{-# LANGUAGE DataKinds #-}
{-# LANGUAGE PolyKinds #-}
{-# LANGUAGE TemplateHaskell #-}
{-# LANGUAGE QuasiQuotes #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE OverloadedStrings #-}
module Torch.Internal.Unmanaged.Native.Native3 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 "<vector>"
C.include "<ATen/Tensor.h>"
C.include "<ATen/Functions.h>"
xlogy_ts
:: Ptr Tensor
-> Ptr Scalar
-> IO (Ptr Tensor)
xlogy_ts :: Ptr Tensor -> Ptr Scalar -> IO (Ptr Tensor)
xlogy_ts Ptr Tensor
_self Ptr Scalar
_other =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::xlogy(
*$(at::Tensor* _self)
, *$(at::Scalar* _other)));
}|]
xlogy__tt
:: Ptr Tensor
-> Ptr Tensor
-> IO (Ptr Tensor)
xlogy__tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor)
xlogy__tt Ptr Tensor
_self Ptr Tensor
_other =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::xlogy_(
*$(at::Tensor* _self)
, *$(at::Tensor* _other)));
}|]
xlogy__ts
:: Ptr Tensor
-> Ptr Scalar
-> IO (Ptr Tensor)
xlogy__ts :: Ptr Tensor -> Ptr Scalar -> IO (Ptr Tensor)
xlogy__ts Ptr Tensor
_self Ptr Scalar
_other =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::xlogy_(
*$(at::Tensor* _self)
, *$(at::Scalar* _other)));
}|]
xlogy_out_ttt
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> IO (Ptr Tensor)
xlogy_out_ttt :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor)
xlogy_out_ttt Ptr Tensor
_out Ptr Tensor
_self Ptr Tensor
_other =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::xlogy_out(
*$(at::Tensor* _out)
, *$(at::Tensor* _self)
, *$(at::Tensor* _other)));
}|]
xlogy_out_tst
:: Ptr Tensor
-> Ptr Scalar
-> Ptr Tensor
-> IO (Ptr Tensor)
xlogy_out_tst :: Ptr Tensor -> Ptr Scalar -> Ptr Tensor -> IO (Ptr Tensor)
xlogy_out_tst Ptr Tensor
_out Ptr Scalar
_self Ptr Tensor
_other =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::xlogy_out(
*$(at::Tensor* _out)
, *$(at::Scalar* _self)
, *$(at::Tensor* _other)));
}|]
xlogy_out_tts
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Scalar
-> IO (Ptr Tensor)
xlogy_out_tts :: Ptr Tensor -> Ptr Tensor -> Ptr Scalar -> IO (Ptr Tensor)
xlogy_out_tts Ptr Tensor
_out Ptr Tensor
_self Ptr Scalar
_other =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::xlogy_out(
*$(at::Tensor* _out)
, *$(at::Tensor* _self)
, *$(at::Scalar* _other)));
}|]
logspace_ssldo
:: Ptr Scalar
-> Ptr Scalar
-> Int64
-> CDouble
-> Ptr TensorOptions
-> IO (Ptr Tensor)
logspace_ssldo :: Ptr Scalar
-> Ptr Scalar
-> Int64
-> CDouble
-> Ptr TensorOptions
-> IO (Ptr Tensor)
logspace_ssldo Ptr Scalar
_start Ptr Scalar
_end Int64
_steps CDouble
_base Ptr TensorOptions
_options =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::logspace(
*$(at::Scalar* _start)
, *$(at::Scalar* _end)
, $(int64_t _steps)
, $(double _base)
, *$(at::TensorOptions* _options)));
}|]
logspace_ssld
:: Ptr Scalar
-> Ptr Scalar
-> Int64
-> CDouble
-> IO (Ptr Tensor)
logspace_ssld :: Ptr Scalar -> Ptr Scalar -> Int64 -> CDouble -> IO (Ptr Tensor)
logspace_ssld Ptr Scalar
_start Ptr Scalar
_end Int64
_steps CDouble
_base =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::logspace(
*$(at::Scalar* _start)
, *$(at::Scalar* _end)
, $(int64_t _steps)
, $(double _base)));
}|]
logspace_ssl
:: Ptr Scalar
-> Ptr Scalar
-> Int64
-> IO (Ptr Tensor)
logspace_ssl :: Ptr Scalar -> Ptr Scalar -> Int64 -> IO (Ptr Tensor)
logspace_ssl Ptr Scalar
_start Ptr Scalar
_end Int64
_steps =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::logspace(
*$(at::Scalar* _start)
, *$(at::Scalar* _end)
, $(int64_t _steps)));
}|]
logspace_out_tssld
:: Ptr Tensor
-> Ptr Scalar
-> Ptr Scalar
-> Int64
-> CDouble
-> IO (Ptr Tensor)
logspace_out_tssld :: Ptr Tensor
-> Ptr Scalar -> Ptr Scalar -> Int64 -> CDouble -> IO (Ptr Tensor)
logspace_out_tssld Ptr Tensor
_out Ptr Scalar
_start Ptr Scalar
_end Int64
_steps CDouble
_base =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::logspace_out(
*$(at::Tensor* _out)
, *$(at::Scalar* _start)
, *$(at::Scalar* _end)
, $(int64_t _steps)
, $(double _base)));
}|]
logspace_out_tssl
:: Ptr Tensor
-> Ptr Scalar
-> Ptr Scalar
-> Int64
-> IO (Ptr Tensor)
logspace_out_tssl :: Ptr Tensor -> Ptr Scalar -> Ptr Scalar -> Int64 -> IO (Ptr Tensor)
logspace_out_tssl Ptr Tensor
_out Ptr Scalar
_start Ptr Scalar
_end Int64
_steps =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::logspace_out(
*$(at::Tensor* _out)
, *$(at::Scalar* _start)
, *$(at::Scalar* _end)
, $(int64_t _steps)));
}|]
log_softmax_tls
:: Ptr Tensor
-> Int64
-> ScalarType
-> IO (Ptr Tensor)
log_softmax_tls :: Ptr Tensor -> Int64 -> ScalarType -> IO (Ptr Tensor)
log_softmax_tls Ptr Tensor
_self Int64
_dim ScalarType
_dtype =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::log_softmax(
*$(at::Tensor* _self)
, $(int64_t _dim)
, $(at::ScalarType _dtype)));
}|]
log_softmax_tl
:: Ptr Tensor
-> Int64
-> IO (Ptr Tensor)
log_softmax_tl :: Ptr Tensor -> Int64 -> IO (Ptr Tensor)
log_softmax_tl Ptr Tensor
_self Int64
_dim =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::log_softmax(
*$(at::Tensor* _self)
, $(int64_t _dim)));
}|]
log_softmax_out_ttls
:: Ptr Tensor
-> Ptr Tensor
-> Int64
-> ScalarType
-> IO (Ptr Tensor)
log_softmax_out_ttls :: Ptr Tensor -> Ptr Tensor -> Int64 -> ScalarType -> IO (Ptr Tensor)
log_softmax_out_ttls Ptr Tensor
_out Ptr Tensor
_self Int64
_dim ScalarType
_dtype =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::log_softmax_out(
*$(at::Tensor* _out)
, *$(at::Tensor* _self)
, $(int64_t _dim)
, $(at::ScalarType _dtype)));
}|]
log_softmax_out_ttl
:: Ptr Tensor
-> Ptr Tensor
-> Int64
-> IO (Ptr Tensor)
log_softmax_out_ttl :: Ptr Tensor -> Ptr Tensor -> Int64 -> IO (Ptr Tensor)
log_softmax_out_ttl Ptr Tensor
_out Ptr Tensor
_self Int64
_dim =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::log_softmax_out(
*$(at::Tensor* _out)
, *$(at::Tensor* _self)
, $(int64_t _dim)));
}|]
log_softmax_tns
:: Ptr Tensor
-> Ptr Dimname
-> ScalarType
-> IO (Ptr Tensor)
log_softmax_tns :: Ptr Tensor -> Ptr Dimname -> ScalarType -> IO (Ptr Tensor)
log_softmax_tns Ptr Tensor
_self Ptr Dimname
_dim ScalarType
_dtype =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::log_softmax(
*$(at::Tensor* _self)
, *$(at::Dimname* _dim)
, $(at::ScalarType _dtype)));
}|]
log_softmax_tn
:: Ptr Tensor
-> Ptr Dimname
-> IO (Ptr Tensor)
log_softmax_tn :: Ptr Tensor -> Ptr Dimname -> IO (Ptr Tensor)
log_softmax_tn Ptr Tensor
_self Ptr Dimname
_dim =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::log_softmax(
*$(at::Tensor* _self)
, *$(at::Dimname* _dim)));
}|]
_log_softmax_tlb
:: Ptr Tensor
-> Int64
-> CBool
-> IO (Ptr Tensor)
_log_softmax_tlb :: Ptr Tensor -> Int64 -> CBool -> IO (Ptr Tensor)
_log_softmax_tlb Ptr Tensor
_self Int64
_dim CBool
_half_to_float =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::_log_softmax(
*$(at::Tensor* _self)
, $(int64_t _dim)
, $(bool _half_to_float)));
}|]
_log_softmax_out_ttlb
:: Ptr Tensor
-> Ptr Tensor
-> Int64
-> CBool
-> IO (Ptr Tensor)
_log_softmax_out_ttlb :: Ptr Tensor -> Ptr Tensor -> Int64 -> CBool -> IO (Ptr Tensor)
_log_softmax_out_ttlb Ptr Tensor
_out Ptr Tensor
_self Int64
_dim CBool
_half_to_float =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::_log_softmax_out(
*$(at::Tensor* _out)
, *$(at::Tensor* _self)
, $(int64_t _dim)
, $(bool _half_to_float)));
}|]
_log_softmax_backward_data_ttls
:: Ptr Tensor
-> Ptr Tensor
-> Int64
-> ScalarType
-> IO (Ptr Tensor)
_log_softmax_backward_data_ttls :: Ptr Tensor -> Ptr Tensor -> Int64 -> ScalarType -> IO (Ptr Tensor)
_log_softmax_backward_data_ttls Ptr Tensor
_grad_output Ptr Tensor
_output Int64
_dim ScalarType
_input_dtype =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::_log_softmax_backward_data(
*$(at::Tensor* _grad_output)
, *$(at::Tensor* _output)
, $(int64_t _dim)
, $(at::ScalarType _input_dtype)));
}|]
_log_softmax_backward_data_out_tttls
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Int64
-> ScalarType
-> IO (Ptr Tensor)
_log_softmax_backward_data_out_tttls :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Int64
-> ScalarType
-> IO (Ptr Tensor)
_log_softmax_backward_data_out_tttls Ptr Tensor
_out Ptr Tensor
_grad_output Ptr Tensor
_output Int64
_dim ScalarType
_input_dtype =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::_log_softmax_backward_data_out(
*$(at::Tensor* _out)
, *$(at::Tensor* _grad_output)
, *$(at::Tensor* _output)
, $(int64_t _dim)
, $(at::ScalarType _input_dtype)));
}|]
_logcumsumexp_tl
:: Ptr Tensor
-> Int64
-> IO (Ptr Tensor)
_logcumsumexp_tl :: Ptr Tensor -> Int64 -> IO (Ptr Tensor)
_logcumsumexp_tl Ptr Tensor
_self Int64
_dim =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::_logcumsumexp(
*$(at::Tensor* _self)
, $(int64_t _dim)));
}|]
_logcumsumexp_out_ttl
:: Ptr Tensor
-> Ptr Tensor
-> Int64
-> IO (Ptr Tensor)
_logcumsumexp_out_ttl :: Ptr Tensor -> Ptr Tensor -> Int64 -> IO (Ptr Tensor)
_logcumsumexp_out_ttl Ptr Tensor
_out Ptr Tensor
_self Int64
_dim =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::_logcumsumexp_out(
*$(at::Tensor* _out)
, *$(at::Tensor* _self)
, $(int64_t _dim)));
}|]
logcumsumexp_tl
:: Ptr Tensor
-> Int64
-> IO (Ptr Tensor)
logcumsumexp_tl :: Ptr Tensor -> Int64 -> IO (Ptr Tensor)
logcumsumexp_tl Ptr Tensor
_self Int64
_dim =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::logcumsumexp(
*$(at::Tensor* _self)
, $(int64_t _dim)));
}|]
logcumsumexp_out_ttl
:: Ptr Tensor
-> Ptr Tensor
-> Int64
-> IO (Ptr Tensor)
logcumsumexp_out_ttl :: Ptr Tensor -> Ptr Tensor -> Int64 -> IO (Ptr Tensor)
logcumsumexp_out_ttl Ptr Tensor
_out Ptr Tensor
_self Int64
_dim =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::logcumsumexp_out(
*$(at::Tensor* _out)
, *$(at::Tensor* _self)
, $(int64_t _dim)));
}|]
logcumsumexp_tn
:: Ptr Tensor
-> Ptr Dimname
-> IO (Ptr Tensor)
logcumsumexp_tn :: Ptr Tensor -> Ptr Dimname -> IO (Ptr Tensor)
logcumsumexp_tn Ptr Tensor
_self Ptr Dimname
_dim =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::logcumsumexp(
*$(at::Tensor* _self)
, *$(at::Dimname* _dim)));
}|]
logcumsumexp_out_ttn
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Dimname
-> IO (Ptr Tensor)
logcumsumexp_out_ttn :: Ptr Tensor -> Ptr Tensor -> Ptr Dimname -> IO (Ptr Tensor)
logcumsumexp_out_ttn Ptr Tensor
_out Ptr Tensor
_self Ptr Dimname
_dim =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::logcumsumexp_out(
*$(at::Tensor* _out)
, *$(at::Tensor* _self)
, *$(at::Dimname* _dim)));
}|]
logsumexp_tlb
:: Ptr Tensor
-> Ptr IntArray
-> CBool
-> IO (Ptr Tensor)
logsumexp_tlb :: Ptr Tensor -> Ptr IntArray -> CBool -> IO (Ptr Tensor)
logsumexp_tlb Ptr Tensor
_self Ptr IntArray
_dim CBool
_keepdim =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::logsumexp(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _dim)
, $(bool _keepdim)));
}|]
logsumexp_tl
:: Ptr Tensor
-> Ptr IntArray
-> IO (Ptr Tensor)
logsumexp_tl :: Ptr Tensor -> Ptr IntArray -> IO (Ptr Tensor)
logsumexp_tl Ptr Tensor
_self Ptr IntArray
_dim =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::logsumexp(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _dim)));
}|]
logsumexp_out_ttlb
:: Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> CBool
-> IO (Ptr Tensor)
logsumexp_out_ttlb :: Ptr Tensor
-> Ptr Tensor -> Ptr IntArray -> CBool -> IO (Ptr Tensor)
logsumexp_out_ttlb Ptr Tensor
_out Ptr Tensor
_self Ptr IntArray
_dim CBool
_keepdim =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::logsumexp_out(
*$(at::Tensor* _out)
, *$(at::Tensor* _self)
, *$(std::vector<int64_t>* _dim)
, $(bool _keepdim)));
}|]
logsumexp_out_ttl
:: Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> IO (Ptr Tensor)
logsumexp_out_ttl :: Ptr Tensor -> Ptr Tensor -> Ptr IntArray -> IO (Ptr Tensor)
logsumexp_out_ttl Ptr Tensor
_out Ptr Tensor
_self Ptr IntArray
_dim =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::logsumexp_out(
*$(at::Tensor* _out)
, *$(at::Tensor* _self)
, *$(std::vector<int64_t>* _dim)));
}|]
logsumexp_tNb
:: Ptr Tensor
-> Ptr DimnameList
-> CBool
-> IO (Ptr Tensor)
logsumexp_tNb :: Ptr Tensor -> Ptr DimnameList -> CBool -> IO (Ptr Tensor)
logsumexp_tNb Ptr Tensor
_self Ptr DimnameList
_dim CBool
_keepdim =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::logsumexp(
*$(at::Tensor* _self)
, *$(std::vector<at::Dimname>* _dim)
, $(bool _keepdim)));
}|]
logsumexp_tN
:: Ptr Tensor
-> Ptr DimnameList
-> IO (Ptr Tensor)
logsumexp_tN :: Ptr Tensor -> Ptr DimnameList -> IO (Ptr Tensor)
logsumexp_tN Ptr Tensor
_self Ptr DimnameList
_dim =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::logsumexp(
*$(at::Tensor* _self)
, *$(std::vector<at::Dimname>* _dim)));
}|]
logsumexp_out_ttNb
:: Ptr Tensor
-> Ptr Tensor
-> Ptr DimnameList
-> CBool
-> IO (Ptr Tensor)
logsumexp_out_ttNb :: Ptr Tensor
-> Ptr Tensor -> Ptr DimnameList -> CBool -> IO (Ptr Tensor)
logsumexp_out_ttNb Ptr Tensor
_out Ptr Tensor
_self Ptr DimnameList
_dim CBool
_keepdim =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::logsumexp_out(
*$(at::Tensor* _out)
, *$(at::Tensor* _self)
, *$(std::vector<at::Dimname>* _dim)
, $(bool _keepdim)));
}|]
logsumexp_out_ttN
:: Ptr Tensor
-> Ptr Tensor
-> Ptr DimnameList
-> IO (Ptr Tensor)
logsumexp_out_ttN :: Ptr Tensor -> Ptr Tensor -> Ptr DimnameList -> IO (Ptr Tensor)
logsumexp_out_ttN Ptr Tensor
_out Ptr Tensor
_self Ptr DimnameList
_dim =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::logsumexp_out(
*$(at::Tensor* _out)
, *$(at::Tensor* _self)
, *$(std::vector<at::Dimname>* _dim)));
}|]
margin_ranking_loss_tttdl
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> CDouble
-> Int64
-> IO (Ptr Tensor)
margin_ranking_loss_tttdl :: Ptr Tensor
-> Ptr Tensor -> Ptr Tensor -> CDouble -> Int64 -> IO (Ptr Tensor)
margin_ranking_loss_tttdl Ptr Tensor
_input1 Ptr Tensor
_input2 Ptr Tensor
_target CDouble
_margin Int64
_reduction =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::margin_ranking_loss(
