AllenGeng/ocamlgithub · Datasets at Hugging Face

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let empty_quantized ~ size ~ qtensor ~ options = let out__ = CArray . make t 1 in stubs_empty_quantized ( CArray . start out__ ) ( List . map Int64 . of_int size \|> CArray . of_list int64_t \|> CArray . start ) ( List . length size ) qtensor ( 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 empty_strided ~ size ~ stride ~ options = let out__ = CArray . make t 1 in stubs_empty_strided ( CArray . start out__ ) ( List . map Int64 . of_int size \|> CArray . of_list int64_t \|> CArray . start ) ( List . length size ) ( List . map Int64 . of_int stride \|> CArray . of_list int64_t \|> CArray . start ) ( List . length stride ) ( 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 eq self other = let out__ = CArray . make t 1 in stubs_eq ( CArray . start out__ ) self other ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let eq_ self other = let out__ = CArray . make t 1 in stubs_eq_ ( CArray . start out__ ) self other ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let eq_scalar_out ~ out self other = let out__ = CArray . make t 1 in stubs_eq_scalar_out ( CArray . start out__ ) out self other ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let eq_tensor self other = let out__ = CArray . make t 1 in stubs_eq_tensor ( CArray . start out__ ) self other ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let eq_tensor_ self other = let out__ = CArray . make t 1 in stubs_eq_tensor_ ( CArray . start out__ ) self other ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let eq_tensor_out ~ out self other = let out__ = CArray . make t 1 in stubs_eq_tensor_out ( CArray . start out__ ) out self other ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let erf self = let out__ = CArray . make t 1 in stubs_erf ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let erf_ self = let out__ = CArray . make t 1 in stubs_erf_ ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let erf_out ~ out self = let out__ = CArray . make t 1 in stubs_erf_out ( CArray . start out__ ) out self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let erfc self = let out__ = CArray . make t 1 in stubs_erfc ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let erfc_ self = let out__ = CArray . make t 1 in stubs_erfc_ ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let erfc_out ~ out self = let out__ = CArray . make t 1 in stubs_erfc_out ( CArray . start out__ ) out self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let erfinv self = let out__ = CArray . make t 1 in stubs_erfinv ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let erfinv_ self = let out__ = CArray . make t 1 in stubs_erfinv_ ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let erfinv_out ~ out self = let out__ = CArray . make t 1 in stubs_erfinv_out ( CArray . start out__ ) out self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let exp self = let out__ = CArray . make t 1 in stubs_exp ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let exp2 self = let out__ = CArray . make t 1 in stubs_exp2 ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let exp2_ self = let out__ = CArray . make t 1 in stubs_exp2_ ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let exp2_out ~ out self = let out__ = CArray . make t 1 in stubs_exp2_out ( CArray . start out__ ) out self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let exp_ self = let out__ = CArray . make t 1 in stubs_exp_ ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let exp_out ~ out self = let out__ = CArray . make t 1 in stubs_exp_out ( CArray . start out__ ) out self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let expand self ~ size ~ implicit = let out__ = CArray . make t 1 in stubs_expand ( CArray . start out__ ) self ( List . map Int64 . of_int size \|> CArray . of_list int64_t \|> CArray . start ) ( List . length size ) ( if implicit then 1 else 0 ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let expand_as self other = let out__ = CArray . make t 1 in stubs_expand_as ( CArray . start out__ ) self other ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let expm1 self = let out__ = CArray . make t 1 in stubs_expm1 ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let expm1_ self = let out__ = CArray . make t 1 in stubs_expm1_ ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let expm1_out ~ out self = let out__ = CArray . make t 1 in stubs_expm1_out ( CArray . start out__ ) out self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let exponential_ self ~ lambd = let out__ = CArray . make t 1 in stubs_exponential_ ( CArray . start out__ ) self lambd ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let eye ~ n ~ options = let out__ = CArray . make t 1 in stubs_eye ( CArray . start out__ ) ( Int64 . of_int n ) ( 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 eye_m ~ n ~ m ~ options = let out__ = CArray . make t 1 in stubs_eye_m ( CArray . start out__ ) ( Int64 . of_int n ) ( Int64 . of_int m ) ( 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 eye_m_out ~ out ~ n ~ m = let out__ = CArray . make t 1 in stubs_eye_m_out ( CArray . start out__ ) out ( Int64 . of_int n ) ( Int64 . of_int m ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let eye_out ~ out ~ n = let out__ = CArray . make t 1 in stubs_eye_out ( CArray . start out__ ) out ( Int64 . of_int n ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fake_quantize_per_channel_affine self ~ scale ~ zero_point ~ axis ~ quant_min ~ quant_max = let out__ = CArray . make t 1 in stubs_fake_quantize_per_channel_affine ( CArray . start out__ ) self scale zero_point ( Int64 . of_int axis ) ( Int64 . of_int quant_min ) ( Int64 . of_int quant_max ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fake_quantize_per_channel_affine_cachemask self ~ scale ~ zero_point ~ axis ~ quant_min ~ quant_max = let out__ = CArray . make t 2 in stubs_fake_quantize_per_channel_affine_cachemask ( CArray . start out__ ) self scale zero_point ( Int64 . of_int axis ) ( Int64 . of_int quant_min ) ( Int64 . of_int quant_max ) ; 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 fake_quantize_per_channel_affine_cachemask_backward ~ grad ~ mask = let out__ = CArray . make t 1 in stubs_fake_quantize_per_channel_affine_cachemask_backward ( CArray . start out__ ) grad mask ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fake_quantize_per_tensor_affine self ~ scale ~ zero_point ~ quant_min ~ quant_max = let out__ = CArray . make t 1 in stubs_fake_quantize_per_tensor_affine ( CArray . start out__ ) self scale ( Int64 . of_int zero_point ) ( Int64 . of_int quant_min ) ( Int64 . of_int quant_max ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fake_quantize_per_tensor_affine_cachemask self ~ scale ~ zero_point ~ quant_min ~ quant_max = let out__ = CArray . make t 2 in stubs_fake_quantize_per_tensor_affine_cachemask ( CArray . start out__ ) self scale ( Int64 . of_int zero_point ) ( Int64 . of_int quant_min ) ( Int64 . of_int quant_max ) ; 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 fake_quantize_per_tensor_affine_cachemask_backward ~ grad ~ mask = let out__ = CArray . make t 1 in stubs_fake_quantize_per_tensor_affine_cachemask_backward ( CArray . start out__ ) grad mask ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fake_quantize_per_tensor_affine_tensor_qparams self ~ scale ~ zero_point ~ quant_min ~ quant_max = let out__ = CArray . make t 1 in stubs_fake_quantize_per_tensor_affine_tensor_qparams ( CArray . start out__ ) self scale zero_point ( Int64 . of_int quant_min ) ( Int64 . of_int quant_max ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fbgemm_linear_fp16_weight input ~ packed_weight ~ bias = let out__ = CArray . make t 1 in stubs_fbgemm_linear_fp16_weight ( CArray . start out__ ) input packed_weight bias ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fbgemm_linear_fp16_weight_fp32_activation input ~ packed_weight ~ bias = let out__ = CArray . make t 1 in stubs_fbgemm_linear_fp16_weight_fp32_activation ( CArray . start out__ ) input packed_weight bias ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fbgemm_linear_int8_weight input ~ weight ~ packed ~ col_offsets ~ weight_scale ~ weight_zero_point ~ bias = let out__ = CArray . make t 1 in stubs_fbgemm_linear_int8_weight ( CArray . start out__ ) input weight packed col_offsets weight_scale weight_zero_point bias ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fbgemm_linear_int8_weight_fp32_activation input ~ weight ~ packed ~ col_offsets ~ weight_scale ~ weight_zero_point ~ bias = let out__ = CArray . make t 1 in stubs_fbgemm_linear_int8_weight_fp32_activation ( CArray . start out__ ) input weight packed col_offsets weight_scale weight_zero_point bias ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fbgemm_pack_gemm_matrix_fp16 input = let out__ = CArray . make t 1 in stubs_fbgemm_pack_gemm_matrix_fp16 ( CArray . start out__ ) input ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fbgemm_pack_quantized_matrix input = let out__ = CArray . make t 1 in stubs_fbgemm_pack_quantized_matrix ( CArray . start out__ ) input ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fbgemm_pack_quantized_matrix_kn input ~ k ~ n = let out__ = CArray . make t 1 in stubs_fbgemm_pack_quantized_matrix_kn ( CArray . start out__ ) input ( Int64 . of_int k ) ( Int64 . of_int n ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let feature_alpha_dropout input ~ p ~ train = let out__ = CArray . make t 1 in stubs_feature_alpha_dropout ( CArray . start out__ ) input p ( if train then 1 else 0 ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let feature_alpha_dropout_ self ~ p ~ train = let out__ = CArray . make t 1 in stubs_feature_alpha_dropout_ ( CArray . start out__ ) self p ( if train then 1 else 0 ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let feature_dropout input ~ p ~ train = let out__ = CArray . make t 1 in stubs_feature_dropout ( CArray . start out__ ) input p ( if train then 1 else 0 ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let feature_dropout_ self ~ p ~ train = let out__ = CArray . make t 1 in stubs_feature_dropout_ ( CArray . start out__ ) self p ( if train then 1 else 0 ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fft_fft self ~ n ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_fft ( CArray . start out__ ) self ( Int64 . of_int n ) ( Int64 . of_int dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fft_fft2 self ~ s ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_fft2 ( CArray . start out__ ) self ( List . map Int64 . of_int s \|> CArray . of_list int64_t \|> CArray . start ) ( List . length s ) ( List . map Int64 . of_int dim \|> CArray . of_list int64_t \|> CArray . start ) ( List . length dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fft_fft2_out ~ out self ~ s ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_fft2_out ( CArray . start out__ ) out self ( List . map Int64 . of_int s \|> CArray . of_list int64_t \|> CArray . start ) ( List . length s ) ( List . map Int64 . of_int dim \|> CArray . of_list int64_t \|> CArray . start ) ( List . length dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fft_fft_out ~ out self ~ n ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_fft_out ( CArray . start out__ ) out self ( Int64 . of_int n ) ( Int64 . of_int dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fft_fftfreq ~ n ~ d ~ options = let out__ = CArray . make t 1 in stubs_fft_fftfreq ( CArray . start out__ ) ( Int64 . of_int n ) d ( 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 fft_fftfreq_out ~ out ~ n ~ d = let out__ = CArray . make t 1 in stubs_fft_fftfreq_out ( CArray . start out__ ) out ( Int64 . of_int n ) d ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fft_fftn self ~ s ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_fftn ( CArray . start out__ ) self ( List . map Int64 . of_int s \|> CArray . of_list int64_t \|> CArray . start ) ( List . length s ) ( List . map Int64 . of_int dim \|> CArray . of_list int64_t \|> CArray . start ) ( List . length dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fft_fftn_out ~ out self ~ s ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_fftn_out ( CArray . start out__ ) out self ( List . map Int64 . of_int s \|> CArray . of_list int64_t \|> CArray . start ) ( List . length s ) ( List . map Int64 . of_int dim \|> CArray . of_list int64_t \|> CArray . start ) ( List . length dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fft_fftshift self ~ dim = let out__ = CArray . make t 1 in stubs_fft_fftshift ( CArray . start out__ ) self ( List . map Int64 . of_int dim \|> CArray . of_list int64_t \|> CArray . start ) ( List . length dim ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fft_hfft self ~ n ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_hfft ( CArray . start out__ ) self ( Int64 . of_int n ) ( Int64 . of_int dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fft_hfft_out ~ out self ~ n ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_hfft_out ( CArray . start out__ ) out self ( Int64 . of_int n ) ( Int64 . of_int dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fft_ifft self ~ n ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_ifft ( CArray . start out__ ) self ( Int64 . of_int n ) ( Int64 . of_int dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fft_ifft2 self ~ s ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_ifft2 ( CArray . start out__ ) self ( List . map Int64 . of_int s \|> CArray . of_list int64_t \|> CArray . start ) ( List . length s ) ( List . map Int64 . of_int dim \|> CArray . of_list int64_t \|> CArray . start ) ( List . length dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fft_ifft2_out ~ out self ~ s ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_ifft2_out ( CArray . start out__ ) out self ( List . map Int64 . of_int s \|> CArray . of_list int64_t \|> CArray . start ) ( List . length s ) ( List . map Int64 . of_int dim \|> CArray . of_list int64_t \|> CArray . start ) ( List . length dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fft_ifft_out ~ out self ~ n ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_ifft_out ( CArray . start out__ ) out self ( Int64 . of_int n ) ( Int64 . of_int dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fft_ifftn self ~ s ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_ifftn ( CArray . start out__ ) self ( List . map Int64 . of_int s \|> CArray . of_list int64_t \|> CArray . start ) ( List . length s ) ( List . map Int64 . of_int dim \|> CArray . of_list int64_t \|> CArray . start ) ( List . length dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fft_ifftn_out ~ out self ~ s ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_ifftn_out ( CArray . start out__ ) out self ( List . map Int64 . of_int s \|> CArray . of_list int64_t \|> CArray . start ) ( List . length s ) ( List . map Int64 . of_int dim \|> CArray . of_list int64_t \|> CArray . start ) ( List . length dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fft_ifftshift self ~ dim = let out__ = CArray . make t 1 in stubs_fft_ifftshift ( CArray . start out__ ) self ( List . map Int64 . of_int dim \|> CArray . of_list int64_t \|> CArray . start ) ( List . length dim ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fft_ihfft self ~ n ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_ihfft ( CArray . start out__ ) self ( Int64 . of_int n ) ( Int64 . of_int dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fft_ihfft_out ~ out self ~ n ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_ihfft_out ( CArray . start out__ ) out self ( Int64 . of_int n ) ( Int64 . of_int dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fft_irfft self ~ n ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_irfft ( CArray . start out__ ) self ( Int64 . of_int n ) ( Int64 . of_int dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fft_irfft2 self ~ s ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_irfft2 ( CArray . start out__ ) self ( List . map Int64 . of_int s \|> CArray . of_list int64_t \|> CArray . start ) ( List . length s ) ( List . map Int64 . of_int dim \|> CArray . of_list int64_t \|> CArray . start ) ( List . length dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fft_irfft2_out ~ out self ~ s ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_irfft2_out ( CArray . start out__ ) out self ( List . map Int64 . of_int s \|> CArray . of_list int64_t \|> CArray . start ) ( List . length s ) ( List . map Int64 . of_int dim \|> CArray . of_list int64_t \|> CArray . start ) ( List . length dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fft_irfft_out ~ out self ~ n ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_irfft_out ( CArray . start out__ ) out self ( Int64 . of_int n ) ( Int64 . of_int dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fft_irfftn self ~ s ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_irfftn ( CArray . start out__ ) self ( List . map Int64 . of_int s \|> CArray . of_list int64_t \|> CArray . start ) ( List . length s ) ( List . map Int64 . of_int dim \|> CArray . of_list int64_t \|> CArray . start ) ( List . length dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fft_irfftn_out ~ out self ~ s ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_irfftn_out ( CArray . start out__ ) out self ( List . map Int64 . of_int s \|> CArray . of_list int64_t \|> CArray . start ) ( List . length s ) ( List . map Int64 . of_int dim \|> CArray . of_list int64_t \|> CArray . start ) ( List . length dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fft_rfft self ~ n ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_rfft ( CArray . start out__ ) self ( Int64 . of_int n ) ( Int64 . of_int dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fft_rfft2 self ~ s ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_rfft2 ( CArray . start out__ ) self ( List . map Int64 . of_int s \|> CArray . of_list int64_t \|> CArray . start ) ( List . length s ) ( List . map Int64 . of_int dim \|> CArray . of_list int64_t \|> CArray . start ) ( List . length dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fft_rfft2_out ~ out self ~ s ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_rfft2_out ( CArray . start out__ ) out self ( List . map Int64 . of_int s \|> CArray . of_list int64_t \|> CArray . start ) ( List . length s ) ( List . map Int64 . of_int dim \|> CArray . of_list int64_t \|> CArray . start ) ( List . length dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fft_rfft_out ~ out self ~ n ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_rfft_out ( CArray . start out__ ) out self ( Int64 . of_int n ) ( Int64 . of_int dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fft_rfftfreq ~ n ~ d ~ options = let out__ = CArray . make t 1 in stubs_fft_rfftfreq ( CArray . start out__ ) ( Int64 . of_int n ) d ( 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 fft_rfftfreq_out ~ out ~ n ~ d = let out__ = CArray . make t 1 in stubs_fft_rfftfreq_out ( CArray . start out__ ) out ( Int64 . of_int n ) d ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fft_rfftn self ~ s ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_rfftn ( CArray . start out__ ) self ( List . map Int64 . of_int s \|> CArray . of_list int64_t \|> CArray . start ) ( List . length s ) ( List . map Int64 . of_int dim \|> CArray . of_list int64_t \|> CArray . start ) ( List . length dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fft_rfftn_out ~ out self ~ s ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_rfftn_out ( CArray . start out__ ) out self ( List . map Int64 . of_int s \|> CArray . of_list int64_t \|> CArray . start ) ( List . length s ) ( List . map Int64 . of_int dim \|> CArray . of_list int64_t \|> CArray . start ) ( List . length dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fill_ self ~ value = let out__ = CArray . make t 1 in stubs_fill_ ( CArray . start out__ ) self value ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fill_diagonal_ self ~ fill_value ~ wrap = let out__ = CArray . make t 1 in stubs_fill_diagonal_ ( CArray . start out__ ) self fill_value ( if wrap then 1 else 0 ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fill_tensor_ self ~ value = let out__ = CArray . make t 1 in stubs_fill_tensor_ ( CArray . start out__ ) self value ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fix self = let out__ = CArray . make t 1 in stubs_fix ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fix_ self = let out__ = CArray . make t 1 in stubs_fix_ ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fix_out ~ out self = let out__ = CArray . make t 1 in stubs_fix_out ( CArray . start out__ ) out self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let flatten self ~ start_dim ~ end_dim = let out__ = CArray . make t 1 in stubs_flatten ( CArray . start out__ ) self ( Int64 . of_int start_dim ) ( Int64 . of_int end_dim ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let flatten_dense_tensors tensors = let out__ = CArray . make t 1 in stubs_flatten_dense_tensors ( CArray . start out__ ) ( CArray . of_list t tensors \|> CArray . start ) ( List . length tensors ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let flip self ~ dims = let out__ = CArray . make t 1 in stubs_flip ( CArray . start out__ ) self ( List . map Int64 . of_int dims \|> CArray . of_list int64_t \|> CArray . start ) ( List . length dims ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let fliplr self = let out__ = CArray . make t 1 in stubs_fliplr ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let flipud self = let out__ = CArray . make t 1 in stubs_flipud ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let float_power self ~ exponent = let out__ = CArray . make t 1 in stubs_float_power ( CArray . start out__ ) self exponent ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let float_power_ self ~ exponent = let out__ = CArray . make t 1 in stubs_float_power_ ( CArray . start out__ ) self exponent ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let float_power_scalar self ~ exponent = let out__ = CArray . make t 1 in stubs_float_power_scalar ( CArray . start out__ ) self exponent ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0
