_atomic_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_atomic_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_atomic_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_ghost_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_ghost_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
// Wrapper.lift_stt_atomic<u> #a #pre #post e
let mk_lift_atomic_stt (u:R.universe) (a pre post e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "lift_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.lift_stt_ghost<u> #a #opened #pre #post e reveal_a
let mk_lift_ghost_atomic (u:R.universe) (a opened pre post e reveal_a:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "lift_stt_ghost" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_a, Q_Explicit))
// Wrapper.bind_stt<u1, u2> #a #b #pre1 #post1 #post2 e1 e2
let mk_bind_stt
(u1 u2:R.universe)
(ty1 ty2:R.term)
(pre1 post1: R.term)
(post2: R.term)
(t1 t2:R.term)
: R.term
= let bind_lid = mk_pulse_lib_core_lid "bind_stt" in
let head = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app head
[(ty1, R.Q_Implicit)])
[(ty2, R.Q_Implicit)])
[(pre1, R.Q_Implicit)])
[(post1, R.Q_Implicit)])
[(post2, R.Q_Implicit)])
[(t1, R.Q_Explicit)])
[(t2, R.Q_Explicit)]
// Wrapper.bind_sttg<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2
let mk_bind_ghost
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_sttg" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
pack_ln (R.Tv_App t (e2, Q_Explicit))
// Wrapper.bind_stt_ghost_atomic<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2 reveal_a
let mk_bind_ghost_atomic
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2 reveal_a:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_stt_ghost_atomic" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (e2, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_a, Q_Explicit))
// Wrapper.bind_stt_atomic_ghost<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2 reveal_b
let mk_bind_atomic_ghost
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2 reveal_b:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_stt_atomic_ghost" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (e2, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_b, Q_Explicit))
// Wrapper.frame_stt<u> #ty #pre #post frame t
let mk_frame_stt
(u:R.universe)
(ty:R.term)
(pre: R.term)
(post: R.term)
(frame: R.term)
(t:R.term)
: R.term
= let frame_lid = mk_pulse_lib_core_lid "frame_stt" in
let frame_fv = R.pack_fv frame_lid in
let frame_univ_inst u = R.pack_ln (R.Tv_UInst (R.pack_fv frame_lid) [u]) in
let head = frame_univ_inst u in
R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app head [(ty, R.Q_Implicit)])
[(pre, R.Q_Implicit)])
[(post, R.Q_Implicit)])
[(frame, R.Q_Explicit)])
[(t, R.Q_Explicit)]
// Wrapper.frame_stt_atomic<u> #a #opened #pre #post frame e
let mk_frame_stt_atomic (u:R.universe) (a opened pre post frame e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "frame_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (frame, Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.frame_stt_ghost<u> #a #opened #pre #post frame e
let mk_frame_stt_ghost (u:R.universe) (a opened pre post frame e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "frame_stt_ghost" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (frame, Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.sub_stt<u> #ty #pre1 pre2 #post1 post2 () () e
let mk_sub_stt
(u:R.universe)
(ty:R.term)
(pre1 pre2: R.term)
(post1 post2: R.term)
(t:R.term)
: R.term
= let subsumption_lid = mk_pulse_lib_core_lid "sub_stt" in
let subsumption_fv = R.pack_fv subsumption_lid in
let subsumption_univ_inst u = R.pack_ln (R.Tv_UInst subsumption_fv [u]) in
let head = subsumption_univ_inst u in
R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app head [(ty, R.Q_Implicit)])
[(pre1, R.Q_Implicit)])
[(pre2, R.Q_Explicit)])
[(post1, R.Q_Implicit)])
[(post2, R.Q_Explicit)])
[(`(), R.Q_Explicit)])
[(`(), R.Q_Explicit)])
[(t, R.Q_Explicit)]
// Wrapper.sub_stt_atomic<u> #a #opened #pre1 pre2 #post1 post2 () () e
let mk_sub_stt_atomic (u:R.universe) (a opened pre1 pre2 post1 post2 e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "sub_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.sub_stt_ghost<u> #a #opened #pre1 pre2 #post1 post2 () () e