*$(at::Tensor* _input1)
, *$(at::Tensor* _input2)
, *$(at::Tensor* _target)
, $(double _margin)
, $(int64_t _reduction)));
}|]
margin_ranking_loss_tttd
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> CDouble
-> IO (Ptr Tensor)
margin_ranking_loss_tttd :: Ptr Tensor
-> Ptr Tensor -> Ptr Tensor -> CDouble -> IO (Ptr Tensor)
margin_ranking_loss_tttd Ptr Tensor
_input1 Ptr Tensor
_input2 Ptr Tensor
_target CDouble
_margin =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::margin_ranking_loss(
*$(at::Tensor* _input1)
, *$(at::Tensor* _input2)
, *$(at::Tensor* _target)
, $(double _margin)));
}|]
margin_ranking_loss_ttt
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> IO (Ptr Tensor)
margin_ranking_loss_ttt :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor)
margin_ranking_loss_ttt Ptr Tensor
_input1 Ptr Tensor
_input2 Ptr Tensor
_target =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::margin_ranking_loss(
*$(at::Tensor* _input1)
, *$(at::Tensor* _input2)
, *$(at::Tensor* _target)));
}|]
matmul_tt
:: Ptr Tensor
-> Ptr Tensor
-> IO (Ptr Tensor)
matmul_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor)
matmul_tt Ptr Tensor
_self Ptr Tensor
_other =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::matmul(
*$(at::Tensor* _self)
, *$(at::Tensor* _other)));
}|]
matmul_backward_ttta
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr (StdArray '(CBool,2))
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
matmul_backward_ttta :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr (StdArray '(CBool, 2))
-> IO (Ptr (StdTuple '(Tensor, Tensor)))
matmul_backward_ttta Ptr Tensor
_grad Ptr Tensor
_self Ptr Tensor
_other Ptr (StdArray '(CBool, 2))
_mask =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::matmul_backward(
*$(at::Tensor* _grad)
, *$(at::Tensor* _self)
, *$(at::Tensor* _other)
, *$(std::array<bool,2>* _mask)));
}|]
matmul_out_ttt
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> IO (Ptr Tensor)
matmul_out_ttt :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor)
matmul_out_ttt Ptr Tensor
_out Ptr Tensor
_self Ptr Tensor
_other =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::matmul_out(
*$(at::Tensor* _out)
, *$(at::Tensor* _self)
, *$(at::Tensor* _other)));
}|]
matrix_power_tl
:: Ptr Tensor
-> Int64
-> IO (Ptr Tensor)
matrix_power_tl :: Ptr Tensor -> Int64 -> IO (Ptr Tensor)
matrix_power_tl Ptr Tensor
_self Int64
_n =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::matrix_power(
*$(at::Tensor* _self)
, $(int64_t _n)));
}|]
matrix_power_out_ttl
:: Ptr Tensor
-> Ptr Tensor
-> Int64
-> IO (Ptr Tensor)
matrix_power_out_ttl :: Ptr Tensor -> Ptr Tensor -> Int64 -> IO (Ptr Tensor)
matrix_power_out_ttl Ptr Tensor
_out Ptr Tensor
_self Int64
_n =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::matrix_power_out(
*$(at::Tensor* _out)
, *$(at::Tensor* _self)
, $(int64_t _n)));
}|]
matrix_exp_t
:: Ptr Tensor
-> IO (Ptr Tensor)
matrix_exp_t :: Ptr Tensor -> IO (Ptr Tensor)
matrix_exp_t Ptr Tensor
_self =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::matrix_exp(
*$(at::Tensor* _self)));
}|]
matrix_exp_backward_tt
:: Ptr Tensor
-> Ptr Tensor
-> IO (Ptr Tensor)
matrix_exp_backward_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor)
matrix_exp_backward_tt Ptr Tensor
_self Ptr Tensor
_grad =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::matrix_exp_backward(
*$(at::Tensor* _self)
, *$(at::Tensor* _grad)));
}|]
_aminmax_t
:: Ptr Tensor
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
_aminmax_t :: Ptr Tensor -> IO (Ptr (StdTuple '(Tensor, Tensor)))
_aminmax_t Ptr Tensor
_self =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::_aminmax(
*$(at::Tensor* _self)));
}|]
_aminmax_tlb
:: Ptr Tensor
-> Int64
-> CBool
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
_aminmax_tlb :: Ptr Tensor
-> Int64 -> CBool -> IO (Ptr (StdTuple '(Tensor, Tensor)))
_aminmax_tlb Ptr Tensor
_self Int64
_dim CBool
_keepdim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::_aminmax(
*$(at::Tensor* _self)
, $(int64_t _dim)
, $(bool _keepdim)));
}|]
_aminmax_tl
:: Ptr Tensor
-> Int64
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
_aminmax_tl :: Ptr Tensor -> Int64 -> IO (Ptr (StdTuple '(Tensor, Tensor)))
_aminmax_tl Ptr Tensor
_self Int64
_dim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::_aminmax(
*$(at::Tensor* _self)
, $(int64_t _dim)));
}|]
aminmax_tlb
:: Ptr Tensor
-> Int64
-> CBool
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
aminmax_tlb :: Ptr Tensor
-> Int64 -> CBool -> IO (Ptr (StdTuple '(Tensor, Tensor)))
aminmax_tlb Ptr Tensor
_self Int64
_dim CBool
_keepdim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::aminmax(
*$(at::Tensor* _self)
, $(int64_t _dim)
, $(bool _keepdim)));
}|]
aminmax_tl
:: Ptr Tensor
-> Int64
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
aminmax_tl :: Ptr Tensor -> Int64 -> IO (Ptr (StdTuple '(Tensor, Tensor)))
aminmax_tl Ptr Tensor
_self Int64
_dim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::aminmax(
*$(at::Tensor* _self)
, $(int64_t _dim)));
}|]
aminmax_t
:: Ptr Tensor
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
aminmax_t :: Ptr Tensor -> IO (Ptr (StdTuple '(Tensor, Tensor)))
aminmax_t Ptr Tensor
_self =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::aminmax(
*$(at::Tensor* _self)));
}|]
aminmax_out_tttlb
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Int64
-> CBool
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
aminmax_out_tttlb :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Int64
-> CBool
-> IO (Ptr (StdTuple '(Tensor, Tensor)))
aminmax_out_tttlb Ptr Tensor
_min Ptr Tensor
_max Ptr Tensor
_self Int64
_dim CBool
_keepdim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::aminmax_out(
*$(at::Tensor* _min)
, *$(at::Tensor* _max)
, *$(at::Tensor* _self)
, $(int64_t _dim)
, $(bool _keepdim)));
}|]
aminmax_out_tttl
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Int64
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
aminmax_out_tttl :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Int64
-> IO (Ptr (StdTuple '(Tensor, Tensor)))
aminmax_out_tttl Ptr Tensor
_min Ptr Tensor
_max Ptr Tensor
_self Int64
_dim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::aminmax_out(
*$(at::Tensor* _min)
, *$(at::Tensor* _max)
, *$(at::Tensor* _self)
, $(int64_t _dim)));
}|]
aminmax_out_ttt
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
aminmax_out_ttt :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> IO (Ptr (StdTuple '(Tensor, Tensor)))
aminmax_out_ttt Ptr Tensor
_min Ptr Tensor
_max Ptr Tensor
_self =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::aminmax_out(
*$(at::Tensor* _min)
, *$(at::Tensor* _max)
, *$(at::Tensor* _self)));
}|]
_compute_linear_combination_tt
:: Ptr Tensor
-> Ptr Tensor
-> IO (Ptr Tensor)
_compute_linear_combination_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor)
_compute_linear_combination_tt Ptr Tensor
_input Ptr Tensor
_coefficients =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::_compute_linear_combination(
*$(at::Tensor* _input)
, *$(at::Tensor* _coefficients)));
}|]
_compute_linear_combination_out_ttt
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> IO (Ptr Tensor)
_compute_linear_combination_out_ttt :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor)
_compute_linear_combination_out_ttt Ptr Tensor
_out Ptr Tensor
_input Ptr Tensor
_coefficients =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::_compute_linear_combination_out(
*$(at::Tensor* _out)
, *$(at::Tensor* _input)
, *$(at::Tensor* _coefficients)));
}|]
max_tlb
:: Ptr Tensor
-> Int64
-> CBool
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
max_tlb :: Ptr Tensor
-> Int64 -> CBool -> IO (Ptr (StdTuple '(Tensor, Tensor)))
max_tlb Ptr Tensor
_self Int64
_dim CBool
_keepdim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::max(
*$(at::Tensor* _self)
, $(int64_t _dim)
, $(bool _keepdim)));
}|]
max_tl
:: Ptr Tensor
-> Int64
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
max_tl :: Ptr Tensor -> Int64 -> IO (Ptr (StdTuple '(Tensor, Tensor)))
max_tl Ptr Tensor
_self Int64
_dim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::max(
*$(at::Tensor* _self)
, $(int64_t _dim)));
}|]
max_out_tttlb
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Int64
-> CBool
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
max_out_tttlb :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Int64
-> CBool
-> IO (Ptr (StdTuple '(Tensor, Tensor)))
max_out_tttlb Ptr Tensor
_max Ptr Tensor
_max_values Ptr Tensor
_self Int64
_dim CBool
_keepdim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::max_out(
*$(at::Tensor* _max)
, *$(at::Tensor* _max_values)
, *$(at::Tensor* _self)
, $(int64_t _dim)
, $(bool _keepdim)));
}|]
max_out_tttl
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Int64
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
max_out_tttl :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Int64
-> IO (Ptr (StdTuple '(Tensor, Tensor)))
max_out_tttl Ptr Tensor
_max Ptr Tensor
_max_values Ptr Tensor
_self Int64
_dim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::max_out(
*$(at::Tensor* _max)
, *$(at::Tensor* _max_values)
, *$(at::Tensor* _self)
, $(int64_t _dim)));
}|]
max_tnb
:: Ptr Tensor
-> Ptr Dimname
-> CBool
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
max_tnb :: Ptr Tensor
-> Ptr Dimname -> CBool -> IO (Ptr (StdTuple '(Tensor, Tensor)))
max_tnb Ptr Tensor
_self Ptr Dimname
_dim CBool
_keepdim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::max(
*$(at::Tensor* _self)
, *$(at::Dimname* _dim)
, $(bool _keepdim)));
}|]
max_tn
:: Ptr Tensor
-> Ptr Dimname
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
max_tn :: Ptr Tensor -> Ptr Dimname -> IO (Ptr (StdTuple '(Tensor, Tensor)))
max_tn Ptr Tensor
_self Ptr Dimname
_dim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::max(
*$(at::Tensor* _self)
, *$(at::Dimname* _dim)));
}|]
max_out_tttnb
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Dimname
-> CBool
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
max_out_tttnb :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Dimname
-> CBool
-> IO (Ptr (StdTuple '(Tensor, Tensor)))
max_out_tttnb Ptr Tensor
_max Ptr Tensor
_max_values Ptr Tensor
_self Ptr Dimname
_dim CBool
_keepdim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::max_out(
*$(at::Tensor* _max)
, *$(at::Tensor* _max_values)
, *$(at::Tensor* _self)
, *$(at::Dimname* _dim)
, $(bool _keepdim)));
}|]
max_out_tttn
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Dimname
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
max_out_tttn :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Dimname
-> IO (Ptr (StdTuple '(Tensor, Tensor)))
max_out_tttn Ptr Tensor
_max Ptr Tensor
_max_values Ptr Tensor
_self Ptr Dimname
_dim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::max_out(
*$(at::Tensor* _max)
, *$(at::Tensor* _max_values)
, *$(at::Tensor* _self)
, *$(at::Dimname* _dim)));
}|]
value_selecting_reduction_backward_tltlb
:: Ptr Tensor
-> Int64
-> Ptr Tensor
-> Ptr IntArray
-> CBool
-> IO (Ptr Tensor)
value_selecting_reduction_backward_tltlb :: Ptr Tensor
-> Int64 -> Ptr Tensor -> Ptr IntArray -> CBool -> IO (Ptr Tensor)
value_selecting_reduction_backward_tltlb Ptr Tensor
_grad Int64
_dim Ptr Tensor
_indices Ptr IntArray
_sizes CBool
_keepdim =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::value_selecting_reduction_backward(
*$(at::Tensor* _grad)
, $(int64_t _dim)
, *$(at::Tensor* _indices)
, *$(std::vector<int64_t>* _sizes)
, $(bool _keepdim)));
}|]
amax_tlb
:: Ptr Tensor
-> Ptr IntArray
-> CBool
-> IO (Ptr Tensor)
amax_tlb :: Ptr Tensor -> Ptr IntArray -> CBool -> IO (Ptr Tensor)
amax_tlb Ptr Tensor
_self Ptr IntArray
_dim CBool
_keepdim =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::amax(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _dim)
, $(bool _keepdim)));
}|]
amax_tl
:: Ptr Tensor
-> Ptr IntArray
-> IO (Ptr Tensor)
amax_tl :: Ptr Tensor -> Ptr IntArray -> IO (Ptr Tensor)
amax_tl Ptr Tensor
_self Ptr IntArray
_dim =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::amax(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _dim)));
}|]
amax_t
:: Ptr Tensor
-> IO (Ptr Tensor)
amax_t :: Ptr Tensor -> IO (Ptr Tensor)
amax_t Ptr Tensor
_self =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::amax(
*$(at::Tensor* _self)));
}|]
amax_out_ttlb
:: Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> CBool
-> IO (Ptr Tensor)
amax_out_ttlb :: Ptr Tensor
-> Ptr Tensor -> Ptr IntArray -> CBool -> IO (Ptr Tensor)
amax_out_ttlb Ptr Tensor
_out Ptr Tensor
_self Ptr IntArray
_dim CBool
_keepdim =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::amax_out(
*$(at::Tensor* _out)
, *$(at::Tensor* _self)
, *$(std::vector<int64_t>* _dim)
, $(bool _keepdim)));
}|]
amax_out_ttl
:: Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> IO (Ptr Tensor)
amax_out_ttl :: Ptr Tensor -> Ptr Tensor -> Ptr IntArray -> IO (Ptr Tensor)
amax_out_ttl Ptr Tensor
_out Ptr Tensor
_self Ptr IntArray
_dim =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::amax_out(
*$(at::Tensor* _out)
, *$(at::Tensor* _self)
, *$(std::vector<int64_t>* _dim)));
}|]
amax_out_tt
:: Ptr Tensor
-> Ptr Tensor
-> IO (Ptr Tensor)
amax_out_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor)
amax_out_tt Ptr Tensor
_out Ptr Tensor
_self =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::amax_out(
*$(at::Tensor* _out)
, *$(at::Tensor* _self)));
}|]
max_pool1d_with_indices_tllllb
:: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> CBool
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
max_pool1d_with_indices_tllllb :: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> CBool
-> IO (Ptr (StdTuple '(Tensor, Tensor)))
