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let slow_conv3d_out ~ out self ~ weight ~ kernel_size ~ bias ~ stride ~ padding = let out__ = CArray . make t 1 in stubs_slow_conv3d_out ( CArray . start out__ ) out self weight ( List . map Int64 . of_int kernel_size |> CArray . of_list int64_t |> CArray . start ) ( List . length kernel_size ) ( match bias with | Some v -> v | None -> null ) ( List . map Int64 . of_int stride |> CArray . of_list int64_t |> CArray . start ) ( List . length stride ) ( List . map Int64 . of_int padding |> CArray . of_list int64_t |> CArray . start ) ( List . length padding ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let slow_conv_dilated2d self ~ weight ~ kernel_size ~ bias ~ stride ~ padding ~ dilation = let out__ = CArray . make t 1 in stubs_slow_conv_dilated2d ( CArray . start out__ ) self weight ( List . map Int64 . of_int kernel_size |> CArray . of_list int64_t |> CArray . start ) ( List . length kernel_size ) ( match bias with | Some v -> v | None -> null ) ( List . map Int64 . of_int stride |> CArray . of_list int64_t |> CArray . start ) ( List . length stride ) ( List . map Int64 . of_int padding |> CArray . of_list int64_t |> CArray . start ) ( List . length padding ) ( List . map Int64 . of_int dilation |> CArray . of_list int64_t |> CArray . start ) ( List . length dilation ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let slow_conv_dilated3d self ~ weight ~ kernel_size ~ bias ~ stride ~ padding ~ dilation = let out__ = CArray . make t 1 in stubs_slow_conv_dilated3d ( CArray . start out__ ) self weight ( List . map Int64 . of_int kernel_size |> CArray . of_list int64_t |> CArray . start ) ( List . length kernel_size ) ( match bias with | Some v -> v | None -> null ) ( List . map Int64 . of_int stride |> CArray . of_list int64_t |> CArray . start ) ( List . length stride ) ( List . map Int64 . of_int padding |> CArray . of_list int64_t |> CArray . start ) ( List . length padding ) ( List . map Int64 . of_int dilation |> CArray . of_list int64_t |> CArray . start ) ( List . length dilation ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let slow_conv_transpose2d self ~ weight ~ kernel_size ~ bias ~ stride ~ padding ~ output_padding ~ dilation = let out__ = CArray . make t 1 in stubs_slow_conv_transpose2d ( CArray . start out__ ) self weight ( List . map Int64 . of_int kernel_size |> CArray . of_list int64_t |> CArray . start ) ( List . length kernel_size ) ( match bias with | Some v -> v | None -> null ) ( List . map Int64 . of_int stride |> CArray . of_list int64_t |> CArray . start ) ( List . length stride ) ( List . map Int64 . of_int padding |> CArray . of_list int64_t |> CArray . start ) ( List . length padding ) ( List . map Int64 . of_int output_padding |> CArray . of_list int64_t |> CArray . start ) ( List . length output_padding ) ( List . map Int64 . of_int dilation |> CArray . of_list int64_t |> CArray . start ) ( List . length dilation ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let slow_conv_transpose2d_out ~ out self ~ weight ~ kernel_size ~ bias ~ stride ~ padding ~ output_padding ~ dilation = let out__ = CArray . make t 1 in stubs_slow_conv_transpose2d_out ( CArray . start out__ ) out self weight ( List . map Int64 . of_int kernel_size |> CArray . of_list int64_t |> CArray . start ) ( List . length kernel_size ) ( match bias with | Some v -> v | None -> null ) ( List . map Int64 . of_int stride |> CArray . of_list int64_t |> CArray . start ) ( List . length stride ) ( List . map Int64 . of_int padding |> CArray . of_list int64_t |> CArray . start ) ( List . length padding ) ( List . map Int64 . of_int output_padding |> CArray . of_list int64_t |> CArray . start ) ( List . length output_padding ) ( List . map Int64 . of_int dilation |> CArray . of_list int64_t |> CArray . start ) ( List . length dilation ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let slow_conv_transpose3d self ~ weight ~ kernel_size ~ bias ~ stride ~ padding ~ output_padding ~ dilation = let out__ = CArray . make t 1 in stubs_slow_conv_transpose3d ( CArray . start out__ ) self weight ( List . map Int64 . of_int kernel_size |> CArray . of_list int64_t |> CArray . start ) ( List . length kernel_size ) ( match bias with | Some v -> v | None -> null ) ( List . map Int64 . of_int stride |> CArray . of_list int64_t |> CArray . start ) ( List . length stride ) ( List . map Int64 . of_int padding |> CArray . of_list int64_t |> CArray . start ) ( List . length padding ) ( List . map Int64 . of_int output_padding |> CArray . of_list int64_t |> CArray . start ) ( List . length output_padding ) ( List . map Int64 . of_int dilation |> CArray . of_list int64_t |> CArray . start ) ( List . length dilation ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let slow_conv_transpose3d_out ~ out self ~ weight ~ kernel_size ~ bias ~ stride ~ padding ~ output_padding ~ dilation = let out__ = CArray . make t 1 in stubs_slow_conv_transpose3d_out ( CArray . start out__ ) out self weight ( List . map Int64 . of_int kernel_size |> CArray . of_list int64_t |> CArray . start ) ( List . length kernel_size ) ( match bias with | Some v -> v | None -> null ) ( List . map Int64 . of_int stride |> CArray . of_list int64_t |> CArray . start ) ( List . length stride ) ( List . map Int64 . of_int padding |> CArray . of_list int64_t |> CArray . start ) ( List . length padding ) ( List . map Int64 . of_int output_padding |> CArray . of_list int64_t |> CArray . start ) ( List . length output_padding ) ( List . map Int64 . of_int dilation |> CArray . of_list int64_t |> CArray . start ) ( List . length dilation ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let smm self ~ mat2 = let out__ = CArray . make t 1 in stubs_smm ( CArray . start out__ ) self mat2 ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let smooth_l1_loss self ~ target ~ reduction ~ beta = let out__ = CArray . make t 1 in stubs_smooth_l1_loss ( CArray . start out__ ) self target ( Reduction . to_int reduction |> Int64 . of_int ) beta ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let smooth_l1_loss_backward ~ grad_output self ~ target ~ reduction ~ beta = let out__ = CArray . make t 1 in stubs_smooth_l1_loss_backward ( CArray . start out__ ) grad_output self target ( Reduction . to_int reduction |> Int64 . of_int ) beta ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let smooth_l1_loss_backward_grad_input ~ grad_input ~ grad_output self ~ target ~ reduction ~ beta = let out__ = CArray . make t 1 in stubs_smooth_l1_loss_backward_grad_input ( CArray . start out__ ) grad_input grad_output self target ( Reduction . to_int reduction |> Int64 . of_int ) beta ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let smooth_l1_loss_out ~ out self ~ target ~ reduction ~ beta = let out__ = CArray . make t 1 in stubs_smooth_l1_loss_out ( CArray . start out__ ) out self target ( Reduction . to_int reduction |> Int64 . of_int ) beta ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let soft_margin_loss self ~ target ~ reduction = let out__ = CArray . make t 1 in stubs_soft_margin_loss ( CArray . start out__ ) self target ( Reduction . to_int reduction |> Int64 . of_int ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let soft_margin_loss_backward ~ grad_output self ~ target ~ reduction = let out__ = CArray . make t 1 in stubs_soft_margin_loss_backward ( CArray . start out__ ) grad_output self target ( Reduction . to_int reduction |> Int64 . of_int ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let soft_margin_loss_backward_grad_input ~ grad_input ~ grad_output self ~ target ~ reduction = let out__ = CArray . make t 1 in stubs_soft_margin_loss_backward_grad_input ( CArray . start out__ ) grad_input grad_output self target ( Reduction . to_int reduction |> Int64 . of_int ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let soft_margin_loss_out ~ out self ~ target ~ reduction = let out__ = CArray . make t 1 in stubs_soft_margin_loss_out ( CArray . start out__ ) out self target ( Reduction . to_int reduction |> Int64 . of_int ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let softmax self ~ dim ~ dtype = let out__ = CArray . make t 1 in stubs_softmax ( CArray . start out__ ) self ( Int64 . of_int dim ) ( Kind . packed_to_int dtype ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let softplus self = let out__ = CArray . make t 1 in stubs_softplus ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let softplus_backward ~ grad_output self ~ beta ~ threshold ~ output = let out__ = CArray . make t 1 in stubs_softplus_backward ( CArray . start out__ ) grad_output self beta threshold output ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let softplus_backward_grad_input ~ grad_input ~ grad_output self ~ beta ~ threshold ~ output = let out__ = CArray . make t 1 in stubs_softplus_backward_grad_input ( CArray . start out__ ) grad_input grad_output self beta threshold output ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let softplus_out ~ out self = let out__ = CArray . make t 1 in stubs_softplus_out ( CArray . start out__ ) out self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let softshrink self = let out__ = CArray . make t 1 in stubs_softshrink ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let softshrink_backward ~ grad_output self ~ lambd = let out__ = CArray . make t 1 in stubs_softshrink_backward ( CArray . start out__ ) grad_output self lambd ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let softshrink_backward_grad_input ~ grad_input ~ grad_output self ~ lambd = let out__ = CArray . make t 1 in stubs_softshrink_backward_grad_input ( CArray . start out__ ) grad_input grad_output self lambd ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let softshrink_out ~ out self = let out__ = CArray . make t 1 in stubs_softshrink_out ( CArray . start out__ ) out self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let solve self ~ a = let out__ = CArray . make t 2 in stubs_solve ( CArray . start out__ ) self a ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; let t1 = CArray . get out__ 1 in Gc . finalise C . Tensor . free t1 ; t0 , t1 |
