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OCaml_program_corpus

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let cut_rev_trace rev_trace = on_the_fly_cut_finalize ( List . fold_left on_the_fly_cut_step on_the_fly_cut_init rev_trace )
let remove_obs_before _parameter _handler log_info error last_eid trace = error , log_info , ( let rec aux l score output = match l with [ ] -> List . rev output , score \| t :: q -> if Trace . step_is_obs t then match Trace . simulation_info_of_step t with None -> aux q score ( t :: output ) \| Some x -> if Trace . Simulation_info . story_id x >= last_eid then List . rev ( List . fold_left ( fun list a -> a :: list ) output l ) , score else aux q ( succ score ) output else aux q score ( t :: output ) in aux trace 0 [ ] )
let remove_obs_before parameter handler log_info error last_info trace = lift_to_care_about_ambiguities ( transform_trace_gen ( fun parameter handler log_info error -> remove_obs_before parameter handler log_info error last_info ) ( Some " \ t - Removing already visited observable hits " ) " Trace after having removed seen observable hits \ n " StoryProfiling . Partial_order_reduction ) Do_not_care Neutral parameter handler log_info error trace
let remove_obs_before parameter ? shall_we_compute ( : _ ) ? shall_we_compute_profiling_information ( : _ ) ? print_if_zero ( : _ ) handler log_info error last_info trace = match last_info with \| None -> error , log_info , trace \| Some l -> let last = List . fold_left ( fun result x -> let last_eid = Trace . Simulation_info . story_id x in max result last_eid ) 0 l in remove_obs_before parameter handler log_info error last trace
let fill_siphon = lift_to_care_about_ambiguities ( transform_trace_gen ( monadic_lift S . PH . B . PB . CI . Po . K . fill_siphon ) ( Some " \ t - detecting siphons " ) " Trace after having detected siphons :\ n " StoryProfiling . Siphon_detection ) Require_the_abscence_of_ambiguity May_add_ambiguities
let ( remove_events_after_last_obs : ( trace , trace ) unary ) = lift_to_care_about_ambiguities ( transform_trace_gen ( monadic_lift ( ( List_util . remove_suffix_after_last_occurrence Trace . step_is_obs ) ) ) ( Some " \ t - removing events occurring after the last observable " ) " Trace after having removed the events after the last observable " StoryProfiling . Remove_events_after_last_observable ) Do_not_care Neutral
let remove_pseudo_inverse_events = lift_to_care_about_ambiguities ( transform_trace_gen S . PH . B . PB . CI . cut ( Some " \ t - detecting pseudo inverse events " ) " Trace after having removed pseudo inverse events :\ n " StoryProfiling . Pseudo_inverse_deletion ) Do_not_care Neutral
type story_table = { story_counter : int ; story_list : D . table ; }
let count_stories story_table = D . count_stories story_table . story_list
type observable_hit = { list_of_actions : S . PH . update_order list ; list_of_events : step_id list ; runtime_info : unit Trace . Simulation_info . t option }
let get_event_list_from_observable_hit a = a . list_of_events
let get_runtime_info_from_observable_hit a = a . runtime_info
let _get_list_order a = a . list_of_actions
let extract_observable_hits_from_musical_notation a ? shall_we_compute ( : _ ) ? shall_we_compute_profiling_information ( : _ ) ? print_if_zero ( : _ ) b profiling_info c d = let error , profiling_info , l = S . PH . forced_events a b profiling_info c d in error , profiling_info , List . rev_map ( fun ( a , b , c ) -> { list_of_actions = a ; list_of_events = b ; runtime_info = c } ) ( List . rev l )
let extract_observable_hit_from_musical_notation a ? shall_we_compute ( : _ ) ? shall_we_compute_profiling_information ( : _ ) ? print_if_zero ( : _ ) b profiling_info c string d = let error , profiling_info , l = S . PH . forced_events a b profiling_info c d in match l with \| [ a , b , c ] -> error , profiling_info , { list_of_actions = a ; list_of_events = b ; runtime_info = c } \| [ ] -> failwith ( string " ^ no story " ) \| _ :: _ -> failwith ( string " ^ several stories " )
let translate p h profiling_info e b list = let error , profiling_info , ( list , _ ) = S . translate p h profiling_info e b list in error , profiling_info , trace_of_pretrace list
let causal_prefix_of_an_observable_hit parameter ? shall_we_compute ( : _ ) ? shall_we_compute_profiling_information ( : _ ) ? print_if_zero ( : _ ) handler profiling_info error string blackboard ( enriched_grid : enriched_cflow_grid ) observable_id = let eid = match get_event_list_from_observable_hit observable_id with \| [ a ] -> a \| [ ] -> failwith ( " no observable in that story " ^ string ) \| _ -> failwith ( " several observables in that story " ^ string ) in let event_id_list = Graph_closure . get_list_in_increasing_order_with_last_event ( S . PH . B . PB . int_of_step_id ( S . PH . B . PB . inc_step_id eid ) ) enriched_grid . Causal . prec_star in let error , profiling_info , output = translate parameter handler profiling_info error blackboard ( List . rev_map S . PH . B . PB . step_id_of_int ( List . rev event_id_list ) ) in error , profiling_info , output