let mk_sub_stt_ghost (u:R.universe) (a opened pre1 pre2 post1 post2 e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "sub_stt_ghost" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
let mk_par (u:R.universe) (aL aR preL postL preR postR eL eR:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "stt_par" in
let t = pack_ln (Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (Tv_App t (aL, Q_Implicit)) in
let t = pack_ln (Tv_App t (aR, Q_Implicit)) in
let t = pack_ln (Tv_App t (preL, Q_Implicit)) in
let t = pack_ln (Tv_App t (postL, Q_Implicit)) in
let t = pack_ln (Tv_App t (preR, Q_Implicit)) in
let t = pack_ln (Tv_App t (postR, Q_Implicit)) in
let t = pack_ln (Tv_App t (eL, Q_Explicit)) in
pack_ln (Tv_App t (eR, Q_Explicit)) | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val mk_rewrite : p: FStar.Reflection.Types.term -> q: FStar.Reflection.Types.term -> FStar.Reflection.Types.term | [] | Pulse.Reflection.Util.mk_rewrite | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | p: FStar.Reflection.Types.term -> q: FStar.Reflection.Types.term -> FStar.Reflection.Types.term | {
"end_col": 38,
"end_line": 552,
"start_col": 2,
"start_line": 548
} |
|
Prims.Tot | val mk_stt_atomic_return (u: R.universe) (ty t post: R.term) : R.term | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let mk_stt_atomic_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_atomic_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit)) | val mk_stt_atomic_return (u: R.universe) (ty t post: R.term) : R.term
let mk_stt_atomic_return (u: R.universe) (ty t post: R.term) : R.term = | false | null | false | let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_atomic_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit)) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.Types.universe",
"FStar.Reflection.Types.term",
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_App",
"FStar.Pervasives.Native.Mktuple2",
"FStar.Reflection.V2.Data.aqualv",
"FStar.Reflection.V2.Data.Q_Explicit",
"FStar.Reflection.V2.Data.Q_Implicit",
"FStar.Reflection.V2.Data.Tv_UInst",
"FStar.Reflection.V2.Builtins.pack_fv",
"Pulse.Reflection.Util.return_stt_atomic_lid",
"Prims.Cons",
"Prims.Nil"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv
let mk_total t = R.C_Total t
let mk_ghost t = R.C_GTotal t
let binder_of_t_q t q = RT.binder_of_t_q t q
let binder_of_t_q_s (t:R.term) (q:R.aqualv) (s:RT.pp_name_t) = RT.mk_binder s t q
let bound_var i : R.term = RT.bound_var i
let mk_name i : R.term = R.pack_ln (R.Tv_Var (R.pack_namedv (RT.make_namedv i)))
let arrow_dom = (R.term & R.aqualv)
let mk_arrow (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q ty q) (R.pack_comp (mk_total out)))
let mk_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_total out)))
let mk_ghost_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_ghost out)))
let mk_abs ty qual t : R.term = RT.mk_abs ty qual t
let mk_abs_with_name s ty qual t : R.term = R.pack_ln (R.Tv_Abs (binder_of_t_q_s ty qual s) t)
let mk_abs_with_name_and_range s r ty qual t : R.term =
let b = (binder_of_t_q_s ty qual s) in
let b = RU.binder_set_range b r in
R.pack_ln (R.Tv_Abs b t)
let mk_erased (u:R.universe) (t:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv erased_lid) [u]) in
R.pack_ln (R.Tv_App hd (t, R.Q_Explicit))
let mk_reveal (u:R.universe) (t:R.term) (e:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv reveal_lid) [u]) in
let hd = R.pack_ln (R.Tv_App hd (t, R.Q_Implicit)) in
R.pack_ln (R.Tv_App hd (e, R.Q_Explicit))
let elim_exists_lid = mk_pulse_lib_core_lid "elim_exists"
let intro_exists_lid = mk_pulse_lib_core_lid "intro_exists"
let intro_exists_erased_lid = mk_pulse_lib_core_lid "intro_exists_erased"
let mk_exists (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_forall (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv forall_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_elim_exists (u:R.universe) (a p:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv elim_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_intro_exists (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let mk_intro_exists_erased (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_erased_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let while_lid = mk_pulse_lib_core_lid "while_loop"