max_pool1d_with_indices_tllllb Ptr Tensor
_self Ptr IntArray
_kernel_size Ptr IntArray
_stride Ptr IntArray
_padding Ptr IntArray
_dilation CBool
_ceil_mode =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::max_pool1d_with_indices(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _kernel_size)
, *$(std::vector<int64_t>* _stride)
, *$(std::vector<int64_t>* _padding)
, *$(std::vector<int64_t>* _dilation)
, $(bool _ceil_mode)));
}|]
max_pool1d_with_indices_tllll
:: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
max_pool1d_with_indices_tllll :: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr (StdTuple '(Tensor, Tensor)))
max_pool1d_with_indices_tllll Ptr Tensor
_self Ptr IntArray
_kernel_size Ptr IntArray
_stride Ptr IntArray
_padding Ptr IntArray
_dilation =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::max_pool1d_with_indices(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _kernel_size)
, *$(std::vector<int64_t>* _stride)
, *$(std::vector<int64_t>* _padding)
, *$(std::vector<int64_t>* _dilation)));
}|]
max_pool1d_with_indices_tlll
:: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
max_pool1d_with_indices_tlll :: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr (StdTuple '(Tensor, Tensor)))
max_pool1d_with_indices_tlll Ptr Tensor
_self Ptr IntArray
_kernel_size Ptr IntArray
_stride Ptr IntArray
_padding =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::max_pool1d_with_indices(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _kernel_size)
, *$(std::vector<int64_t>* _stride)
, *$(std::vector<int64_t>* _padding)));
}|]
max_pool1d_with_indices_tll
:: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
max_pool1d_with_indices_tll :: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr (StdTuple '(Tensor, Tensor)))
max_pool1d_with_indices_tll Ptr Tensor
_self Ptr IntArray
_kernel_size Ptr IntArray
_stride =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::max_pool1d_with_indices(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _kernel_size)
, *$(std::vector<int64_t>* _stride)));
}|]
max_pool1d_with_indices_tl
:: Ptr Tensor
-> Ptr IntArray
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
max_pool1d_with_indices_tl :: Ptr Tensor -> Ptr IntArray -> IO (Ptr (StdTuple '(Tensor, Tensor)))
max_pool1d_with_indices_tl Ptr Tensor
_self Ptr IntArray
_kernel_size =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::max_pool1d_with_indices(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _kernel_size)));
}|]
max_pool1d_tllllb
:: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> CBool
-> IO (Ptr Tensor)
max_pool1d_tllllb :: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> CBool
-> IO (Ptr Tensor)
max_pool1d_tllllb Ptr Tensor
_self Ptr IntArray
_kernel_size Ptr IntArray
_stride Ptr IntArray
_padding Ptr IntArray
_dilation CBool
_ceil_mode =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::max_pool1d(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _kernel_size)
, *$(std::vector<int64_t>* _stride)
, *$(std::vector<int64_t>* _padding)
, *$(std::vector<int64_t>* _dilation)
, $(bool _ceil_mode)));
}|]
max_pool1d_tllll
:: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
max_pool1d_tllll :: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
max_pool1d_tllll Ptr Tensor
_self Ptr IntArray
_kernel_size Ptr IntArray
_stride Ptr IntArray
_padding Ptr IntArray
_dilation =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::max_pool1d(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _kernel_size)
, *$(std::vector<int64_t>* _stride)
, *$(std::vector<int64_t>* _padding)
, *$(std::vector<int64_t>* _dilation)));
}|]
max_pool1d_tlll
:: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
max_pool1d_tlll :: Ptr Tensor
-> Ptr IntArray -> Ptr IntArray -> Ptr IntArray -> IO (Ptr Tensor)
max_pool1d_tlll Ptr Tensor
_self Ptr IntArray
_kernel_size Ptr IntArray
_stride Ptr IntArray
_padding =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::max_pool1d(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _kernel_size)
, *$(std::vector<int64_t>* _stride)
, *$(std::vector<int64_t>* _padding)));
}|]
max_pool1d_tll
:: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
max_pool1d_tll :: Ptr Tensor -> Ptr IntArray -> Ptr IntArray -> IO (Ptr Tensor)
max_pool1d_tll Ptr Tensor
_self Ptr IntArray
_kernel_size Ptr IntArray
_stride =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::max_pool1d(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _kernel_size)
, *$(std::vector<int64_t>* _stride)));
}|]
max_pool1d_tl
:: Ptr Tensor
-> Ptr IntArray
-> IO (Ptr Tensor)
max_pool1d_tl :: Ptr Tensor -> Ptr IntArray -> IO (Ptr Tensor)
max_pool1d_tl Ptr Tensor
_self Ptr IntArray
_kernel_size =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::max_pool1d(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _kernel_size)));
}|]
max_pool2d_tllllb
:: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> CBool
-> IO (Ptr Tensor)
max_pool2d_tllllb :: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> CBool
-> IO (Ptr Tensor)
max_pool2d_tllllb Ptr Tensor
_self Ptr IntArray
_kernel_size Ptr IntArray
_stride Ptr IntArray
_padding Ptr IntArray
_dilation CBool
_ceil_mode =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::max_pool2d(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _kernel_size)
, *$(std::vector<int64_t>* _stride)
, *$(std::vector<int64_t>* _padding)
, *$(std::vector<int64_t>* _dilation)
, $(bool _ceil_mode)));
}|]
max_pool2d_tllll
:: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
max_pool2d_tllll :: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
max_pool2d_tllll Ptr Tensor
_self Ptr IntArray
_kernel_size Ptr IntArray
_stride Ptr IntArray
_padding Ptr IntArray
_dilation =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::max_pool2d(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _kernel_size)
, *$(std::vector<int64_t>* _stride)
, *$(std::vector<int64_t>* _padding)
, *$(std::vector<int64_t>* _dilation)));
}|]
max_pool2d_tlll
:: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
max_pool2d_tlll :: Ptr Tensor
-> Ptr IntArray -> Ptr IntArray -> Ptr IntArray -> IO (Ptr Tensor)
max_pool2d_tlll Ptr Tensor
_self Ptr IntArray
_kernel_size Ptr IntArray
_stride Ptr IntArray
_padding =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::max_pool2d(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _kernel_size)
, *$(std::vector<int64_t>* _stride)
, *$(std::vector<int64_t>* _padding)));
}|]
max_pool2d_tll
:: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
max_pool2d_tll :: Ptr Tensor -> Ptr IntArray -> Ptr IntArray -> IO (Ptr Tensor)
max_pool2d_tll Ptr Tensor
_self Ptr IntArray
_kernel_size Ptr IntArray
_stride =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::max_pool2d(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _kernel_size)
, *$(std::vector<int64_t>* _stride)));
}|]
max_pool2d_tl
:: Ptr Tensor
-> Ptr IntArray
-> IO (Ptr Tensor)
max_pool2d_tl :: Ptr Tensor -> Ptr IntArray -> IO (Ptr Tensor)
max_pool2d_tl Ptr Tensor
_self Ptr IntArray
_kernel_size =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::max_pool2d(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _kernel_size)));
}|]
max_pool2d_backward_ttllllb
:: Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> CBool
-> IO (Ptr Tensor)
max_pool2d_backward_ttllllb :: Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> CBool
-> IO (Ptr Tensor)
max_pool2d_backward_ttllllb Ptr Tensor
_grad_output Ptr Tensor
_self Ptr IntArray
_kernel_size Ptr IntArray
_stride Ptr IntArray
_padding Ptr IntArray
_dilation CBool
_ceil_mode =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::max_pool2d_backward(
*$(at::Tensor* _grad_output)
, *$(at::Tensor* _self)
, *$(std::vector<int64_t>* _kernel_size)
, *$(std::vector<int64_t>* _stride)
, *$(std::vector<int64_t>* _padding)
, *$(std::vector<int64_t>* _dilation)
, $(bool _ceil_mode)));
}|]
max_pool2d_backward_ttllll
:: Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
max_pool2d_backward_ttllll :: Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
max_pool2d_backward_ttllll Ptr Tensor
_grad_output Ptr Tensor
_self Ptr IntArray
_kernel_size Ptr IntArray
_stride Ptr IntArray
_padding Ptr IntArray
_dilation =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::max_pool2d_backward(
*$(at::Tensor* _grad_output)
, *$(at::Tensor* _self)
, *$(std::vector<int64_t>* _kernel_size)
, *$(std::vector<int64_t>* _stride)
, *$(std::vector<int64_t>* _padding)
, *$(std::vector<int64_t>* _dilation)));
}|]
max_pool2d_backward_ttlll
:: Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
max_pool2d_backward_ttlll :: Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
max_pool2d_backward_ttlll Ptr Tensor
_grad_output Ptr Tensor
_self Ptr IntArray
_kernel_size Ptr IntArray
_stride Ptr IntArray
_padding =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::max_pool2d_backward(
*$(at::Tensor* _grad_output)
, *$(at::Tensor* _self)
, *$(std::vector<int64_t>* _kernel_size)
, *$(std::vector<int64_t>* _stride)
, *$(std::vector<int64_t>* _padding)));
}|]
max_pool2d_backward_ttll
:: Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
max_pool2d_backward_ttll :: Ptr Tensor
-> Ptr Tensor -> Ptr IntArray -> Ptr IntArray -> IO (Ptr Tensor)
max_pool2d_backward_ttll Ptr Tensor
_grad_output Ptr Tensor
_self Ptr IntArray
_kernel_size Ptr IntArray
_stride =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::max_pool2d_backward(
*$(at::Tensor* _grad_output)
, *$(at::Tensor* _self)
, *$(std::vector<int64_t>* _kernel_size)
, *$(std::vector<int64_t>* _stride)));
}|]
max_pool2d_backward_ttl
:: Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> IO (Ptr Tensor)
max_pool2d_backward_ttl :: Ptr Tensor -> Ptr Tensor -> Ptr IntArray -> IO (Ptr Tensor)
max_pool2d_backward_ttl Ptr Tensor
_grad_output Ptr Tensor
_self Ptr IntArray
_kernel_size =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::max_pool2d_backward(
*$(at::Tensor* _grad_output)
, *$(at::Tensor* _self)
, *$(std::vector<int64_t>* _kernel_size)));
}|]
mkldnn_max_pool2d_tllllb
:: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> CBool
-> IO (Ptr Tensor)
mkldnn_max_pool2d_tllllb :: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> CBool
-> IO (Ptr Tensor)
mkldnn_max_pool2d_tllllb Ptr Tensor
_self Ptr IntArray
_kernel_size Ptr IntArray
_stride Ptr IntArray
_padding Ptr IntArray
_dilation CBool
_ceil_mode =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::mkldnn_max_pool2d(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _kernel_size)
, *$(std::vector<int64_t>* _stride)
, *$(std::vector<int64_t>* _padding)
, *$(std::vector<int64_t>* _dilation)
, $(bool _ceil_mode)));
}|]
mkldnn_max_pool2d_tllll
:: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
mkldnn_max_pool2d_tllll :: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
mkldnn_max_pool2d_tllll Ptr Tensor
_self Ptr IntArray
_kernel_size Ptr IntArray
_stride Ptr IntArray
_padding Ptr IntArray
_dilation =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::mkldnn_max_pool2d(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _kernel_size)
, *$(std::vector<int64_t>* _stride)
, *$(std::vector<int64_t>* _padding)
, *$(std::vector<int64_t>* _dilation)));
}|]
mkldnn_max_pool2d_tlll
:: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
mkldnn_max_pool2d_tlll :: Ptr Tensor
-> Ptr IntArray -> Ptr IntArray -> Ptr IntArray -> IO (Ptr Tensor)
mkldnn_max_pool2d_tlll Ptr Tensor
_self Ptr IntArray
_kernel_size Ptr IntArray
_stride Ptr IntArray
_padding =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::mkldnn_max_pool2d(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _kernel_size)
, *$(std::vector<int64_t>* _stride)
, *$(std::vector<int64_t>* _padding)));
}|]
mkldnn_max_pool2d_tll
:: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
mkldnn_max_pool2d_tll :: Ptr Tensor -> Ptr IntArray -> Ptr IntArray -> IO (Ptr Tensor)
mkldnn_max_pool2d_tll Ptr Tensor
_self Ptr IntArray
_kernel_size Ptr IntArray
_stride =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::mkldnn_max_pool2d(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _kernel_size)
, *$(std::vector<int64_t>* _stride)));
}|]
mkldnn_max_pool2d_tl
:: Ptr Tensor
-> Ptr IntArray
-> IO (Ptr Tensor)
mkldnn_max_pool2d_tl :: Ptr Tensor -> Ptr IntArray -> IO (Ptr Tensor)
mkldnn_max_pool2d_tl Ptr Tensor
_self Ptr IntArray
_kernel_size =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::mkldnn_max_pool2d(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _kernel_size)));
}|]
mkldnn_max_pool2d_backward_tttllllb
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> CBool
-> IO (Ptr Tensor)
mkldnn_max_pool2d_backward_tttllllb :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> CBool
-> IO (Ptr Tensor)
mkldnn_max_pool2d_backward_tttllllb Ptr Tensor
_grad_output Ptr Tensor
_output Ptr Tensor
_input Ptr IntArray
_kernel_size Ptr IntArray
_stride Ptr IntArray
_padding Ptr IntArray
_dilation CBool
_ceil_mode =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::mkldnn_max_pool2d_backward(
*$(at::Tensor* _grad_output)
, *$(at::Tensor* _output)
, *$(at::Tensor* _input)
, *$(std::vector<int64_t>* _kernel_size)
, *$(std::vector<int64_t>* _stride)
, *$(std::vector<int64_t>* _padding)
, *$(std::vector<int64_t>* _dilation)
, $(bool _ceil_mode)));
}|]
mkldnn_max_pool2d_backward_tttllll
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
mkldnn_max_pool2d_backward_tttllll :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
mkldnn_max_pool2d_backward_tttllll Ptr Tensor
_grad_output Ptr Tensor
_output Ptr Tensor
_input Ptr IntArray
_kernel_size Ptr IntArray
_stride Ptr IntArray
_padding Ptr IntArray
_dilation =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::mkldnn_max_pool2d_backward(
*$(at::Tensor* _grad_output)