let export_musical_grid_to_xls a ? shall_we_compute ( : _ ) ? shall_we_compute_profiling_information ( : _ ) ? print_if_zero ( : _ ) b ( p : StoryProfiling . StoryStats . log_info ) c d e f g = S . PH . B . export_blackboard_to_xls a b p c d e f g
let print_musical_grid a ? shall_we_compute ( : _ ) ? shall_we_compute_profiling_information ( : _ ) ? print_if_zero ( : _ ) b p c d = S . PH . B . print_blackboard a b p c d
let create_story_table parameters ? shall_we_compute ( : _ ) ? shall_we_compute_profiling_information ( : _ ) ? print_if_zero ( : _ ) handler profiling_info error = let error , profiling_info , init = D . init_table parameters handler profiling_info error in error , profiling_info , { story_counter = 1 ; story_list = init ; }
let _get_trace_of_story ( _ , _ , _ , y , _ ) = trace_of_pretrace y
let _get_info_of_story ( _ , _ , _ , _ , t ) = t
let tick_opt parameter bar = match bar with \| None -> bar \| Some ( logger , bar ) -> Some ( logger , Tick_stories . tick_stories logger Configuration . empty ( S . PH . B . PB . CI . Po . K . H . save_progress_bar parameter ) bar )
let close_progress_bar_opt logger = Loggers . print_newline logger
let print_fails logger s n = match n with \| 0 -> ( ) \| 1 -> Loggers . fprintf logger " . @\ t 1 % s has failed . " @ s \| _ -> Loggers . fprintf logger " . @\ t % i % ss have failed . " @ n s
let inc_fails a a ' b = if a == a ' then succ b else b
let fold_story_table_gen logger parameter ( ? shall_we_compute = we_shall ) ( ? shall_we_compute_profiling_information = we_shall ) ( handler : kappa_handler ) ( profiling_info : profiling_info ) error s ( f ( ( : trace , trace_runtime_info list , ' a , ' a ) ternary ) ) l a = let n_stories_input = count_stories l in let progress_bar = Some ( logger , Tick_stories . tick_stories logger Configuration . empty ( S . PH . B . PB . CI . Po . K . H . save_progress_bar parameter ) ( false , 0 , 0 , n_stories_input ) ) in let g parameter handler profiling_info error story info ( k , progress_bar , a , n_fails ) = let event = StoryProfiling . Story k in let error , profiling_info = P . add_event ( S . PH . B . PB . CI . Po . K . H . get_kasa_parameters parameter ) error event None profiling_info in let error , profiling_info , a ' = f parameter ~ shall_we_compute : shall_we_compute ~ shall_we_compute_profiling_information : shall_we_compute_profiling_information handler profiling_info error ( trace_of_pretrace_with_ambiguity false story ) info a in let progress_bar = tick_opt parameter progress_bar in let n_fails = inc_fails a a ' n_fails in let error , profiling_info = P . close_event ( S . PH . B . PB . CI . Po . K . H . get_kasa_parameters parameter ) error event None profiling_info in error , profiling_info , ( succ k , progress_bar , a ' , n_fails ) in let error , profiling_info , ( _ , _ , a , n_fails ) = D . fold_table parameter handler profiling_info error g l . story_list ( 1 , progress_bar , a , 0 ) in let ( ) = close_progress_bar_opt logger in let ( ) = print_fails parameter . S . PH . B . PB . CI . Po . K . H . logger_err s n_fails in error , ( profiling_info : profiling_info ) , a
let fold_story_table_with_progress_bar parameter ? shall_we_compute ? shall_we_compute_profiling_information ? print_if_zero : _ handler profiling_info error s f l a = fold_story_table_gen ( S . PH . B . PB . CI . Po . K . H . get_logger parameter ) parameter ? shall_we_compute ? shall_we_compute_profiling_information handler profiling_info error s f l a
let fold_story_table_without_progress_bar parameter ? shall_we_compute ? shall_we_compute_profiling_information ? print_if_zero : _ handler profiling_info error s f l a = fold_story_table_gen Loggers . dummy_txt_logger parameter ? shall_we_compute ? shall_we_compute_profiling_information handler profiling_info error s f l a
let get_counter story_list = story_list . story_counter
let get_stories story_list = story_list . story_list
let _inc_counter story_list = { story_list with story_counter = succ story_list . story_counter }
let build_grid parameter handler computation_info error trace bool = let error , computation_info = StoryProfiling . StoryStats . add_event ( S . PH . B . PB . CI . Po . K . H . get_kasa_parameters parameter ) error StoryProfiling . Build_grid None computation_info in let grid = S . PH . B . PB . CI . Po . K . build_grid trace bool handler in let error , computation_info = StoryProfiling . StoryStats . close_event ( S . PH . B . PB . CI . Po . K . H . get_kasa_parameters parameter ) error StoryProfiling . Build_grid None computation_info in error , computation_info , grid