let mk_while (inv cond body:R.term) : R.term =
let t = R.pack_ln (R.Tv_FVar (R.pack_fv while_lid)) in
let t = R.pack_ln (R.Tv_App t (inv, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (cond, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (body, R.Q_Explicit))
let vprop_eq_tm t1 t2 =
let open R in
let u2 =
pack_universe (Uv_Succ (pack_universe (Uv_Succ (pack_universe Uv_Zero)))) in
let t = pack_ln (Tv_UInst (pack_fv eq2_qn) [u2]) in
let t = pack_ln (Tv_App t (pack_ln (Tv_FVar (pack_fv vprop_lid)), Q_Implicit)) in
let t = pack_ln (Tv_App t (t1, Q_Explicit)) in
let t = pack_ln (Tv_App t (t2, Q_Explicit)) in
t
let emp_inames_tm : R.term = R.pack_ln (R.Tv_FVar (R.pack_fv emp_inames_lid))
let non_informative_witness_lid = mk_pulse_lib_core_lid "non_informative_witness"
let non_informative_witness_rt (u:R.universe) (a:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv non_informative_witness_lid) [u]) in
let t = pack_ln (Tv_App t (a, Q_Explicit)) in
t
let stt_vprop_equiv_fv =
R.pack_fv (mk_pulse_lib_core_lid "vprop_equiv")
let stt_vprop_equiv_tm =
R.pack_ln (R.Tv_FVar stt_vprop_equiv_fv)
let stt_vprop_equiv (t1 t2:R.term) =
let open R in
let t = pack_ln (Tv_App stt_vprop_equiv_tm (t1, Q_Explicit)) in
pack_ln (Tv_App t (t2, Q_Explicit))
let return_stt_lid = mk_pulse_lib_core_lid "return_stt"
let return_stt_noeq_lid = mk_pulse_lib_core_lid "return"
let return_stt_atomic_lid = mk_pulse_lib_core_lid "return_stt_atomic"
let return_stt_atomic_noeq_lid = mk_pulse_lib_core_lid "return_stt_atomic_noeq"
let return_stt_ghost_lid = mk_pulse_lib_core_lid "return_stt_ghost"
let return_stt_ghost_noeq_lid = mk_pulse_lib_core_lid "return_stt_ghost_noeq"
let mk_stt_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit)) | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val mk_stt_atomic_return (u: R.universe) (ty t post: R.term) : R.term | [] | Pulse.Reflection.Util.mk_stt_atomic_return | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} |
u132: FStar.Reflection.Types.universe ->
ty: FStar.Reflection.Types.term ->
t: FStar.Reflection.Types.term ->
post: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | {
"end_col": 45,
"end_line": 306,
"start_col": 12,
"start_line": 301
} |
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let mk_par (u:R.universe) (aL aR preL postL preR postR eL eR:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "stt_par" in
let t = pack_ln (Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (Tv_App t (aL, Q_Implicit)) in
let t = pack_ln (Tv_App t (aR, Q_Implicit)) in
let t = pack_ln (Tv_App t (preL, Q_Implicit)) in
let t = pack_ln (Tv_App t (postL, Q_Implicit)) in
let t = pack_ln (Tv_App t (preR, Q_Implicit)) in
let t = pack_ln (Tv_App t (postR, Q_Implicit)) in
let t = pack_ln (Tv_App t (eL, Q_Explicit)) in
pack_ln (Tv_App t (eR, Q_Explicit)) | let mk_par (u: R.universe) (aL aR preL postL preR postR eL eR: R.term) = | false | null | false | let open R in
let lid = mk_pulse_lib_core_lid "stt_par" in
let t = pack_ln (Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (Tv_App t (aL, Q_Implicit)) in
let t = pack_ln (Tv_App t (aR, Q_Implicit)) in
let t = pack_ln (Tv_App t (preL, Q_Implicit)) in
let t = pack_ln (Tv_App t (postL, Q_Implicit)) in
let t = pack_ln (Tv_App t (preR, Q_Implicit)) in
let t = pack_ln (Tv_App t (postR, Q_Implicit)) in
let t = pack_ln (Tv_App t (eL, Q_Explicit)) in
pack_ln (Tv_App t (eR, Q_Explicit)) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.Types.universe",
"FStar.Reflection.Types.term",
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_App",
"FStar.Pervasives.Native.Mktuple2",
"FStar.Reflection.V2.Data.aqualv",
"FStar.Reflection.V2.Data.Q_Explicit",
"FStar.Reflection.V2.Data.Q_Implicit",
"FStar.Reflection.V2.Data.Tv_UInst",
"FStar.Reflection.V2.Builtins.pack_fv",
"Prims.Cons",
"Prims.Nil",
"Prims.list",
"Prims.string",
"Pulse.Reflection.Util.mk_pulse_lib_core_lid"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv
let mk_total t = R.C_Total t
let mk_ghost t = R.C_GTotal t
let binder_of_t_q t q = RT.binder_of_t_q t q
let binder_of_t_q_s (t:R.term) (q:R.aqualv) (s:RT.pp_name_t) = RT.mk_binder s t q
let bound_var i : R.term = RT.bound_var i
let mk_name i : R.term = R.pack_ln (R.Tv_Var (R.pack_namedv (RT.make_namedv i)))