, *$(at::Tensor* _output)
, *$(at::Tensor* _input)
, *$(std::vector<int64_t>* _kernel_size)
, *$(std::vector<int64_t>* _stride)
, *$(std::vector<int64_t>* _padding)
, *$(std::vector<int64_t>* _dilation)));
}|]
mkldnn_max_pool2d_backward_tttlll
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
mkldnn_max_pool2d_backward_tttlll :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
mkldnn_max_pool2d_backward_tttlll Ptr Tensor
_grad_output Ptr Tensor
_output Ptr Tensor
_input Ptr IntArray
_kernel_size Ptr IntArray
_stride Ptr IntArray
_padding =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::mkldnn_max_pool2d_backward(
*$(at::Tensor* _grad_output)
, *$(at::Tensor* _output)
, *$(at::Tensor* _input)
, *$(std::vector<int64_t>* _kernel_size)
, *$(std::vector<int64_t>* _stride)
, *$(std::vector<int64_t>* _padding)));
}|]
mkldnn_max_pool2d_backward_tttll
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
mkldnn_max_pool2d_backward_tttll :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
mkldnn_max_pool2d_backward_tttll Ptr Tensor
_grad_output Ptr Tensor
_output Ptr Tensor
_input Ptr IntArray
_kernel_size Ptr IntArray
_stride =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::mkldnn_max_pool2d_backward(
*$(at::Tensor* _grad_output)
, *$(at::Tensor* _output)
, *$(at::Tensor* _input)
, *$(std::vector<int64_t>* _kernel_size)
, *$(std::vector<int64_t>* _stride)));
}|]
mkldnn_max_pool2d_backward_tttl
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> IO (Ptr Tensor)
mkldnn_max_pool2d_backward_tttl :: Ptr Tensor
-> Ptr Tensor -> Ptr Tensor -> Ptr IntArray -> IO (Ptr Tensor)
mkldnn_max_pool2d_backward_tttl Ptr Tensor
_grad_output Ptr Tensor
_output Ptr Tensor
_input Ptr IntArray
_kernel_size =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::mkldnn_max_pool2d_backward(
*$(at::Tensor* _grad_output)
, *$(at::Tensor* _output)
, *$(at::Tensor* _input)
, *$(std::vector<int64_t>* _kernel_size)));
}|]
mkldnn_max_pool3d_tllllb
:: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> CBool
-> IO (Ptr Tensor)
mkldnn_max_pool3d_tllllb :: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> CBool
-> IO (Ptr Tensor)
mkldnn_max_pool3d_tllllb Ptr Tensor
_self Ptr IntArray
_kernel_size Ptr IntArray
_stride Ptr IntArray
_padding Ptr IntArray
_dilation CBool
_ceil_mode =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::mkldnn_max_pool3d(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _kernel_size)
, *$(std::vector<int64_t>* _stride)
, *$(std::vector<int64_t>* _padding)
, *$(std::vector<int64_t>* _dilation)
, $(bool _ceil_mode)));
}|]
mkldnn_max_pool3d_tllll
:: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
mkldnn_max_pool3d_tllll :: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
mkldnn_max_pool3d_tllll Ptr Tensor
_self Ptr IntArray
_kernel_size Ptr IntArray
_stride Ptr IntArray
_padding Ptr IntArray
_dilation =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::mkldnn_max_pool3d(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _kernel_size)
, *$(std::vector<int64_t>* _stride)
, *$(std::vector<int64_t>* _padding)
, *$(std::vector<int64_t>* _dilation)));
}|]
mkldnn_max_pool3d_tlll
:: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
mkldnn_max_pool3d_tlll :: Ptr Tensor
-> Ptr IntArray -> Ptr IntArray -> Ptr IntArray -> IO (Ptr Tensor)
mkldnn_max_pool3d_tlll Ptr Tensor
_self Ptr IntArray
_kernel_size Ptr IntArray
_stride Ptr IntArray
_padding =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::mkldnn_max_pool3d(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _kernel_size)
, *$(std::vector<int64_t>* _stride)
, *$(std::vector<int64_t>* _padding)));
}|]
mkldnn_max_pool3d_tll
:: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
mkldnn_max_pool3d_tll :: Ptr Tensor -> Ptr IntArray -> Ptr IntArray -> IO (Ptr Tensor)
mkldnn_max_pool3d_tll Ptr Tensor
_self Ptr IntArray
_kernel_size Ptr IntArray
_stride =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::mkldnn_max_pool3d(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _kernel_size)
, *$(std::vector<int64_t>* _stride)));
}|]
mkldnn_max_pool3d_tl
:: Ptr Tensor
-> Ptr IntArray
-> IO (Ptr Tensor)
mkldnn_max_pool3d_tl :: Ptr Tensor -> Ptr IntArray -> IO (Ptr Tensor)
mkldnn_max_pool3d_tl Ptr Tensor
_self Ptr IntArray
_kernel_size =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::mkldnn_max_pool3d(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _kernel_size)));
}|]
mkldnn_max_pool3d_backward_tttllllb
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> CBool
-> IO (Ptr Tensor)
mkldnn_max_pool3d_backward_tttllllb :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> CBool
-> IO (Ptr Tensor)
mkldnn_max_pool3d_backward_tttllllb Ptr Tensor
_grad_output Ptr Tensor
_output Ptr Tensor
_input Ptr IntArray
_kernel_size Ptr IntArray
_stride Ptr IntArray
_padding Ptr IntArray
_dilation CBool
_ceil_mode =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::mkldnn_max_pool3d_backward(
*$(at::Tensor* _grad_output)
, *$(at::Tensor* _output)
, *$(at::Tensor* _input)
, *$(std::vector<int64_t>* _kernel_size)
, *$(std::vector<int64_t>* _stride)
, *$(std::vector<int64_t>* _padding)
, *$(std::vector<int64_t>* _dilation)
, $(bool _ceil_mode)));
}|]
mkldnn_max_pool3d_backward_tttllll
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
mkldnn_max_pool3d_backward_tttllll :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
mkldnn_max_pool3d_backward_tttllll Ptr Tensor
_grad_output Ptr Tensor
_output Ptr Tensor
_input Ptr IntArray
_kernel_size Ptr IntArray
_stride Ptr IntArray
_padding Ptr IntArray
_dilation =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::mkldnn_max_pool3d_backward(
*$(at::Tensor* _grad_output)
, *$(at::Tensor* _output)
, *$(at::Tensor* _input)
, *$(std::vector<int64_t>* _kernel_size)
, *$(std::vector<int64_t>* _stride)
, *$(std::vector<int64_t>* _padding)
, *$(std::vector<int64_t>* _dilation)));
}|]
mkldnn_max_pool3d_backward_tttlll
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
mkldnn_max_pool3d_backward_tttlll :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
mkldnn_max_pool3d_backward_tttlll Ptr Tensor
_grad_output Ptr Tensor
_output Ptr Tensor
_input Ptr IntArray
_kernel_size Ptr IntArray
_stride Ptr IntArray
_padding =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::mkldnn_max_pool3d_backward(
*$(at::Tensor* _grad_output)
, *$(at::Tensor* _output)
, *$(at::Tensor* _input)
, *$(std::vector<int64_t>* _kernel_size)
, *$(std::vector<int64_t>* _stride)
, *$(std::vector<int64_t>* _padding)));
}|]
mkldnn_max_pool3d_backward_tttll
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
mkldnn_max_pool3d_backward_tttll :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
mkldnn_max_pool3d_backward_tttll Ptr Tensor
_grad_output Ptr Tensor
_output Ptr Tensor
_input Ptr IntArray
_kernel_size Ptr IntArray
_stride =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::mkldnn_max_pool3d_backward(
*$(at::Tensor* _grad_output)
, *$(at::Tensor* _output)
, *$(at::Tensor* _input)
, *$(std::vector<int64_t>* _kernel_size)
, *$(std::vector<int64_t>* _stride)));
}|]
mkldnn_max_pool3d_backward_tttl
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> IO (Ptr Tensor)
mkldnn_max_pool3d_backward_tttl :: Ptr Tensor
-> Ptr Tensor -> Ptr Tensor -> Ptr IntArray -> IO (Ptr Tensor)
mkldnn_max_pool3d_backward_tttl Ptr Tensor
_grad_output Ptr Tensor
_output Ptr Tensor
_input Ptr IntArray
_kernel_size =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::mkldnn_max_pool3d_backward(
*$(at::Tensor* _grad_output)
, *$(at::Tensor* _output)
, *$(at::Tensor* _input)
, *$(std::vector<int64_t>* _kernel_size)));
}|]
quantized_max_pool1d_tllllb
:: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> CBool
-> IO (Ptr Tensor)
quantized_max_pool1d_tllllb :: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> CBool
-> IO (Ptr Tensor)
quantized_max_pool1d_tllllb Ptr Tensor
_self Ptr IntArray
_kernel_size Ptr IntArray
_stride Ptr IntArray
_padding Ptr IntArray
_dilation CBool
_ceil_mode =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::quantized_max_pool1d(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _kernel_size)
, *$(std::vector<int64_t>* _stride)
, *$(std::vector<int64_t>* _padding)
, *$(std::vector<int64_t>* _dilation)
, $(bool _ceil_mode)));
}|]
quantized_max_pool1d_tllll
:: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
quantized_max_pool1d_tllll :: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
quantized_max_pool1d_tllll Ptr Tensor
_self Ptr IntArray
_kernel_size Ptr IntArray
_stride Ptr IntArray
_padding Ptr IntArray
_dilation =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::quantized_max_pool1d(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _kernel_size)
, *$(std::vector<int64_t>* _stride)
, *$(std::vector<int64_t>* _padding)
, *$(std::vector<int64_t>* _dilation)));
}|]
quantized_max_pool1d_tlll
:: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
quantized_max_pool1d_tlll :: Ptr Tensor
-> Ptr IntArray -> Ptr IntArray -> Ptr IntArray -> IO (Ptr Tensor)
quantized_max_pool1d_tlll Ptr Tensor
_self Ptr IntArray
_kernel_size Ptr IntArray
_stride Ptr IntArray
_padding =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::quantized_max_pool1d(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _kernel_size)
, *$(std::vector<int64_t>* _stride)
, *$(std::vector<int64_t>* _padding)));
}|]
quantized_max_pool1d_tll
:: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
quantized_max_pool1d_tll :: Ptr Tensor -> Ptr IntArray -> Ptr IntArray -> IO (Ptr Tensor)
quantized_max_pool1d_tll Ptr Tensor
_self Ptr IntArray
_kernel_size Ptr IntArray
_stride =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::quantized_max_pool1d(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _kernel_size)
, *$(std::vector<int64_t>* _stride)));
}|]
quantized_max_pool1d_tl
:: Ptr Tensor
-> Ptr IntArray
-> IO (Ptr Tensor)
quantized_max_pool1d_tl :: Ptr Tensor -> Ptr IntArray -> IO (Ptr Tensor)
quantized_max_pool1d_tl Ptr Tensor
_self Ptr IntArray
_kernel_size =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::quantized_max_pool1d(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _kernel_size)));
}|]
quantized_max_pool2d_tllllb
:: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> CBool
-> IO (Ptr Tensor)
quantized_max_pool2d_tllllb :: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> CBool
-> IO (Ptr Tensor)
quantized_max_pool2d_tllllb Ptr Tensor
_self Ptr IntArray
_kernel_size Ptr IntArray
_stride Ptr IntArray
_padding Ptr IntArray
_dilation CBool
_ceil_mode =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::quantized_max_pool2d(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _kernel_size)
, *$(std::vector<int64_t>* _stride)
, *$(std::vector<int64_t>* _padding)
, *$(std::vector<int64_t>* _dilation)
, $(bool _ceil_mode)));
}|]
quantized_max_pool2d_tllll
:: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
quantized_max_pool2d_tllll :: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
quantized_max_pool2d_tllll Ptr Tensor
_self Ptr IntArray
_kernel_size Ptr IntArray
_stride Ptr IntArray
_padding Ptr IntArray
_dilation =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::quantized_max_pool2d(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _kernel_size)
, *$(std::vector<int64_t>* _stride)
, *$(std::vector<int64_t>* _padding)
, *$(std::vector<int64_t>* _dilation)));
}|]
quantized_max_pool2d_tlll
:: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
quantized_max_pool2d_tlll :: Ptr Tensor
-> Ptr IntArray -> Ptr IntArray -> Ptr IntArray -> IO (Ptr Tensor)
quantized_max_pool2d_tlll Ptr Tensor
_self Ptr IntArray
_kernel_size Ptr IntArray
_stride Ptr IntArray
_padding =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::quantized_max_pool2d(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _kernel_size)
, *$(std::vector<int64_t>* _stride)
, *$(std::vector<int64_t>* _padding)));
}|]
quantized_max_pool2d_tll
:: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
quantized_max_pool2d_tll :: Ptr Tensor -> Ptr IntArray -> Ptr IntArray -> IO (Ptr Tensor)
quantized_max_pool2d_tll Ptr Tensor
_self Ptr IntArray
_kernel_size Ptr IntArray
_stride =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::quantized_max_pool2d(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _kernel_size)
, *$(std::vector<int64_t>* _stride)));
}|]
quantized_max_pool2d_tl
:: Ptr Tensor
-> Ptr IntArray
-> IO (Ptr Tensor)
quantized_max_pool2d_tl :: Ptr Tensor -> Ptr IntArray -> IO (Ptr Tensor)
quantized_max_pool2d_tl Ptr Tensor
_self Ptr IntArray
_kernel_size =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::quantized_max_pool2d(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _kernel_size)));
}|]
max_pool3d_tllllb
:: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> CBool
-> IO (Ptr Tensor)
max_pool3d_tllllb :: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> CBool
-> IO (Ptr Tensor)
max_pool3d_tllllb Ptr Tensor
_self Ptr IntArray
_kernel_size Ptr IntArray
_stride Ptr IntArray
_padding Ptr IntArray
_dilation CBool
_ceil_mode =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::max_pool3d(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _kernel_size)
, *$(std::vector<int64_t>* _stride)
, *$(std::vector<int64_t>* _padding)
, *$(std::vector<int64_t>* _dilation)
, $(bool _ceil_mode)));
}|]
max_pool3d_tllll
:: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
max_pool3d_tllll :: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
max_pool3d_tllll Ptr Tensor
_self Ptr IntArray
_kernel_size Ptr IntArray
_stride Ptr IntArray
_padding Ptr IntArray
_dilation =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::max_pool3d(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _kernel_size)
, *$(std::vector<int64_t>* _stride)
, *$(std::vector<int64_t>* _padding)