let store_trace ( parameter : parameter ) ? shall_we_compute : _ ? shall_we_compute_profiling_information : _ ? print_if_zero : _ handler computation_info error trace obs_info story_table = let error , computation_info = StoryProfiling . StoryStats . add_event ( S . PH . B . PB . CI . Po . K . H . get_kasa_parameters parameter ) error StoryProfiling . Store_trace None computation_info in let pretrace = get_pretrace_of_trace trace in let trace2 = get_compressed_trace trace in let bool = not ( is_compressed_trace trace ) in let error , computation_info , grid = build_grid parameter handler computation_info error trace2 bool in let computation_info = P . set_grid_generation computation_info in let story_info = List . rev_map ( Trace . Simulation_info . update_profiling_info ( P . copy computation_info ) ) ( List . rev obs_info ) in let error , computation_info , story_list = D . add_story parameter handler computation_info error grid pretrace story_info story_table . story_list in let story_table = { story_list = story_list ; story_counter = story_table . story_counter + 1 } in let error , computation_info = StoryProfiling . StoryStats . close_event ( S . PH . B . PB . CI . Po . K . H . get_kasa_parameters parameter ) error StoryProfiling . Store_trace None computation_info in error , computation_info , story_table
let flatten_story_table parameter ? shall_we_compute : _ ? shall_we_compute_profiling_information : _ ? print_if_zero : _ handler log_info error story_table = let error , log_info , list = D . hash_list parameter handler log_info error story_table . story_list in error , log_info , { story_table with story_list = list }
let compress ? heuristic parameter ? shall_we_compute : _ ? shall_we_compute_profiling_information : _ ? print_if_zero : _ handler log_info error trace = match parameter . S . PH . B . PB . CI . Po . K . H . current_compression_mode with \| None -> error , log_info , [ trace ] \| Some Story_json . Causal -> let ( ) = if S . PH . B . PB . CI . Po . K . H . is_server_mode parameter && S . PH . B . PB . CI . Po . K . H . is_server_channel_on parameter then S . PH . B . PB . CI . Po . K . H . push_json parameter ( Story_json . Phase ( Story_json . Inprogress , " Start one causal compression " ) ) in let error , log_info , trace = cut parameter ~ shall_we_compute : we_shall handler log_info error trace in error , log_info , [ trace ] \| Some ( Story_json . Weak \| Story_json . Strong ) -> let event , s = match parameter . S . PH . B . PB . CI . Po . K . H . current_compression_mode with Some Story_json . Weak -> StoryProfiling . Weak_compression , " Start one weak compression " \| _ -> StoryProfiling . Strong_compression , " Start one strong compression " in let ( ) = if S . PH . B . PB . CI . Po . K . H . is_server_mode parameter && S . PH . B . PB . CI . Po . K . H . is_server_channel_on parameter then S . PH . B . PB . CI . Po . K . H . push_json parameter ( Story_json . Phase ( Story_json . Inprogress , s ) ) in let error , log_info = P . add_event ( S . PH . B . PB . CI . Po . K . H . get_kasa_parameters parameter ) error event ( Some ( fun ( ) -> size_of_pretrace trace ) ) log_info in let event_list = get_pretrace_of_trace trace in let error , log_info , blackboard = S . PH . B . import ? heuristic parameter handler log_info error event_list in let error , log_info , list = S . PH . forced_events parameter handler log_info error blackboard in let list_order = match list with \| ( list_order , _ , _ ) :: _ -> list_order \| _ -> [ ] in let error , log_info , ( blackboard , output , list ) = S . compress parameter handler log_info error blackboard list_order in let list = List . rev_map ( fun pretrace -> let event_list = S . translate_result pretrace in let event_list = S . PH . B . PB . CI . Po . K . clean_events event_list in ( build_compressed_trace event_list pretrace ) ) list in let log_info = P . set_story_research_time log_info in let error , log_info = P . close_event ( S . PH . B . PB . CI . Po . K . H . get_kasa_parameters parameter ) error event ( Some ( fun ( ) -> size_of_pretrace trace ) ) log_info in let error , ( ) = if S . PH . B . is_failed output then Exception . warn ( S . PH . B . PB . CI . Po . K . H . get_kasa_parameters parameter ) error __POS__ ~ message " : One compression has failed " Exit ( ) else error , ( ) in let error = if debug_mode then let ( ) = Loggers . fprintf parameter . S . PH . B . PB . CI . Po . K . H . logger_err " \ t \ t * result " in let error = if S . PH . B . is_failed output then let error , _log_info , ( ) = S . PH . B . export_blackboard_to_xls parameter handler log_info error " FAIL " 0 0 blackboard in let ( ) = Loggers . fprintf parameter . S . PH . B . PB . CI . Po . K . H . logger_err " Fail_to_compress " in error else let ( ) = Loggers . fprintf parameter . S . PH . B . PB . CI . Po . K . H . logger_err " Succeed_to_compress " in error in error else error in error , log_info , list