let arrow_dom = (R.term & R.aqualv)
let mk_arrow (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q ty q) (R.pack_comp (mk_total out)))
let mk_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_total out)))
let mk_ghost_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_ghost out)))
let mk_abs ty qual t : R.term = RT.mk_abs ty qual t
let mk_abs_with_name s ty qual t : R.term = R.pack_ln (R.Tv_Abs (binder_of_t_q_s ty qual s) t)
let mk_abs_with_name_and_range s r ty qual t : R.term =
let b = (binder_of_t_q_s ty qual s) in
let b = RU.binder_set_range b r in
R.pack_ln (R.Tv_Abs b t)
let mk_erased (u:R.universe) (t:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv erased_lid) [u]) in
R.pack_ln (R.Tv_App hd (t, R.Q_Explicit))
let mk_reveal (u:R.universe) (t:R.term) (e:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv reveal_lid) [u]) in
let hd = R.pack_ln (R.Tv_App hd (t, R.Q_Implicit)) in
R.pack_ln (R.Tv_App hd (e, R.Q_Explicit))
let elim_exists_lid = mk_pulse_lib_core_lid "elim_exists"
let intro_exists_lid = mk_pulse_lib_core_lid "intro_exists"
let intro_exists_erased_lid = mk_pulse_lib_core_lid "intro_exists_erased"
let mk_exists (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_forall (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv forall_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_elim_exists (u:R.universe) (a p:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv elim_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_intro_exists (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let mk_intro_exists_erased (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_erased_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let while_lid = mk_pulse_lib_core_lid "while_loop"
let mk_while (inv cond body:R.term) : R.term =
let t = R.pack_ln (R.Tv_FVar (R.pack_fv while_lid)) in
let t = R.pack_ln (R.Tv_App t (inv, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (cond, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (body, R.Q_Explicit))
let vprop_eq_tm t1 t2 =
let open R in
let u2 =
pack_universe (Uv_Succ (pack_universe (Uv_Succ (pack_universe Uv_Zero)))) in
let t = pack_ln (Tv_UInst (pack_fv eq2_qn) [u2]) in
let t = pack_ln (Tv_App t (pack_ln (Tv_FVar (pack_fv vprop_lid)), Q_Implicit)) in
let t = pack_ln (Tv_App t (t1, Q_Explicit)) in
let t = pack_ln (Tv_App t (t2, Q_Explicit)) in
t
let emp_inames_tm : R.term = R.pack_ln (R.Tv_FVar (R.pack_fv emp_inames_lid))
let non_informative_witness_lid = mk_pulse_lib_core_lid "non_informative_witness"
let non_informative_witness_rt (u:R.universe) (a:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv non_informative_witness_lid) [u]) in
let t = pack_ln (Tv_App t (a, Q_Explicit)) in
t
let stt_vprop_equiv_fv =
R.pack_fv (mk_pulse_lib_core_lid "vprop_equiv")
let stt_vprop_equiv_tm =
R.pack_ln (R.Tv_FVar stt_vprop_equiv_fv)
let stt_vprop_equiv (t1 t2:R.term) =
let open R in
let t = pack_ln (Tv_App stt_vprop_equiv_tm (t1, Q_Explicit)) in
pack_ln (Tv_App t (t2, Q_Explicit))
let return_stt_lid = mk_pulse_lib_core_lid "return_stt"
let return_stt_noeq_lid = mk_pulse_lib_core_lid "return"
let return_stt_atomic_lid = mk_pulse_lib_core_lid "return_stt_atomic"
let return_stt_atomic_noeq_lid = mk_pulse_lib_core_lid "return_stt_atomic_noeq"
let return_stt_ghost_lid = mk_pulse_lib_core_lid "return_stt_ghost"
let return_stt_ghost_noeq_lid = mk_pulse_lib_core_lid "return_stt_ghost_noeq"
let mk_stt_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_atomic_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_atomic_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_atomic_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_atomic_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_return (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_ghost_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_return_noeq (u:R.universe) (ty:R.term) (t:R.term) (post:R.term)
: R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv return_stt_ghost_noeq_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (ty, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (t, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
// Wrapper.lift_stt_atomic<u> #a #pre #post e