, *$(std::vector<int64_t>* _dilation)));
}|]
max_pool3d_tlll
:: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
max_pool3d_tlll :: Ptr Tensor
-> Ptr IntArray -> Ptr IntArray -> Ptr IntArray -> IO (Ptr Tensor)
max_pool3d_tlll Ptr Tensor
_self Ptr IntArray
_kernel_size Ptr IntArray
_stride Ptr IntArray
_padding =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::max_pool3d(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _kernel_size)
, *$(std::vector<int64_t>* _stride)
, *$(std::vector<int64_t>* _padding)));
}|]
max_pool3d_tll
:: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
max_pool3d_tll :: Ptr Tensor -> Ptr IntArray -> Ptr IntArray -> IO (Ptr Tensor)
max_pool3d_tll Ptr Tensor
_self Ptr IntArray
_kernel_size Ptr IntArray
_stride =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::max_pool3d(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _kernel_size)
, *$(std::vector<int64_t>* _stride)));
}|]
max_pool3d_tl
:: Ptr Tensor
-> Ptr IntArray
-> IO (Ptr Tensor)
max_pool3d_tl :: Ptr Tensor -> Ptr IntArray -> IO (Ptr Tensor)
max_pool3d_tl Ptr Tensor
_self Ptr IntArray
_kernel_size =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::max_pool3d(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _kernel_size)));
}|]
mean_ts
:: Ptr Tensor
-> ScalarType
-> IO (Ptr Tensor)
mean_ts :: Ptr Tensor -> ScalarType -> IO (Ptr Tensor)
mean_ts Ptr Tensor
_self ScalarType
_dtype =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::mean(
*$(at::Tensor* _self)
, $(at::ScalarType _dtype)));
}|]
mean_t
:: Ptr Tensor
-> IO (Ptr Tensor)
mean_t :: Ptr Tensor -> IO (Ptr Tensor)
mean_t Ptr Tensor
_self =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::mean(
*$(at::Tensor* _self)));
}|]
mean_tlbs
:: Ptr Tensor
-> Ptr IntArray
-> CBool
-> ScalarType
-> IO (Ptr Tensor)
mean_tlbs :: Ptr Tensor
-> Ptr IntArray -> CBool -> ScalarType -> IO (Ptr Tensor)
mean_tlbs Ptr Tensor
_self Ptr IntArray
_dim CBool
_keepdim ScalarType
_dtype =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::mean(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _dim)
, $(bool _keepdim)
, $(at::ScalarType _dtype)));
}|]
mean_tlb
:: Ptr Tensor
-> Ptr IntArray
-> CBool
-> IO (Ptr Tensor)
mean_tlb :: Ptr Tensor -> Ptr IntArray -> CBool -> IO (Ptr Tensor)
mean_tlb Ptr Tensor
_self Ptr IntArray
_dim CBool
_keepdim =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::mean(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _dim)
, $(bool _keepdim)));
}|]
mean_tl
:: Ptr Tensor
-> Ptr IntArray
-> IO (Ptr Tensor)
mean_tl :: Ptr Tensor -> Ptr IntArray -> IO (Ptr Tensor)
mean_tl Ptr Tensor
_self Ptr IntArray
_dim =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::mean(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _dim)));
}|]
mean_out_ttlbs
:: Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> CBool
-> ScalarType
-> IO (Ptr Tensor)
mean_out_ttlbs :: Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> CBool
-> ScalarType
-> IO (Ptr Tensor)
mean_out_ttlbs Ptr Tensor
_out Ptr Tensor
_self Ptr IntArray
_dim CBool
_keepdim ScalarType
_dtype =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::mean_out(
*$(at::Tensor* _out)
, *$(at::Tensor* _self)
, *$(std::vector<int64_t>* _dim)
, $(bool _keepdim)
, $(at::ScalarType _dtype)));
}|]
mean_out_ttlb
:: Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> CBool
-> IO (Ptr Tensor)
mean_out_ttlb :: Ptr Tensor
-> Ptr Tensor -> Ptr IntArray -> CBool -> IO (Ptr Tensor)
mean_out_ttlb Ptr Tensor
_out Ptr Tensor
_self Ptr IntArray
_dim CBool
_keepdim =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::mean_out(
*$(at::Tensor* _out)
, *$(at::Tensor* _self)
, *$(std::vector<int64_t>* _dim)
, $(bool _keepdim)));
}|]
mean_out_ttl
:: Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> IO (Ptr Tensor)
mean_out_ttl :: Ptr Tensor -> Ptr Tensor -> Ptr IntArray -> IO (Ptr Tensor)
mean_out_ttl Ptr Tensor
_out Ptr Tensor
_self Ptr IntArray
_dim =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::mean_out(
*$(at::Tensor* _out)
, *$(at::Tensor* _self)
, *$(std::vector<int64_t>* _dim)));
}|]
mean_tNbs
:: Ptr Tensor
-> Ptr DimnameList
-> CBool
-> ScalarType
-> IO (Ptr Tensor)
mean_tNbs :: Ptr Tensor
-> Ptr DimnameList -> CBool -> ScalarType -> IO (Ptr Tensor)
mean_tNbs Ptr Tensor
_self Ptr DimnameList
_dim CBool
_keepdim ScalarType
_dtype =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::mean(
*$(at::Tensor* _self)
, *$(std::vector<at::Dimname>* _dim)
, $(bool _keepdim)
, $(at::ScalarType _dtype)));
}|]
mean_tNb
:: Ptr Tensor
-> Ptr DimnameList
-> CBool
-> IO (Ptr Tensor)
mean_tNb :: Ptr Tensor -> Ptr DimnameList -> CBool -> IO (Ptr Tensor)
mean_tNb Ptr Tensor
_self Ptr DimnameList
_dim CBool
_keepdim =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::mean(
*$(at::Tensor* _self)
, *$(std::vector<at::Dimname>* _dim)
, $(bool _keepdim)));
}|]
mean_tN
:: Ptr Tensor
-> Ptr DimnameList
-> IO (Ptr Tensor)
mean_tN :: Ptr Tensor -> Ptr DimnameList -> IO (Ptr Tensor)
mean_tN Ptr Tensor
_self Ptr DimnameList
_dim =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::mean(
*$(at::Tensor* _self)
, *$(std::vector<at::Dimname>* _dim)));
}|]
mean_out_ttNbs
:: Ptr Tensor
-> Ptr Tensor
-> Ptr DimnameList
-> CBool
-> ScalarType
-> IO (Ptr Tensor)
mean_out_ttNbs :: Ptr Tensor
-> Ptr Tensor
-> Ptr DimnameList
-> CBool
-> ScalarType
-> IO (Ptr Tensor)
mean_out_ttNbs Ptr Tensor
_out Ptr Tensor
_self Ptr DimnameList
_dim CBool
_keepdim ScalarType
_dtype =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::mean_out(
*$(at::Tensor* _out)
, *$(at::Tensor* _self)
, *$(std::vector<at::Dimname>* _dim)
, $(bool _keepdim)
, $(at::ScalarType _dtype)));
}|]
mean_out_ttNb
:: Ptr Tensor
-> Ptr Tensor
-> Ptr DimnameList
-> CBool
-> IO (Ptr Tensor)
mean_out_ttNb :: Ptr Tensor
-> Ptr Tensor -> Ptr DimnameList -> CBool -> IO (Ptr Tensor)
mean_out_ttNb Ptr Tensor
_out Ptr Tensor
_self Ptr DimnameList
_dim CBool
_keepdim =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::mean_out(
*$(at::Tensor* _out)
, *$(at::Tensor* _self)
, *$(std::vector<at::Dimname>* _dim)
, $(bool _keepdim)));
}|]
mean_out_ttN
:: Ptr Tensor
-> Ptr Tensor
-> Ptr DimnameList
-> IO (Ptr Tensor)
mean_out_ttN :: Ptr Tensor -> Ptr Tensor -> Ptr DimnameList -> IO (Ptr Tensor)
mean_out_ttN Ptr Tensor
_out Ptr Tensor
_self Ptr DimnameList
_dim =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::mean_out(
*$(at::Tensor* _out)
, *$(at::Tensor* _self)
, *$(std::vector<at::Dimname>* _dim)));
}|]
nanmean_tlbs
:: Ptr Tensor
-> Ptr IntArray
-> CBool
-> ScalarType
-> IO (Ptr Tensor)
nanmean_tlbs :: Ptr Tensor
-> Ptr IntArray -> CBool -> ScalarType -> IO (Ptr Tensor)
nanmean_tlbs Ptr Tensor
_self Ptr IntArray
_dim CBool
_keepdim ScalarType
_dtype =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::nanmean(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _dim)
, $(bool _keepdim)
, $(at::ScalarType _dtype)));
}|]
nanmean_tlb
:: Ptr Tensor
-> Ptr IntArray
-> CBool
-> IO (Ptr Tensor)
nanmean_tlb :: Ptr Tensor -> Ptr IntArray -> CBool -> IO (Ptr Tensor)
nanmean_tlb Ptr Tensor
_self Ptr IntArray
_dim CBool
_keepdim =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::nanmean(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _dim)
, $(bool _keepdim)));
}|]
nanmean_tl
:: Ptr Tensor
-> Ptr IntArray
-> IO (Ptr Tensor)
nanmean_tl :: Ptr Tensor -> Ptr IntArray -> IO (Ptr Tensor)
nanmean_tl Ptr Tensor
_self Ptr IntArray
_dim =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::nanmean(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _dim)));
}|]
nanmean_t
:: Ptr Tensor
-> IO (Ptr Tensor)
nanmean_t :: Ptr Tensor -> IO (Ptr Tensor)
nanmean_t Ptr Tensor
_self =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::nanmean(
*$(at::Tensor* _self)));
}|]
nanmean_out_ttlbs
:: Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> CBool
-> ScalarType
-> IO (Ptr Tensor)
nanmean_out_ttlbs :: Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> CBool
-> ScalarType
-> IO (Ptr Tensor)
nanmean_out_ttlbs Ptr Tensor
_out Ptr Tensor
_self Ptr IntArray
_dim CBool
_keepdim ScalarType
_dtype =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::nanmean_out(
*$(at::Tensor* _out)
, *$(at::Tensor* _self)
, *$(std::vector<int64_t>* _dim)
, $(bool _keepdim)
, $(at::ScalarType _dtype)));
}|]
nanmean_out_ttlb
:: Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> CBool
-> IO (Ptr Tensor)
nanmean_out_ttlb :: Ptr Tensor
-> Ptr Tensor -> Ptr IntArray -> CBool -> IO (Ptr Tensor)
nanmean_out_ttlb Ptr Tensor
_out Ptr Tensor
_self Ptr IntArray
_dim CBool
_keepdim =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::nanmean_out(
*$(at::Tensor* _out)
, *$(at::Tensor* _self)
, *$(std::vector<int64_t>* _dim)
, $(bool _keepdim)));
}|]
nanmean_out_ttl
:: Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> IO (Ptr Tensor)
nanmean_out_ttl :: Ptr Tensor -> Ptr Tensor -> Ptr IntArray -> IO (Ptr Tensor)
nanmean_out_ttl Ptr Tensor
_out Ptr Tensor
_self Ptr IntArray
_dim =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::nanmean_out(
*$(at::Tensor* _out)
, *$(at::Tensor* _self)
, *$(std::vector<int64_t>* _dim)));
}|]
nanmean_out_tt
:: Ptr Tensor
-> Ptr Tensor
-> IO (Ptr Tensor)
nanmean_out_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor)
nanmean_out_tt Ptr Tensor
_out Ptr Tensor
_self =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::nanmean_out(
*$(at::Tensor* _out)
, *$(at::Tensor* _self)));
}|]
median_t
:: Ptr Tensor
-> IO (Ptr Tensor)
median_t :: Ptr Tensor -> IO (Ptr Tensor)
median_t Ptr Tensor
_self =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::median(
*$(at::Tensor* _self)));
}|]
median_tlb
:: Ptr Tensor
-> Int64
-> CBool
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
median_tlb :: Ptr Tensor
-> Int64 -> CBool -> IO (Ptr (StdTuple '(Tensor, Tensor)))
median_tlb Ptr Tensor
_self Int64
_dim CBool
_keepdim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::median(
*$(at::Tensor* _self)
, $(int64_t _dim)
, $(bool _keepdim)));
}|]
median_tl
:: Ptr Tensor
-> Int64
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
median_tl :: Ptr Tensor -> Int64 -> IO (Ptr (StdTuple '(Tensor, Tensor)))
median_tl Ptr Tensor
_self Int64
_dim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::median(
*$(at::Tensor* _self)
, $(int64_t _dim)));
}|]
median_out_tttlb
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Int64
-> CBool
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
median_out_tttlb :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Int64
-> CBool
-> IO (Ptr (StdTuple '(Tensor, Tensor)))
median_out_tttlb Ptr Tensor
_values Ptr Tensor
_indices Ptr Tensor
_self Int64
_dim CBool
_keepdim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::median_out(
*$(at::Tensor* _values)
, *$(at::Tensor* _indices)
, *$(at::Tensor* _self)
, $(int64_t _dim)
, $(bool _keepdim)));
}|]
median_out_tttl
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Int64
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
median_out_tttl :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Int64
-> IO (Ptr (StdTuple '(Tensor, Tensor)))
median_out_tttl Ptr Tensor
_values Ptr Tensor
_indices Ptr Tensor
_self Int64
_dim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::median_out(
*$(at::Tensor* _values)
, *$(at::Tensor* _indices)
, *$(at::Tensor* _self)
, $(int64_t _dim)));
}|]
median_tnb
:: Ptr Tensor
-> Ptr Dimname
-> CBool
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
median_tnb :: Ptr Tensor
-> Ptr Dimname -> CBool -> IO (Ptr (StdTuple '(Tensor, Tensor)))
median_tnb Ptr Tensor
_self Ptr Dimname
_dim CBool
_keepdim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::median(
*$(at::Tensor* _self)
, *$(at::Dimname* _dim)
, $(bool _keepdim)));
}|]
median_tn
:: Ptr Tensor
-> Ptr Dimname
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
median_tn :: Ptr Tensor -> Ptr Dimname -> IO (Ptr (StdTuple '(Tensor, Tensor)))
median_tn Ptr Tensor
_self Ptr Dimname
_dim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::median(
*$(at::Tensor* _self)
, *$(at::Dimname* _dim)));
}|]
median_out_tttnb
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Dimname
-> CBool
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
median_out_tttnb :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Dimname
-> CBool
-> IO (Ptr (StdTuple '(Tensor, Tensor)))
median_out_tttnb Ptr Tensor
_values Ptr Tensor
_indices Ptr Tensor
_self Ptr Dimname
_dim CBool
_keepdim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::median_out(
*$(at::Tensor* _values)
, *$(at::Tensor* _indices)
, *$(at::Tensor* _self)
, *$(at::Dimname* _dim)
, $(bool _keepdim)));
}|]
median_out_tttn
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Dimname
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
median_out_tttn :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Dimname
-> IO (Ptr (StdTuple '(Tensor, Tensor)))
median_out_tttn Ptr Tensor
_values Ptr Tensor
_indices Ptr Tensor
_self Ptr Dimname
_dim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::median_out(
*$(at::Tensor* _values)
, *$(at::Tensor* _indices)
, *$(at::Tensor* _self)
, *$(at::Dimname* _dim)));
}|]
nanmedian_t
:: Ptr Tensor
-> IO (Ptr Tensor)
nanmedian_t :: Ptr Tensor -> IO (Ptr Tensor)
nanmedian_t Ptr Tensor
_self =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::nanmedian(
*$(at::Tensor* _self)));
}|]
nanmedian_tlb
:: Ptr Tensor
-> Int64
-> CBool
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
nanmedian_tlb :: Ptr Tensor
-> Int64 -> CBool -> IO (Ptr (StdTuple '(Tensor, Tensor)))
nanmedian_tlb Ptr Tensor
_self Int64
_dim CBool
_keepdim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::nanmedian(
*$(at::Tensor* _self)
, $(int64_t _dim)
, $(bool _keepdim)));
}|]
nanmedian_tl
:: Ptr Tensor
-> Int64
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
