-- generated by using spec/Declarations.yaml {-# LANGUAGE DataKinds #-} {-# LANGUAGE PolyKinds #-} {-# LANGUAGE TemplateHaskell #-} {-# LANGUAGE QuasiQuotes #-} {-# LANGUAGE ScopedTypeVariables #-} {-# LANGUAGE OverloadedStrings #-} module Torch.Internal.Unmanaged.Native.Native15 where import Foreign.C.String import Foreign.C.Types import Foreign import Torch.Internal.Type import qualified Language.C.Inline.Cpp as C import qualified Language.C.Inline.Cpp.Unsafe as C import qualified Language.C.Inline.Context as C import qualified Language.C.Types as C C.context $ C.cppCtx <> mempty { C.ctxTypesTable = typeTable } C.include "" C.include "" C.include "" random_tll :: Ptr Tensor -> Int64 -> Int64 -> IO (Ptr Tensor) random_tll _self _from _to = [C.throwBlock| at::Tensor* { return new at::Tensor(at::random( *$(at::Tensor* _self) , $(int64_t _from) , $(int64_t _to))); }|] random_out_ttlG :: Ptr Tensor -> Ptr Tensor -> Int64 -> Ptr Generator -> IO (Ptr Tensor) random_out_ttlG _out _self _to _generator = [C.throwBlock| at::Tensor* { return new at::Tensor(at::random_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , $(int64_t _to) , *$(at::Generator* _generator))); }|] random_out_ttl :: Ptr Tensor -> Ptr Tensor -> Int64 -> IO (Ptr Tensor) random_out_ttl _out _self _to = [C.throwBlock| at::Tensor* { return new at::Tensor(at::random_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , $(int64_t _to))); }|] random_tlG :: Ptr Tensor -> Int64 -> Ptr Generator -> IO (Ptr Tensor) random_tlG _self _to _generator = [C.throwBlock| at::Tensor* { return new at::Tensor(at::random( *$(at::Tensor* _self) , $(int64_t _to) , *$(at::Generator* _generator))); }|] random_tl :: Ptr Tensor -> Int64 -> IO (Ptr Tensor) random_tl _self _to = [C.throwBlock| at::Tensor* { return new at::Tensor(at::random( *$(at::Tensor* _self) , $(int64_t _to))); }|] random_out_ttG :: Ptr Tensor -> Ptr Tensor -> Ptr Generator -> IO (Ptr Tensor) random_out_ttG _out _self _generator = [C.throwBlock| at::Tensor* { return new at::Tensor(at::random_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , *$(at::Generator* _generator))); }|] random_out_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor) random_out_tt _out _self = [C.throwBlock| at::Tensor* { return new at::Tensor(at::random_out( *$(at::Tensor* _out) , *$(at::Tensor* _self))); }|] random_tG :: Ptr Tensor -> Ptr Generator -> IO (Ptr Tensor) random_tG _self _generator = [C.throwBlock| at::Tensor* { return new at::Tensor(at::random( *$(at::Tensor* _self) , *$(at::Generator* _generator))); }|] random_t :: Ptr Tensor -> IO (Ptr Tensor) random_t _self = [C.throwBlock| at::Tensor* { return new at::Tensor(at::random( *$(at::Tensor* _self))); }|] uniform_out_ttddG :: Ptr Tensor -> Ptr Tensor -> CDouble -> CDouble -> Ptr Generator -> IO (Ptr Tensor) uniform_out_ttddG _out _self _from _to _generator = [C.throwBlock| at::Tensor* { return new at::Tensor(at::uniform_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , $(double _from) , $(double _to) , *$(at::Generator* _generator))); }|] uniform_out_ttdd :: Ptr Tensor -> Ptr Tensor -> CDouble -> CDouble -> IO (Ptr Tensor) uniform_out_ttdd _out _self _from _to = [C.throwBlock| at::Tensor* { return new at::Tensor(at::uniform_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , $(double _from) , $(double _to))); }|] uniform_out_ttd :: Ptr Tensor -> Ptr Tensor -> CDouble -> IO (Ptr Tensor) uniform_out_ttd _out _self _from = [C.throwBlock| at::Tensor* { return new at::Tensor(at::uniform_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , $(double _from))); }|] uniform_out_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor) uniform_out_tt _out _self = [C.throwBlock| at::Tensor* { return new at::Tensor(at::uniform_out( *$(at::Tensor* _out) , *$(at::Tensor* _self))); }|] uniform_tddG :: Ptr Tensor -> CDouble -> CDouble -> Ptr Generator -> IO (Ptr Tensor) uniform_tddG _self _from _to _generator = [C.throwBlock| at::Tensor* { return new at::Tensor(at::uniform( *$(at::Tensor* _self) , $(double _from) , $(double _to) , *$(at::Generator* _generator))); }|] uniform_tdd :: Ptr Tensor -> CDouble -> CDouble -> IO (Ptr Tensor) uniform_tdd _self _from _to = [C.throwBlock| at::Tensor* { return new at::Tensor(at::uniform( *$(at::Tensor* _self) , $(double _from) , $(double _to))); }|] uniform_td :: Ptr Tensor -> CDouble -> IO (Ptr Tensor) uniform_td _self _from = [C.throwBlock| at::Tensor* { return new at::Tensor(at::uniform( *$(at::Tensor* _self) , $(double _from))); }|] uniform_t :: Ptr Tensor -> IO (Ptr Tensor) uniform_t _self = [C.throwBlock| at::Tensor* { return new at::Tensor(at::uniform( *$(at::Tensor* _self))); }|] cauchy_out_ttddG :: Ptr Tensor -> Ptr Tensor -> CDouble -> CDouble -> Ptr Generator -> IO (Ptr Tensor) cauchy_out_ttddG _out _self _median _sigma _generator = [C.throwBlock| at::Tensor* { return new at::Tensor(at::cauchy_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , $(double _median) , $(double _sigma) , *$(at::Generator* _generator))); }|] cauchy_out_ttdd :: Ptr Tensor -> Ptr Tensor -> CDouble -> CDouble -> IO (Ptr Tensor) cauchy_out_ttdd _out _self _median _sigma = [C.throwBlock| at::Tensor* { return new at::Tensor(at::cauchy_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , $(double _median) , $(double _sigma))); }|] cauchy_out_ttd :: Ptr Tensor -> Ptr Tensor -> CDouble -> IO (Ptr Tensor) cauchy_out_ttd _out _self _median = [C.throwBlock| at::Tensor* { return new at::Tensor(at::cauchy_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , $(double _median))); }|] cauchy_out_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor) cauchy_out_tt _out _self = [C.throwBlock| at::Tensor* { return new at::Tensor(at::cauchy_out( *$(at::Tensor* _out) , *$(at::Tensor* _self))); }|] cauchy_tddG :: Ptr Tensor -> CDouble -> CDouble -> Ptr Generator -> IO (Ptr Tensor) cauchy_tddG _self _median _sigma _generator = [C.throwBlock| at::Tensor* { return new at::Tensor(at::cauchy( *$(at::Tensor* _self) , $(double _median) , $(double _sigma) , *$(at::Generator* _generator))); }|] cauchy_tdd :: Ptr Tensor -> CDouble -> CDouble -> IO (Ptr Tensor) cauchy_tdd _self _median _sigma = [C.throwBlock| at::Tensor* { return new at::Tensor(at::cauchy( *$(at::Tensor* _self) , $(double _median) , $(double _sigma))); }|] cauchy_td :: Ptr Tensor -> CDouble -> IO (Ptr Tensor) cauchy_td _self _median = [C.throwBlock| at::Tensor* { return new at::Tensor(at::cauchy( *$(at::Tensor* _self) , $(double _median))); }|] cauchy_t :: Ptr Tensor -> IO (Ptr Tensor) cauchy_t _self = [C.throwBlock| at::Tensor* { return new at::Tensor(at::cauchy( *$(at::Tensor* _self))); }|] log_normal_out_ttddG :: Ptr Tensor -> Ptr Tensor -> CDouble -> CDouble -> Ptr Generator -> IO (Ptr Tensor) log_normal_out_ttddG _out _self _mean _std _generator = [C.throwBlock| at::Tensor* { return new at::Tensor(at::log_normal_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , $(double _mean) , $(double _std) , *$(at::Generator* _generator))); }|] log_normal_out_ttdd :: Ptr Tensor -> Ptr Tensor -> CDouble -> CDouble -> IO (Ptr Tensor) log_normal_out_ttdd _out _self _mean _std = [C.throwBlock| at::Tensor* { return new at::Tensor(at::log_normal_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , $(double _mean) , $(double _std))); }|] log_normal_out_ttd :: Ptr Tensor -> Ptr Tensor -> CDouble -> IO (Ptr Tensor) log_normal_out_ttd _out _self _mean = [C.throwBlock| at::Tensor* { return new at::Tensor(at::log_normal_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , $(double _mean))); }|] log_normal_out_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor) log_normal_out_tt _out _self = [C.throwBlock| at::Tensor* { return new at::Tensor(at::log_normal_out( *$(at::Tensor* _out) , *$(at::Tensor* _self))); }|] log_normal_tddG :: Ptr Tensor -> CDouble -> CDouble -> Ptr Generator -> IO (Ptr Tensor) log_normal_tddG _self _mean _std _generator = [C.throwBlock| at::Tensor* { return new at::Tensor(at::log_normal( *$(at::Tensor* _self) , $(double _mean) , $(double _std) , *$(at::Generator* _generator))); }|] log_normal_tdd :: Ptr Tensor -> CDouble -> CDouble -> IO (Ptr Tensor) log_normal_tdd _self _mean _std = [C.throwBlock| at::Tensor* { return new at::Tensor(at::log_normal( *$(at::Tensor* _self) , $(double _mean) , $(double _std))); }|] log_normal_td :: Ptr Tensor -> CDouble -> IO (Ptr Tensor) log_normal_td _self _mean = [C.throwBlock| at::Tensor* { return new at::Tensor(at::log_normal( *$(at::Tensor* _self) , $(double _mean))); }|] log_normal_t :: Ptr Tensor -> IO (Ptr Tensor) log_normal_t _self = [C.throwBlock| at::Tensor* { return new at::Tensor(at::log_normal( *$(at::Tensor* _self))); }|] exponential_out_ttdG :: Ptr Tensor -> Ptr Tensor -> CDouble -> Ptr Generator -> IO (Ptr Tensor) exponential_out_ttdG _out _self _lambd _generator = [C.throwBlock| at::Tensor* { return new at::Tensor(at::exponential_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , $(double _lambd) , *$(at::Generator* _generator))); }|] exponential_out_ttd :: Ptr Tensor -> Ptr Tensor -> CDouble -> IO (Ptr Tensor) exponential_out_ttd _out _self _lambd = [C.throwBlock| at::Tensor* { return new at::Tensor(at::exponential_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , $(double _lambd))); }|] exponential_out_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor) exponential_out_tt _out _self = [C.throwBlock| at::Tensor* { return new at::Tensor(at::exponential_out( *$(at::Tensor* _out) , *$(at::Tensor* _self))); }|] exponential_tdG :: Ptr Tensor -> CDouble -> Ptr Generator -> IO (Ptr Tensor) exponential_tdG _self _lambd _generator = [C.throwBlock| at::Tensor* { return new at::Tensor(at::exponential( *$(at::Tensor* _self) , $(double _lambd) , *$(at::Generator* _generator))); }|] exponential_td :: Ptr Tensor -> CDouble -> IO (Ptr Tensor) exponential_td _self _lambd = [C.throwBlock| at::Tensor* { return new at::Tensor(at::exponential( *$(at::Tensor* _self) , $(double _lambd))); }|] exponential_t :: Ptr Tensor -> IO (Ptr Tensor) exponential_t _self = [C.throwBlock| at::Tensor* { return new at::Tensor(at::exponential( *$(at::Tensor* _self))); }|] geometric_out_ttdG :: Ptr Tensor -> Ptr Tensor -> CDouble -> Ptr Generator -> IO (Ptr Tensor) geometric_out_ttdG _out _self _p _generator = [C.throwBlock| at::Tensor* { return new at::Tensor(at::geometric_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , $(double _p) , *$(at::Generator* _generator))); }|] geometric_out_ttd :: Ptr Tensor -> Ptr Tensor -> CDouble -> IO (Ptr Tensor) geometric_out_ttd _out _self _p = [C.throwBlock| at::Tensor* { return new at::Tensor(at::geometric_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , $(double _p))); }|] geometric_tdG :: Ptr Tensor -> CDouble -> Ptr Generator -> IO (Ptr Tensor) geometric_tdG _self _p _generator = [C.throwBlock| at::Tensor* { return new at::Tensor(at::geometric( *$(at::Tensor* _self) , $(double _p) , *$(at::Generator* _generator))); }|] geometric_td :: Ptr Tensor -> CDouble -> IO (Ptr Tensor) geometric_td _self _p = [C.throwBlock| at::Tensor* { return new at::Tensor(at::geometric( *$(at::Tensor* _self) , $(double _p))); }|] tril_indices_out_tlll :: Ptr Tensor -> Int64 -> Int64 -> Int64 -> IO (Ptr Tensor) tril_indices_out_tlll _out _row _col _offset = [C.throwBlock| at::Tensor* { return new at::Tensor(at::tril_indices_out( *$(at::Tensor* _out) , $(int64_t _row) , $(int64_t _col) , $(int64_t _offset))); }|] tril_indices_out_tll :: Ptr Tensor -> Int64 -> Int64 -> IO (Ptr Tensor) tril_indices_out_tll _out _row _col = [C.throwBlock| at::Tensor* { return new at::Tensor(at::tril_indices_out( *$(at::Tensor* _out) , $(int64_t _row) , $(int64_t _col))); }|] triu_indices_out_tlll :: Ptr Tensor -> Int64 -> Int64 -> Int64 -> IO (Ptr Tensor) triu_indices_out_tlll _out _row _col _offset = [C.throwBlock| at::Tensor* { return new at::Tensor(at::triu_indices_out( *$(at::Tensor* _out) , $(int64_t _row) , $(int64_t _col) , $(int64_t _offset))); }|] triu_indices_out_tll :: Ptr Tensor -> Int64 -> Int64 -> IO (Ptr Tensor) triu_indices_out_tll _out _row _col = [C.throwBlock| at::Tensor* { return new at::Tensor(at::triu_indices_out( *$(at::Tensor* _out) , $(int64_t _row) , $(int64_t _col))); }|] trace_out_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor) trace_out_tt _out _self = [C.throwBlock| at::Tensor* { return new at::Tensor(at::trace_out( *$(at::Tensor* _out) , *$(at::Tensor* _self))); }|] _cholesky_solve_helper_out_tttb :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> CBool -> IO (Ptr Tensor) _cholesky_solve_helper_out_tttb _out _self _A _upper = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_cholesky_solve_helper_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , *$(at::Tensor* _A) , $(bool _upper))); }|] dist_out_ttts :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Scalar -> IO (Ptr Tensor) dist_out_ttts _out _self _other _p = [C.throwBlock| at::Tensor* { return new at::Tensor(at::dist_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , *$(at::Tensor* _other) , *$(at::Scalar* _p))); }|] dist_out_ttt :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor) dist_out_ttt _out _self _other = [C.throwBlock| at::Tensor* { return new at::Tensor(at::dist_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , *$(at::Tensor* _other))); }|] _histogramdd_bin_edges_out_ltlatb :: Ptr TensorList -> Ptr Tensor -> Ptr IntArray -> Ptr (StdVector CDouble) -> Ptr Tensor -> CBool -> IO (()) _histogramdd_bin_edges_out_ltlatb _out _self _bins _range _weight _density = [C.throwBlock| void { (at::_histogramdd_bin_edges_out( *$(std::vector* _out) , *$(at::Tensor* _self) , *$(std::vector* _bins) , *$(std::vector* _range) , *$(at::Tensor* _weight) , $(bool _density))); }|] _histogramdd_bin_edges_out_ltlat :: Ptr TensorList -> Ptr Tensor -> Ptr IntArray -> Ptr (StdVector CDouble) -> Ptr Tensor -> IO (()) _histogramdd_bin_edges_out_ltlat _out _self _bins _range _weight = [C.throwBlock| void { (at::_histogramdd_bin_edges_out( *$(std::vector* _out) , *$(at::Tensor* _self) , *$(std::vector* _bins) , *$(std::vector* _range) , *$(at::Tensor* _weight))); }|] _histogramdd_bin_edges_out_ltla :: Ptr TensorList -> Ptr Tensor -> Ptr IntArray -> Ptr (StdVector CDouble) -> IO (()) _histogramdd_bin_edges_out_ltla _out _self _bins _range = [C.throwBlock| void { (at::_histogramdd_bin_edges_out( *$(std::vector* _out) , *$(at::Tensor* _self) , *$(std::vector* _bins) , *$(std::vector* _range))); }|] _histogramdd_bin_edges_out_ltl :: Ptr TensorList -> Ptr Tensor -> Ptr IntArray -> IO (()) _histogramdd_bin_edges_out_ltl _out _self _bins = [C.throwBlock| void { (at::_histogramdd_bin_edges_out( *$(std::vector* _out) , *$(at::Tensor* _self) , *$(std::vector* _bins))); }|] _histogramdd_from_bin_cts_out_ttlatb :: Ptr Tensor -> Ptr Tensor -> Ptr IntArray -> Ptr (StdVector CDouble) -> Ptr Tensor -> CBool -> IO (Ptr Tensor) _histogramdd_from_bin_cts_out_ttlatb _out _self _bins _range _weight _density = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_histogramdd_from_bin_cts_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , *$(std::vector* _bins) , *$(std::vector* _range) , *$(at::Tensor* _weight) , $(bool _density))); }|] _histogramdd_from_bin_cts_out_ttlat :: Ptr Tensor -> Ptr Tensor -> Ptr IntArray -> Ptr (StdVector CDouble) -> Ptr Tensor -> IO (Ptr Tensor) _histogramdd_from_bin_cts_out_ttlat _out _self _bins _range _weight = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_histogramdd_from_bin_cts_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , *$(std::vector* _bins) , *$(std::vector* _range) , *$(at::Tensor* _weight))); }|] _histogramdd_from_bin_cts_out_ttla :: Ptr Tensor -> Ptr Tensor -> Ptr IntArray -> Ptr (StdVector CDouble) -> IO (Ptr Tensor) _histogramdd_from_bin_cts_out_ttla _out _self _bins _range = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_histogramdd_from_bin_cts_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , *$(std::vector* _bins) , *$(std::vector* _range))); }|] _histogramdd_from_bin_cts_out_ttl :: Ptr Tensor -> Ptr Tensor -> Ptr IntArray -> IO (Ptr Tensor) _histogramdd_from_bin_cts_out_ttl _out _self _bins = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_histogramdd_from_bin_cts_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , *$(std::vector* _bins))); }|] _histogramdd_from_bin_tensors_out_ttltb :: Ptr Tensor -> Ptr Tensor -> Ptr TensorList -> Ptr Tensor -> CBool -> IO (Ptr Tensor) _histogramdd_from_bin_tensors_out_ttltb _out _self _bins _weight _density = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_histogramdd_from_bin_tensors_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , *$(std::vector* _bins) , *$(at::Tensor* _weight) , $(bool _density))); }|] _histogramdd_from_bin_tensors_out_ttlt :: Ptr Tensor -> Ptr Tensor -> Ptr TensorList -> Ptr Tensor -> IO (Ptr Tensor) _histogramdd_from_bin_tensors_out_ttlt _out _self _bins _weight = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_histogramdd_from_bin_tensors_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , *$(std::vector* _bins) , *$(at::Tensor* _weight))); }|] _histogramdd_from_bin_tensors_out_ttl :: Ptr Tensor -> Ptr Tensor -> Ptr TensorList -> IO (Ptr Tensor) _histogramdd_from_bin_tensors_out_ttl _out _self _bins = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_histogramdd_from_bin_tensors_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , *$(std::vector* _bins))); }|] remainder_out_tst :: Ptr Tensor -> Ptr Scalar -> Ptr Tensor -> IO (Ptr Tensor) remainder_out_tst _out _self _other = [C.throwBlock| at::Tensor* { return new at::Tensor(at::remainder_out( *$(at::Tensor* _out) , *$(at::Scalar* _self) , *$(at::Tensor* _other))); }|] argsort_out_ttblb :: Ptr Tensor -> Ptr Tensor -> CBool -> Int64 -> CBool -> IO (Ptr Tensor) argsort_out_ttblb _out _self _stable _dim _descending = [C.throwBlock| at::Tensor* { return new at::Tensor(at::argsort_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , $(bool _stable) , $(int64_t _dim) , $(bool _descending))); }|] argsort_out_ttbl :: Ptr Tensor -> Ptr Tensor -> CBool -> Int64 -> IO (Ptr Tensor) argsort_out_ttbl _out _self _stable _dim = [C.throwBlock| at::Tensor* { return new at::Tensor(at::argsort_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , $(bool _stable) , $(int64_t _dim))); }|] argsort_out_ttb :: Ptr Tensor -> Ptr Tensor -> CBool -> IO (Ptr Tensor) argsort_out_ttb _out _self _stable = [C.throwBlock| at::Tensor* { return new at::Tensor(at::argsort_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , $(bool _stable))); }|] unfold_backward_out_ttllll :: Ptr Tensor -> Ptr Tensor -> Ptr IntArray -> Int64 -> Int64 -> Int64 -> IO (Ptr Tensor) unfold_backward_out_ttllll _out _grad_in _input_sizes _dim _size _step = [C.throwBlock| at::Tensor* { return new at::Tensor(at::unfold_backward_out( *$(at::Tensor* _out) , *$(at::Tensor* _grad_in) , *$(std::vector* _input_sizes) , $(int64_t _dim) , $(int64_t _size) , $(int64_t _step))); }|] normal_out_ttddG :: Ptr Tensor -> Ptr Tensor -> CDouble -> CDouble -> Ptr Generator -> IO (Ptr Tensor) normal_out_ttddG _out _self _mean _std _generator = [C.throwBlock| at::Tensor* { return new at::Tensor(at::normal_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , $(double _mean) , $(double _std) , *$(at::Generator* _generator))); }|] normal_out_ttdd :: Ptr Tensor -> Ptr Tensor -> CDouble -> CDouble -> IO (Ptr Tensor) normal_out_ttdd _out _self _mean _std = [C.throwBlock| at::Tensor* { return new at::Tensor(at::normal_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , $(double _mean) , $(double _std))); }|] -- normal_out_ttd -- :: Ptr Tensor -- -> Ptr Tensor -- -> CDouble -- -> IO (Ptr Tensor) -- normal_out_ttd _out _self _mean = -- [C.throwBlock| at::Tensor* { return new at::Tensor(at::normal_out( -- *$(at::Tensor* _out) -- , *$(at::Tensor* _self) -- , $(double _mean))); -- }|] -- normal_out_tt -- :: Ptr Tensor -- -> Ptr Tensor -- -> IO (Ptr Tensor) -- normal_out_tt _out _self = -- [C.throwBlock| at::Tensor* { return new at::Tensor(at::normal_out( -- *$(at::Tensor* _out) -- , *$(at::Tensor* _self))); -- }|] _amp_foreach_non_finite_check_and_unscale_out_lltt :: Ptr TensorList -> Ptr TensorList -> Ptr Tensor -> Ptr Tensor -> IO (()) _amp_foreach_non_finite_check_and_unscale_out_lltt _out _self _found_inf _inv_scale = [C.throwBlock| void { (at::_amp_foreach_non_finite_check_and_unscale_out( *$(std::vector* _out) , *$(std::vector* _self) , *$(at::Tensor* _found_inf) , *$(at::Tensor* _inv_scale))); }|] _amp_foreach_non_finite_check_and_unscale_ltt :: Ptr TensorList -> Ptr Tensor -> Ptr Tensor -> IO (Ptr (StdTuple '(TensorList,Tensor))) _amp_foreach_non_finite_check_and_unscale_ltt _self _found_inf _inv_scale = [C.throwBlock| std::tuple,at::Tensor>* { return new std::tuple,at::Tensor>(at::_amp_foreach_non_finite_check_and_unscale( *$(std::vector* _self) , *$(at::Tensor* _found_inf) , *$(at::Tensor* _inv_scale))); }|] _amp_update_scale_out_ttttddl :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> CDouble -> CDouble -> Int64 -> IO (Ptr Tensor) _amp_update_scale_out_ttttddl _out _self _growth_tracker _found_inf _scale_growth_factor _scale_backoff_factor _growth_interval = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_amp_update_scale_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , *$(at::Tensor* _growth_tracker) , *$(at::Tensor* _found_inf) , $(double _scale_growth_factor) , $(double _scale_backoff_factor) , $(int64_t _growth_interval))); }|] _amp_update_scale_tttddl :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> CDouble -> CDouble -> Int64 -> IO (Ptr (StdTuple '(Tensor,Tensor))) _amp_update_scale_tttddl _self _growth_tracker _found_inf _scale_growth_factor _scale_backoff_factor _growth_interval = [C.throwBlock| std::tuple* { return new std::tuple(at::_amp_update_scale( *$(at::Tensor* _self) , *$(at::Tensor* _growth_tracker) , *$(at::Tensor* _found_inf) , $(double _scale_growth_factor) , $(double _scale_backoff_factor) , $(int64_t _growth_interval))); }|] _foreach_add_out_lls :: Ptr TensorList -> Ptr TensorList -> Ptr Scalar -> IO (()) _foreach_add_out_lls _out _self _scalar = [C.throwBlock| void { (at::_foreach_add_out( *$(std::vector* _out) , *$(std::vector* _self) , *$(at::Scalar* _scalar))); }|] _foreach_sub_out_lls :: Ptr TensorList -> Ptr TensorList -> Ptr Scalar -> IO (()) _foreach_sub_out_lls _out _self _scalar = [C.throwBlock| void { (at::_foreach_sub_out( *$(std::vector* _out) , *$(std::vector* _self) , *$(at::Scalar* _scalar))); }|] _foreach_mul_out_lls :: Ptr TensorList -> Ptr TensorList -> Ptr Scalar -> IO (()) _foreach_mul_out_lls _out _self _scalar = [C.throwBlock| void { (at::_foreach_mul_out( *$(std::vector* _out) , *$(std::vector* _self) , *$(at::Scalar* _scalar))); }|] _foreach_div_out_lls :: Ptr TensorList -> Ptr TensorList -> Ptr Scalar -> IO (()) _foreach_div_out_lls _out _self _scalar = [C.throwBlock| void { (at::_foreach_div_out( *$(std::vector* _out) , *$(std::vector* _self) , *$(at::Scalar* _scalar))); }|] _foreach_clamp_min_out_lls :: Ptr TensorList -> Ptr TensorList -> Ptr Scalar -> IO (()) _foreach_clamp_min_out_lls _out _self _scalar = [C.throwBlock| void { (at::_foreach_clamp_min_out( *$(std::vector* _out) , *$(std::vector* _self) , *$(at::Scalar* _scalar))); }|] _foreach_clamp_max_out_lls :: Ptr TensorList -> Ptr TensorList -> Ptr Scalar -> IO (()) _foreach_clamp_max_out_lls _out _self _scalar = [C.throwBlock| void { (at::_foreach_clamp_max_out( *$(std::vector* _out) , *$(std::vector* _self) , *$(at::Scalar* _scalar))); }|] _foreach_maximum_out_lls :: Ptr TensorList -> Ptr TensorList -> Ptr Scalar -> IO (()) _foreach_maximum_out_lls _out _self _scalar = [C.throwBlock| void { (at::_foreach_maximum_out( *$(std::vector* _out) , *$(std::vector* _self) , *$(at::Scalar* _scalar))); }|] _foreach_minimum_out_lls :: Ptr TensorList -> Ptr TensorList -> Ptr Scalar -> IO (()) _foreach_minimum_out_lls _out _self _scalar = [C.throwBlock| void { (at::_foreach_minimum_out( *$(std::vector* _out) , *$(std::vector* _self) , *$(at::Scalar* _scalar))); }|] _foreach_add_out_llls :: Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr Scalar -> IO (()) _foreach_add_out_llls _out _self _other _alpha = [C.throwBlock| void { (at::_foreach_add_out( *$(std::vector* _out) , *$(std::vector* _self) , *$(std::vector* _other) , *$(at::Scalar* _alpha))); }|] _foreach_add_out_lll :: Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> IO (()) _foreach_add_out_lll _out _self _other = [C.throwBlock| void { (at::_foreach_add_out( *$(std::vector* _out) , *$(std::vector* _self) , *$(std::vector* _other))); }|] _foreach_sub_out_llls :: Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr Scalar -> IO (()) _foreach_sub_out_llls _out _self _other _alpha = [C.throwBlock| void { (at::_foreach_sub_out( *$(std::vector* _out) , *$(std::vector* _self) , *$(std::vector* _other) , *$(at::Scalar* _alpha))); }|] _foreach_sub_out_lll :: Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> IO (()) _foreach_sub_out_lll _out _self _other = [C.throwBlock| void { (at::_foreach_sub_out( *$(std::vector* _out) , *$(std::vector* _self) , *$(std::vector* _other))); }|] _foreach_mul_out_lll :: Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> IO (()) _foreach_mul_out_lll _out _self _other = [C.throwBlock| void { (at::_foreach_mul_out( *$(std::vector* _out) , *$(std::vector* _self) , *$(std::vector* _other))); }|] _foreach_div_out_lll :: Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> IO (()) _foreach_div_out_lll _out _self _other = [C.throwBlock| void { (at::_foreach_div_out( *$(std::vector* _out) , *$(std::vector* _self) , *$(std::vector* _other))); }|] _foreach_clamp_min_out_lll :: Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> IO (()) _foreach_clamp_min_out_lll _out _self _other = [C.throwBlock| void { (at::_foreach_clamp_min_out( *$(std::vector* _out) , *$(std::vector* _self) , *$(std::vector* _other))); }|] _foreach_clamp_max_out_lll :: Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> IO (()) _foreach_clamp_max_out_lll _out _self _other = [C.throwBlock| void { (at::_foreach_clamp_max_out( *$(std::vector* _out) , *$(std::vector* _self) , *$(std::vector* _other))); }|] _foreach_maximum_out_lll :: Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> IO (()) _foreach_maximum_out_lll _out _self _other = [C.throwBlock| void { (at::_foreach_maximum_out( *$(std::vector* _out) , *$(std::vector* _self) , *$(std::vector* _other))); }|] _foreach_minimum_out_lll :: Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> IO (()) _foreach_minimum_out_lll _out _self _other = [C.throwBlock| void { (at::_foreach_minimum_out( *$(std::vector* _out) , *$(std::vector* _self) , *$(std::vector* _other))); }|] _foreach_add_out_llA :: Ptr TensorList -> Ptr TensorList -> Ptr (StdVector Scalar) -> IO (()) _foreach_add_out_llA _out _self _scalars = [C.throwBlock| void { (at::_foreach_add_out( *$(std::vector* _out) , *$(std::vector* _self) , *$(std::vector* _scalars))); }|] _foreach_sub_out_llA :: Ptr TensorList -> Ptr TensorList -> Ptr (StdVector Scalar) -> IO (()) _foreach_sub_out_llA _out _self _scalars = [C.throwBlock| void { (at::_foreach_sub_out( *$(std::vector* _out) , *$(std::vector* _self) , *$(std::vector* _scalars))); }|] _foreach_div_out_llA :: Ptr TensorList -> Ptr TensorList -> Ptr (StdVector Scalar) -> IO (()) _foreach_div_out_llA _out _self _scalars = [C.throwBlock| void { (at::_foreach_div_out( *$(std::vector* _out) , *$(std::vector* _self) , *$(std::vector* _scalars))); }|] _foreach_mul_out_llA :: Ptr TensorList -> Ptr TensorList -> Ptr (StdVector Scalar) -> IO (()) _foreach_mul_out_llA _out _self _scalars = [C.throwBlock| void { (at::_foreach_mul_out( *$(std::vector* _out) , *$(std::vector* _self) , *$(std::vector* _scalars))); }|] _foreach_clamp_min_out_llA :: Ptr TensorList -> Ptr TensorList -> Ptr (StdVector Scalar) -> IO (()) _foreach_clamp_min_out_llA _out _self _scalars = [C.throwBlock| void { (at::_foreach_clamp_min_out( *$(std::vector* _out) , *$(std::vector* _self) , *$(std::vector* _scalars))); }|] _foreach_clamp_max_out_llA :: Ptr TensorList -> Ptr TensorList -> Ptr (StdVector Scalar) -> IO (()) _foreach_clamp_max_out_llA _out _self _scalars = [C.throwBlock| void { (at::_foreach_clamp_max_out( *$(std::vector* _out) , *$(std::vector* _self) , *$(std::vector* _scalars))); }|] _foreach_maximum_out_llA :: Ptr TensorList -> Ptr TensorList -> Ptr (StdVector Scalar) -> IO (()) _foreach_maximum_out_llA _out _self _scalars = [C.throwBlock| void { (at::_foreach_maximum_out( *$(std::vector* _out) , *$(std::vector* _self) , *$(std::vector* _scalars))); }|] _foreach_minimum_out_llA :: Ptr TensorList -> Ptr TensorList -> Ptr (StdVector Scalar) -> IO (()) _foreach_minimum_out_llA _out _self _scalars = [C.throwBlock| void { (at::_foreach_minimum_out( *$(std::vector* _out) , *$(std::vector* _self) , *$(std::vector* _scalars))); }|] _foreach_exp_out_ll :: Ptr TensorList -> Ptr TensorList -> IO (()) _foreach_exp_out_ll _out _self = [C.throwBlock| void { (at::_foreach_exp_out( *$(std::vector* _out) , *$(std::vector* _self))); }|] _foreach_zero_out_ll :: Ptr TensorList -> Ptr TensorList -> IO (()) _foreach_zero_out_ll _out _self = [C.throwBlock| void { (at::_foreach_zero_out( *$(std::vector* _out) , *$(std::vector* _self))); }|] _foreach_zero_l :: Ptr TensorList -> IO (Ptr TensorList) _foreach_zero_l _self = [C.throwBlock| std::vector* { return new std::vector(at::_foreach_zero( *$(std::vector* _self))); }|] _foreach_sqrt_out_ll :: Ptr TensorList -> Ptr TensorList -> IO (()) _foreach_sqrt_out_ll _out _self = [C.throwBlock| void { (at::_foreach_sqrt_out( *$(std::vector* _out) , *$(std::vector* _self))); }|] _foreach_abs_out_ll :: Ptr TensorList -> Ptr TensorList -> IO (()) _foreach_abs_out_ll _out _self = [C.throwBlock| void { (at::_foreach_abs_out( *$(std::vector* _out) , *$(std::vector* _self))); }|] _foreach_acos_out_ll :: Ptr TensorList -> Ptr TensorList -> IO (()) _foreach_acos_out_ll _out _self = [C.throwBlock| void { (at::_foreach_acos_out( *$(std::vector* _out) , *$(std::vector* _self))); }|] _foreach_asin_out_ll :: Ptr TensorList -> Ptr TensorList -> IO (()) _foreach_asin_out_ll _out _self = [C.throwBlock| void { (at::_foreach_asin_out( *$(std::vector* _out) , *$(std::vector* _self))); }|] _foreach_atan_out_ll :: Ptr TensorList -> Ptr TensorList -> IO (()) _foreach_atan_out_ll _out _self = [C.throwBlock| void { (at::_foreach_atan_out( *$(std::vector* _out) , *$(std::vector* _self))); }|] _foreach_ceil_out_ll :: Ptr TensorList -> Ptr TensorList -> IO (()) _foreach_ceil_out_ll _out _self = [C.throwBlock| void { (at::_foreach_ceil_out( *$(std::vector* _out) , *$(std::vector* _self))); }|] _foreach_cos_out_ll :: Ptr TensorList -> Ptr TensorList -> IO (()) _foreach_cos_out_ll _out _self = [C.throwBlock| void { (at::_foreach_cos_out( *$(std::vector* _out) , *$(std::vector* _self))); }|] _foreach_cosh_out_ll :: Ptr TensorList -> Ptr TensorList -> IO (()) _foreach_cosh_out_ll _out _self = [C.throwBlock| void { (at::_foreach_cosh_out( *$(std::vector* _out) , *$(std::vector* _self))); }|] _foreach_erf_out_ll :: Ptr TensorList -> Ptr TensorList -> IO (()) _foreach_erf_out_ll _out _self = [C.throwBlock| void { (at::_foreach_erf_out( *$(std::vector* _out) , *$(std::vector* _self))); }|] _foreach_erfc_out_ll :: Ptr TensorList -> Ptr TensorList -> IO (()) _foreach_erfc_out_ll _out _self = [C.throwBlock| void { (at::_foreach_erfc_out( *$(std::vector* _out) , *$(std::vector* _self))); }|] _foreach_expm1_out_ll :: Ptr TensorList -> Ptr TensorList -> IO (()) _foreach_expm1_out_ll _out _self = [C.throwBlock| void { (at::_foreach_expm1_out( *$(std::vector* _out) , *$(std::vector* _self))); }|] _foreach_floor_out_ll :: Ptr TensorList -> Ptr TensorList -> IO (()) _foreach_floor_out_ll _out _self = [C.throwBlock| void { (at::_foreach_floor_out( *$(std::vector* _out) , *$(std::vector* _self))); }|] _foreach_log_out_ll :: Ptr TensorList -> Ptr TensorList -> IO (()) _foreach_log_out_ll _out _self = [C.throwBlock| void { (at::_foreach_log_out( *$(std::vector* _out) , *$(std::vector* _self))); }|] _foreach_log10_out_ll :: Ptr TensorList -> Ptr TensorList -> IO (()) _foreach_log10_out_ll _out _self = [C.throwBlock| void { (at::_foreach_log10_out( *$(std::vector* _out) , *$(std::vector* _self))); }|] _foreach_log1p_out_ll :: Ptr TensorList -> Ptr TensorList -> IO (()) _foreach_log1p_out_ll _out _self = [C.throwBlock| void { (at::_foreach_log1p_out( *$(std::vector* _out) , *$(std::vector* _self))); }|] _foreach_log2_out_ll :: Ptr TensorList -> Ptr TensorList -> IO (()) _foreach_log2_out_ll _out _self = [C.throwBlock| void { (at::_foreach_log2_out( *$(std::vector* _out) , *$(std::vector* _self))); }|] _foreach_neg_out_ll :: Ptr TensorList -> Ptr TensorList -> IO (()) _foreach_neg_out_ll _out _self = [C.throwBlock| void { (at::_foreach_neg_out( *$(std::vector* _out) , *$(std::vector* _self))); }|] _foreach_tan_out_ll :: Ptr TensorList -> Ptr TensorList -> IO (()) _foreach_tan_out_ll _out _self = [C.throwBlock| void { (at::_foreach_tan_out( *$(std::vector* _out) , *$(std::vector* _self))); }|] _foreach_tanh_out_ll :: Ptr TensorList -> Ptr TensorList -> IO (()) _foreach_tanh_out_ll _out _self = [C.throwBlock| void { (at::_foreach_tanh_out( *$(std::vector* _out) , *$(std::vector* _self))); }|] _foreach_sin_out_ll :: Ptr TensorList -> Ptr TensorList -> IO (()) _foreach_sin_out_ll _out _self = [C.throwBlock| void { (at::_foreach_sin_out( *$(std::vector* _out) , *$(std::vector* _self))); }|] _foreach_sinh_out_ll :: Ptr TensorList -> Ptr TensorList -> IO (()) _foreach_sinh_out_ll _out _self = [C.throwBlock| void { (at::_foreach_sinh_out( *$(std::vector* _out) , *$(std::vector* _self))); }|] _foreach_round_out_ll :: Ptr TensorList -> Ptr TensorList -> IO (()) _foreach_round_out_ll _out _self = [C.throwBlock| void { (at::_foreach_round_out( *$(std::vector* _out) , *$(std::vector* _self))); }|] _foreach_lgamma_out_ll :: Ptr TensorList -> Ptr TensorList -> IO (()) _foreach_lgamma_out_ll _out _self = [C.throwBlock| void { (at::_foreach_lgamma_out( *$(std::vector* _out) , *$(std::vector* _self))); }|] _foreach_frac_out_ll :: Ptr TensorList -> Ptr TensorList -> IO (()) _foreach_frac_out_ll _out _self = [C.throwBlock| void { (at::_foreach_frac_out( *$(std::vector* _out) , *$(std::vector* _self))); }|] _foreach_reciprocal_out_ll :: Ptr TensorList -> Ptr TensorList -> IO (()) _foreach_reciprocal_out_ll _out _self = [C.throwBlock| void { (at::_foreach_reciprocal_out( *$(std::vector* _out) , *$(std::vector* _self))); }|] _foreach_sigmoid_out_ll :: Ptr TensorList -> Ptr TensorList -> IO (()) _foreach_sigmoid_out_ll _out _self = [C.throwBlock| void { (at::_foreach_sigmoid_out( *$(std::vector* _out) , *$(std::vector* _self))); }|] _foreach_trunc_out_ll :: Ptr TensorList -> Ptr TensorList -> IO (()) _foreach_trunc_out_ll _out _self = [C.throwBlock| void { (at::_foreach_trunc_out( *$(std::vector* _out) , *$(std::vector* _self))); }|] _foreach_addcdiv_out_lllls :: Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr Scalar -> IO (()) _foreach_addcdiv_out_lllls _out _self _tensor1 _tensor2 _value = [C.throwBlock| void { (at::_foreach_addcdiv_out( *$(std::vector* _out) , *$(std::vector* _self) , *$(std::vector* _tensor1) , *$(std::vector* _tensor2) , *$(at::Scalar* _value))); }|] _foreach_addcdiv_out_llll :: Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> IO (()) _foreach_addcdiv_out_llll _out _self _tensor1 _tensor2 = [C.throwBlock| void { (at::_foreach_addcdiv_out( *$(std::vector* _out) , *$(std::vector* _self) , *$(std::vector* _tensor1) , *$(std::vector* _tensor2))); }|] _foreach_addcmul_out_lllls :: Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr Scalar -> IO (()) _foreach_addcmul_out_lllls _out _self _tensor1 _tensor2 _value = [C.throwBlock| void { (at::_foreach_addcmul_out( *$(std::vector* _out) , *$(std::vector* _self) , *$(std::vector* _tensor1) , *$(std::vector* _tensor2) , *$(at::Scalar* _value))); }|] _foreach_addcmul_out_llll :: Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> IO (()) _foreach_addcmul_out_llll _out _self _tensor1 _tensor2 = [C.throwBlock| void { (at::_foreach_addcmul_out( *$(std::vector* _out) , *$(std::vector* _self) , *$(std::vector* _tensor1) , *$(std::vector* _tensor2))); }|] _foreach_addcdiv_out_llllA :: Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr (StdVector Scalar) -> IO (()) _foreach_addcdiv_out_llllA _out _self _tensor1 _tensor2 _scalars = [C.throwBlock| void { (at::_foreach_addcdiv_out( *$(std::vector* _out) , *$(std::vector* _self) , *$(std::vector* _tensor1) , *$(std::vector* _tensor2) , *$(std::vector* _scalars))); }|] _foreach_addcdiv_out_llllt :: Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr Tensor -> IO (()) _foreach_addcdiv_out_llllt _out _self _tensor1 _tensor2 _scalars = [C.throwBlock| void { (at::_foreach_addcdiv_out( *$(std::vector* _out) , *$(std::vector* _self) , *$(std::vector* _tensor1) , *$(std::vector* _tensor2) , *$(at::Tensor* _scalars))); }|] _foreach_addcmul_out_llllA :: Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr (StdVector Scalar) -> IO (()) _foreach_addcmul_out_llllA _out _self _tensor1 _tensor2 _scalars = [C.throwBlock| void { (at::_foreach_addcmul_out( *$(std::vector* _out) , *$(std::vector* _self) , *$(std::vector* _tensor1) , *$(std::vector* _tensor2) , *$(std::vector* _scalars))); }|] _foreach_addcmul_out_llllt :: Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr Tensor -> IO (()) _foreach_addcmul_out_llllt _out _self _tensor1 _tensor2 _scalars = [C.throwBlock| void { (at::_foreach_addcmul_out( *$(std::vector* _out) , *$(std::vector* _self) , *$(std::vector* _tensor1) , *$(std::vector* _tensor2) , *$(at::Tensor* _scalars))); }|] _foreach_norm_out_lls :: Ptr TensorList -> Ptr TensorList -> Ptr Scalar -> IO (()) _foreach_norm_out_lls _out _self _ord = [C.throwBlock| void { (at::_foreach_norm_out( *$(std::vector* _out) , *$(std::vector* _self) , *$(at::Scalar* _ord))); }|] _foreach_norm_out_ll :: Ptr TensorList -> Ptr TensorList -> IO (()) _foreach_norm_out_ll _out _self = [C.throwBlock| void { (at::_foreach_norm_out( *$(std::vector* _out) , *$(std::vector* _self))); }|] _foreach_lerp_out_llll :: Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> IO (()) _foreach_lerp_out_llll _out _self _tensors1 _weights = [C.throwBlock| void { (at::_foreach_lerp_out( *$(std::vector* _out) , *$(std::vector* _self) , *$(std::vector* _tensors1) , *$(std::vector* _weights))); }|] _foreach_lerp_out_llls :: Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr Scalar -> IO (()) _foreach_lerp_out_llls _out _self _tensors1 _weight = [C.throwBlock| void { (at::_foreach_lerp_out( *$(std::vector* _out) , *$(std::vector* _self) , *$(std::vector* _tensors1) , *$(at::Scalar* _weight))); }|] bucketize_out_tstbb :: Ptr Tensor -> Ptr Scalar -> Ptr Tensor -> CBool -> CBool -> IO (Ptr Tensor) bucketize_out_tstbb _out _self _boundaries _out_int32 _right = [C.throwBlock| at::Tensor* { return new at::Tensor(at::bucketize_out( *$(at::Tensor* _out) , *$(at::Scalar* _self) , *$(at::Tensor* _boundaries) , $(bool _out_int32) , $(bool _right))); }|] bucketize_out_tstb :: Ptr Tensor -> Ptr Scalar -> Ptr Tensor -> CBool -> IO (Ptr Tensor) bucketize_out_tstb _out _self _boundaries _out_int32 = [C.throwBlock| at::Tensor* { return new at::Tensor(at::bucketize_out( *$(at::Tensor* _out) , *$(at::Scalar* _self) , *$(at::Tensor* _boundaries) , $(bool _out_int32))); }|] bucketize_out_tst :: Ptr Tensor -> Ptr Scalar -> Ptr Tensor -> IO (Ptr Tensor) bucketize_out_tst _out _self _boundaries = [C.throwBlock| at::Tensor* { return new at::Tensor(at::bucketize_out( *$(at::Tensor* _out) , *$(at::Scalar* _self) , *$(at::Tensor* _boundaries))); }|] searchsorted_out_ttsbbst :: Ptr Tensor -> Ptr Tensor -> Ptr Scalar -> CBool -> CBool -> Ptr StdString -> Ptr Tensor -> IO (Ptr Tensor) searchsorted_out_ttsbbst _out _sorted_sequence _self _out_int32 _right _side _sorter = [C.throwBlock| at::Tensor* { return new at::Tensor(at::searchsorted_out( *$(at::Tensor* _out) , *$(at::Tensor* _sorted_sequence) , *$(at::Scalar* _self) , $(bool _out_int32) , $(bool _right) , *$(std::string* _side) , *$(at::Tensor* _sorter))); }|] searchsorted_out_ttsbbs :: Ptr Tensor -> Ptr Tensor -> Ptr Scalar -> CBool -> CBool -> Ptr StdString -> IO (Ptr Tensor) searchsorted_out_ttsbbs _out _sorted_sequence _self _out_int32 _right _side = [C.throwBlock| at::Tensor* { return new at::Tensor(at::searchsorted_out( *$(at::Tensor* _out) , *$(at::Tensor* _sorted_sequence) , *$(at::Scalar* _self) , $(bool _out_int32) , $(bool _right) , *$(std::string* _side))); }|] searchsorted_out_ttsbb :: Ptr Tensor -> Ptr Tensor -> Ptr Scalar -> CBool -> CBool -> IO (Ptr Tensor) searchsorted_out_ttsbb _out _sorted_sequence _self _out_int32 _right = [C.throwBlock| at::Tensor* { return new at::Tensor(at::searchsorted_out( *$(at::Tensor* _out) , *$(at::Tensor* _sorted_sequence) , *$(at::Scalar* _self) , $(bool _out_int32) , $(bool _right))); }|] searchsorted_out_ttsb :: Ptr Tensor -> Ptr Tensor -> Ptr Scalar -> CBool -> IO (Ptr Tensor) searchsorted_out_ttsb _out _sorted_sequence _self _out_int32 = [C.throwBlock| at::Tensor* { return new at::Tensor(at::searchsorted_out( *$(at::Tensor* _out) , *$(at::Tensor* _sorted_sequence) , *$(at::Scalar* _self) , $(bool _out_int32))); }|] searchsorted_out_tts :: Ptr Tensor -> Ptr Tensor -> Ptr Scalar -> IO (Ptr Tensor) searchsorted_out_tts _out _sorted_sequence _self = [C.throwBlock| at::Tensor* { return new at::Tensor(at::searchsorted_out( *$(at::Tensor* _out) , *$(at::Tensor* _sorted_sequence) , *$(at::Scalar* _self))); }|] glu_jvp_out_ttttl :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Int64 -> IO (Ptr Tensor) glu_jvp_out_ttttl _out _glu _x _dx _dim = [C.throwBlock| at::Tensor* { return new at::Tensor(at::glu_jvp_out( *$(at::Tensor* _out) , *$(at::Tensor* _glu) , *$(at::Tensor* _x) , *$(at::Tensor* _dx) , $(int64_t _dim))); }|] glu_backward_jvp_out_ttttttl :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Int64 -> IO (Ptr Tensor) glu_backward_jvp_out_ttttttl _out _grad_x _grad_glu _x _dgrad_glu _dx _dim = [C.throwBlock| at::Tensor* { return new at::Tensor(at::glu_backward_jvp_out( *$(at::Tensor* _out) , *$(at::Tensor* _grad_x) , *$(at::Tensor* _grad_glu) , *$(at::Tensor* _x) , *$(at::Tensor* _dgrad_glu) , *$(at::Tensor* _dx) , $(int64_t _dim))); }|] hardswish_backward_out_ttt :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor) hardswish_backward_out_ttt _out _grad_output _self = [C.throwBlock| at::Tensor* { return new at::Tensor(at::hardswish_backward_out( *$(at::Tensor* _out) , *$(at::Tensor* _grad_output) , *$(at::Tensor* _self))); }|] rrelu_with_noise_backward_out_ttttssbb :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Scalar -> Ptr Scalar -> CBool -> CBool -> IO (Ptr Tensor) rrelu_with_noise_backward_out_ttttssbb _out _grad_output _self _noise _lower _upper _training _self_is_result = [C.throwBlock| at::Tensor* { return new at::Tensor(at::rrelu_with_noise_backward_out( *$(at::Tensor* _out) , *$(at::Tensor* _grad_output) , *$(at::Tensor* _self) , *$(at::Tensor* _noise) , *$(at::Scalar* _lower) , *$(at::Scalar* _upper) , $(bool _training) , $(bool _self_is_result))); }|] mkldnn_adaptive_avg_pool2d_backward_out_ttt :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor) mkldnn_adaptive_avg_pool2d_backward_out_ttt _out _grad_output _self = [C.throwBlock| at::Tensor* { return new at::Tensor(at::mkldnn_adaptive_avg_pool2d_backward_out( *$(at::Tensor* _out) , *$(at::Tensor* _grad_output) , *$(at::Tensor* _self))); }|] _adaptive_avg_pool2d_out_ttl :: Ptr Tensor -> Ptr Tensor -> Ptr IntArray -> IO (Ptr Tensor) _adaptive_avg_pool2d_out_ttl _out _self _output_size = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_adaptive_avg_pool2d_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , *$(std::vector* _output_size))); }|] _adaptive_avg_pool2d_backward_out_ttt :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor) _adaptive_avg_pool2d_backward_out_ttt _out _grad_output _self = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_adaptive_avg_pool2d_backward_out( *$(at::Tensor* _out) , *$(at::Tensor* _grad_output) , *$(at::Tensor* _self))); }|] _adaptive_avg_pool3d_out_ttl :: Ptr Tensor -> Ptr Tensor -> Ptr IntArray -> IO (Ptr Tensor) _adaptive_avg_pool3d_out_ttl _out _self _output_size = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_adaptive_avg_pool3d_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , *$(std::vector* _output_size))); }|] _adaptive_avg_pool3d_backward_out_ttt :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor) _adaptive_avg_pool3d_backward_out_ttt _out _grad_output _self = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_adaptive_avg_pool3d_backward_out( *$(at::Tensor* _out) , *$(at::Tensor* _grad_output) , *$(at::Tensor* _self))); }|] _slow_conv2d_backward_out_ttttttllla :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr IntArray -> Ptr IntArray -> Ptr IntArray -> Ptr (StdArray '(CBool,3)) -> IO (Ptr (StdTuple '(Tensor,Tensor,Tensor))) _slow_conv2d_backward_out_ttttttllla _out0 _out1 _out2 _grad_output _self _weight _kernel_size _stride _padding _output_mask = [C.throwBlock| std::tuple* { return new std::tuple(at::_slow_conv2d_backward_out( *$(at::Tensor* _out0) , *$(at::Tensor* _out1) , *$(at::Tensor* _out2) , *$(at::Tensor* _grad_output) , *$(at::Tensor* _self) , *$(at::Tensor* _weight) , *$(std::vector* _kernel_size) , *$(std::vector* _stride) , *$(std::vector* _padding) , *$(std::array* _output_mask))); }|] conv_depthwise3d_out_tttltlll :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr IntArray -> Ptr Tensor -> Ptr IntArray -> Ptr IntArray -> Ptr IntArray -> IO (Ptr Tensor) conv_depthwise3d_out_tttltlll _out _self _weight _kernel_size _bias _stride _padding _dilation = [C.throwBlock| at::Tensor* { return new at::Tensor(at::conv_depthwise3d_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , *$(at::Tensor* _weight) , *$(std::vector* _kernel_size) , *$(at::Tensor* _bias) , *$(std::vector* _stride) , *$(std::vector* _padding) , *$(std::vector* _dilation))); }|] slow_conv_dilated2d_out_tttltlll :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr IntArray -> Ptr Tensor -> Ptr IntArray -> Ptr IntArray -> Ptr IntArray -> IO (Ptr Tensor) slow_conv_dilated2d_out_tttltlll _out _self _weight _kernel_size _bias _stride _padding _dilation = [C.throwBlock| at::Tensor* { return new at::Tensor(at::slow_conv_dilated2d_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , *$(at::Tensor* _weight) , *$(std::vector* _kernel_size) , *$(at::Tensor* _bias) , *$(std::vector* _stride) , *$(std::vector* _padding) , *$(std::vector* _dilation))); }|] slow_conv_dilated2d_out_tttltll :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr IntArray -> Ptr Tensor -> Ptr IntArray -> Ptr IntArray -> IO (Ptr Tensor) slow_conv_dilated2d_out_tttltll _out _self _weight _kernel_size _bias _stride _padding = [C.throwBlock| at::Tensor* { return new at::Tensor(at::slow_conv_dilated2d_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , *$(at::Tensor* _weight) , *$(std::vector* _kernel_size) , *$(at::Tensor* _bias) , *$(std::vector* _stride) , *$(std::vector* _padding))); }|] slow_conv_dilated2d_out_tttltl :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr IntArray -> Ptr Tensor -> Ptr IntArray -> IO (Ptr Tensor) slow_conv_dilated2d_out_tttltl _out _self _weight _kernel_size _bias _stride = [C.throwBlock| at::Tensor* { return new at::Tensor(at::slow_conv_dilated2d_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , *$(at::Tensor* _weight) , *$(std::vector* _kernel_size) , *$(at::Tensor* _bias) , *$(std::vector* _stride))); }|] slow_conv_dilated2d_out_tttlt :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr IntArray -> Ptr Tensor -> IO (Ptr Tensor) slow_conv_dilated2d_out_tttlt _out _self _weight _kernel_size _bias = [C.throwBlock| at::Tensor* { return new at::Tensor(at::slow_conv_dilated2d_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , *$(at::Tensor* _weight) , *$(std::vector* _kernel_size) , *$(at::Tensor* _bias))); }|] slow_conv_dilated2d_out_tttl :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr IntArray -> IO (Ptr Tensor) slow_conv_dilated2d_out_tttl _out _self _weight _kernel_size = [C.throwBlock| at::Tensor* { return new at::Tensor(at::slow_conv_dilated2d_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , *$(at::Tensor* _weight) , *$(std::vector* _kernel_size))); }|] slow_conv_dilated3d_out_tttltlll :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr IntArray -> Ptr Tensor -> Ptr IntArray -> Ptr IntArray -> Ptr IntArray -> IO (Ptr Tensor) slow_conv_dilated3d_out_tttltlll _out _self _weight _kernel_size _bias _stride _padding _dilation = [C.throwBlock| at::Tensor* { return new at::Tensor(at::slow_conv_dilated3d_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , *$(at::Tensor* _weight) , *$(std::vector* _kernel_size) , *$(at::Tensor* _bias) , *$(std::vector* _stride) , *$(std::vector* _padding) , *$(std::vector* _dilation))); }|] slow_conv_dilated3d_out_tttltll :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr IntArray -> Ptr Tensor -> Ptr IntArray -> Ptr IntArray -> IO (Ptr Tensor) slow_conv_dilated3d_out_tttltll _out _self _weight _kernel_size _bias _stride _padding = [C.throwBlock| at::Tensor* { return new at::Tensor(at::slow_conv_dilated3d_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , *$(at::Tensor* _weight) , *$(std::vector* _kernel_size) , *$(at::Tensor* _bias) , *$(std::vector* _stride) , *$(std::vector* _padding))); }|] slow_conv_dilated3d_out_tttltl :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr IntArray -> Ptr Tensor -> Ptr IntArray -> IO (Ptr Tensor) slow_conv_dilated3d_out_tttltl _out _self _weight _kernel_size _bias _stride = [C.throwBlock| at::Tensor* { return new at::Tensor(at::slow_conv_dilated3d_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , *$(at::Tensor* _weight) , *$(std::vector* _kernel_size) , *$(at::Tensor* _bias) , *$(std::vector* _stride))); }|] slow_conv_dilated3d_out_tttlt :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr IntArray -> Ptr Tensor -> IO (Ptr Tensor) slow_conv_dilated3d_out_tttlt _out _self _weight _kernel_size _bias = [C.throwBlock| at::Tensor* { return new at::Tensor(at::slow_conv_dilated3d_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , *$(at::Tensor* _weight) , *$(std::vector* _kernel_size) , *$(at::Tensor* _bias))); }|] slow_conv_dilated3d_out_tttl :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr IntArray -> IO (Ptr Tensor) slow_conv_dilated3d_out_tttl _out _self _weight _kernel_size = [C.throwBlock| at::Tensor* { return new at::Tensor(at::slow_conv_dilated3d_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , *$(at::Tensor* _weight) , *$(std::vector* _kernel_size))); }|] isinf_out_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor) isinf_out_tt _out _self = [C.throwBlock| at::Tensor* { return new at::Tensor(at::isinf_out( *$(at::Tensor* _out) , *$(at::Tensor* _self))); }|] linalg_matrix_exp_out_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor) linalg_matrix_exp_out_tt _out _self = [C.throwBlock| at::Tensor* { return new at::Tensor(at::linalg_matrix_exp_out( *$(at::Tensor* _out) , *$(at::Tensor* _self))); }|] _test_optional_intlist_out_ttl :: Ptr Tensor -> Ptr Tensor -> Ptr IntArray -> IO (Ptr Tensor) _test_optional_intlist_out_ttl _out _values _addends = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_test_optional_intlist_out( *$(at::Tensor* _out) , *$(at::Tensor* _values) , *$(std::vector* _addends))); }|] _test_optional_filled_intlist_out_ttl :: Ptr Tensor -> Ptr Tensor -> Ptr IntArray -> IO (Ptr Tensor) _test_optional_filled_intlist_out_ttl _out _values _addends = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_test_optional_filled_intlist_out( *$(at::Tensor* _out) , *$(at::Tensor* _values) , *$(std::vector* _addends))); }|] _test_optional_floatlist_out_tta :: Ptr Tensor -> Ptr Tensor -> Ptr (StdVector CDouble) -> IO (Ptr Tensor) _test_optional_floatlist_out_tta _out _values _addends = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_test_optional_floatlist_out( *$(at::Tensor* _out) , *$(at::Tensor* _values) , *$(std::vector* _addends))); }|] _test_warn_in_autograd_out_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor) _test_warn_in_autograd_out_tt _out _self = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_test_warn_in_autograd_out( *$(at::Tensor* _out) , *$(at::Tensor* _self))); }|] _test_autograd_multiple_dispatch_out_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor) _test_autograd_multiple_dispatch_out_tt _out _self = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_test_autograd_multiple_dispatch_out( *$(at::Tensor* _out) , *$(at::Tensor* _self))); }|] _test_autograd_multiple_dispatch_view_copy_out_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor) _test_autograd_multiple_dispatch_view_copy_out_tt _out _self = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_test_autograd_multiple_dispatch_view_copy_out( *$(at::Tensor* _out) , *$(at::Tensor* _self))); }|] segment_reduce_out_ttstttlbs :: Ptr Tensor -> Ptr Tensor -> Ptr StdString -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Int64 -> CBool -> Ptr Scalar -> IO (Ptr Tensor) segment_reduce_out_ttstttlbs _out _data _reduce _lengths _indices _offsets _axis _unsafe _initial = [C.throwBlock| at::Tensor* { return new at::Tensor(at::segment_reduce_out( *$(at::Tensor* _out) , *$(at::Tensor* _data) , *$(std::string* _reduce) , *$(at::Tensor* _lengths) , *$(at::Tensor* _indices) , *$(at::Tensor* _offsets) , $(int64_t _axis) , $(bool _unsafe) , *$(at::Scalar* _initial))); }|] segment_reduce_out_ttstttlb :: Ptr Tensor -> Ptr Tensor -> Ptr StdString -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Int64 -> CBool -> IO (Ptr Tensor) segment_reduce_out_ttstttlb _out _data _reduce _lengths _indices _offsets _axis _unsafe = [C.throwBlock| at::Tensor* { return new at::Tensor(at::segment_reduce_out( *$(at::Tensor* _out) , *$(at::Tensor* _data) , *$(std::string* _reduce) , *$(at::Tensor* _lengths) , *$(at::Tensor* _indices) , *$(at::Tensor* _offsets) , $(int64_t _axis) , $(bool _unsafe))); }|] segment_reduce_out_ttstttl :: Ptr Tensor -> Ptr Tensor -> Ptr StdString -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Int64 -> IO (Ptr Tensor) segment_reduce_out_ttstttl _out _data _reduce _lengths _indices _offsets _axis = [C.throwBlock| at::Tensor* { return new at::Tensor(at::segment_reduce_out( *$(at::Tensor* _out) , *$(at::Tensor* _data) , *$(std::string* _reduce) , *$(at::Tensor* _lengths) , *$(at::Tensor* _indices) , *$(at::Tensor* _offsets) , $(int64_t _axis))); }|] segment_reduce_out_ttsttt :: Ptr Tensor -> Ptr Tensor -> Ptr StdString -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor) segment_reduce_out_ttsttt _out _data _reduce _lengths _indices _offsets = [C.throwBlock| at::Tensor* { return new at::Tensor(at::segment_reduce_out( *$(at::Tensor* _out) , *$(at::Tensor* _data) , *$(std::string* _reduce) , *$(at::Tensor* _lengths) , *$(at::Tensor* _indices) , *$(at::Tensor* _offsets))); }|] segment_reduce_out_ttstt :: Ptr Tensor -> Ptr Tensor -> Ptr StdString -> Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor) segment_reduce_out_ttstt _out _data _reduce _lengths _indices = [C.throwBlock| at::Tensor* { return new at::Tensor(at::segment_reduce_out( *$(at::Tensor* _out) , *$(at::Tensor* _data) , *$(std::string* _reduce) , *$(at::Tensor* _lengths) , *$(at::Tensor* _indices))); }|] segment_reduce_out_ttst :: Ptr Tensor -> Ptr Tensor -> Ptr StdString -> Ptr Tensor -> IO (Ptr Tensor) segment_reduce_out_ttst _out _data _reduce _lengths = [C.throwBlock| at::Tensor* { return new at::Tensor(at::segment_reduce_out( *$(at::Tensor* _out) , *$(at::Tensor* _data) , *$(std::string* _reduce) , *$(at::Tensor* _lengths))); }|] segment_reduce_out_tts :: Ptr Tensor -> Ptr Tensor -> Ptr StdString -> IO (Ptr Tensor) segment_reduce_out_tts _out _data _reduce = [C.throwBlock| at::Tensor* { return new at::Tensor(at::segment_reduce_out( *$(at::Tensor* _out) , *$(at::Tensor* _data) , *$(std::string* _reduce))); }|] _segment_reduce_backward_out_ttttsttls :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr StdString -> Ptr Tensor -> Ptr Tensor -> Int64 -> Ptr Scalar -> IO (Ptr Tensor) _segment_reduce_backward_out_ttttsttls _out _grad _output _data _reduce _lengths _offsets _axis _initial = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_segment_reduce_backward_out( *$(at::Tensor* _out) , *$(at::Tensor* _grad) , *$(at::Tensor* _output) , *$(at::Tensor* _data) , *$(std::string* _reduce) , *$(at::Tensor* _lengths) , *$(at::Tensor* _offsets) , $(int64_t _axis) , *$(at::Scalar* _initial))); }|] _segment_reduce_backward_out_ttttsttl :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr StdString -> Ptr Tensor -> Ptr Tensor -> Int64 -> IO (Ptr Tensor) _segment_reduce_backward_out_ttttsttl _out _grad _output _data _reduce _lengths _offsets _axis = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_segment_reduce_backward_out( *$(at::Tensor* _out) , *$(at::Tensor* _grad) , *$(at::Tensor* _output) , *$(at::Tensor* _data) , *$(std::string* _reduce) , *$(at::Tensor* _lengths) , *$(at::Tensor* _offsets) , $(int64_t _axis))); }|] _segment_reduce_backward_out_ttttstt :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr StdString -> Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor) _segment_reduce_backward_out_ttttstt _out _grad _output _data _reduce _lengths _offsets = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_segment_reduce_backward_out( *$(at::Tensor* _out) , *$(at::Tensor* _grad) , *$(at::Tensor* _output) , *$(at::Tensor* _data) , *$(std::string* _reduce) , *$(at::Tensor* _lengths) , *$(at::Tensor* _offsets))); }|] _segment_reduce_backward_out_ttttst :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr StdString -> Ptr Tensor -> IO (Ptr Tensor) _segment_reduce_backward_out_ttttst _out _grad _output _data _reduce _lengths = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_segment_reduce_backward_out( *$(at::Tensor* _out) , *$(at::Tensor* _grad) , *$(at::Tensor* _output) , *$(at::Tensor* _data) , *$(std::string* _reduce) , *$(at::Tensor* _lengths))); }|] _segment_reduce_backward_out_tttts :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr StdString -> IO (Ptr Tensor) _segment_reduce_backward_out_tttts _out _grad _output _data _reduce = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_segment_reduce_backward_out( *$(at::Tensor* _out) , *$(at::Tensor* _grad) , *$(at::Tensor* _output) , *$(at::Tensor* _data) , *$(std::string* _reduce))); }|] _nested_tensor_from_tensor_list_out_tlsLDb :: Ptr Tensor -> Ptr TensorList -> ScalarType -> Layout -> DeviceType -> CBool -> IO (Ptr Tensor) _nested_tensor_from_tensor_list_out_tlsLDb _out _list _dtype _layout _device _pin_memory = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_nested_tensor_from_tensor_list_out( *$(at::Tensor* _out) , *$(std::vector* _list) , $(at::ScalarType _dtype) , $(at::Layout _layout) , $(at::DeviceType _device) , $(bool _pin_memory))); }|] _nested_tensor_from_tensor_list_out_tlsLD :: Ptr Tensor -> Ptr TensorList -> ScalarType -> Layout -> DeviceType -> IO (Ptr Tensor) _nested_tensor_from_tensor_list_out_tlsLD _out _list _dtype _layout _device = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_nested_tensor_from_tensor_list_out( *$(at::Tensor* _out) , *$(std::vector* _list) , $(at::ScalarType _dtype) , $(at::Layout _layout) , $(at::DeviceType _device))); }|] _nested_tensor_from_tensor_list_out_tlsL :: Ptr Tensor -> Ptr TensorList -> ScalarType -> Layout -> IO (Ptr Tensor) _nested_tensor_from_tensor_list_out_tlsL _out _list _dtype _layout = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_nested_tensor_from_tensor_list_out( *$(at::Tensor* _out) , *$(std::vector* _list) , $(at::ScalarType _dtype) , $(at::Layout _layout))); }|] _nested_tensor_from_tensor_list_out_tls :: Ptr Tensor -> Ptr TensorList -> ScalarType -> IO (Ptr Tensor) _nested_tensor_from_tensor_list_out_tls _out _list _dtype = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_nested_tensor_from_tensor_list_out( *$(at::Tensor* _out) , *$(std::vector* _list) , $(at::ScalarType _dtype))); }|] _nested_tensor_from_tensor_list_out_tl :: Ptr Tensor -> Ptr TensorList -> IO (Ptr Tensor) _nested_tensor_from_tensor_list_out_tl _out _list = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_nested_tensor_from_tensor_list_out( *$(at::Tensor* _out) , *$(std::vector* _list))); }|] _fw_primal_copy_out_ttl :: Ptr Tensor -> Ptr Tensor -> Int64 -> IO (Ptr Tensor) _fw_primal_copy_out_ttl _out _self _level = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_fw_primal_copy_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , $(int64_t _level))); }|] _make_dual_copy_out_tttl :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Int64 -> IO (Ptr Tensor) _make_dual_copy_out_tttl _out _primal _tangent _level = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_make_dual_copy_out( *$(at::Tensor* _out) , *$(at::Tensor* _primal) , *$(at::Tensor* _tangent) , $(int64_t _level))); }|] view_as_real_copy_out_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor) view_as_real_copy_out_tt _out _self = [C.throwBlock| at::Tensor* { return new at::Tensor(at::view_as_real_copy_out( *$(at::Tensor* _out) , *$(at::Tensor* _self))); }|] view_as_complex_copy_out_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor) view_as_complex_copy_out_tt _out _self = [C.throwBlock| at::Tensor* { return new at::Tensor(at::view_as_complex_copy_out( *$(at::Tensor* _out) , *$(at::Tensor* _self))); }|] _conj_copy_out_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor) _conj_copy_out_tt _out _self = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_conj_copy_out( *$(at::Tensor* _out) , *$(at::Tensor* _self))); }|] _neg_view_copy_out_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor) _neg_view_copy_out_tt _out _self = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_neg_view_copy_out( *$(at::Tensor* _out) , *$(at::Tensor* _self))); }|] as_strided_copy_out_ttlll :: Ptr Tensor -> Ptr Tensor -> Ptr IntArray -> Ptr IntArray -> Int64 -> IO (Ptr Tensor) as_strided_copy_out_ttlll _out _self _size _stride _storage_offset = [C.throwBlock| at::Tensor* { return new at::Tensor(at::as_strided_copy_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , *$(std::vector* _size) , *$(std::vector* _stride) , $(int64_t _storage_offset))); }|] as_strided_copy_out_ttll :: Ptr Tensor -> Ptr Tensor -> Ptr IntArray -> Ptr IntArray -> IO (Ptr Tensor) as_strided_copy_out_ttll _out _self _size _stride = [C.throwBlock| at::Tensor* { return new at::Tensor(at::as_strided_copy_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , *$(std::vector* _size) , *$(std::vector* _stride))); }|] _sparse_broadcast_to_copy_out_ttl :: Ptr Tensor -> Ptr Tensor -> Ptr IntArray -> IO (Ptr Tensor) _sparse_broadcast_to_copy_out_ttl _out _self _size = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_sparse_broadcast_to_copy_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , *$(std::vector* _size))); }|] diagonal_copy_out_ttlll :: Ptr Tensor -> Ptr Tensor -> Int64 -> Int64 -> Int64 -> IO (Ptr Tensor) diagonal_copy_out_ttlll _out _self _offset _dim1 _dim2 = [C.throwBlock| at::Tensor* { return new at::Tensor(at::diagonal_copy_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , $(int64_t _offset) , $(int64_t _dim1) , $(int64_t _dim2))); }|] diagonal_copy_out_ttll :: Ptr Tensor -> Ptr Tensor -> Int64 -> Int64 -> IO (Ptr Tensor) diagonal_copy_out_ttll _out _self _offset _dim1 = [C.throwBlock| at::Tensor* { return new at::Tensor(at::diagonal_copy_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , $(int64_t _offset) , $(int64_t _dim1))); }|] diagonal_copy_out_ttl :: Ptr Tensor -> Ptr Tensor -> Int64 -> IO (Ptr Tensor) diagonal_copy_out_ttl _out _self _offset = [C.throwBlock| at::Tensor* { return new at::Tensor(at::diagonal_copy_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , $(int64_t _offset))); }|] diagonal_copy_out_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor) diagonal_copy_out_tt _out _self = [C.throwBlock| at::Tensor* { return new at::Tensor(at::diagonal_copy_out( *$(at::Tensor* _out) , *$(at::Tensor* _self))); }|] expand_copy_out_ttlb :: Ptr Tensor -> Ptr Tensor -> Ptr IntArray -> CBool -> IO (Ptr Tensor) expand_copy_out_ttlb _out _self _size _implicit = [C.throwBlock| at::Tensor* { return new at::Tensor(at::expand_copy_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , *$(std::vector* _size) , $(bool _implicit))); }|] expand_copy_out_ttl :: Ptr Tensor -> Ptr Tensor -> Ptr IntArray -> IO (Ptr Tensor) expand_copy_out_ttl _out _self _size = [C.throwBlock| at::Tensor* { return new at::Tensor(at::expand_copy_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , *$(std::vector* _size))); }|] permute_copy_out_ttl :: Ptr Tensor -> Ptr Tensor -> Ptr IntArray -> IO (Ptr Tensor) permute_copy_out_ttl _out _self _dims = [C.throwBlock| at::Tensor* { return new at::Tensor(at::permute_copy_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , *$(std::vector* _dims))); }|] _reshape_alias_copy_out_ttll :: Ptr Tensor -> Ptr Tensor -> Ptr IntArray -> Ptr IntArray -> IO (Ptr Tensor) _reshape_alias_copy_out_ttll _out _self _size _stride = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_reshape_alias_copy_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , *$(std::vector* _size) , *$(std::vector* _stride))); }|] select_copy_out_ttll :: Ptr Tensor -> Ptr Tensor -> Int64 -> Int64 -> IO (Ptr Tensor) select_copy_out_ttll _out _self _dim _index = [C.throwBlock| at::Tensor* { return new at::Tensor(at::select_copy_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , $(int64_t _dim) , $(int64_t _index))); }|] detach_copy_out_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor) detach_copy_out_tt _out _self = [C.throwBlock| at::Tensor* { return new at::Tensor(at::detach_copy_out( *$(at::Tensor* _out) , *$(at::Tensor* _self))); }|] slice_copy_out_ttllll :: Ptr Tensor -> Ptr Tensor -> Int64 -> Int64 -> Int64 -> Int64 -> IO (Ptr Tensor) slice_copy_out_ttllll _out _self _dim _start _end _step = [C.throwBlock| at::Tensor* { return new at::Tensor(at::slice_copy_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , $(int64_t _dim) , $(int64_t _start) , $(int64_t _end) , $(int64_t _step))); }|] slice_copy_out_ttlll :: Ptr Tensor -> Ptr Tensor -> Int64 -> Int64 -> Int64 -> IO (Ptr Tensor) slice_copy_out_ttlll _out _self _dim _start _end = [C.throwBlock| at::Tensor* { return new at::Tensor(at::slice_copy_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , $(int64_t _dim) , $(int64_t _start) , $(int64_t _end))); }|] slice_copy_out_ttll :: Ptr Tensor -> Ptr Tensor -> Int64 -> Int64 -> IO (Ptr Tensor) slice_copy_out_ttll _out _self _dim _start = [C.throwBlock| at::Tensor* { return new at::Tensor(at::slice_copy_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , $(int64_t _dim) , $(int64_t _start))); }|] slice_copy_out_ttl :: Ptr Tensor -> Ptr Tensor -> Int64 -> IO (Ptr Tensor) slice_copy_out_ttl _out _self _dim = [C.throwBlock| at::Tensor* { return new at::Tensor(at::slice_copy_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , $(int64_t _dim))); }|] slice_copy_out_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor) slice_copy_out_tt _out _self = [C.throwBlock| at::Tensor* { return new at::Tensor(at::slice_copy_out( *$(at::Tensor* _out) , *$(at::Tensor* _self))); }|] squeeze_copy_out_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor) squeeze_copy_out_tt _out _self = [C.throwBlock| at::Tensor* { return new at::Tensor(at::squeeze_copy_out( *$(at::Tensor* _out) , *$(at::Tensor* _self))); }|] squeeze_copy_out_ttl :: Ptr Tensor -> Ptr Tensor -> Int64 -> IO (Ptr Tensor) squeeze_copy_out_ttl _out _self _dim = [C.throwBlock| at::Tensor* { return new at::Tensor(at::squeeze_copy_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , $(int64_t _dim))); }|] t_copy_out_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor) t_copy_out_tt _out _self = [C.throwBlock| at::Tensor* { return new at::Tensor(at::t_copy_out( *$(at::Tensor* _out) , *$(at::Tensor* _self))); }|] transpose_copy_out_ttll :: Ptr Tensor -> Ptr Tensor -> Int64 -> Int64 -> IO (Ptr Tensor) transpose_copy_out_ttll _out _self _dim0 _dim1 = [C.throwBlock| at::Tensor* { return new at::Tensor(at::transpose_copy_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , $(int64_t _dim0) , $(int64_t _dim1))); }|] unsqueeze_copy_out_ttl :: Ptr Tensor -> Ptr Tensor -> Int64 -> IO (Ptr Tensor) unsqueeze_copy_out_ttl _out _self _dim = [C.throwBlock| at::Tensor* { return new at::Tensor(at::unsqueeze_copy_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , $(int64_t _dim))); }|] _indices_copy_out_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor) _indices_copy_out_tt _out _self = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_indices_copy_out( *$(at::Tensor* _out) , *$(at::Tensor* _self))); }|] _values_copy_out_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor) _values_copy_out_tt _out _self = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_values_copy_out( *$(at::Tensor* _out) , *$(at::Tensor* _self))); }|] indices_copy_out_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor) indices_copy_out_tt _out _self = [C.throwBlock| at::Tensor* { return new at::Tensor(at::indices_copy_out( *$(at::Tensor* _out) , *$(at::Tensor* _self))); }|] values_copy_out_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor) values_copy_out_tt _out _self = [C.throwBlock| at::Tensor* { return new at::Tensor(at::values_copy_out( *$(at::Tensor* _out) , *$(at::Tensor* _self))); }|] crow_indices_copy_out_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor) crow_indices_copy_out_tt _out _self = [C.throwBlock| at::Tensor* { return new at::Tensor(at::crow_indices_copy_out( *$(at::Tensor* _out) , *$(at::Tensor* _self))); }|] col_indices_copy_out_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor) col_indices_copy_out_tt _out _self = [C.throwBlock| at::Tensor* { return new at::Tensor(at::col_indices_copy_out( *$(at::Tensor* _out) , *$(at::Tensor* _self))); }|] ccol_indices_copy_out_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor) ccol_indices_copy_out_tt _out _self = [C.throwBlock| at::Tensor* { return new at::Tensor(at::ccol_indices_copy_out( *$(at::Tensor* _out) , *$(at::Tensor* _self))); }|] row_indices_copy_out_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor) row_indices_copy_out_tt _out _self = [C.throwBlock| at::Tensor* { return new at::Tensor(at::row_indices_copy_out( *$(at::Tensor* _out) , *$(at::Tensor* _self))); }|] view_copy_out_ttl :: Ptr Tensor -> Ptr Tensor -> Ptr IntArray -> IO (Ptr Tensor) view_copy_out_ttl _out _self _size = [C.throwBlock| at::Tensor* { return new at::Tensor(at::view_copy_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , *$(std::vector* _size))); }|] view_copy_out_tts :: Ptr Tensor -> Ptr Tensor -> ScalarType -> IO (Ptr Tensor) view_copy_out_tts _out _self _dtype = [C.throwBlock| at::Tensor* { return new at::Tensor(at::view_copy_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , $(at::ScalarType _dtype))); }|] unfold_copy_out_ttlll :: Ptr Tensor -> Ptr Tensor -> Int64 -> Int64 -> Int64 -> IO (Ptr Tensor) unfold_copy_out_ttlll _out _self _dimension _size _step = [C.throwBlock| at::Tensor* { return new at::Tensor(at::unfold_copy_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , $(int64_t _dimension) , $(int64_t _size) , $(int64_t _step))); }|] alias_copy_out_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor) alias_copy_out_tt _out _self = [C.throwBlock| at::Tensor* { return new at::Tensor(at::alias_copy_out( *$(at::Tensor* _out) , *$(at::Tensor* _self))); }|] to_padded_tensor_out_ttdl :: Ptr Tensor -> Ptr Tensor -> CDouble -> Ptr IntArray -> IO (Ptr Tensor) to_padded_tensor_out_ttdl _out _self _padding _output_size = [C.throwBlock| at::Tensor* { return new at::Tensor(at::to_padded_tensor_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , $(double _padding) , *$(std::vector* _output_size))); }|] to_padded_tensor_out_ttd :: Ptr Tensor -> Ptr Tensor -> CDouble -> IO (Ptr Tensor) to_padded_tensor_out_ttd _out _self _padding = [C.throwBlock| at::Tensor* { return new at::Tensor(at::to_padded_tensor_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , $(double _padding))); }|] _transformer_encoder_layer_fwd_out_ttllttttbbdtttttttttl :: Ptr Tensor -> Ptr Tensor -> Int64 -> Int64 -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> CBool -> CBool -> CDouble -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Int64 -> IO (Ptr Tensor) _transformer_encoder_layer_fwd_out_ttllttttbbdtttttttttl _out _src _embed_dim _num_heads _qkv_weight _qkv_bias _proj_weight _proj_bias _use_gelu _norm_first _eps _norm_weight_1 _norm_bias_1 _norm_weight_2 _norm_bias_2 _ffn_weight_1 _ffn_bias_1 _ffn_weight_2 _ffn_bias_2 _mask _mask_type = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_transformer_encoder_layer_fwd_out( *$(at::Tensor* _out) , *$(at::Tensor* _src) , $(int64_t _embed_dim) , $(int64_t _num_heads) , *$(at::Tensor* _qkv_weight) , *$(at::Tensor* _qkv_bias) , *$(at::Tensor* _proj_weight) , *$(at::Tensor* _proj_bias) , $(bool _use_gelu) , $(bool _norm_first) , $(double _eps) , *$(at::Tensor* _norm_weight_1) , *$(at::Tensor* _norm_bias_1) , *$(at::Tensor* _norm_weight_2) , *$(at::Tensor* _norm_bias_2) , *$(at::Tensor* _ffn_weight_1) , *$(at::Tensor* _ffn_bias_1) , *$(at::Tensor* _ffn_weight_2) , *$(at::Tensor* _ffn_bias_2) , *$(at::Tensor* _mask) , $(int64_t _mask_type))); }|] _transformer_encoder_layer_fwd_out_ttllttttbbdttttttttt :: Ptr Tensor -> Ptr Tensor -> Int64 -> Int64 -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> CBool -> CBool -> CDouble -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor) _transformer_encoder_layer_fwd_out_ttllttttbbdttttttttt _out _src _embed_dim _num_heads _qkv_weight _qkv_bias _proj_weight _proj_bias _use_gelu _norm_first _eps _norm_weight_1 _norm_bias_1 _norm_weight_2 _norm_bias_2 _ffn_weight_1 _ffn_bias_1 _ffn_weight_2 _ffn_bias_2 _mask = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_transformer_encoder_layer_fwd_out( *$(at::Tensor* _out) , *$(at::Tensor* _src) , $(int64_t _embed_dim) , $(int64_t _num_heads) , *$(at::Tensor* _qkv_weight) , *$(at::Tensor* _qkv_bias) , *$(at::Tensor* _proj_weight) , *$(at::Tensor* _proj_bias) , $(bool _use_gelu) , $(bool _norm_first) , $(double _eps) , *$(at::Tensor* _norm_weight_1) , *$(at::Tensor* _norm_bias_1) , *$(at::Tensor* _norm_weight_2) , *$(at::Tensor* _norm_bias_2) , *$(at::Tensor* _ffn_weight_1) , *$(at::Tensor* _ffn_bias_1) , *$(at::Tensor* _ffn_weight_2) , *$(at::Tensor* _ffn_bias_2) , *$(at::Tensor* _mask))); }|] _transformer_encoder_layer_fwd_out_ttllttttbbdtttttttt :: Ptr Tensor -> Ptr Tensor -> Int64 -> Int64 -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> CBool -> CBool -> CDouble -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor) _transformer_encoder_layer_fwd_out_ttllttttbbdtttttttt _out _src _embed_dim _num_heads _qkv_weight _qkv_bias _proj_weight _proj_bias _use_gelu _norm_first _eps _norm_weight_1 _norm_bias_1 _norm_weight_2 _norm_bias_2 _ffn_weight_1 _ffn_bias_1 _ffn_weight_2 _ffn_bias_2 = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_transformer_encoder_layer_fwd_out( *$(at::Tensor* _out) , *$(at::Tensor* _src) , $(int64_t _embed_dim) , $(int64_t _num_heads) , *$(at::Tensor* _qkv_weight) , *$(at::Tensor* _qkv_bias) , *$(at::Tensor* _proj_weight) , *$(at::Tensor* _proj_bias) , $(bool _use_gelu) , $(bool _norm_first) , $(double _eps) , *$(at::Tensor* _norm_weight_1) , *$(at::Tensor* _norm_bias_1) , *$(at::Tensor* _norm_weight_2) , *$(at::Tensor* _norm_bias_2) , *$(at::Tensor* _ffn_weight_1) , *$(at::Tensor* _ffn_bias_1) , *$(at::Tensor* _ffn_weight_2) , *$(at::Tensor* _ffn_bias_2))); }|] _native_multi_head_attention_out_tttttlltttttbbl :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Int64 -> Int64 -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> CBool -> CBool -> Int64 -> IO (Ptr (StdTuple '(Tensor,Tensor))) _native_multi_head_attention_out_tttttlltttttbbl _out0 _out1 _query _key _value _embed_dim _num_head _qkv_weight _qkv_bias _proj_weight _proj_bias _mask _need_weights _average_attn_weights _mask_type = [C.throwBlock| std::tuple* { return new std::tuple(at::_native_multi_head_attention_out( *$(at::Tensor* _out0) , *$(at::Tensor* _out1) , *$(at::Tensor* _query) , *$(at::Tensor* _key) , *$(at::Tensor* _value) , $(int64_t _embed_dim) , $(int64_t _num_head) , *$(at::Tensor* _qkv_weight) , *$(at::Tensor* _qkv_bias) , *$(at::Tensor* _proj_weight) , *$(at::Tensor* _proj_bias) , *$(at::Tensor* _mask) , $(bool _need_weights) , $(bool _average_attn_weights) , $(int64_t _mask_type))); }|] _native_multi_head_attention_out_tttttlltttttbb :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Int64 -> Int64 -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> CBool -> CBool -> IO (Ptr (StdTuple '(Tensor,Tensor))) _native_multi_head_attention_out_tttttlltttttbb _out0 _out1 _query _key _value _embed_dim _num_head _qkv_weight _qkv_bias _proj_weight _proj_bias _mask _need_weights _average_attn_weights = [C.throwBlock| std::tuple* { return new std::tuple(at::_native_multi_head_attention_out( *$(at::Tensor* _out0) , *$(at::Tensor* _out1) , *$(at::Tensor* _query) , *$(at::Tensor* _key) , *$(at::Tensor* _value) , $(int64_t _embed_dim) , $(int64_t _num_head) , *$(at::Tensor* _qkv_weight) , *$(at::Tensor* _qkv_bias) , *$(at::Tensor* _proj_weight) , *$(at::Tensor* _proj_bias) , *$(at::Tensor* _mask) , $(bool _need_weights) , $(bool _average_attn_weights))); }|] _native_multi_head_attention_out_tttttlltttttb :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Int64 -> Int64 -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> CBool -> IO (Ptr (StdTuple '(Tensor,Tensor))) _native_multi_head_attention_out_tttttlltttttb _out0 _out1 _query _key _value _embed_dim _num_head _qkv_weight _qkv_bias _proj_weight _proj_bias _mask _need_weights = [C.throwBlock| std::tuple* { return new std::tuple(at::_native_multi_head_attention_out( *$(at::Tensor* _out0) , *$(at::Tensor* _out1) , *$(at::Tensor* _query) , *$(at::Tensor* _key) , *$(at::Tensor* _value) , $(int64_t _embed_dim) , $(int64_t _num_head) , *$(at::Tensor* _qkv_weight) , *$(at::Tensor* _qkv_bias) , *$(at::Tensor* _proj_weight) , *$(at::Tensor* _proj_bias) , *$(at::Tensor* _mask) , $(bool _need_weights))); }|] _native_multi_head_attention_out_tttttllttttt :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Int64 -> Int64 -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> IO (Ptr (StdTuple '(Tensor,Tensor))) _native_multi_head_attention_out_tttttllttttt _out0 _out1 _query _key _value _embed_dim _num_head _qkv_weight _qkv_bias _proj_weight _proj_bias _mask = [C.throwBlock| std::tuple* { return new std::tuple(at::_native_multi_head_attention_out( *$(at::Tensor* _out0) , *$(at::Tensor* _out1) , *$(at::Tensor* _query) , *$(at::Tensor* _key) , *$(at::Tensor* _value) , $(int64_t _embed_dim) , $(int64_t _num_head) , *$(at::Tensor* _qkv_weight) , *$(at::Tensor* _qkv_bias) , *$(at::Tensor* _proj_weight) , *$(at::Tensor* _proj_bias) , *$(at::Tensor* _mask))); }|] _native_multi_head_attention_out_tttttlltttt :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Int64 -> Int64 -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> IO (Ptr (StdTuple '(Tensor,Tensor))) _native_multi_head_attention_out_tttttlltttt _out0 _out1 _query _key _value _embed_dim _num_head _qkv_weight _qkv_bias _proj_weight _proj_bias = [C.throwBlock| std::tuple* { return new std::tuple(at::_native_multi_head_attention_out( *$(at::Tensor* _out0) , *$(at::Tensor* _out1) , *$(at::Tensor* _query) , *$(at::Tensor* _key) , *$(at::Tensor* _value) , $(int64_t _embed_dim) , $(int64_t _num_head) , *$(at::Tensor* _qkv_weight) , *$(at::Tensor* _qkv_bias) , *$(at::Tensor* _proj_weight) , *$(at::Tensor* _proj_bias))); }|] _triton_scaled_dot_attention_out_ttttd :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> CDouble -> IO (Ptr Tensor) _triton_scaled_dot_attention_out_ttttd _out _q _k _v _dropout_p = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_triton_scaled_dot_attention_out( *$(at::Tensor* _out) , *$(at::Tensor* _q) , *$(at::Tensor* _k) , *$(at::Tensor* _v) , $(double _dropout_p))); }|] _triton_scaled_dot_attention_out_tttt :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor) _triton_scaled_dot_attention_out_tttt _out _q _k _v = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_triton_scaled_dot_attention_out( *$(at::Tensor* _out) , *$(at::Tensor* _q) , *$(at::Tensor* _k) , *$(at::Tensor* _v))); }|] _triton_multi_head_attention_out_ttttllttttt :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Int64 -> Int64 -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor) _triton_multi_head_attention_out_ttttllttttt _out _query _key _value _embed_dim _num_head _qkv_weight _qkv_bias _proj_weight _proj_bias _mask = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_triton_multi_head_attention_out( *$(at::Tensor* _out) , *$(at::Tensor* _query) , *$(at::Tensor* _key) , *$(at::Tensor* _value) , $(int64_t _embed_dim) , $(int64_t _num_head) , *$(at::Tensor* _qkv_weight) , *$(at::Tensor* _qkv_bias) , *$(at::Tensor* _proj_weight) , *$(at::Tensor* _proj_bias) , *$(at::Tensor* _mask))); }|] _triton_multi_head_attention_out_ttttlltttt :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Int64 -> Int64 -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor) _triton_multi_head_attention_out_ttttlltttt _out _query _key _value _embed_dim _num_head _qkv_weight _qkv_bias _proj_weight _proj_bias = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_triton_multi_head_attention_out( *$(at::Tensor* _out) , *$(at::Tensor* _query) , *$(at::Tensor* _key) , *$(at::Tensor* _value) , $(int64_t _embed_dim) , $(int64_t _num_head) , *$(at::Tensor* _qkv_weight) , *$(at::Tensor* _qkv_bias) , *$(at::Tensor* _proj_weight) , *$(at::Tensor* _proj_bias))); }|] _foobar_out_ttbbb :: Ptr Tensor -> Ptr Tensor -> CBool -> CBool -> CBool -> IO (Ptr Tensor) _foobar_out_ttbbb _out _self _arg1 _arg2 _arg3 = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_foobar_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , $(bool _arg1) , $(bool _arg2) , $(bool _arg3))); }|] _foobar_out_ttbb :: Ptr Tensor -> Ptr Tensor -> CBool -> CBool -> IO (Ptr Tensor) _foobar_out_ttbb _out _self _arg1 _arg2 = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_foobar_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , $(bool _arg1) , $(bool _arg2))); }|] _foobar_out_ttb :: Ptr Tensor -> Ptr Tensor -> CBool -> IO (Ptr Tensor) _foobar_out_ttb _out _self _arg1 = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_foobar_out( *$(at::Tensor* _out) , *$(at::Tensor* _self) , $(bool _arg1))); }|] _foobar_out_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor) _foobar_out_tt _out _self = [C.throwBlock| at::Tensor* { return new at::Tensor(at::_foobar_out( *$(at::Tensor* _out) , *$(at::Tensor* _self))); }|] _fused_adam_out_llllllldddddbbtt :: Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> CDouble -> CDouble -> CDouble -> CDouble -> CDouble -> CBool -> CBool -> Ptr Tensor -> Ptr Tensor -> IO (()) _fused_adam_out_llllllldddddbbtt _out _self _grads _exp_avgs _exp_avg_sqs _max_exp_avg_sqs _state_steps _lr _beta1 _beta2 _weight_decay _eps _amsgrad _maximize _grad_scale _found_inf = [C.throwBlock| void { (at::_fused_adam_out( *$(std::vector* _out) , *$(std::vector* _self) , *$(std::vector* _grads) , *$(std::vector* _exp_avgs) , *$(std::vector* _exp_avg_sqs) , *$(std::vector* _max_exp_avg_sqs) , *$(std::vector* _state_steps) , $(double _lr) , $(double _beta1) , $(double _beta2) , $(double _weight_decay) , $(double _eps) , $(bool _amsgrad) , $(bool _maximize) , *$(at::Tensor* _grad_scale) , *$(at::Tensor* _found_inf))); }|] _fused_adam_out_llllllldddddbbt :: Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> CDouble -> CDouble -> CDouble -> CDouble -> CDouble -> CBool -> CBool -> Ptr Tensor -> IO (()) _fused_adam_out_llllllldddddbbt _out _self _grads _exp_avgs _exp_avg_sqs _max_exp_avg_sqs _state_steps _lr _beta1 _beta2 _weight_decay _eps _amsgrad _maximize _grad_scale = [C.throwBlock| void { (at::_fused_adam_out( *$(std::vector* _out) , *$(std::vector* _self) , *$(std::vector* _grads) , *$(std::vector* _exp_avgs) , *$(std::vector* _exp_avg_sqs) , *$(std::vector* _max_exp_avg_sqs) , *$(std::vector* _state_steps) , $(double _lr) , $(double _beta1) , $(double _beta2) , $(double _weight_decay) , $(double _eps) , $(bool _amsgrad) , $(bool _maximize) , *$(at::Tensor* _grad_scale))); }|] _fused_adam_out_llllllldddddbb :: Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> CDouble -> CDouble -> CDouble -> CDouble -> CDouble -> CBool -> CBool -> IO (()) _fused_adam_out_llllllldddddbb _out _self _grads _exp_avgs _exp_avg_sqs _max_exp_avg_sqs _state_steps _lr _beta1 _beta2 _weight_decay _eps _amsgrad _maximize = [C.throwBlock| void { (at::_fused_adam_out( *$(std::vector* _out) , *$(std::vector* _self) , *$(std::vector* _grads) , *$(std::vector* _exp_avgs) , *$(std::vector* _exp_avg_sqs) , *$(std::vector* _max_exp_avg_sqs) , *$(std::vector* _state_steps) , $(double _lr) , $(double _beta1) , $(double _beta2) , $(double _weight_decay) , $(double _eps) , $(bool _amsgrad) , $(bool _maximize))); }|] _fused_adam_lllllldddddbbtt :: Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> CDouble -> CDouble -> CDouble -> CDouble -> CDouble -> CBool -> CBool -> Ptr Tensor -> Ptr Tensor -> IO (Ptr (StdTuple '(TensorList,TensorList,TensorList,TensorList,TensorList))) _fused_adam_lllllldddddbbtt _self _grads _exp_avgs _exp_avg_sqs _max_exp_avg_sqs _state_steps _lr _beta1 _beta2 _weight_decay _eps _amsgrad _maximize _grad_scale _found_inf = [C.throwBlock| std::tuple,std::vector,std::vector,std::vector,std::vector>* { return new std::tuple,std::vector,std::vector,std::vector,std::vector>(at::_fused_adam( *$(std::vector* _self) , *$(std::vector* _grads) , *$(std::vector* _exp_avgs) , *$(std::vector* _exp_avg_sqs) , *$(std::vector* _max_exp_avg_sqs) , *$(std::vector* _state_steps) , $(double _lr) , $(double _beta1) , $(double _beta2) , $(double _weight_decay) , $(double _eps) , $(bool _amsgrad) , $(bool _maximize) , *$(at::Tensor* _grad_scale) , *$(at::Tensor* _found_inf))); }|] _fused_adam_lllllldddddbbt :: Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> CDouble -> CDouble -> CDouble -> CDouble -> CDouble -> CBool -> CBool -> Ptr Tensor -> IO (Ptr (StdTuple '(TensorList,TensorList,TensorList,TensorList,TensorList))) _fused_adam_lllllldddddbbt _self _grads _exp_avgs _exp_avg_sqs _max_exp_avg_sqs _state_steps _lr _beta1 _beta2 _weight_decay _eps _amsgrad _maximize _grad_scale = [C.throwBlock| std::tuple,std::vector,std::vector,std::vector,std::vector>* { return new std::tuple,std::vector,std::vector,std::vector,std::vector>(at::_fused_adam( *$(std::vector* _self) , *$(std::vector* _grads) , *$(std::vector* _exp_avgs) , *$(std::vector* _exp_avg_sqs) , *$(std::vector* _max_exp_avg_sqs) , *$(std::vector* _state_steps) , $(double _lr) , $(double _beta1) , $(double _beta2) , $(double _weight_decay) , $(double _eps) , $(bool _amsgrad) , $(bool _maximize) , *$(at::Tensor* _grad_scale))); }|] _fused_adam_lllllldddddbb :: Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> CDouble -> CDouble -> CDouble -> CDouble -> CDouble -> CBool -> CBool -> IO (Ptr (StdTuple '(TensorList,TensorList,TensorList,TensorList,TensorList))) _fused_adam_lllllldddddbb _self _grads _exp_avgs _exp_avg_sqs _max_exp_avg_sqs _state_steps _lr _beta1 _beta2 _weight_decay _eps _amsgrad _maximize = [C.throwBlock| std::tuple,std::vector,std::vector,std::vector,std::vector>* { return new std::tuple,std::vector,std::vector,std::vector,std::vector>(at::_fused_adam( *$(std::vector* _self) , *$(std::vector* _grads) , *$(std::vector* _exp_avgs) , *$(std::vector* _exp_avg_sqs) , *$(std::vector* _max_exp_avg_sqs) , *$(std::vector* _state_steps) , $(double _lr) , $(double _beta1) , $(double _beta2) , $(double _weight_decay) , $(double _eps) , $(bool _amsgrad) , $(bool _maximize))); }|] _fused_adamw_out_llllllldddddbbtt :: Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> CDouble -> CDouble -> CDouble -> CDouble -> CDouble -> CBool -> CBool -> Ptr Tensor -> Ptr Tensor -> IO (()) _fused_adamw_out_llllllldddddbbtt _out _self _grads _exp_avgs _exp_avg_sqs _max_exp_avg_sqs _state_steps _lr _beta1 _beta2 _weight_decay _eps _amsgrad _maximize _grad_scale _found_inf = [C.throwBlock| void { (at::_fused_adamw_out( *$(std::vector* _out) , *$(std::vector* _self) , *$(std::vector* _grads) , *$(std::vector* _exp_avgs) , *$(std::vector* _exp_avg_sqs) , *$(std::vector* _max_exp_avg_sqs) , *$(std::vector* _state_steps) , $(double _lr) , $(double _beta1) , $(double _beta2) , $(double _weight_decay) , $(double _eps) , $(bool _amsgrad) , $(bool _maximize) , *$(at::Tensor* _grad_scale) , *$(at::Tensor* _found_inf))); }|] _fused_adamw_out_llllllldddddbbt :: Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> CDouble -> CDouble -> CDouble -> CDouble -> CDouble -> CBool -> CBool -> Ptr Tensor -> IO (()) _fused_adamw_out_llllllldddddbbt _out _self _grads _exp_avgs _exp_avg_sqs _max_exp_avg_sqs _state_steps _lr _beta1 _beta2 _weight_decay _eps _amsgrad _maximize _grad_scale = [C.throwBlock| void { (at::_fused_adamw_out( *$(std::vector* _out) , *$(std::vector* _self) , *$(std::vector* _grads) , *$(std::vector* _exp_avgs) , *$(std::vector* _exp_avg_sqs) , *$(std::vector* _max_exp_avg_sqs) , *$(std::vector* _state_steps) , $(double _lr) , $(double _beta1) , $(double _beta2) , $(double _weight_decay) , $(double _eps) , $(bool _amsgrad) , $(bool _maximize) , *$(at::Tensor* _grad_scale))); }|] _fused_adamw_out_llllllldddddbb :: Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> CDouble -> CDouble -> CDouble -> CDouble -> CDouble -> CBool -> CBool -> IO (()) _fused_adamw_out_llllllldddddbb _out _self _grads _exp_avgs _exp_avg_sqs _max_exp_avg_sqs _state_steps _lr _beta1 _beta2 _weight_decay _eps _amsgrad _maximize = [C.throwBlock| void { (at::_fused_adamw_out( *$(std::vector* _out) , *$(std::vector* _self) , *$(std::vector* _grads) , *$(std::vector* _exp_avgs) , *$(std::vector* _exp_avg_sqs) , *$(std::vector* _max_exp_avg_sqs) , *$(std::vector* _state_steps) , $(double _lr) , $(double _beta1) , $(double _beta2) , $(double _weight_decay) , $(double _eps) , $(bool _amsgrad) , $(bool _maximize))); }|] _fused_adamw_lllllldddddbbtt :: Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> CDouble -> CDouble -> CDouble -> CDouble -> CDouble -> CBool -> CBool -> Ptr Tensor -> Ptr Tensor -> IO (Ptr (StdTuple '(TensorList,TensorList,TensorList,TensorList,TensorList))) _fused_adamw_lllllldddddbbtt _self _grads _exp_avgs _exp_avg_sqs _max_exp_avg_sqs _state_steps _lr _beta1 _beta2 _weight_decay _eps _amsgrad _maximize _grad_scale _found_inf = [C.throwBlock| std::tuple,std::vector,std::vector,std::vector,std::vector>* { return new std::tuple,std::vector,std::vector,std::vector,std::vector>(at::_fused_adamw( *$(std::vector* _self) , *$(std::vector* _grads) , *$(std::vector* _exp_avgs) , *$(std::vector* _exp_avg_sqs) , *$(std::vector* _max_exp_avg_sqs) , *$(std::vector* _state_steps) , $(double _lr) , $(double _beta1) , $(double _beta2) , $(double _weight_decay) , $(double _eps) , $(bool _amsgrad) , $(bool _maximize) , *$(at::Tensor* _grad_scale) , *$(at::Tensor* _found_inf))); }|] _fused_adamw_lllllldddddbbt :: Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> CDouble -> CDouble -> CDouble -> CDouble -> CDouble -> CBool -> CBool -> Ptr Tensor -> IO (Ptr (StdTuple '(TensorList,TensorList,TensorList,TensorList,TensorList))) _fused_adamw_lllllldddddbbt _self _grads _exp_avgs _exp_avg_sqs _max_exp_avg_sqs _state_steps _lr _beta1 _beta2 _weight_decay _eps _amsgrad _maximize _grad_scale = [C.throwBlock| std::tuple,std::vector,std::vector,std::vector,std::vector>* { return new std::tuple,std::vector,std::vector,std::vector,std::vector>(at::_fused_adamw( *$(std::vector* _self) , *$(std::vector* _grads) , *$(std::vector* _exp_avgs) , *$(std::vector* _exp_avg_sqs) , *$(std::vector* _max_exp_avg_sqs) , *$(std::vector* _state_steps) , $(double _lr) , $(double _beta1) , $(double _beta2) , $(double _weight_decay) , $(double _eps) , $(bool _amsgrad) , $(bool _maximize) , *$(at::Tensor* _grad_scale))); }|] _fused_adamw_lllllldddddbb :: Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> Ptr TensorList -> CDouble -> CDouble -> CDouble -> CDouble -> CDouble -> CBool -> CBool -> IO (Ptr (StdTuple '(TensorList,TensorList,TensorList,TensorList,TensorList))) _fused_adamw_lllllldddddbb _self _grads _exp_avgs _exp_avg_sqs _max_exp_avg_sqs _state_steps _lr _beta1 _beta2 _weight_decay _eps _amsgrad _maximize = [C.throwBlock| std::tuple,std::vector,std::vector,std::vector,std::vector>* { return new std::tuple,std::vector,std::vector,std::vector,std::vector>(at::_fused_adamw( *$(std::vector* _self) , *$(std::vector* _grads) , *$(std::vector* _exp_avgs) , *$(std::vector* _exp_avg_sqs) , *$(std::vector* _max_exp_avg_sqs) , *$(std::vector* _state_steps) , $(double _lr) , $(double _beta1) , $(double _beta2) , $(double _weight_decay) , $(double _eps) , $(bool _amsgrad) , $(bool _maximize))); }|]