let strongly_compress ? heuristic parameter = compress ? heuristic ( S . PH . B . PB . CI . Po . K . H . set_compression_strong parameter )
let weakly_compress ? heuristic parameter = compress ? heuristic ( S . PH . B . PB . CI . Po . K . H . set_compression_weak parameter )
let convert_trace_into_grid trace handler = let event_list = get_compressed_trace trace in S . PH . B . PB . CI . Po . K . build_grid event_list ( not ( is_compressed_trace trace ) ) handler
let convert_trace_into_musical_notation parameters ? shall_we_compute : _ ? shall_we_compute_profiling_information : _ ? print_if_zero : _ kappa_handler profiling_info error trace = S . PH . B . import parameters kappa_handler profiling_info error ( get_pretrace_of_trace trace )
let enrich_grid_with_transitive_closure config logger ? shall_we_compute : _ ? shall_we_compute_profiling_information : _ ? print_if_zero : _ handler log_info error grid = let error , log_info , output = Causal . enrich_grid ( S . PH . B . PB . CI . Po . K . H . get_kasa_parameters logger ) handler log_info error config grid in error , log_info , output
let enrich_grid_with_transitive_past_of_observables_with_a_progress_bar = enrich_grid_with_transitive_closure Graph_closure . config_big_graph_with_progress_bar
let enrich_grid_with_transitive_past_of_observables_without_a_progress_bar = enrich_grid_with_transitive_closure Graph_closure . config_big_graph_without_progress_bar
let _enrich_grid_with_transitive_past_of_each_node_without_a_progress_bar = enrich_grid_with_transitive_closure Graph_closure . config_big_graph_without_progress_bar
let enrich_grid_with_transitive_past_of_each_node_without_a_progress_bar = enrich_grid_with_transitive_closure Graph_closure . config_small_graph
let export_story_table parameter ? shall_we_compute : _ ? shall_we_compute_profiling_information : _ ? print_if_zero : _ handler log_info error x = let a , log_info , b = sort_story_list parameter handler log_info error ( get_stories x ) in a , log_info , b
let has_obs x = List . exists Trace . step_is_obs ( get_pretrace_of_trace x )
let fold_left_with_progress_bar ( ? event = StoryProfiling . Dummy ) parameter ( ? shall_we_compute = we_shall ) ( ? shall_we_compute_profiling_information = we_shall ) ( ? print_if_zero = we_shall ) handler profiling_information error ( f ( ' : a , ' b , ' a ) binary ) a list = let n = List . length list in let string , ( error , profiling_information ) = if StoryProfiling . StoryStats . is_dummy event then " " , ( error , profiling_information ) else StoryProfiling . string_of_step_kind event , StoryProfiling . StoryStats . add_event ( S . PH . B . PB . CI . Po . K . H . get_kasa_parameters parameter ) error event ( Some ( fun _ -> List . length list ) ) profiling_information in let progress_bar = Tick_stories . tick_stories ( S . PH . B . PB . CI . Po . K . H . get_logger parameter ) Configuration . empty ( Remanent_parameters . save_progress_bar ( S . PH . B . PB . CI . Po . K . H . get_kasa_parameters parameter ) ) ( false , 0 , 0 , n ) in let error , profiling_information , _ , _ , a , n_fail = let rec aux list ( error , profiling_information , bar , k , a , n_fail ) = let event = StoryProfiling . Story k in match list with \| [ ] -> error , profiling_information , bar , k , a , n_fail \| x :: tail -> let error , profiling_information = P . add_event ( S . PH . B . PB . CI . Po . K . H . get_kasa_parameters parameter ) error event None profiling_information in let output_opt = try let error , profiling_information , a ' = f parameter ~ shall_we_compute ~ shall_we_compute_profiling_information ~ print_if_zero handler profiling_information error a x in let bar = Tick_stories . tick_stories ( S . PH . B . PB . CI . Po . K . H . get_logger parameter ) Configuration . empty ( Remanent_parameters . save_progress_bar ( S . PH . B . PB . CI . Po . K . H . get_kasa_parameters parameter ) ) bar in let n_fail = inc_fails a a ' n_fail in let error , profiling_information = P . close_event ( S . PH . B . PB . CI . Po . K . H . get_kasa_parameters parameter ) error event None profiling_information in Some ( error , profiling_information , bar , k + 1 , a ' , n_fail ) with Sys . Break -> None in match output_opt with \| None -> let error , profiling_information = P . close_event ( S . PH . B . PB . CI . Po . K . H . get_kasa_parameters parameter ) error event None profiling_information in ( error , profiling_information , bar , k + 1 , a , n_fail ) \| Some remanent -> aux tail remanent in aux list ( error , profiling_information , progress_bar , 1 , a , 0 ) in let ( ) = close_progress_bar_opt ( S . PH . B . PB . CI . Po . K . H . get_logger parameter ) in let error , profiling_information = if StoryProfiling . StoryStats . is_dummy event then error , profiling_information else StoryProfiling . StoryStats . close_event ( S . PH . B . PB . CI . Po . K . H . get_kasa_parameters parameter ) error event None profiling_information in let ( ) = print_fails parameter . S . PH . B . PB . CI . Po . K . H . logger_err string n_fail in error , profiling_information , a