let mk_lift_atomic_stt (u:R.universe) (a pre post e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "lift_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.lift_stt_ghost<u> #a #opened #pre #post e reveal_a
let mk_lift_ghost_atomic (u:R.universe) (a opened pre post e reveal_a:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "lift_stt_ghost" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_a, Q_Explicit))
// Wrapper.bind_stt<u1, u2> #a #b #pre1 #post1 #post2 e1 e2
let mk_bind_stt
(u1 u2:R.universe)
(ty1 ty2:R.term)
(pre1 post1: R.term)
(post2: R.term)
(t1 t2:R.term)
: R.term
= let bind_lid = mk_pulse_lib_core_lid "bind_stt" in
let head = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app head
[(ty1, R.Q_Implicit)])
[(ty2, R.Q_Implicit)])
[(pre1, R.Q_Implicit)])
[(post1, R.Q_Implicit)])
[(post2, R.Q_Implicit)])
[(t1, R.Q_Explicit)])
[(t2, R.Q_Explicit)]
// Wrapper.bind_sttg<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2
let mk_bind_ghost
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_sttg" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
pack_ln (R.Tv_App t (e2, Q_Explicit))
// Wrapper.bind_stt_ghost_atomic<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2 reveal_a
let mk_bind_ghost_atomic
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2 reveal_a:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_stt_ghost_atomic" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (e2, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_a, Q_Explicit))
// Wrapper.bind_stt_atomic_ghost<u1, u2> #a #b #opened #pre1 #post1 #post2 e1 e2 reveal_b
let mk_bind_atomic_ghost
(u1 u2:R.universe)
(a b opened pre1 post1 post2 e1 e2 reveal_b:R.term) =
let open R in
let bind_lid = mk_pulse_lib_core_lid "bind_stt_atomic_ghost" in
let t = R.pack_ln (R.Tv_UInst (R.pack_fv bind_lid) [u1;u2]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (b, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (e1, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (e2, Q_Explicit)) in
pack_ln (R.Tv_App t (reveal_b, Q_Explicit))
// Wrapper.frame_stt<u> #ty #pre #post frame t
let mk_frame_stt
(u:R.universe)
(ty:R.term)
(pre: R.term)
(post: R.term)
(frame: R.term)
(t:R.term)
: R.term
= let frame_lid = mk_pulse_lib_core_lid "frame_stt" in
let frame_fv = R.pack_fv frame_lid in
let frame_univ_inst u = R.pack_ln (R.Tv_UInst (R.pack_fv frame_lid) [u]) in
let head = frame_univ_inst u in
R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app head [(ty, R.Q_Implicit)])
[(pre, R.Q_Implicit)])
[(post, R.Q_Implicit)])
[(frame, R.Q_Explicit)])
[(t, R.Q_Explicit)]
// Wrapper.frame_stt_atomic<u> #a #opened #pre #post frame e
let mk_frame_stt_atomic (u:R.universe) (a opened pre post frame e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "frame_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (frame, Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.frame_stt_ghost<u> #a #opened #pre #post frame e
let mk_frame_stt_ghost (u:R.universe) (a opened pre post frame e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "frame_stt_ghost" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (frame, Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.sub_stt<u> #ty #pre1 pre2 #post1 post2 () () e
let mk_sub_stt
(u:R.universe)
(ty:R.term)
(pre1 pre2: R.term)
(post1 post2: R.term)
(t:R.term)
: R.term
= let subsumption_lid = mk_pulse_lib_core_lid "sub_stt" in
let subsumption_fv = R.pack_fv subsumption_lid in
let subsumption_univ_inst u = R.pack_ln (R.Tv_UInst subsumption_fv [u]) in
let head = subsumption_univ_inst u in
R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app
(R.mk_app head [(ty, R.Q_Implicit)])
[(pre1, R.Q_Implicit)])
[(pre2, R.Q_Explicit)])
[(post1, R.Q_Implicit)])
[(post2, R.Q_Explicit)])
[(`(), R.Q_Explicit)])
[(`(), R.Q_Explicit)])
[(t, R.Q_Explicit)]
// Wrapper.sub_stt_atomic<u> #a #opened #pre1 pre2 #post1 post2 () () e
let mk_sub_stt_atomic (u:R.universe) (a opened pre1 pre2 post1 post2 e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "sub_stt_atomic" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit))
// Wrapper.sub_stt_ghost<u> #a #opened #pre1 pre2 #post1 post2 () () e
let mk_sub_stt_ghost (u:R.universe) (a opened pre1 pre2 post1 post2 e:R.term) =
let open R in
let lid = mk_pulse_lib_core_lid "sub_stt_ghost" in
let t = pack_ln (R.Tv_UInst (R.pack_fv lid) [u]) in