nanmedian_tl :: Ptr Tensor -> Int64 -> IO (Ptr (StdTuple '(Tensor, Tensor)))
nanmedian_tl Ptr Tensor
_self Int64
_dim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::nanmedian(
*$(at::Tensor* _self)
, $(int64_t _dim)));
}|]
nanmedian_out_tttlb
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Int64
-> CBool
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
nanmedian_out_tttlb :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Int64
-> CBool
-> IO (Ptr (StdTuple '(Tensor, Tensor)))
nanmedian_out_tttlb Ptr Tensor
_values Ptr Tensor
_indices Ptr Tensor
_self Int64
_dim CBool
_keepdim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::nanmedian_out(
*$(at::Tensor* _values)
, *$(at::Tensor* _indices)
, *$(at::Tensor* _self)
, $(int64_t _dim)
, $(bool _keepdim)));
}|]
nanmedian_out_tttl
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Int64
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
nanmedian_out_tttl :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Int64
-> IO (Ptr (StdTuple '(Tensor, Tensor)))
nanmedian_out_tttl Ptr Tensor
_values Ptr Tensor
_indices Ptr Tensor
_self Int64
_dim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::nanmedian_out(
*$(at::Tensor* _values)
, *$(at::Tensor* _indices)
, *$(at::Tensor* _self)
, $(int64_t _dim)));
}|]
nanmedian_tnb
:: Ptr Tensor
-> Ptr Dimname
-> CBool
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
nanmedian_tnb :: Ptr Tensor
-> Ptr Dimname -> CBool -> IO (Ptr (StdTuple '(Tensor, Tensor)))
nanmedian_tnb Ptr Tensor
_self Ptr Dimname
_dim CBool
_keepdim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::nanmedian(
*$(at::Tensor* _self)
, *$(at::Dimname* _dim)
, $(bool _keepdim)));
}|]
nanmedian_tn
:: Ptr Tensor
-> Ptr Dimname
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
nanmedian_tn :: Ptr Tensor -> Ptr Dimname -> IO (Ptr (StdTuple '(Tensor, Tensor)))
nanmedian_tn Ptr Tensor
_self Ptr Dimname
_dim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::nanmedian(
*$(at::Tensor* _self)
, *$(at::Dimname* _dim)));
}|]
nanmedian_out_tttnb
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Dimname
-> CBool
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
nanmedian_out_tttnb :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Dimname
-> CBool
-> IO (Ptr (StdTuple '(Tensor, Tensor)))
nanmedian_out_tttnb Ptr Tensor
_values Ptr Tensor
_indices Ptr Tensor
_self Ptr Dimname
_dim CBool
_keepdim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::nanmedian_out(
*$(at::Tensor* _values)
, *$(at::Tensor* _indices)
, *$(at::Tensor* _self)
, *$(at::Dimname* _dim)
, $(bool _keepdim)));
}|]
nanmedian_out_tttn
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Dimname
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
nanmedian_out_tttn :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Dimname
-> IO (Ptr (StdTuple '(Tensor, Tensor)))
nanmedian_out_tttn Ptr Tensor
_values Ptr Tensor
_indices Ptr Tensor
_self Ptr Dimname
_dim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::nanmedian_out(
*$(at::Tensor* _values)
, *$(at::Tensor* _indices)
, *$(at::Tensor* _self)
, *$(at::Dimname* _dim)));
}|]
min_tlb
:: Ptr Tensor
-> Int64
-> CBool
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
min_tlb :: Ptr Tensor
-> Int64 -> CBool -> IO (Ptr (StdTuple '(Tensor, Tensor)))
min_tlb Ptr Tensor
_self Int64
_dim CBool
_keepdim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::min(
*$(at::Tensor* _self)
, $(int64_t _dim)
, $(bool _keepdim)));
}|]
min_tl
:: Ptr Tensor
-> Int64
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
min_tl :: Ptr Tensor -> Int64 -> IO (Ptr (StdTuple '(Tensor, Tensor)))
min_tl Ptr Tensor
_self Int64
_dim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::min(
*$(at::Tensor* _self)
, $(int64_t _dim)));
}|]
min_out_tttlb
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Int64
-> CBool
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
min_out_tttlb :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Int64
-> CBool
-> IO (Ptr (StdTuple '(Tensor, Tensor)))
min_out_tttlb Ptr Tensor
_min Ptr Tensor
_min_indices Ptr Tensor
_self Int64
_dim CBool
_keepdim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::min_out(
*$(at::Tensor* _min)
, *$(at::Tensor* _min_indices)
, *$(at::Tensor* _self)
, $(int64_t _dim)
, $(bool _keepdim)));
}|]
min_out_tttl
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Int64
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
min_out_tttl :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Int64
-> IO (Ptr (StdTuple '(Tensor, Tensor)))
min_out_tttl Ptr Tensor
_min Ptr Tensor
_min_indices Ptr Tensor
_self Int64
_dim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::min_out(
*$(at::Tensor* _min)
, *$(at::Tensor* _min_indices)
, *$(at::Tensor* _self)
, $(int64_t _dim)));
}|]
min_tnb
:: Ptr Tensor
-> Ptr Dimname
-> CBool
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
min_tnb :: Ptr Tensor
-> Ptr Dimname -> CBool -> IO (Ptr (StdTuple '(Tensor, Tensor)))
min_tnb Ptr Tensor
_self Ptr Dimname
_dim CBool
_keepdim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::min(
*$(at::Tensor* _self)
, *$(at::Dimname* _dim)
, $(bool _keepdim)));
}|]
min_tn
:: Ptr Tensor
-> Ptr Dimname
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
min_tn :: Ptr Tensor -> Ptr Dimname -> IO (Ptr (StdTuple '(Tensor, Tensor)))
min_tn Ptr Tensor
_self Ptr Dimname
_dim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::min(
*$(at::Tensor* _self)
, *$(at::Dimname* _dim)));
}|]
min_out_tttnb
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Dimname
-> CBool
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
min_out_tttnb :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Dimname
-> CBool
-> IO (Ptr (StdTuple '(Tensor, Tensor)))
min_out_tttnb Ptr Tensor
_min Ptr Tensor
_min_indices Ptr Tensor
_self Ptr Dimname
_dim CBool
_keepdim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::min_out(
*$(at::Tensor* _min)
, *$(at::Tensor* _min_indices)
, *$(at::Tensor* _self)
, *$(at::Dimname* _dim)
, $(bool _keepdim)));
}|]
min_out_tttn
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Dimname
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
min_out_tttn :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Dimname
-> IO (Ptr (StdTuple '(Tensor, Tensor)))
min_out_tttn Ptr Tensor
_min Ptr Tensor
_min_indices Ptr Tensor
_self Ptr Dimname
_dim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::min_out(
*$(at::Tensor* _min)
, *$(at::Tensor* _min_indices)
, *$(at::Tensor* _self)
, *$(at::Dimname* _dim)));
}|]
amin_tlb
:: Ptr Tensor
-> Ptr IntArray
-> CBool
-> IO (Ptr Tensor)
amin_tlb :: Ptr Tensor -> Ptr IntArray -> CBool -> IO (Ptr Tensor)
amin_tlb Ptr Tensor
_self Ptr IntArray
_dim CBool
_keepdim =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::amin(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _dim)
, $(bool _keepdim)));
}|]
amin_tl
:: Ptr Tensor
-> Ptr IntArray
-> IO (Ptr Tensor)
amin_tl :: Ptr Tensor -> Ptr IntArray -> IO (Ptr Tensor)
amin_tl Ptr Tensor
_self Ptr IntArray
_dim =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::amin(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _dim)));
}|]
amin_t
:: Ptr Tensor
-> IO (Ptr Tensor)
amin_t :: Ptr Tensor -> IO (Ptr Tensor)
amin_t Ptr Tensor
_self =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::amin(
*$(at::Tensor* _self)));
}|]
amin_out_ttlb
:: Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> CBool
-> IO (Ptr Tensor)
amin_out_ttlb :: Ptr Tensor
-> Ptr Tensor -> Ptr IntArray -> CBool -> IO (Ptr Tensor)
amin_out_ttlb Ptr Tensor
_out Ptr Tensor
_self Ptr IntArray
_dim CBool
_keepdim =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::amin_out(
*$(at::Tensor* _out)
, *$(at::Tensor* _self)
, *$(std::vector<int64_t>* _dim)
, $(bool _keepdim)));
}|]
amin_out_ttl
:: Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> IO (Ptr Tensor)
amin_out_ttl :: Ptr Tensor -> Ptr Tensor -> Ptr IntArray -> IO (Ptr Tensor)
amin_out_ttl Ptr Tensor
_out Ptr Tensor
_self Ptr IntArray
_dim =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::amin_out(
*$(at::Tensor* _out)
, *$(at::Tensor* _self)
, *$(std::vector<int64_t>* _dim)));
}|]
amin_out_tt
:: Ptr Tensor
-> Ptr Tensor
-> IO (Ptr Tensor)
amin_out_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor)
amin_out_tt Ptr Tensor
_out Ptr Tensor
_self =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::amin_out(
*$(at::Tensor* _out)
, *$(at::Tensor* _self)));
}|]
_mps_convolution_tttllll
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Int64
-> IO (Ptr Tensor)
_mps_convolution_tttllll :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Int64
-> IO (Ptr Tensor)
_mps_convolution_tttllll Ptr Tensor
_self Ptr Tensor
_weight Ptr Tensor
_bias Ptr IntArray
_padding Ptr IntArray
_stride Ptr IntArray
_dilation Int64
_groups =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::_mps_convolution(
*$(at::Tensor* _self)
, *$(at::Tensor* _weight)
, *$(at::Tensor* _bias)
, *$(std::vector<int64_t>* _padding)
, *$(std::vector<int64_t>* _stride)
, *$(std::vector<int64_t>* _dilation)
, $(int64_t _groups)));
}|]
mps_convolution_backward_tttlllla
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Int64
-> Ptr (StdArray '(CBool,3))
-> IO (Ptr (StdTuple '(Tensor,Tensor,Tensor)))
mps_convolution_backward_tttlllla :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Int64
-> Ptr (StdArray '(CBool, 3))
-> IO (Ptr (StdTuple '(Tensor, Tensor, Tensor)))
mps_convolution_backward_tttlllla Ptr Tensor
_self Ptr Tensor
_grad_output Ptr Tensor
_weight Ptr IntArray
_padding Ptr IntArray
_stride Ptr IntArray
_dilation Int64
_groups Ptr (StdArray '(CBool, 3))
_output_mask =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor,at::Tensor>(at::mps_convolution_backward(
*$(at::Tensor* _self)
, *$(at::Tensor* _grad_output)
, *$(at::Tensor* _weight)
, *$(std::vector<int64_t>* _padding)
, *$(std::vector<int64_t>* _stride)
, *$(std::vector<int64_t>* _dilation)
, $(int64_t _groups)
, *$(std::array<bool,3>* _output_mask)));
}|]
mkldnn_convolution_tttllll
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Int64
-> IO (Ptr Tensor)
mkldnn_convolution_tttllll :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Int64
-> IO (Ptr Tensor)
mkldnn_convolution_tttllll Ptr Tensor
_self Ptr Tensor
_weight Ptr Tensor
_bias Ptr IntArray
_padding Ptr IntArray
_stride Ptr IntArray
_dilation Int64
_groups =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::mkldnn_convolution(
*$(at::Tensor* _self)
, *$(at::Tensor* _weight)
, *$(at::Tensor* _bias)
, *$(std::vector<int64_t>* _padding)
, *$(std::vector<int64_t>* _stride)
, *$(std::vector<int64_t>* _dilation)
, $(int64_t _groups)));
}|]
mkldnn_rnn_layer_tttttttbllllbbbb
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> CBool
-> Ptr IntArray
-> Int64
-> Int64
-> Int64
-> CBool
-> CBool
-> CBool
-> CBool
-> IO (Ptr (StdTuple '(Tensor,Tensor,Tensor,Tensor)))
mkldnn_rnn_layer_tttttttbllllbbbb :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> CBool
-> Ptr IntArray
-> Int64
-> Int64
-> Int64
-> CBool
-> CBool
-> CBool
-> CBool
-> IO (Ptr (StdTuple '(Tensor, Tensor, Tensor, Tensor)))
mkldnn_rnn_layer_tttttttbllllbbbb Ptr Tensor
_input Ptr Tensor
_weight0 Ptr Tensor
_weight1 Ptr Tensor
_weight2 Ptr Tensor
_weight3 Ptr Tensor
_hx_ Ptr Tensor
_cx_ CBool
_reverse Ptr IntArray
_batch_sizes Int64
_mode Int64
_hidden_size Int64
_num_layers CBool
_has_biases CBool
_bidirectional CBool
_batch_first CBool
_train =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor,at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor,at::Tensor,at::Tensor>(at::mkldnn_rnn_layer(
*$(at::Tensor* _input)
, *$(at::Tensor* _weight0)
, *$(at::Tensor* _weight1)
, *$(at::Tensor* _weight2)
, *$(at::Tensor* _weight3)
, *$(at::Tensor* _hx_)
, *$(at::Tensor* _cx_)
, $(bool _reverse)
, *$(std::vector<int64_t>* _batch_sizes)
, $(int64_t _mode)
, $(int64_t _hidden_size)
, $(int64_t _num_layers)
, $(bool _has_biases)
, $(bool _bidirectional)
, $(bool _batch_first)
, $(bool _train)));
}|]
mkldnn_rnn_layer_backward_tttttttttttttblllbbblbt
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> CBool
-> Int64
-> Int64
-> Int64
-> CBool
-> CBool
-> CBool
-> Ptr IntArray
-> CBool
-> Ptr Tensor
-> IO (Ptr (StdTuple '(Tensor,Tensor,Tensor,Tensor,Tensor,Tensor,Tensor)))
mkldnn_rnn_layer_backward_tttttttttttttblllbbblbt :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> CBool
-> Int64
-> Int64
-> Int64
-> CBool
-> CBool
-> CBool
-> Ptr IntArray
-> CBool
-> Ptr Tensor
-> IO
(Ptr
(StdTuple
'(Tensor, Tensor, Tensor, Tensor, Tensor, Tensor, Tensor)))
mkldnn_rnn_layer_backward_tttttttttttttblllbbblbt Ptr Tensor
_input Ptr Tensor
_weight1 Ptr Tensor
_weight2 Ptr Tensor
_weight3 Ptr Tensor
_weight4 Ptr Tensor
_hx_ Ptr Tensor
_cx_tmp Ptr Tensor
_output Ptr Tensor
_hy_ Ptr Tensor
_cy_ Ptr Tensor
_grad_output Ptr Tensor
_grad_hy Ptr Tensor
_grad_cy CBool
_reverse Int64
_mode Int64
_hidden_size Int64
_num_layers CBool
_has_biases CBool
_train CBool
_bidirectional Ptr IntArray
_batch_sizes CBool
_batch_first Ptr Tensor
_workspace =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor,at::Tensor,at::Tensor,at::Tensor,at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor,at::Tensor,at::Tensor,at::Tensor,at::Tensor,at::Tensor>(at::mkldnn_rnn_layer_backward(
*$(at::Tensor* _input)
, *$(at::Tensor* _weight1)
, *$(at::Tensor* _weight2)
, *$(at::Tensor* _weight3)
, *$(at::Tensor* _weight4)
, *$(at::Tensor* _hx_)
, *$(at::Tensor* _cx_tmp)
, *$(at::Tensor* _output)
, *$(at::Tensor* _hy_)
, *$(at::Tensor* _cy_)
, *$(at::Tensor* _grad_output)
, *$(at::Tensor* _grad_hy)
, *$(at::Tensor* _grad_cy)
, $(bool _reverse)
, $(int64_t _mode)
, $(int64_t _hidden_size)
, $(int64_t _num_layers)
, $(bool _has_biases)
, $(bool _train)
, $(bool _bidirectional)
, *$(std::vector<int64_t>* _batch_sizes)