let _fold_over_the_causal_past_of_observables_through_a_grid_with_a_progress_bar parameter handler log_info error f t a = let grid = convert_trace_into_grid t handler in Causal . fold_over_causal_past_of_obs parameter handler log_info error Graph_closure . config_big_graph_with_progress_bar grid f ( error , log_info , a )
let fold_over_the_causal_past_of_observables_with_a_progress_bar parameter ? shall_we_compute : _ ? shall_we_compute_profiling_information : _ ? print_if_zero : _ handler log_info error log_step debug_mode counter f t a = let ( ) = if log_step parameter then Loggers . fprintf ( S . PH . B . PB . CI . Po . K . H . get_logger parameter ) " % s \ t - blackboard generation . " @ ( Remanent_parameters . get_prefix ( S . PH . B . PB . CI . Po . K . H . get_kasa_parameters parameter ) ) in let error , log_info , blackboard = convert_trace_into_musical_notation parameter handler log_info error t in let error , log_info , list = extract_observable_hits_from_musical_notation parameter handler log_info error blackboard in let n_stories = List . length list in let ( ) = if log_step parameter then Loggers . fprintf ( S . PH . B . PB . CI . Po . K . H . get_logger parameter ) " % s \ t - computing causal past of each observed events ( % i ) . " @ ( Remanent_parameters . get_prefix ( S . PH . B . PB . CI . Po . K . H . get_kasa_parameters parameter ) ) n_stories in let ( ) = if debug_mode parameter then Loggers . fprintf ( S . PH . B . PB . CI . Po . K . H . get_logger parameter ) " % s \ t \ t * causal compression " ( Remanent_parameters . get_prefix ( S . PH . B . PB . CI . Po . K . H . get_kasa_parameters parameter ) ) in let log_info = P . set_start_compression log_info in let grid = convert_trace_into_grid t handler in let output = Causal . fold_over_causal_past_of_obs ( S . PH . B . PB . CI . Po . K . H . get_kasa_parameters parameter ) handler log_info error Graph_closure . config_big_graph_with_progress_bar grid ( fun parameter ' handler log_info error observable_hit causal_past ( counter , list , a ) -> match list with \| [ ] -> error , log_info , Stop . success ( counter , list , a ) \| head :: tail -> let error , log_info = StoryProfiling . StoryStats . add_event parameter ' error ( StoryProfiling . Story counter ) None log_info in let observable_id = head in let log_info = P . reset_log log_info in let ( ) = if debug_mode parameter then Loggers . fprintf ( S . PH . B . PB . CI . Po . K . H . get_logger parameter ) " % s \ t \ t * causal compression " ( Remanent_parameters . get_prefix ( S . PH . B . PB . CI . Po . K . H . get_kasa_parameters parameter ) ) in let error , log_info , trace = translate parameter handler log_info error blackboard ( List . rev_map S . PH . B . PB . step_id_of_int ( observable_hit :: causal_past ) ) in let info = match get_runtime_info_from_observable_hit observable_id with \| None -> [ ] \| Some info -> let info = { info with Trace . Simulation_info . story_id = counter } in let info = Trace . Simulation_info . update_profiling_info log_info info in [ info ] in let error , log_info , a = ( f ( ' : a , ' b , ' c , ' d ) ternary ) parameter handler log_info error trace info a in let error , log_info = StoryProfiling . StoryStats . close_event parameter ' error ( StoryProfiling . Story counter ) None log_info in error , log_info , Stop . success_or_stop ( fun a -> Stop . success ( counter + 1 , tail , a ) ) ( fun b -> Stop . stop ( b , counter ) ) a ) ( counter , List . rev list , a ) in Stop . success_or_stop ( fun ( error , log_info , ( _ , _ , a ) ) -> error , log_info , Stop . success a ) ( fun ( error , log_info , ( a , counter ) ) -> error , log_info , Stop . stop ( a , counter ) ) output
let compute_canonical_form parameter ? shall_we_compute : _ ? shall_we_compute_profiling_information : _ ? print_if_zero : _ handler log_info error trace = let grid = convert_trace_into_grid trace handler in let error , log_info , graph = Dag . graph_of_grid parameter handler log_info error grid in let error , log_info , canonic = Dag . canonicalize parameter handler log_info error graph in ( error : error_log ) , ( log_info : profiling_info ) , ( canonic : canonical_form )