let t = pack_ln (R.Tv_App t (a, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (opened, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (pre2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (post1, Q_Implicit)) in
let t = pack_ln (R.Tv_App t (post2, Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
let t = pack_ln (R.Tv_App t (`(), Q_Explicit)) in
pack_ln (R.Tv_App t (e, Q_Explicit)) | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val mk_par : u249: FStar.Reflection.Types.universe ->
aL: FStar.Reflection.Types.term ->
aR: FStar.Reflection.Types.term ->
preL: FStar.Reflection.Types.term ->
postL: FStar.Reflection.Types.term ->
preR: FStar.Reflection.Types.term ->
postR: FStar.Reflection.Types.term ->
eL: FStar.Reflection.Types.term ->
eR: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | [] | Pulse.Reflection.Util.mk_par | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} |
u249: FStar.Reflection.Types.universe ->
aL: FStar.Reflection.Types.term ->
aR: FStar.Reflection.Types.term ->
preL: FStar.Reflection.Types.term ->
postL: FStar.Reflection.Types.term ->
preR: FStar.Reflection.Types.term ->
postR: FStar.Reflection.Types.term ->
eL: FStar.Reflection.Types.term ->
eR: FStar.Reflection.Types.term
-> FStar.Reflection.Types.term | {
"end_col": 37,
"end_line": 545,
"start_col": 2,
"start_line": 535
} |
|
Prims.Tot | [
{
"abbrev": false,
"full_module": "FStar.List.Tot",
"short_module": null
},
{
"abbrev": true,
"full_module": "Pulse.RuntimeUtils",
"short_module": "RU"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.Typing",
"short_module": "RT"
},
{
"abbrev": true,
"full_module": "FStar.Tactics.V2",
"short_module": "T"
},
{
"abbrev": true,
"full_module": "FStar.Reflection.V2",
"short_module": "R"
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "Pulse.Reflection",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar.Pervasives",
"short_module": null
},
{
"abbrev": false,
"full_module": "Prims",
"short_module": null
},
{
"abbrev": false,
"full_module": "FStar",
"short_module": null
}
] | false | let stt_vprop_equiv_tm =
R.pack_ln (R.Tv_FVar stt_vprop_equiv_fv) | let stt_vprop_equiv_tm = | false | null | false | R.pack_ln (R.Tv_FVar stt_vprop_equiv_fv) | {
"checked_file": "Pulse.Reflection.Util.fst.checked",
"dependencies": [
"Pulse.RuntimeUtils.fsti.checked",
"prims.fst.checked",
"FStar.Tactics.V2.fst.checked",
"FStar.Reflection.V2.fst.checked",
"FStar.Reflection.Typing.fsti.checked",
"FStar.Pervasives.Native.fst.checked",
"FStar.Pervasives.fsti.checked",
"FStar.List.Tot.fst.checked",
"FStar.Ghost.fsti.checked"
],
"interface_file": false,
"source_file": "Pulse.Reflection.Util.fst"
} | [
"total"
] | [
"FStar.Reflection.V2.Builtins.pack_ln",
"FStar.Reflection.V2.Data.Tv_FVar",
"Pulse.Reflection.Util.stt_vprop_equiv_fv"
] | [] | module Pulse.Reflection.Util
module R = FStar.Reflection.V2
module T = FStar.Tactics.V2
module RT = FStar.Reflection.Typing
module RU = Pulse.RuntimeUtils
open FStar.List.Tot
let pulse_lib_core = ["Pulse"; "Lib"; "Core"]
let mk_pulse_lib_core_lid s = pulse_lib_core@[s]
let tun = R.pack_ln R.Tv_Unknown
let unit_lid = R.unit_lid
let bool_lid = R.bool_lid
let int_lid = R.int_lid
let erased_lid = ["FStar"; "Ghost"; "erased"]
let hide_lid = ["FStar"; "Ghost"; "hide"]
let reveal_lid = ["FStar"; "Ghost"; "reveal"]
let vprop_lid = mk_pulse_lib_core_lid "vprop"
let vprop_fv = R.pack_fv vprop_lid
let vprop_tm = R.pack_ln (R.Tv_FVar vprop_fv)
let unit_fv = R.pack_fv unit_lid
let unit_tm = R.pack_ln (R.Tv_FVar unit_fv)
let bool_fv = R.pack_fv bool_lid
let bool_tm = R.pack_ln (R.Tv_FVar bool_fv)
let nat_lid = ["Prims"; "nat"]
let nat_fv = R.pack_fv nat_lid
let nat_tm = R.pack_ln (R.Tv_FVar nat_fv)
let szt_lid = ["FStar"; "SizeT"; "t"]
let szt_fv = R.pack_fv szt_lid
let szt_tm = R.pack_ln (R.Tv_FVar szt_fv)
let szv_lid = ["FStar"; "SizeT"; "v"]
let szv_fv = R.pack_fv szv_lid
let szv_tm = R.pack_ln (R.Tv_FVar szv_fv)
let seq_lid = ["FStar"; "Seq"; "Base"; "seq"]
let seq_create_lid = ["FStar"; "Seq"; "Base"; "create"]
let tuple2_lid = ["FStar"; "Pervasives"; "Native"; "tuple2"]
let fst_lid = ["FStar"; "Pervasives"; "Native"; "fst"]
let snd_lid = ["FStar"; "Pervasives"; "Native"; "snd"]
let mk_tuple2 (u1 u2:R.universe) (a1 a2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv tuple2_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Explicit)) in