let solve_solution ~ solution ~ lu self ~ a = let out__ = CArray . make t 2 in stubs_solve_solution ( CArray . start out__ ) solution lu self a ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; let t1 = CArray . get out__ 1 in Gc . finalise C . Tensor . free t1 ; t0 , t1 |
let sort self ~ dim ~ descending = let out__ = CArray . make t 2 in stubs_sort ( CArray . start out__ ) self ( Int64 . of_int dim ) ( if descending then 1 else 0 ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; let t1 = CArray . get out__ 1 in Gc . finalise C . Tensor . free t1 ; t0 , t1 |
let sort_stable self ~ stable ~ dim ~ descending = let out__ = CArray . make t 2 in stubs_sort_stable ( CArray . start out__ ) self ( if stable then 1 else 0 ) ( Int64 . of_int dim ) ( if descending then 1 else 0 ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; let t1 = CArray . get out__ 1 in Gc . finalise C . Tensor . free t1 ; t0 , t1 |
let sort_values ~ values ~ indices self ~ dim ~ descending = let out__ = CArray . make t 2 in stubs_sort_values ( CArray . start out__ ) values indices self ( Int64 . of_int dim ) ( if descending then 1 else 0 ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; let t1 = CArray . get out__ 1 in Gc . finalise C . Tensor . free t1 ; t0 , t1 |
let sort_values_stable ~ values ~ indices self ~ stable ~ dim ~ descending = let out__ = CArray . make t 2 in stubs_sort_values_stable ( CArray . start out__ ) values indices self ( if stable then 1 else 0 ) ( Int64 . of_int dim ) ( if descending then 1 else 0 ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; let t1 = CArray . get out__ 1 in Gc . finalise C . Tensor . free t1 ; t0 , t1 |
let sparse_coo_tensor ~ size ~ options = let out__ = CArray . make t 1 in stubs_sparse_coo_tensor ( CArray . start out__ ) ( List . map Int64 . of_int size |> CArray . of_list int64_t |> CArray . start ) ( List . length size ) ( Kind . packed_to_int ( fst options ) ) ( Device . to_int ( snd options ) ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let sparse_coo_tensor_indices ~ indices ~ values ~ options = let out__ = CArray . make t 1 in stubs_sparse_coo_tensor_indices ( CArray . start out__ ) indices values ( Kind . packed_to_int ( fst options ) ) ( Device . to_int ( snd options ) ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let sparse_coo_tensor_indices_size ~ indices ~ values ~ size ~ options = let out__ = CArray . make t 1 in stubs_sparse_coo_tensor_indices_size ( CArray . start out__ ) indices values ( List . map Int64 . of_int size |> CArray . of_list int64_t |> CArray . start ) ( List . length size ) ( Kind . packed_to_int ( fst options ) ) ( Device . to_int ( snd options ) ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let sparse_csr_tensor ~ crow_indices ~ col_indices ~ values ~ options = let out__ = CArray . make t 1 in stubs_sparse_csr_tensor ( CArray . start out__ ) crow_indices col_indices values ( Kind . packed_to_int ( fst options ) ) ( Device . to_int ( snd options ) ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let sparse_csr_tensor_crow_col_value_size ~ crow_indices ~ col_indices ~ values ~ size ~ options = let out__ = CArray . make t 1 in stubs_sparse_csr_tensor_crow_col_value_size ( CArray . start out__ ) crow_indices col_indices values ( List . map Int64 . of_int size |> CArray . of_list int64_t |> CArray . start ) ( List . length size ) ( Kind . packed_to_int ( fst options ) ) ( Device . to_int ( snd options ) ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let sparse_mask self ~ mask = let out__ = CArray . make t 1 in stubs_sparse_mask ( CArray . start out__ ) self mask ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let sparse_resize_ self ~ size ~ sparse_dim ~ dense_dim = let out__ = CArray . make t 1 in stubs_sparse_resize_ ( CArray . start out__ ) self ( List . map Int64 . of_int size |> CArray . of_list int64_t |> CArray . start ) ( List . length size ) ( Int64 . of_int sparse_dim ) ( Int64 . of_int dense_dim ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let sparse_resize_and_clear_ self ~ size ~ sparse_dim ~ dense_dim = let out__ = CArray . make t 1 in stubs_sparse_resize_and_clear_ ( CArray . start out__ ) self ( List . map Int64 . of_int size |> CArray . of_list int64_t |> CArray . start ) ( List . length size ) ( Int64 . of_int sparse_dim ) ( Int64 . of_int dense_dim ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_digamma self = let out__ = CArray . make t 1 in stubs_special_digamma ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_digamma_out ~ out self = let out__ = CArray . make t 1 in stubs_special_digamma_out ( CArray . start out__ ) out self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_entr self = let out__ = CArray . make t 1 in stubs_special_entr ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_entr_out ~ out self = let out__ = CArray . make t 1 in stubs_special_entr_out ( CArray . start out__ ) out self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_erf self = let out__ = CArray . make t 1 in stubs_special_erf ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_erf_out ~ out self = let out__ = CArray . make t 1 in stubs_special_erf_out ( CArray . start out__ ) out self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_erfc self = let out__ = CArray . make t 1 in stubs_special_erfc ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_erfc_out ~ out self = let out__ = CArray . make t 1 in stubs_special_erfc_out ( CArray . start out__ ) out self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_erfcx self = let out__ = CArray . make t 1 in stubs_special_erfcx ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_erfcx_out ~ out self = let out__ = CArray . make t 1 in stubs_special_erfcx_out ( CArray . start out__ ) out self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_erfinv self = let out__ = CArray . make t 1 in stubs_special_erfinv ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_erfinv_out ~ out self = let out__ = CArray . make t 1 in stubs_special_erfinv_out ( CArray . start out__ ) out self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_exp2 self = let out__ = CArray . make t 1 in stubs_special_exp2 ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_exp2_out ~ out self = let out__ = CArray . make t 1 in stubs_special_exp2_out ( CArray . start out__ ) out self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_expit self = let out__ = CArray . make t 1 in stubs_special_expit ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_expit_out ~ out self = let out__ = CArray . make t 1 in stubs_special_expit_out ( CArray . start out__ ) out self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_expm1 self = let out__ = CArray . make t 1 in stubs_special_expm1 ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_expm1_out ~ out self = let out__ = CArray . make t 1 in stubs_special_expm1_out ( CArray . start out__ ) out self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_gammainc self other = let out__ = CArray . make t 1 in stubs_special_gammainc ( CArray . start out__ ) self other ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_gammainc_out ~ out self other = let out__ = CArray . make t 1 in stubs_special_gammainc_out ( CArray . start out__ ) out self other ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_gammaincc self other = let out__ = CArray . make t 1 in stubs_special_gammaincc ( CArray . start out__ ) self other ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_gammaincc_out ~ out self other = let out__ = CArray . make t 1 in stubs_special_gammaincc_out ( CArray . start out__ ) out self other ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_gammaln self = let out__ = CArray . make t 1 in stubs_special_gammaln ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_gammaln_out ~ out self = let out__ = CArray . make t 1 in stubs_special_gammaln_out ( CArray . start out__ ) out self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_i0 self = let out__ = CArray . make t 1 in stubs_special_i0 ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_i0_out ~ out self = let out__ = CArray . make t 1 in stubs_special_i0_out ( CArray . start out__ ) out self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_i0e self = let out__ = CArray . make t 1 in stubs_special_i0e ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_i0e_out ~ out self = let out__ = CArray . make t 1 in stubs_special_i0e_out ( CArray . start out__ ) out self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_i1 self = let out__ = CArray . make t 1 in stubs_special_i1 ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_i1_out ~ out self = let out__ = CArray . make t 1 in stubs_special_i1_out ( CArray . start out__ ) out self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_i1e self = let out__ = CArray . make t 1 in stubs_special_i1e ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_i1e_out ~ out self = let out__ = CArray . make t 1 in stubs_special_i1e_out ( CArray . start out__ ) out self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_log1p self = let out__ = CArray . make t 1 in stubs_special_log1p ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_log1p_out ~ out self = let out__ = CArray . make t 1 in stubs_special_log1p_out ( CArray . start out__ ) out self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_log_softmax self ~ dim ~ dtype = let