module Event = ( struct type event = step type eid = int type ' a t = ' a array let key_of_event event = if ( Trace . step_is_rule event \|\| Trace . step_is_pert event ) && not ( Trace . has_creation_of_step event ) then get_id_of_event event else None let init eid default = Array . make eid default let set t eid value = let ( ) = Array . set t eid value in t let get t eid = Array . get t eid end : Black_list . Event with type event = step )
module BlackList = ( Black_list . Make ( ( Event : Black_list . Event with type event = step ) ) : Black_list . Blacklist with type Event . event = step )
let create_black_list n = BlackList . init n
let black_list _parameter ? shall_we_compute : _ ? shall_we_compute_profiling_information : _ ? print_if_zero : _ _handler log_info error trace blacklist = let blacklist = List . fold_left ( fun blacklist ( event , _ ) -> BlackList . black_list event blacklist ) blacklist ( get_compressed_trace trace ) in error , log_info , blacklist
let remove_blacklisted_event _handler log_info error blacklist trace = let list , int = List . fold_left ( fun ( trace , int ) event -> if BlackList . is_black_listed event blacklist then ( trace , succ int ) else ( event :: trace , int ) ) ( [ ] , 0 ) trace in error , log_info , ( ( List . rev list ) , int )
let remove_blacklisted_event parameter ? shall_we_compute : _ ? shall_we_compute_profiling_information : _ ? print_if_zero : _ handler log_info error blacklist trace = lift_to_care_about_ambiguities ( transform_trace_gen ( fun _parameter handler log_info error -> remove_blacklisted_event handler log_info error blacklist ) None " " StoryProfiling . Removing_blacklisted_events ) Do_not_care Neutral parameter handler log_info error trace
let last_eid_in_pretrace trace = let l = List . rev ( get_pretrace_of_trace trace ) in let rec aux = function \| [ ] -> 0 \| h :: t -> begin match get_id_of_event h with \| None -> aux t \| Some eid -> eid end in aux l
let profiling_state_to_json parameters = ` Assoc [ " profiling information " , Loggers . to_json ( S . PH . B . PB . CI . Po . K . H . get_profiling_logger parameters ) ]
let error_list_to_json parameters = ` Assoc [ " errors " , Loggers . to_json ( S . PH . B . PB . CI . Po . K . H . get_debugging_channel parameters ) ]
let computation_steps_to_json parameters = ` Assoc [ " computation steps " , Loggers . to_json ( S . PH . B . PB . CI . Po . K . H . get_logger parameters ) ]
type parameters = { iteration_before_calibrating : int ; global_time_factor_min : float option ; global_time_factor_max : float option ; trace_before_factor_min : int option ; trace_after_factor_min : int option ; trace_before_factor_max : int option ; trace_after_factor_max : int option ; computation_time_factor_min : float option ; computation_time_factor_max : float option ; }
let parameters = { iteration_before_calibrating = 10 ; global_time_factor_min = Some 5 . ; global_time_factor_max = Some 20 . ; trace_before_factor_min = Some 10 ; trace_after_factor_min = Some 10 ; trace_before_factor_max = Some 500 ; trace_after_factor_max = Some 500 ; computation_time_factor_min = Some 10 . ; computation_time_factor_max = Some 500 . }
type status_global = { counter_min : int ; global_time_min : float option ; global_time_max : float option ; cpu_time_min : float option ; cpu_time_max : float option ; cpu_time_ref : float option ; trace_length_before_min : int option ; trace_length_after_min : int option ; trace_length_before_max : int option ; trace_length_after_max : int option ; trace_length_before_ref : int option ; trace_length_after_ref : int option }
type status = { counter : int ; global_time : float ; trace_length_before : int ; trace_length_after : int ; cpu_time : float ; }
let get_status_before counter trace = { counter = counter ; global_time = Sys . time ( ) ; trace_length_before = Utilities . size_of_pretrace trace ; trace_length_after = 0 ; cpu_time = 0 . }
let get_status_after status_before trace = { status_before with cpu_time = Sys . time ( ) . - status_before . global_time ; trace_length_after = Utilities . size_of_pretrace trace }
let cmp_opt cmp a b = match a , b with \| None , _ \| _ , None -> 0 \| Some a , Some b -> cmp a b
let cmp_float_opt = cmp_opt ( compare : float -> float -> int )
let cmp_int_opt = cmp_opt ( compare : int -> int -> int )
let gen_bin_opt op a b = match a , b with \| None , _ \| _ , None -> None \| Some a , Some b -> Some ( op a b )
let add_float_opt = gen_bin_opt ( . ) +
let mult_float_opt = gen_bin_opt ( . * )
let mult_int_opt = gen_bin_opt ( * )
let max_opt cmp a b = match a with None -> Some b \| Some a -> Some ( if cmp a b > 0 then a else b )
let stop_before global status = status . counter > global . counter_min && ( cmp_float_opt ( Some status . global_time ) global . global_time_max > 0 \|\| cmp_int_opt ( Some status . trace_length_before ) global . trace_length_before_max > 0 \|\| (