pack_ln (Tv_App t (a2, Q_Explicit))
let mk_fst (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv fst_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let mk_snd (u1 u2:R.universe) (a1 a2 e:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv snd_lid) [u1; u2]) in
let t = pack_ln (Tv_App t (a1, Q_Implicit)) in
let t = pack_ln (Tv_App t (a2, Q_Implicit)) in
pack_ln (Tv_App t (e, Q_Explicit))
let true_tm = R.pack_ln (R.Tv_Const (R.C_True))
let false_tm = R.pack_ln (R.Tv_Const (R.C_False))
let emp_lid = mk_pulse_lib_core_lid "emp"
let inames_lid = mk_pulse_lib_core_lid "inames"
let star_lid = mk_pulse_lib_core_lid "op_Star_Star"
let mk_star (l r:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv star_lid)) in
let t = pack_ln (Tv_App t (l, Q_Explicit)) in
pack_ln (Tv_App t (r, Q_Explicit))
let pure_lid = mk_pulse_lib_core_lid "pure"
let exists_lid = mk_pulse_lib_core_lid "exists_"
let forall_lid = mk_pulse_lib_core_lid "forall_"
let args_of (tms:list R.term) =
List.Tot.map (fun x -> x, R.Q_Explicit) tms
let mk_pure (p:R.term) : R.term =
let open R in
let t = pack_ln (Tv_FVar (pack_fv pure_lid)) in
pack_ln (Tv_App t (p, Q_Explicit))
let uzero = R.pack_universe (R.Uv_Zero)
let pulse_lib_reference = ["Pulse"; "Lib"; "Reference"]
let mk_pulse_lib_reference_lid s = pulse_lib_reference@[s]
let mk_squash (u:R.universe) (ty:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.squash_qn) [u]) in
pack_ln (Tv_App t (ty, Q_Explicit))
let mk_eq2 (u:R.universe) (ty e1 e2:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv R.eq2_qn) [u]) in
let t = pack_ln (Tv_App t (ty, Q_Implicit)) in
let t = pack_ln (Tv_App t (e1, Q_Explicit)) in
pack_ln (Tv_App t (e2, Q_Explicit))
let stt_admit_lid = mk_pulse_lib_core_lid "stt_admit"
let mk_stt_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_atomic_admit_lid = mk_pulse_lib_core_lid "stt_atomic_admit"
let mk_stt_atomic_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_atomic_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let stt_ghost_admit_lid = mk_pulse_lib_core_lid "stt_ghost_admit"
let mk_stt_ghost_admit (u:R.universe) (t pre post:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv stt_ghost_admit_lid) [u]) in
let t = pack_ln (Tv_App t (t, Q_Explicit)) in
let t = pack_ln (Tv_App t (pre, Q_Explicit)) in
pack_ln (Tv_App t (post, Q_Explicit))
let emp_inames_lid = mk_pulse_lib_core_lid "emp_inames"
let elim_pure_lid = mk_pulse_lib_core_lid "elim_pure"
//the thunked, value-type counterpart of the effect STT
let stt_lid = mk_pulse_lib_core_lid "stt"
let stt_fv = R.pack_fv stt_lid
let stt_tm = R.pack_ln (R.Tv_FVar stt_fv)
let mk_stt_comp (u:R.universe) (res pre post:R.term) : Tot R.term =
let t = R.pack_ln (R.Tv_UInst stt_fv [u]) in
let t = R.pack_ln (R.Tv_App t (res, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_atomic_lid = mk_pulse_lib_core_lid "stt_atomic"
let stt_atomic_fv = R.pack_fv stt_atomic_lid
let stt_atomic_tm = R.pack_ln (R.Tv_FVar stt_atomic_fv)
let mk_stt_atomic_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_atomic_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let stt_ghost_lid = mk_pulse_lib_core_lid "stt_ghost"
let stt_ghost_fv = R.pack_fv stt_ghost_lid
let stt_ghost_tm = R.pack_ln (R.Tv_FVar stt_ghost_fv)
let mk_stt_ghost_comp (u:R.universe) (a inames pre post:R.term) =
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (post, R.Q_Explicit))
let mk_stt_ghost_comp_post_equiv (g:R.env) (u:R.universe) (a inames pre post1 post2:R.term)
(posts_equiv:RT.equiv g post1 post2)
: RT.equiv g (mk_stt_ghost_comp u a inames pre post1)
(mk_stt_ghost_comp u a inames pre post2) =
let open R in
let open RT in
let t = R.pack_ln (R.Tv_UInst stt_ghost_fv [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (inames, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (pre, R.Q_Explicit)) in
Rel_ctxt g post1 post2
(Ctxt_app_arg t Q_Explicit Ctxt_hole)
posts_equiv
let mk_total t = R.C_Total t
let mk_ghost t = R.C_GTotal t
let binder_of_t_q t q = RT.binder_of_t_q t q
let binder_of_t_q_s (t:R.term) (q:R.aqualv) (s:RT.pp_name_t) = RT.mk_binder s t q
let bound_var i : R.term = RT.bound_var i
let mk_name i : R.term = R.pack_ln (R.Tv_Var (R.pack_namedv (RT.make_namedv i)))