out__ = CArray . make t 1 in stubs_special_log_softmax ( CArray . start out__ ) self ( Int64 . of_int dim ) ( Kind . packed_to_int dtype ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_logit self ~ eps = let out__ = CArray . make t 1 in stubs_special_logit ( CArray . start out__ ) self eps ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_logit_out ~ out self ~ eps = let out__ = CArray . make t 1 in stubs_special_logit_out ( CArray . start out__ ) out self eps ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_logsumexp self ~ dim ~ keepdim = let out__ = CArray . make t 1 in stubs_special_logsumexp ( CArray . start out__ ) self ( List . map Int64 . of_int dim |> CArray . of_list int64_t |> CArray . start ) ( List . length dim ) ( if keepdim then 1 else 0 ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_logsumexp_out ~ out self ~ dim ~ keepdim = let out__ = CArray . make t 1 in stubs_special_logsumexp_out ( CArray . start out__ ) out self ( List . map Int64 . of_int dim |> CArray . of_list int64_t |> CArray . start ) ( List . length dim ) ( if keepdim then 1 else 0 ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_multigammaln self ~ p = let out__ = CArray . make t 1 in stubs_special_multigammaln ( CArray . start out__ ) self ( Int64 . of_int p ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_multigammaln_out ~ out self ~ p = let out__ = CArray . make t 1 in stubs_special_multigammaln_out ( CArray . start out__ ) out self ( Int64 . of_int p ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_ndtr self = let out__ = CArray . make t 1 in stubs_special_ndtr ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_ndtr_out ~ out self = let out__ = CArray . make t 1 in stubs_special_ndtr_out ( CArray . start out__ ) out self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_ndtri self = let out__ = CArray . make t 1 in stubs_special_ndtri ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_ndtri_out ~ out self = let out__ = CArray . make t 1 in stubs_special_ndtri_out ( CArray . start out__ ) out self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_polygamma ~ n self = let out__ = CArray . make t 1 in stubs_special_polygamma ( CArray . start out__ ) ( Int64 . of_int n ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_polygamma_out ~ out ~ n self = let out__ = CArray . make t 1 in stubs_special_polygamma_out ( CArray . start out__ ) out ( Int64 . of_int n ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_psi self = let out__ = CArray . make t 1 in stubs_special_psi ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_psi_out ~ out self = let out__ = CArray . make t 1 in stubs_special_psi_out ( CArray . start out__ ) out self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_round self = let out__ = CArray . make t 1 in stubs_special_round ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_round_out ~ out self = let out__ = CArray . make t 1 in stubs_special_round_out ( CArray . start out__ ) out self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_sinc self = let out__ = CArray . make t 1 in stubs_special_sinc ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_sinc_out ~ out self = let out__ = CArray . make t 1 in stubs_special_sinc_out ( CArray . start out__ ) out self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_xlog1py self other = let out__ = CArray . make t 1 in stubs_special_xlog1py ( CArray . start out__ ) self other ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_xlog1py_other_scalar self other = let out__ = CArray . make t 1 in stubs_special_xlog1py_other_scalar ( CArray . start out__ ) self other ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_xlog1py_other_scalar_out ~ out self other = let out__ = CArray . make t 1 in stubs_special_xlog1py_other_scalar_out ( CArray . start out__ ) out self other ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_xlog1py_out ~ out self other = let out__ = CArray . make t 1 in stubs_special_xlog1py_out ( CArray . start out__ ) out self other ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_xlog1py_self_scalar self other = let out__ = CArray . make t 1 in stubs_special_xlog1py_self_scalar ( CArray . start out__ ) self other ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_xlog1py_self_scalar_out ~ out self other = let out__ = CArray . make t 1 in stubs_special_xlog1py_self_scalar_out ( CArray . start out__ ) out self other ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_xlogy self other = let out__ = CArray . make t 1 in stubs_special_xlogy ( CArray . start out__ ) self other ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
let special_xlogy_other_scalar self other = let out__ = CArray . make t 1 in stubs_special_xlogy_other_scalar ( CArray . start out__ ) self other ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0 |
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