let stop_after global status = status . counter > global . counter_min && ( cmp_float_opt ( Some status . global_time ) global . global_time_max > 0 \|\| cmp_float_opt ( Some status . cpu_time ) global . cpu_time_max > 0 \|\| cmp_int_opt ( Some status . trace_length_before ) global . trace_length_before_max > 0 \|\| cmp_int_opt ( Some status . trace_length_after ) global . trace_length_after_max > 0 \|\| (
let set_status_init cflow_parameters parameters float1 float2 counter = { counter_min = counter + parameters . iteration_before_calibrating ; global_time_min = if Utilities . S . PH . B . PB . CI . Po . K . H . get_is_time_independent cflow_parameters None global_time_max = if Utilities . S . PH . B . PB . CI . Po . K . H . get_is_time_independent cflow_parameters None cpu_time_min = None ; cpu_time_max = None ; cpu_time_ref = None ; trace_length_before_min = None ; trace_length_after_min = None ; trace_length_before_max = None ; trace_length_after_max = None ; trace_length_before_ref = None ; trace_length_after_ref = None ; }
let update_status_before global status = if status . counter < global . counter_min then { global with trace_length_before_ref = max_opt compare global . trace_length_before_ref status . trace_length_before } else global
let update_status_after global status = if status . counter < global . counter_min then { global with trace_length_after_ref = max_opt compare global . trace_length_after_ref status . trace_length_after ; cpu_time_ref = max_opt compare global . cpu_time_ref status . cpu_time } else global
let compute_status_ranges cflow_parameters parameter global_status = { global_status with cpu_time_min = if Utilities . S . PH . B . PB . CI . Po . K . H . get_is_time_independent cflow_parameters cpu_time_max = if Utilities . S . PH . B . PB . CI . Po . K . H . get_is_time_independent cflow_parameters trace_length_before_min = mult_int_opt global_status . trace_length_before_ref parameter . trace_before_factor_min ; trace_length_before_max = mult_int_opt global_status . trace_length_before_ref parameter . trace_before_factor_max ; trace_length_after_min = mult_int_opt global_status . trace_length_after_ref parameter . trace_after_factor_min ; trace_length_after_max = mult_int_opt global_status . trace_length_after_ref parameter . trace_after_factor_max ; }
let fold_over_the_causal_past_of_observables_with_a_progress_bar_while_reshaking_the_trace cflow_parameters ~ shall_we_compute : _ ~ shall_we_compute_profiling_information : _ handler log_info error we_shall never parameters global_trace_simplification f ( store_result ( : Utilities . trace , Utilities . trace_runtime_info list , ) trace ( table ' : a ) = let f cflow_parameters ? shall_we_compute ( : _ ) ? shall_we_compute_profiling_information ( : _ ) ? print_if_zero ( : _ ) handler log_info error trace info ( last_info , stop_next , global_status , counter , table ) = if stop_next then error , log_info , Stop . stop ( last_info , table ) else let status_before = get_status_before counter trace in let stop = stop_before global_status status_before in let global_status = update_status_before global_status status_before in if stop then error , log_info , Stop . stop ( last_info , table ) else begin end in let rec aux log_info error counter trace table = if Utilities . has_obs trace then begin counter f trace ( None , false , status , counter , table ) end else error , log_info , table in aux log_info error 1 trace table
let print_string s list = ( Html . txt s ) :: list
let print_newline list = print_string " \ n " list
let print_single_binding_state a list = print_string Public_data . binding_state_opening_backend_symbol ( print_string a ( print_string Public_data . binding_state_closing_backend_symbol list ) )
let print_single_internal_state a list = print_string Public_data . internal_state_opening_backend_symbol ( print_string a ( print_string Public_data . internal_state_closing_backend_symbol list ) )
let print_counter_interval ( a , b ) list = let open_range , inf = match a with \| None -> Public_data . open_interval_exclusive_symbol , Public_data . minus_infinity_symbol \| Some a -> Public_data . open_interval_inclusive_symbol , string_of_int a in let close_range , sup = match b with \| None -> Public_data . close_interval_exclusive_symbol , Public_data . plus_infinity_symbol \| Some b -> Public_data . close_interval_inclusive_symbol , string_of_int b in print_string open_range ( print_string inf ( print_string Public_data . counter_state_range_backend_symbol ( print_string sup ( print_string close_range list ) ) ) )
let print_counter_state ( a , b ) list = print_string Public_data . counter_state_opening_backend_symbol ( print_counter_interval ( a , b ) ( print_string Public_data . counter_state_closing_backend_symbol list ) )