let arrow_dom = (R.term & R.aqualv)
let mk_arrow (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q ty q) (R.pack_comp (mk_total out)))
let mk_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_total out)))
let mk_ghost_arrow_with_name (s:RT.pp_name_t) (f:arrow_dom) (out:R.term) : R.term =
let ty, q = f in
R.pack_ln (R.Tv_Arrow (binder_of_t_q_s ty q s) (R.pack_comp (mk_ghost out)))
let mk_abs ty qual t : R.term = RT.mk_abs ty qual t
let mk_abs_with_name s ty qual t : R.term = R.pack_ln (R.Tv_Abs (binder_of_t_q_s ty qual s) t)
let mk_abs_with_name_and_range s r ty qual t : R.term =
let b = (binder_of_t_q_s ty qual s) in
let b = RU.binder_set_range b r in
R.pack_ln (R.Tv_Abs b t)
let mk_erased (u:R.universe) (t:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv erased_lid) [u]) in
R.pack_ln (R.Tv_App hd (t, R.Q_Explicit))
let mk_reveal (u:R.universe) (t:R.term) (e:R.term) : R.term =
let hd = R.pack_ln (R.Tv_UInst (R.pack_fv reveal_lid) [u]) in
let hd = R.pack_ln (R.Tv_App hd (t, R.Q_Implicit)) in
R.pack_ln (R.Tv_App hd (e, R.Q_Explicit))
let elim_exists_lid = mk_pulse_lib_core_lid "elim_exists"
let intro_exists_lid = mk_pulse_lib_core_lid "intro_exists"
let intro_exists_erased_lid = mk_pulse_lib_core_lid "intro_exists_erased"
let mk_exists (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_forall (u:R.universe) (a p:R.term) =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv forall_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_elim_exists (u:R.universe) (a p:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv elim_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
R.pack_ln (R.Tv_App t (p, R.Q_Explicit))
let mk_intro_exists (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let mk_intro_exists_erased (u:R.universe) (a p:R.term) (e:R.term) : R.term =
let t = R.pack_ln (R.Tv_UInst (R.pack_fv intro_exists_erased_lid) [u]) in
let t = R.pack_ln (R.Tv_App t (a, R.Q_Implicit)) in
let t = R.pack_ln (R.Tv_App t (p, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (e, R.Q_Explicit))
let while_lid = mk_pulse_lib_core_lid "while_loop"
let mk_while (inv cond body:R.term) : R.term =
let t = R.pack_ln (R.Tv_FVar (R.pack_fv while_lid)) in
let t = R.pack_ln (R.Tv_App t (inv, R.Q_Explicit)) in
let t = R.pack_ln (R.Tv_App t (cond, R.Q_Explicit)) in
R.pack_ln (R.Tv_App t (body, R.Q_Explicit))
let vprop_eq_tm t1 t2 =
let open R in
let u2 =
pack_universe (Uv_Succ (pack_universe (Uv_Succ (pack_universe Uv_Zero)))) in
let t = pack_ln (Tv_UInst (pack_fv eq2_qn) [u2]) in
let t = pack_ln (Tv_App t (pack_ln (Tv_FVar (pack_fv vprop_lid)), Q_Implicit)) in
let t = pack_ln (Tv_App t (t1, Q_Explicit)) in
let t = pack_ln (Tv_App t (t2, Q_Explicit)) in
t
let emp_inames_tm : R.term = R.pack_ln (R.Tv_FVar (R.pack_fv emp_inames_lid))
let non_informative_witness_lid = mk_pulse_lib_core_lid "non_informative_witness"
let non_informative_witness_rt (u:R.universe) (a:R.term) : R.term =
let open R in
let t = pack_ln (Tv_UInst (pack_fv non_informative_witness_lid) [u]) in
let t = pack_ln (Tv_App t (a, Q_Explicit)) in
t
let stt_vprop_equiv_fv =
R.pack_fv (mk_pulse_lib_core_lid "vprop_equiv") | false | true | Pulse.Reflection.Util.fst | {
"detail_errors": false,
"detail_hint_replay": false,
"initial_fuel": 2,
"initial_ifuel": 1,
"max_fuel": 8,
"max_ifuel": 2,
"no_plugins": false,
"no_smt": false,
"no_tactics": false,
"quake_hi": 1,
"quake_keep": false,
"quake_lo": 1,
"retry": false,
"reuse_hint_for": null,
"smtencoding_elim_box": false,
"smtencoding_l_arith_repr": "boxwrap",
"smtencoding_nl_arith_repr": "boxwrap",
"smtencoding_valid_elim": false,
"smtencoding_valid_intro": true,
"tcnorm": true,
"trivial_pre_for_unannotated_effectful_fns": true,
"z3cliopt": [],
"z3refresh": false,
"z3rlimit": 5,
"z3rlimit_factor": 1,
"z3seed": 0,
"z3smtopt": [],
"z3version": "4.8.5"
} | null | val stt_vprop_equiv_tm : FStar.Reflection.Types.term | [] | Pulse.Reflection.Util.stt_vprop_equiv_tm | {
"file_name": "lib/steel/pulse/Pulse.Reflection.Util.fst",
"git_rev": "7fbb54e94dd4f48ff7cb867d3bae6889a635541e",
"git_url": "https://github.com/FStarLang/steel.git",
"project_name": "steel"
} | FStar.Reflection.Types.term | {
"end_col": 42,
"end_line": 271,
"start_col": 2,
"start_line": 271
} |
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