let float_power_scalar_out ~ out self ~ exponent = let out__ = CArray . make t 1 in stubs_float_power_scalar_out ( CArray . start out__ ) out self exponent ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let empty_quantized ~ size ~ qtensor ~ options = let out__ = CArray . make t 1 in stubs_empty_quantized ( CArray . start out__ ) ( List . map Int64 . of_int size |> CArray . of_list int64_t |> CArray . start ) ( List . length size ) qtensor ( 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 empty_strided ~ size ~ stride ~ options = let out__ = CArray . make t 1 in stubs_empty_strided ( CArray . start out__ ) ( List . map Int64 . of_int size |> CArray . of_list int64_t |> CArray . start ) ( List . length size ) ( List . map Int64 . of_int stride |> CArray . of_list int64_t |> CArray . start ) ( List . length stride ) ( 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 eq self other = let out__ = CArray . make t 1 in stubs_eq ( CArray . start out__ ) self other ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let eq_ self other = let out__ = CArray . make t 1 in stubs_eq_ ( CArray . start out__ ) self other ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let eq_scalar_out ~ out self other = let out__ = CArray . make t 1 in stubs_eq_scalar_out ( CArray . start out__ ) out self other ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let eq_tensor self other = let out__ = CArray . make t 1 in stubs_eq_tensor ( CArray . start out__ ) self other ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let eq_tensor_ self other = let out__ = CArray . make t 1 in stubs_eq_tensor_ ( CArray . start out__ ) self other ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let eq_tensor_out ~ out self other = let out__ = CArray . make t 1 in stubs_eq_tensor_out ( CArray . start out__ ) out self other ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let erf self = let out__ = CArray . make t 1 in stubs_erf ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let erf_ self = let out__ = CArray . make t 1 in stubs_erf_ ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let erf_out ~ out self = let out__ = CArray . make t 1 in stubs_erf_out ( CArray . start out__ ) out self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let erfc self = let out__ = CArray . make t 1 in stubs_erfc ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let erfc_ self = let out__ = CArray . make t 1 in stubs_erfc_ ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let erfc_out ~ out self = let out__ = CArray . make t 1 in stubs_erfc_out ( CArray . start out__ ) out self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let erfinv self = let out__ = CArray . make t 1 in stubs_erfinv ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let erfinv_ self = let out__ = CArray . make t 1 in stubs_erfinv_ ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let erfinv_out ~ out self = let out__ = CArray . make t 1 in stubs_erfinv_out ( CArray . start out__ ) out self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let exp self = let out__ = CArray . make t 1 in stubs_exp ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let exp2 self = let out__ = CArray . make t 1 in stubs_exp2 ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let exp2_ self = let out__ = CArray . make t 1 in stubs_exp2_ ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let exp2_out ~ out self = let out__ = CArray . make t 1 in stubs_exp2_out ( CArray . start out__ ) out self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let exp_ self = let out__ = CArray . make t 1 in stubs_exp_ ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let exp_out ~ out self = let out__ = CArray . make t 1 in stubs_exp_out ( CArray . start out__ ) out self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let expand self ~ size ~ implicit = let out__ = CArray . make t 1 in stubs_expand ( CArray . start out__ ) self ( List . map Int64 . of_int size |> CArray . of_list int64_t |> CArray . start ) ( List . length size ) ( if implicit then 1 else 0 ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let expand_as self other = let out__ = CArray . make t 1 in stubs_expand_as ( CArray . start out__ ) self other ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let expm1 self = let out__ = CArray . make t 1 in stubs_expm1 ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let expm1_ self = let out__ = CArray . make t 1 in stubs_expm1_ ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let expm1_out ~ out self = let out__ = CArray . make t 1 in stubs_expm1_out ( CArray . start out__ ) out self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let exponential_ self ~ lambd = let out__ = CArray . make t 1 in stubs_exponential_ ( CArray . start out__ ) self lambd ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let eye ~ n ~ options = let out__ = CArray . make t 1 in stubs_eye ( CArray . start out__ ) ( Int64 . of_int n ) ( 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 eye_m ~ n ~ m ~ options = let out__ = CArray . make t 1 in stubs_eye_m ( CArray . start out__ ) ( Int64 . of_int n ) ( Int64 . of_int m ) ( 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 eye_m_out ~ out ~ n ~ m = let out__ = CArray . make t 1 in stubs_eye_m_out ( CArray . start out__ ) out ( Int64 . of_int n ) ( Int64 . of_int m ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let eye_out ~ out ~ n = let out__ = CArray . make t 1 in stubs_eye_out ( CArray . start out__ ) out ( Int64 . of_int n ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fake_quantize_per_channel_affine self ~ scale ~ zero_point ~ axis ~ quant_min ~ quant_max = let out__ = CArray . make t 1 in stubs_fake_quantize_per_channel_affine ( CArray . start out__ ) self scale zero_point ( Int64 . of_int axis ) ( Int64 . of_int quant_min ) ( Int64 . of_int quant_max ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fake_quantize_per_channel_affine_cachemask self ~ scale ~ zero_point ~ axis ~ quant_min ~ quant_max = let out__ = CArray . make t 2 in stubs_fake_quantize_per_channel_affine_cachemask ( CArray . start out__ ) self scale zero_point ( Int64 . of_int axis ) ( Int64 . of_int quant_min ) ( Int64 . of_int quant_max ) ; 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 fake_quantize_per_channel_affine_cachemask_backward ~ grad ~ mask = let out__ = CArray . make t 1 in stubs_fake_quantize_per_channel_affine_cachemask_backward ( CArray . start out__ ) grad mask ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fake_quantize_per_tensor_affine self ~ scale ~ zero_point ~ quant_min ~ quant_max = let out__ = CArray . make t 1 in stubs_fake_quantize_per_tensor_affine ( CArray . start out__ ) self scale ( Int64 . of_int zero_point ) ( Int64 . of_int quant_min ) ( Int64 . of_int quant_max ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fake_quantize_per_tensor_affine_cachemask self ~ scale ~ zero_point ~ quant_min ~ quant_max = let out__ = CArray . make t 2 in stubs_fake_quantize_per_tensor_affine_cachemask ( CArray . start out__ ) self scale ( Int64 . of_int zero_point ) ( Int64 . of_int quant_min ) ( Int64 . of_int quant_max ) ; 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 fake_quantize_per_tensor_affine_cachemask_backward ~ grad ~ mask = let out__ = CArray . make t 1 in stubs_fake_quantize_per_tensor_affine_cachemask_backward ( CArray . start out__ ) grad mask ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fake_quantize_per_tensor_affine_tensor_qparams self ~ scale ~ zero_point ~ quant_min ~ quant_max = let out__ = CArray . make t 1 in stubs_fake_quantize_per_tensor_affine_tensor_qparams ( CArray . start out__ ) self scale zero_point ( Int64 . of_int quant_min ) ( Int64 . of_int quant_max ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fbgemm_linear_fp16_weight input ~ packed_weight ~ bias = let out__ = CArray . make t 1 in stubs_fbgemm_linear_fp16_weight ( CArray . start out__ ) input packed_weight bias ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fbgemm_linear_fp16_weight_fp32_activation input ~ packed_weight ~ bias = let out__ = CArray . make t 1 in stubs_fbgemm_linear_fp16_weight_fp32_activation ( CArray . start out__ ) input packed_weight bias ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fbgemm_linear_int8_weight input ~ weight ~ packed ~ col_offsets ~ weight_scale ~ weight_zero_point ~ bias = let out__ = CArray . make t 1 in stubs_fbgemm_linear_int8_weight ( CArray . start out__ ) input weight packed col_offsets weight_scale weight_zero_point bias ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fbgemm_linear_int8_weight_fp32_activation input ~ weight ~ packed ~ col_offsets ~ weight_scale ~ weight_zero_point ~ bias = let out__ = CArray . make t 1 in stubs_fbgemm_linear_int8_weight_fp32_activation ( CArray . start out__ ) input weight packed col_offsets weight_scale weight_zero_point bias ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fbgemm_pack_gemm_matrix_fp16 input = let out__ = CArray . make t 1 in stubs_fbgemm_pack_gemm_matrix_fp16 ( CArray . start out__ ) input ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fbgemm_pack_quantized_matrix input = let out__ = CArray . make t 1 in stubs_fbgemm_pack_quantized_matrix ( CArray . start out__ ) input ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fbgemm_pack_quantized_matrix_kn input ~ k ~ n = let out__ = CArray . make t 1 in stubs_fbgemm_pack_quantized_matrix_kn ( CArray . start out__ ) input ( Int64 . of_int k ) ( Int64 . of_int n ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let feature_alpha_dropout input ~ p ~ train = let out__ = CArray . make t 1 in stubs_feature_alpha_dropout ( CArray . start out__ ) input p ( if train then 1 else 0 ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let feature_alpha_dropout_ self ~ p ~ train = let out__ = CArray . make t 1 in stubs_feature_alpha_dropout_ ( CArray . start out__ ) self p ( if train then 1 else 0 ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let feature_dropout input ~ p ~ train = let out__ = CArray . make t 1 in stubs_feature_dropout ( CArray . start out__ ) input p ( if train then 1 else 0 ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let feature_dropout_ self ~ p ~ train = let out__ = CArray . make t 1 in stubs_feature_dropout_ ( CArray . start out__ ) self p ( if train then 1 else 0 ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fft_fft self ~ n ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_fft ( CArray . start out__ ) self ( Int64 . of_int n ) ( Int64 . of_int dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fft_fft2 self ~ s ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_fft2 ( CArray . start out__ ) self ( List . map Int64 . of_int s |> CArray . of_list int64_t |> CArray . start ) ( List . length s ) ( List . map Int64 . of_int dim |> CArray . of_list int64_t |> CArray . start ) ( List . length dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fft_fft2_out ~ out self ~ s ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_fft2_out ( CArray . start out__ ) out self ( List . map Int64 . of_int s |> CArray . of_list int64_t |> CArray . start ) ( List . length s ) ( List . map Int64 . of_int dim |> CArray . of_list int64_t |> CArray . start ) ( List . length dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fft_fft_out ~ out self ~ n ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_fft_out ( CArray . start out__ ) out self ( Int64 . of_int n ) ( Int64 . of_int dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fft_fftfreq ~ n ~ d ~ options = let out__ = CArray . make t 1 in stubs_fft_fftfreq ( CArray . start out__ ) ( Int64 . of_int n ) d ( 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 fft_fftfreq_out ~ out ~ n ~ d = let out__ = CArray . make t 1 in stubs_fft_fftfreq_out ( CArray . start out__ ) out ( Int64 . of_int n ) d ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fft_fftn self ~ s ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_fftn ( CArray . start out__ ) self ( List . map Int64 . of_int s |> CArray . of_list int64_t |> CArray . start ) ( List . length s ) ( List . map Int64 . of_int dim |> CArray . of_list int64_t |> CArray . start ) ( List . length dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fft_fftn_out ~ out self ~ s ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_fftn_out ( CArray . start out__ ) out self ( List . map Int64 . of_int s |> CArray . of_list int64_t |> CArray . start ) ( List . length s ) ( List . map Int64 . of_int dim |> CArray . of_list int64_t |> CArray . start ) ( List . length dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fft_fftshift self ~ dim = let out__ = CArray . make t 1 in stubs_fft_fftshift ( CArray . start out__ ) self ( List . map Int64 . of_int dim |> CArray . of_list int64_t |> CArray . start ) ( List . length dim ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fft_hfft self ~ n ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_hfft ( CArray . start out__ ) self ( Int64 . of_int n ) ( Int64 . of_int dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fft_hfft_out ~ out self ~ n ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_hfft_out ( CArray . start out__ ) out self ( Int64 . of_int n ) ( Int64 . of_int dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fft_ifft self ~ n ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_ifft ( CArray . start out__ ) self ( Int64 . of_int n ) ( Int64 . of_int dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fft_ifft2 self ~ s ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_ifft2 ( CArray . start out__ ) self ( List . map Int64 . of_int s |> CArray . of_list int64_t |> CArray . start ) ( List . length s ) ( List . map Int64 . of_int dim |> CArray . of_list int64_t |> CArray . start ) ( List . length dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fft_ifft2_out ~ out self ~ s ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_ifft2_out ( CArray . start out__ ) out self ( List . map Int64 . of_int s |> CArray . of_list int64_t |> CArray . start ) ( List . length s ) ( List . map Int64 . of_int dim |> CArray . of_list int64_t |> CArray . start ) ( List . length dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fft_ifft_out ~ out self ~ n ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_ifft_out ( CArray . start out__ ) out self ( Int64 . of_int n ) ( Int64 . of_int dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fft_ifftn self ~ s ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_ifftn ( CArray . start out__ ) self ( List . map Int64 . of_int s |> CArray . of_list int64_t |> CArray . start ) ( List . length s ) ( List . map Int64 . of_int dim |> CArray . of_list int64_t |> CArray . start ) ( List . length dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fft_ifftn_out ~ out self ~ s ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_ifftn_out ( CArray . start out__ ) out self ( List . map Int64 . of_int s |> CArray . of_list int64_t |> CArray . start ) ( List . length s ) ( List . map Int64 . of_int dim |> CArray . of_list int64_t |> CArray . start ) ( List . length dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fft_ifftshift self ~ dim = let out__ = CArray . make t 1 in stubs_fft_ifftshift ( CArray . start out__ ) self ( List . map Int64 . of_int dim |> CArray . of_list int64_t |> CArray . start ) ( List . length dim ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fft_ihfft self ~ n ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_ihfft ( CArray . start out__ ) self ( Int64 . of_int n ) ( Int64 . of_int dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fft_ihfft_out ~ out self ~ n ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_ihfft_out ( CArray . start out__ ) out self ( Int64 . of_int n ) ( Int64 . of_int dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fft_irfft self ~ n ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_irfft ( CArray . start out__ ) self ( Int64 . of_int n ) ( Int64 . of_int dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fft_irfft2 self ~ s ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_irfft2 ( CArray . start out__ ) self ( List . map Int64 . of_int s |> CArray . of_list int64_t |> CArray . start ) ( List . length s ) ( List . map Int64 . of_int dim |> CArray . of_list int64_t |> CArray . start ) ( List . length dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fft_irfft2_out ~ out self ~ s ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_irfft2_out ( CArray . start out__ ) out self ( List . map Int64 . of_int s |> CArray . of_list int64_t |> CArray . start ) ( List . length s ) ( List . map Int64 . of_int dim |> CArray . of_list int64_t |> CArray . start ) ( List . length dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fft_irfft_out ~ out self ~ n ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_irfft_out ( CArray . start out__ ) out self ( Int64 . of_int n ) ( Int64 . of_int dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fft_irfftn self ~ s ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_irfftn ( CArray . start out__ ) self ( List . map Int64 . of_int s |> CArray . of_list int64_t |> CArray . start ) ( List . length s ) ( List . map Int64 . of_int dim |> CArray . of_list int64_t |> CArray . start ) ( List . length dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fft_irfftn_out ~ out self ~ s ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_irfftn_out ( CArray . start out__ ) out self ( List . map Int64 . of_int s |> CArray . of_list int64_t |> CArray . start ) ( List . length s ) ( List . map Int64 . of_int dim |> CArray . of_list int64_t |> CArray . start ) ( List . length dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fft_rfft self ~ n ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_rfft ( CArray . start out__ ) self ( Int64 . of_int n ) ( Int64 . of_int dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fft_rfft2 self ~ s ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_rfft2 ( CArray . start out__ ) self ( List . map Int64 . of_int s |> CArray . of_list int64_t |> CArray . start ) ( List . length s ) ( List . map Int64 . of_int dim |> CArray . of_list int64_t |> CArray . start ) ( List . length dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fft_rfft2_out ~ out self ~ s ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_rfft2_out ( CArray . start out__ ) out self ( List . map Int64 . of_int s |> CArray . of_list int64_t |> CArray . start ) ( List . length s ) ( List . map Int64 . of_int dim |> CArray . of_list int64_t |> CArray . start ) ( List . length dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fft_rfft_out ~ out self ~ n ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_rfft_out ( CArray . start out__ ) out self ( Int64 . of_int n ) ( Int64 . of_int dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fft_rfftfreq ~ n ~ d ~ options = let out__ = CArray . make t 1 in stubs_fft_rfftfreq ( CArray . start out__ ) ( Int64 . of_int n ) d ( 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 fft_rfftfreq_out ~ out ~ n ~ d = let out__ = CArray . make t 1 in stubs_fft_rfftfreq_out ( CArray . start out__ ) out ( Int64 . of_int n ) d ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fft_rfftn self ~ s ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_rfftn ( CArray . start out__ ) self ( List . map Int64 . of_int s |> CArray . of_list int64_t |> CArray . start ) ( List . length s ) ( List . map Int64 . of_int dim |> CArray . of_list int64_t |> CArray . start ) ( List . length dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fft_rfftn_out ~ out self ~ s ~ dim ~ norm = let out__ = CArray . make t 1 in stubs_fft_rfftn_out ( CArray . start out__ ) out self ( List . map Int64 . of_int s |> CArray . of_list int64_t |> CArray . start ) ( List . length s ) ( List . map Int64 . of_int dim |> CArray . of_list int64_t |> CArray . start ) ( List . length dim ) norm ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fill_ self ~ value = let out__ = CArray . make t 1 in stubs_fill_ ( CArray . start out__ ) self value ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fill_diagonal_ self ~ fill_value ~ wrap = let out__ = CArray . make t 1 in stubs_fill_diagonal_ ( CArray . start out__ ) self fill_value ( if wrap then 1 else 0 ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fill_tensor_ self ~ value = let out__ = CArray . make t 1 in stubs_fill_tensor_ ( CArray . start out__ ) self value ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fix self = let out__ = CArray . make t 1 in stubs_fix ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fix_ self = let out__ = CArray . make t 1 in stubs_fix_ ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fix_out ~ out self = let out__ = CArray . make t 1 in stubs_fix_out ( CArray . start out__ ) out self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let flatten self ~ start_dim ~ end_dim = let out__ = CArray . make t 1 in stubs_flatten ( CArray . start out__ ) self ( Int64 . of_int start_dim ) ( Int64 . of_int end_dim ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let flatten_dense_tensors tensors = let out__ = CArray . make t 1 in stubs_flatten_dense_tensors ( CArray . start out__ ) ( CArray . of_list t tensors |> CArray . start ) ( List . length tensors ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let flip self ~ dims = let out__ = CArray . make t 1 in stubs_flip ( CArray . start out__ ) self ( List . map Int64 . of_int dims |> CArray . of_list int64_t |> CArray . start ) ( List . length dims ) ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let fliplr self = let out__ = CArray . make t 1 in stubs_fliplr ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let flipud self = let out__ = CArray . make t 1 in stubs_flipud ( CArray . start out__ ) self ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let float_power self ~ exponent = let out__ = CArray . make t 1 in stubs_float_power ( CArray . start out__ ) self exponent ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let float_power_ self ~ exponent = let out__ = CArray . make t 1 in stubs_float_power_ ( CArray . start out__ ) self exponent ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let float_power_scalar self ~ exponent = let out__ = CArray . make t 1 in stubs_float_power_scalar ( CArray . start out__ ) self exponent ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0

let float_power_scalar_out ~ out self ~ exponent = let out__ = CArray . make t 1 in stubs_float_power_scalar_out ( CArray . start out__ ) out self exponent ; let t0 = CArray . get out__ 0 in Gc . finalise C . Tensor . free t0 ; t0