let print_site site list = let site_name , prop_opt , binding_opt , counter_opt = site in let list = match binding_opt with \| None -> print_string Public_data . missing_binding_site_backend_symbol list \| Some Public_data . Free -> print_single_binding_state Public_data . free_backend_symbol list \| Some Public_data . Wildcard -> print_single_binding_state Public_data . wildcard_backend_symbol list \| Some Public_data . Bound_to_unknown -> print_single_binding_state Public_data . bound_to_unknown_backend_symbol list \| Some ( Public_data . Binding_type ( agent_name , site_name ) ) -> let binding_type_symbol = Public_data . binding_type_backend_symbol in print_single_binding_state ( Public_data . string_of_binding_type ~ binding_type_symbol ~ agent_name ~ site_name ( ) ) list \| Some ( Public_data . Bound_to i ) -> print_single_binding_state ( string_of_int i ) list in let list = match counter_opt with \| None -> list \| Some a -> print_counter_state a list in let list = match prop_opt with \| None -> list \| Some a -> print_single_internal_state a list in print_string site_name list
let print_agent agent list = let agent_name , interface = agent in let list = print_string " ) " list in let list = snd ( List . fold_left ( fun ( b , list ) site -> let list = if b then print_string " , " list else list in let list = print_site site list in true , list ) ( false , list ) interface ) in let list = ( Html . txt " ( " ) :: list in let list = ( Html . txt agent_name ) :: list in list
let print_site_graph agent_list list = snd ( List . fold_left ( fun ( b , list ) agent -> let list = if b then print_string " , " list else list in true , print_agent agent list ) ( false , list ) ( List . rev agent_list ) )
let print_method_handler mh = let uncaught = Exception_without_parameter . get_uncaught_exception_list mh in let caught = Exception_without_parameter . get_caught_exception_list mh in List . fold_right ( fun x l -> Html . p [ Html . txt ( Format . asprintf " % a " Exception_without_parameter . pp_caught x ) ] :: l ) caught ( List . map ( fun x -> Html . p [ Html . txt ( Format . asprintf " % a " Exception_without_parameter . pp_uncaught x ) ] ) uncaught )
module Ident = struct include Ident let string_of ( ? stamp = true ) id = if stamp then Ident . unique_toplevel_name id else Ident . name id let ocaml_of_t id = Ocaml . String ( string_of id ) let is_predef id = id . Ident . stamp > 0 && id . Ident . stamp < 1000 end
module Path = struct include Path let rec string_of ( ? stamp = true ) = function \| Pident id -> Ident . string_of ~ stamp id \| Pdot ( t , n , i ) when stamp = true -> string_of ~ stamp t ^ " . " ^ n ^ " " / ^ string_of_int i \| Pdot ( t , n , _i ) -> string_of ~ stamp t ^ " . " ^ n \| Papply ( t1 , t2 ) -> string_of ~ stamp t1 ^ " ( " ^ string_of ~ stamp t2 ^ " ) " let is_predef = function \| Pident id -> Ident . is_predef id \| _ -> false let rec is_global = function \| Pident id -> if Ident . persistent id then Some id else None \| Pdot ( p , _ , _ ) -> is_global p \| Papply ( p , _ ) -> is_global p let ocaml_of_t id = Ocaml . String ( string_of id ) end
module Longident = struct include Longident let rec string_of = function \| Lident s -> s \| Ldot ( l1 , n ) -> string_of l1 ^ " . " ^ n \| Lapply ( l1 , l2 ) -> string_of l1 ^ " ( " ^ string_of l2 ^ " ) " let rec of_path = let open Path in function \| Pident id -> Lident id . Ident . name \| Pdot ( id , n , _ ) -> Ldot ( of_path id , n ) \| Papply ( p1 , p2 ) -> Lapply ( of_path p1 , of_path p2 ) let rec fake_path = function \| Lident s -> Pident ( Ident . create s ) \| Ldot ( l1 , s ) -> Pdot ( fake_path l1 , s , 0 ) \| Lapply ( l1 , l2 ) -> Papply ( fake_path l1 , fake_path l2 ) end
let format_module_coercion ppf mc = let rec f ppf = function \| Tcoerce_none -> string ppf " none " \| Tcoerce_structure ( ics , iics ) -> fprintf ppf " [ @< 2 > str @ [ % a ] @ [ % a ] ] " @ ( list " ; @ " ( fun ppf ( i , mc ) -> fprintf ppf " ( % d , % a ) " i f mc ) ) ics ( list " ; @ " ( fun ppf ( id , i , mc ) -> fprintf ppf " ( % s , % d , % a ) " ( Ident . string_of id ) i f mc ) ) iics \| Tcoerce_functor ( mc1 , mc2 ) -> fprintf ppf " [ @< 2 > functor @ ( % a ) ->@ ( % a ) ] " @ f mc1 f mc2 \| Tcoerce_primitive _pc -> string ppf " primitive " \| Tcoerce_alias ( p , mc ) -> fprintf ppf " [ @< 2 > alias % s ( % a ) ] " @ ( Path . string_of p ) f mc in f ppf mc
module Location = struct include Location let ocaml_of_t l = Ocaml . String ( Format . sprintf " % a " Location . print_compact l ) end
module FilePath = struct type t = string [ @@ deriving conv { ocaml } ] end
module Digest = struct open Typerep_lib . Std type t = string [ @@ deriving conv { ocaml } , typerep ] let cache = Hashtbl . create 101 let reset_cache ( ) = Hashtbl . clear cache let file = Hashtbl . find_or_add Digest . file cache end
let criticalf fmt = Exn . raisef ( fun x -> Critical x ) fmt

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