, $(bool _batch_first)
, *$(at::Tensor* _workspace)));
}|]
miopen_batch_norm_tttttbdd
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> CBool
-> CDouble
-> CDouble
-> IO (Ptr (StdTuple '(Tensor,Tensor,Tensor)))
miopen_batch_norm_tttttbdd :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> CBool
-> CDouble
-> CDouble
-> IO (Ptr (StdTuple '(Tensor, Tensor, Tensor)))
miopen_batch_norm_tttttbdd Ptr Tensor
_input Ptr Tensor
_weight Ptr Tensor
_bias Ptr Tensor
_running_mean Ptr Tensor
_running_var CBool
_training CDouble
_exponential_average_factor CDouble
_epsilon =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor,at::Tensor>(at::miopen_batch_norm(
*$(at::Tensor* _input)
, *$(at::Tensor* _weight)
, *$(at::Tensor* _bias)
, *$(at::Tensor* _running_mean)
, *$(at::Tensor* _running_var)
, $(bool _training)
, $(double _exponential_average_factor)
, $(double _epsilon)));
}|]
miopen_batch_norm_backward_tttttttd
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> CDouble
-> IO (Ptr (StdTuple '(Tensor,Tensor,Tensor)))
miopen_batch_norm_backward_tttttttd :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> CDouble
-> IO (Ptr (StdTuple '(Tensor, Tensor, Tensor)))
miopen_batch_norm_backward_tttttttd Ptr Tensor
_input Ptr Tensor
_grad_output Ptr Tensor
_weight Ptr Tensor
_running_mean Ptr Tensor
_running_var Ptr Tensor
_save_mean Ptr Tensor
_save_var CDouble
_epsilon =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor,at::Tensor>(at::miopen_batch_norm_backward(
*$(at::Tensor* _input)
, *$(at::Tensor* _grad_output)
, *$(at::Tensor* _weight)
, *$(at::Tensor* _running_mean)
, *$(at::Tensor* _running_var)
, *$(at::Tensor* _save_mean)
, *$(at::Tensor* _save_var)
, $(double _epsilon)));
}|]
miopen_convolution_tttllllbb
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Int64
-> CBool
-> CBool
-> IO (Ptr Tensor)
miopen_convolution_tttllllbb :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Int64
-> CBool
-> CBool
-> IO (Ptr Tensor)
miopen_convolution_tttllllbb Ptr Tensor
_self Ptr Tensor
_weight Ptr Tensor
_bias Ptr IntArray
_padding Ptr IntArray
_stride Ptr IntArray
_dilation Int64
_groups CBool
_benchmark CBool
_deterministic =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::miopen_convolution(
*$(at::Tensor* _self)
, *$(at::Tensor* _weight)
, *$(at::Tensor* _bias)
, *$(std::vector<int64_t>* _padding)
, *$(std::vector<int64_t>* _stride)
, *$(std::vector<int64_t>* _dilation)
, $(int64_t _groups)
, $(bool _benchmark)
, $(bool _deterministic)));
}|]
miopen_convolution_transpose_tttlllllbb
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Int64
-> CBool
-> CBool
-> IO (Ptr Tensor)
miopen_convolution_transpose_tttlllllbb :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Int64
-> CBool
-> CBool
-> IO (Ptr Tensor)
miopen_convolution_transpose_tttlllllbb Ptr Tensor
_self Ptr Tensor
_weight Ptr Tensor
_bias Ptr IntArray
_padding Ptr IntArray
_output_padding Ptr IntArray
_stride Ptr IntArray
_dilation Int64
_groups CBool
_benchmark CBool
_deterministic =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::miopen_convolution_transpose(
*$(at::Tensor* _self)
, *$(at::Tensor* _weight)
, *$(at::Tensor* _bias)
, *$(std::vector<int64_t>* _padding)
, *$(std::vector<int64_t>* _output_padding)
, *$(std::vector<int64_t>* _stride)
, *$(std::vector<int64_t>* _dilation)
, $(int64_t _groups)
, $(bool _benchmark)
, $(bool _deterministic)));
}|]
miopen_depthwise_convolution_tttllllbb
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Int64
-> CBool
-> CBool
-> IO (Ptr Tensor)
miopen_depthwise_convolution_tttllllbb :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Int64
-> CBool
-> CBool
-> IO (Ptr Tensor)
miopen_depthwise_convolution_tttllllbb Ptr Tensor
_self Ptr Tensor
_weight Ptr Tensor
_bias Ptr IntArray
_padding Ptr IntArray
_stride Ptr IntArray
_dilation Int64
_groups CBool
_benchmark CBool
_deterministic =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::miopen_depthwise_convolution(
*$(at::Tensor* _self)
, *$(at::Tensor* _weight)
, *$(at::Tensor* _bias)
, *$(std::vector<int64_t>* _padding)
, *$(std::vector<int64_t>* _stride)
, *$(std::vector<int64_t>* _dilation)
, $(int64_t _groups)
, $(bool _benchmark)
, $(bool _deterministic)));
}|]
miopen_convolution_relu_tttllll
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Int64
-> IO (Ptr Tensor)
miopen_convolution_relu_tttllll :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Int64
-> IO (Ptr Tensor)
miopen_convolution_relu_tttllll Ptr Tensor
_self Ptr Tensor
_weight Ptr Tensor
_bias Ptr IntArray
_stride Ptr IntArray
_padding Ptr IntArray
_dilation Int64
_groups =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::miopen_convolution_relu(
*$(at::Tensor* _self)
, *$(at::Tensor* _weight)
, *$(at::Tensor* _bias)
, *$(std::vector<int64_t>* _stride)
, *$(std::vector<int64_t>* _padding)
, *$(std::vector<int64_t>* _dilation)
, $(int64_t _groups)));
}|]
miopen_convolution_add_relu_tttstllll
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Scalar
-> Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Int64
-> IO (Ptr Tensor)
miopen_convolution_add_relu_tttstllll :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Scalar
-> Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> Ptr IntArray
-> Int64
-> IO (Ptr Tensor)
miopen_convolution_add_relu_tttstllll Ptr Tensor
_self Ptr Tensor
_weight Ptr Tensor
_z Ptr Scalar
_alpha Ptr Tensor
_bias Ptr IntArray
_stride Ptr IntArray
_padding Ptr IntArray
_dilation Int64
_groups =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::miopen_convolution_add_relu(
*$(at::Tensor* _self)
, *$(at::Tensor* _weight)
, *$(at::Tensor* _z)
, *$(at::Scalar* _alpha)
, *$(at::Tensor* _bias)
, *$(std::vector<int64_t>* _stride)
, *$(std::vector<int64_t>* _padding)
, *$(std::vector<int64_t>* _dilation)
, $(int64_t _groups)));
}|]
miopen_rnn_tllttlllbdbblt
:: Ptr Tensor
-> Ptr TensorList
-> Int64
-> Ptr Tensor
-> Ptr Tensor
-> Int64
-> Int64
-> Int64
-> CBool
-> CDouble
-> CBool
-> CBool
-> Ptr IntArray
-> Ptr Tensor
-> IO (Ptr (StdTuple '(Tensor,Tensor,Tensor,Tensor,Tensor)))
miopen_rnn_tllttlllbdbblt :: Ptr Tensor
-> Ptr TensorList
-> Int64
-> Ptr Tensor
-> Ptr Tensor
-> Int64
-> Int64
-> Int64
-> CBool
-> CDouble
-> CBool
-> CBool
-> Ptr IntArray
-> Ptr Tensor
-> IO (Ptr (StdTuple '(Tensor, Tensor, Tensor, Tensor, Tensor)))
miopen_rnn_tllttlllbdbblt Ptr Tensor
_input Ptr TensorList
_weight Int64
_weight_stride0 Ptr Tensor
_hx Ptr Tensor
_cx Int64
_mode Int64
_hidden_size Int64
_num_layers CBool
_batch_first CDouble
_dropout CBool
_train CBool
_bidirectional Ptr IntArray
_batch_sizes Ptr Tensor
_dropout_state =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor,at::Tensor,at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor,at::Tensor,at::Tensor,at::Tensor>(at::miopen_rnn(
*$(at::Tensor* _input)
, *$(std::vector<at::Tensor>* _weight)
, $(int64_t _weight_stride0)
, *$(at::Tensor* _hx)
, *$(at::Tensor* _cx)
, $(int64_t _mode)
, $(int64_t _hidden_size)
, $(int64_t _num_layers)
, $(bool _batch_first)
, $(double _dropout)
, $(bool _train)
, $(bool _bidirectional)
, *$(std::vector<int64_t>* _batch_sizes)
, *$(at::Tensor* _dropout_state)));
}|]
miopen_rnn_backward_tlltttttttlllbdbbltta
:: Ptr Tensor
-> Ptr TensorList
-> Int64
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Int64
-> Int64
-> Int64
-> CBool
-> CDouble
-> CBool
-> CBool
-> Ptr IntArray
-> Ptr Tensor
-> Ptr Tensor
-> Ptr (StdArray '(CBool,4))
-> IO (Ptr (StdTuple '(Tensor,Tensor,Tensor,TensorList)))
miopen_rnn_backward_tlltttttttlllbdbbltta :: Ptr Tensor
-> Ptr TensorList
-> Int64
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Int64
-> Int64
-> Int64
-> CBool
-> CDouble
-> CBool
-> CBool
-> Ptr IntArray
-> Ptr Tensor
-> Ptr Tensor
-> Ptr (StdArray '(CBool, 4))
-> IO (Ptr (StdTuple '(Tensor, Tensor, Tensor, TensorList)))
miopen_rnn_backward_tlltttttttlllbdbbltta Ptr Tensor
_input Ptr TensorList
_weight Int64
_weight_stride0 Ptr Tensor
_weight_buf Ptr Tensor
_hx Ptr Tensor
_cx Ptr Tensor
_output Ptr Tensor
_grad_output Ptr Tensor
_grad_hy Ptr Tensor
_grad_cy Int64
_mode Int64
_hidden_size Int64
_num_layers CBool
_batch_first CDouble
_dropout CBool
_train CBool
_bidirectional Ptr IntArray
_batch_sizes Ptr Tensor
_dropout_state Ptr Tensor
_reserve Ptr (StdArray '(CBool, 4))
_output_mask =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor,at::Tensor,std::vector<at::Tensor>>* { return new std::tuple<at::Tensor,at::Tensor,at::Tensor,std::vector<at::Tensor>>(at::miopen_rnn_backward(
*$(at::Tensor* _input)
, *$(std::vector<at::Tensor>* _weight)
, $(int64_t _weight_stride0)
, *$(at::Tensor* _weight_buf)
, *$(at::Tensor* _hx)
, *$(at::Tensor* _cx)
, *$(at::Tensor* _output)
, *$(at::Tensor* _grad_output)
, *$(at::Tensor* _grad_hy)
, *$(at::Tensor* _grad_cy)
, $(int64_t _mode)
, $(int64_t _hidden_size)
, $(int64_t _num_layers)
, $(bool _batch_first)
, $(double _dropout)
, $(bool _train)
, $(bool _bidirectional)
, *$(std::vector<int64_t>* _batch_sizes)
, *$(at::Tensor* _dropout_state)
, *$(at::Tensor* _reserve)
, *$(std::array<bool,4>* _output_mask)));
}|]
mm_tt
:: Ptr Tensor
-> Ptr Tensor
-> IO (Ptr Tensor)
mm_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor)
mm_tt Ptr Tensor
_self Ptr Tensor
_mat2 =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::mm(
*$(at::Tensor* _self)
, *$(at::Tensor* _mat2)));
}|]
mm_out_ttt
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> IO (Ptr Tensor)
mm_out_ttt :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor)
mm_out_ttt Ptr Tensor
_out Ptr Tensor
_self Ptr Tensor
_mat2 =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::mm_out(
*$(at::Tensor* _out)
, *$(at::Tensor* _self)
, *$(at::Tensor* _mat2)));
}|]
_sparse_mm_tt
:: Ptr Tensor
-> Ptr Tensor
-> IO (Ptr Tensor)
_sparse_mm_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor)
_sparse_mm_tt Ptr Tensor
_sparse Ptr Tensor
_dense =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::_sparse_mm(
*$(at::Tensor* _sparse)
, *$(at::Tensor* _dense)));
}|]
_sparse_mm_tts
:: Ptr Tensor
-> Ptr Tensor
-> Ptr StdString
-> IO (Ptr Tensor)
_sparse_mm_tts :: Ptr Tensor -> Ptr Tensor -> Ptr StdString -> IO (Ptr Tensor)
_sparse_mm_tts Ptr Tensor
_sparse Ptr Tensor
_dense Ptr StdString
_reduce =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::_sparse_mm(
*$(at::Tensor* _sparse)
, *$(at::Tensor* _dense)
, *$(std::string* _reduce)));
}|]
_sparse_sparse_matmul_tt
:: Ptr Tensor
-> Ptr Tensor
-> IO (Ptr Tensor)
_sparse_sparse_matmul_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor)
_sparse_sparse_matmul_tt Ptr Tensor
_self Ptr Tensor
_other =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::_sparse_sparse_matmul(
*$(at::Tensor* _self)
, *$(at::Tensor* _other)));
}|]
mode_tlb
:: Ptr Tensor
-> Int64
-> CBool
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
mode_tlb :: Ptr Tensor
-> Int64 -> CBool -> IO (Ptr (StdTuple '(Tensor, Tensor)))
mode_tlb Ptr Tensor
_self Int64
_dim CBool
_keepdim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::mode(
*$(at::Tensor* _self)
, $(int64_t _dim)
, $(bool _keepdim)));
}|]
mode_tl
:: Ptr Tensor
-> Int64
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
mode_tl :: Ptr Tensor -> Int64 -> IO (Ptr (StdTuple '(Tensor, Tensor)))
mode_tl Ptr Tensor
_self Int64
_dim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::mode(
*$(at::Tensor* _self)
, $(int64_t _dim)));
}|]
mode_t
:: Ptr Tensor
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
mode_t :: Ptr Tensor -> IO (Ptr (StdTuple '(Tensor, Tensor)))
mode_t Ptr Tensor
_self =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::mode(
*$(at::Tensor* _self)));
}|]
mode_out_tttlb
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Int64
-> CBool
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
mode_out_tttlb :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Int64
-> CBool
-> IO (Ptr (StdTuple '(Tensor, Tensor)))
mode_out_tttlb Ptr Tensor
_values Ptr Tensor
_indices Ptr Tensor
_self Int64
_dim CBool
_keepdim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::mode_out(
*$(at::Tensor* _values)
, *$(at::Tensor* _indices)
, *$(at::Tensor* _self)
, $(int64_t _dim)
, $(bool _keepdim)));
}|]
mode_out_tttl
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Int64
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
mode_out_tttl :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Int64
-> IO (Ptr (StdTuple '(Tensor, Tensor)))
mode_out_tttl Ptr Tensor
_values Ptr Tensor
_indices Ptr Tensor
_self Int64
_dim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::mode_out(
*$(at::Tensor* _values)
, *$(at::Tensor* _indices)
, *$(at::Tensor* _self)
, $(int64_t _dim)));
}|]
mode_out_ttt
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
mode_out_ttt :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> IO (Ptr (StdTuple '(Tensor, Tensor)))
mode_out_ttt Ptr Tensor
_values Ptr Tensor
_indices Ptr Tensor
_self =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::mode_out(
*$(at::Tensor* _values)
, *$(at::Tensor* _indices)
, *$(at::Tensor* _self)));
}|]
mode_tnb
:: Ptr Tensor
-> Ptr Dimname
-> CBool
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
mode_tnb :: Ptr Tensor
-> Ptr Dimname -> CBool -> IO (Ptr (StdTuple '(Tensor, Tensor)))
mode_tnb Ptr Tensor
_self Ptr Dimname
_dim CBool
_keepdim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::mode(
*$(at::Tensor* _self)
, *$(at::Dimname* _dim)
, $(bool _keepdim)));
}|]
mode_tn
:: Ptr Tensor
-> Ptr Dimname
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
mode_tn :: Ptr Tensor -> Ptr Dimname -> IO (Ptr (StdTuple '(Tensor, Tensor)))
mode_tn Ptr Tensor
_self Ptr Dimname
_dim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::mode(
*$(at::Tensor* _self)
, *$(at::Dimname* _dim)));
}|]
mode_out_tttnb
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Dimname
-> CBool
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
mode_out_tttnb :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Dimname
-> CBool
-> IO (Ptr (StdTuple '(Tensor, Tensor)))
mode_out_tttnb Ptr Tensor
_values Ptr Tensor
_indices Ptr Tensor
_self Ptr Dimname
_dim CBool
_keepdim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::mode_out(
*$(at::Tensor* _values)
, *$(at::Tensor* _indices)
, *$(at::Tensor* _self)
, *$(at::Dimname* _dim)
, $(bool _keepdim)));
}|]
mode_out_tttn
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Dimname
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
mode_out_tttn :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Dimname
-> IO (Ptr (StdTuple '(Tensor, Tensor)))
mode_out_tttn Ptr Tensor
_values Ptr Tensor
_indices Ptr Tensor
_self Ptr Dimname
_dim =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::mode_out(
*$(at::Tensor* _values)
, *$(at::Tensor* _indices)
, *$(at::Tensor* _self)
, *$(at::Dimname* _dim)));
}|]
mul_tt
:: Ptr Tensor
-> Ptr Tensor
-> IO (Ptr Tensor)
mul_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor)
mul_tt Ptr Tensor
_self Ptr Tensor
_other =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::mul(
*$(at::Tensor* _self)
, *$(at::Tensor* _other)));
}|]
mul_out_ttt
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> IO (Ptr Tensor)
mul_out_ttt :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor)
mul_out_ttt Ptr Tensor
_out Ptr Tensor
_self Ptr Tensor
_other =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::mul_out(
*$(at::Tensor* _out)
, *$(at::Tensor* _self)
, *$(at::Tensor* _other)));
}|]
mul_ts
:: Ptr Tensor
-> Ptr Scalar
-> IO (Ptr Tensor)
mul_ts :: Ptr Tensor -> Ptr Scalar -> IO (Ptr Tensor)
mul_ts Ptr Tensor
_self Ptr Scalar
_other =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::mul(
*$(at::Tensor* _self)
, *$(at::Scalar* _other)));
}|]
multiply_tt
:: Ptr Tensor
-> Ptr Tensor
-> IO (Ptr Tensor)
multiply_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor)
multiply_tt Ptr Tensor
_self Ptr Tensor
_other =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::multiply(
*$(at::Tensor* _self)
, *$(at::Tensor* _other)));
}|]
multiply_out_ttt
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> IO (Ptr Tensor)
multiply_out_ttt :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor)
multiply_out_ttt Ptr Tensor
_out Ptr Tensor
_self Ptr Tensor
_other =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::multiply_out(
*$(at::Tensor* _out)
, *$(at::Tensor* _self)
, *$(at::Tensor* _other)));
}|]
multiply_ts
:: Ptr Tensor
-> Ptr Scalar
-> IO (Ptr Tensor)
multiply_ts :: Ptr Tensor -> Ptr Scalar -> IO (Ptr Tensor)
multiply_ts Ptr Tensor
_self Ptr Scalar
_other =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::multiply(
*$(at::Tensor* _self)
, *$(at::Scalar* _other)));
}|]
mv_tt
:: Ptr Tensor
-> Ptr Tensor
-> IO (Ptr Tensor)
mv_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor)
mv_tt Ptr Tensor
_self Ptr Tensor
_vec =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::mv(
*$(at::Tensor* _self)
, *$(at::Tensor* _vec)));
}|]
mv_out_ttt
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> IO (Ptr Tensor)
mv_out_ttt :: Ptr Tensor -> Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor)
mv_out_ttt Ptr Tensor
_out Ptr Tensor
_self Ptr Tensor
_vec =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::mv_out(
*$(at::Tensor* _out)
, *$(at::Tensor* _self)
, *$(at::Tensor* _vec)));
}|]
mvlgamma_out_ttl
:: Ptr Tensor
-> Ptr Tensor
-> Int64
-> IO (Ptr Tensor)
mvlgamma_out_ttl :: Ptr Tensor -> Ptr Tensor -> Int64 -> IO (Ptr Tensor)
mvlgamma_out_ttl Ptr Tensor
_out Ptr Tensor
_self Int64
_p =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::mvlgamma_out(
*$(at::Tensor* _out)
, *$(at::Tensor* _self)
, $(int64_t _p)));
}|]
mvlgamma_tl
:: Ptr Tensor
-> Int64
-> IO (Ptr Tensor)
mvlgamma_tl :: Ptr Tensor -> Int64 -> IO (Ptr Tensor)
mvlgamma_tl Ptr Tensor
_self Int64
_p =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::mvlgamma(
*$(at::Tensor* _self)
, $(int64_t _p)));
}|]
narrow_copy_tlll
:: Ptr Tensor
-> Int64
-> Int64
-> Int64
-> IO (Ptr Tensor)
narrow_copy_tlll :: Ptr Tensor -> Int64 -> Int64 -> Int64 -> IO (Ptr Tensor)
narrow_copy_tlll Ptr Tensor
_self Int64
_dim Int64
_start Int64
_length =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::narrow_copy(
*$(at::Tensor* _self)
, $(int64_t _dim)
, $(int64_t _start)
, $(int64_t _length)));
}|]
narrow_copy_out_ttlll
:: Ptr Tensor
-> Ptr Tensor
-> Int64
-> Int64
-> Int64
-> IO (Ptr Tensor)
narrow_copy_out_ttlll :: Ptr Tensor
-> Ptr Tensor -> Int64 -> Int64 -> Int64 -> IO (Ptr Tensor)
narrow_copy_out_ttlll Ptr Tensor
_out Ptr Tensor
_self Int64
_dim Int64
_start Int64
_length =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::narrow_copy_out(
*$(at::Tensor* _out)
, *$(at::Tensor* _self)
, $(int64_t _dim)
, $(int64_t _start)
, $(int64_t _length)));
}|]
narrow_tlll
:: Ptr Tensor
-> Int64
-> Int64
-> Int64
-> IO (Ptr Tensor)
narrow_tlll :: Ptr Tensor -> Int64 -> Int64 -> Int64 -> IO (Ptr Tensor)
narrow_tlll Ptr Tensor
_self Int64
_dim Int64
_start Int64
_length =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::narrow(
*$(at::Tensor* _self)
, $(int64_t _dim)
, $(int64_t _start)
, $(int64_t _length)));
}|]
narrow_tltl
:: Ptr Tensor
-> Int64
-> Ptr Tensor
-> Int64
-> IO (Ptr Tensor)
narrow_tltl :: Ptr Tensor -> Int64 -> Ptr Tensor -> Int64 -> IO (Ptr Tensor)
narrow_tltl Ptr Tensor
_self Int64
_dim Ptr Tensor
_start Int64
_length =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::narrow(
*$(at::Tensor* _self)
, $(int64_t _dim)
, *$(at::Tensor* _start)
, $(int64_t _length)));
}|]
native_batch_norm_tttttbdd
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> CBool
-> CDouble
-> CDouble
-> IO (Ptr (StdTuple '(Tensor,Tensor,Tensor)))
native_batch_norm_tttttbdd :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> CBool
-> CDouble
-> CDouble
-> IO (Ptr (StdTuple '(Tensor, Tensor, Tensor)))
native_batch_norm_tttttbdd Ptr Tensor
_input Ptr Tensor
_weight Ptr Tensor
_bias Ptr Tensor
_running_mean Ptr Tensor
_running_var CBool
_training CDouble
_momentum CDouble
_eps =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor,at::Tensor>(at::native_batch_norm(
*$(at::Tensor* _input)
, *$(at::Tensor* _weight)
, *$(at::Tensor* _bias)
, *$(at::Tensor* _running_mean)
, *$(at::Tensor* _running_var)
, $(bool _training)
, $(double _momentum)
, $(double _eps)));
}|]
native_batch_norm_out_ttttttttbdd
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> CBool
-> CDouble
-> CDouble
-> IO (Ptr (StdTuple '(Tensor,Tensor,Tensor)))
native_batch_norm_out_ttttttttbdd :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> CBool
-> CDouble
-> CDouble
-> IO (Ptr (StdTuple '(Tensor, Tensor, Tensor)))
native_batch_norm_out_ttttttttbdd Ptr Tensor
_out Ptr Tensor
_save_mean Ptr Tensor
_save_invstd Ptr Tensor
_input Ptr Tensor
_weight Ptr Tensor
_bias Ptr Tensor
_running_mean Ptr Tensor
_running_var CBool
_training CDouble
_momentum CDouble
_eps =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor,at::Tensor>(at::native_batch_norm_out(
*$(at::Tensor* _out)
, *$(at::Tensor* _save_mean)
, *$(at::Tensor* _save_invstd)
, *$(at::Tensor* _input)
, *$(at::Tensor* _weight)
, *$(at::Tensor* _bias)
, *$(at::Tensor* _running_mean)
, *$(at::Tensor* _running_var)
, $(bool _training)
, $(double _momentum)
, $(double _eps)));
}|]
_native_batch_norm_legit_tttttbdd
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> CBool
-> CDouble
-> CDouble
-> IO (Ptr (StdTuple '(Tensor,Tensor,Tensor)))
_native_batch_norm_legit_tttttbdd :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> CBool
-> CDouble
-> CDouble
-> IO (Ptr (StdTuple '(Tensor, Tensor, Tensor)))
_native_batch_norm_legit_tttttbdd Ptr Tensor
_input Ptr Tensor
_weight Ptr Tensor
_bias Ptr Tensor
_running_mean Ptr Tensor
_running_var CBool
_training CDouble
_momentum CDouble
_eps =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor,at::Tensor>(at::_native_batch_norm_legit(
*$(at::Tensor* _input)
, *$(at::Tensor* _weight)
, *$(at::Tensor* _bias)
, *$(at::Tensor* _running_mean)
, *$(at::Tensor* _running_var)
, $(bool _training)
, $(double _momentum)
, $(double _eps)));
}|]
_native_batch_norm_legit_out_ttttttttbdd
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> CBool
-> CDouble
-> CDouble
-> IO (Ptr (StdTuple '(Tensor,Tensor,Tensor)))
_native_batch_norm_legit_out_ttttttttbdd :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> CBool
-> CDouble
-> CDouble
-> IO (Ptr (StdTuple '(Tensor, Tensor, Tensor)))
_native_batch_norm_legit_out_ttttttttbdd Ptr Tensor
_out Ptr Tensor
_save_mean Ptr Tensor
_save_invstd Ptr Tensor
_input Ptr Tensor
_weight Ptr Tensor
_bias Ptr Tensor
_running_mean Ptr Tensor
_running_var CBool
_training CDouble
_momentum CDouble
_eps =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor,at::Tensor>(at::_native_batch_norm_legit_out(
*$(at::Tensor* _out)
, *$(at::Tensor* _save_mean)
, *$(at::Tensor* _save_invstd)
, *$(at::Tensor* _input)
, *$(at::Tensor* _weight)
, *$(at::Tensor* _bias)
, *$(at::Tensor* _running_mean)
, *$(at::Tensor* _running_var)
, $(bool _training)
, $(double _momentum)
, $(double _eps)));
}|]
_native_batch_norm_legit_tttbdd
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> CBool
-> CDouble
-> CDouble
-> IO (Ptr (StdTuple '(Tensor,Tensor,Tensor)))
_native_batch_norm_legit_tttbdd :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> CBool
-> CDouble
-> CDouble
-> IO (Ptr (StdTuple '(Tensor, Tensor, Tensor)))
_native_batch_norm_legit_tttbdd Ptr Tensor
_input Ptr Tensor
_weight Ptr Tensor
_bias CBool
_training CDouble
_momentum CDouble
_eps =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor,at::Tensor>(at::_native_batch_norm_legit(
*$(at::Tensor* _input)
, *$(at::Tensor* _weight)
, *$(at::Tensor* _bias)
, $(bool _training)
, $(double _momentum)
, $(double _eps)));
}|]
_native_batch_norm_legit_out_ttttttbdd
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> CBool
-> CDouble
-> CDouble
-> IO (Ptr (StdTuple '(Tensor,Tensor,Tensor)))
_native_batch_norm_legit_out_ttttttbdd :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> CBool
-> CDouble
-> CDouble
-> IO (Ptr (StdTuple '(Tensor, Tensor, Tensor)))
_native_batch_norm_legit_out_ttttttbdd Ptr Tensor
_out Ptr Tensor
_save_mean Ptr Tensor
_save_invstd Ptr Tensor
_input Ptr Tensor
_weight Ptr Tensor
_bias CBool
_training CDouble
_momentum CDouble
_eps =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor,at::Tensor>(at::_native_batch_norm_legit_out(
*$(at::Tensor* _out)
, *$(at::Tensor* _save_mean)
, *$(at::Tensor* _save_invstd)
, *$(at::Tensor* _input)
, *$(at::Tensor* _weight)
, *$(at::Tensor* _bias)
, $(bool _training)
, $(double _momentum)
, $(double _eps)));
}|]
batch_norm_stats_td
:: Ptr Tensor
-> CDouble
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
batch_norm_stats_td :: Ptr Tensor -> CDouble -> IO (Ptr (StdTuple '(Tensor, Tensor)))
batch_norm_stats_td Ptr Tensor
_input CDouble
_eps =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::batch_norm_stats(
*$(at::Tensor* _input)
, $(double _eps)));
}|]
batch_norm_elemt_tttttd
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> CDouble
-> IO (Ptr Tensor)
batch_norm_elemt_tttttd :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> CDouble
-> IO (Ptr Tensor)
batch_norm_elemt_tttttd Ptr Tensor
_input Ptr Tensor
_weight Ptr Tensor
_bias Ptr Tensor
_mean Ptr Tensor
_invstd CDouble
_eps =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::batch_norm_elemt(
*$(at::Tensor* _input)
, *$(at::Tensor* _weight)
, *$(at::Tensor* _bias)
, *$(at::Tensor* _mean)
, *$(at::Tensor* _invstd)
, $(double _eps)));
}|]
batch_norm_elemt_out_ttttttd
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> CDouble
-> IO (Ptr Tensor)
batch_norm_elemt_out_ttttttd :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> CDouble
-> IO (Ptr Tensor)
batch_norm_elemt_out_ttttttd Ptr Tensor
_out Ptr Tensor
_input Ptr Tensor
_weight Ptr Tensor
_bias Ptr Tensor
_mean Ptr Tensor
_invstd CDouble
_eps =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::batch_norm_elemt_out(
*$(at::Tensor* _out)
, *$(at::Tensor* _input)
, *$(at::Tensor* _weight)
, *$(at::Tensor* _bias)
, *$(at::Tensor* _mean)
, *$(at::Tensor* _invstd)
, $(double _eps)));
}|]
batch_norm_gather_stats_tttttddl
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> CDouble
-> CDouble
-> Int64
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
batch_norm_gather_stats_tttttddl :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> CDouble
-> CDouble
-> Int64
-> IO (Ptr (StdTuple '(Tensor, Tensor)))
batch_norm_gather_stats_tttttddl Ptr Tensor
_input Ptr Tensor
_mean Ptr Tensor
_invstd Ptr Tensor
_running_mean Ptr Tensor
_running_var CDouble
_momentum CDouble
_eps Int64
_count =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::batch_norm_gather_stats(
*$(at::Tensor* _input)
, *$(at::Tensor* _mean)
, *$(at::Tensor* _invstd)
, *$(at::Tensor* _running_mean)
, *$(at::Tensor* _running_var)
, $(double _momentum)
, $(double _eps)
, $(int64_t _count)));
}|]
batch_norm_gather_stats_with_counts_tttttddt
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> CDouble
-> CDouble
-> Ptr Tensor
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
batch_norm_gather_stats_with_counts_tttttddt :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> CDouble
-> CDouble
-> Ptr Tensor
-> IO (Ptr (StdTuple '(Tensor, Tensor)))
batch_norm_gather_stats_with_counts_tttttddt Ptr Tensor
_input Ptr Tensor
_mean Ptr Tensor
_invstd Ptr Tensor
_running_mean Ptr Tensor
_running_var CDouble
_momentum CDouble
_eps Ptr Tensor
_counts =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::batch_norm_gather_stats_with_counts(
*$(at::Tensor* _input)
, *$(at::Tensor* _mean)
, *$(at::Tensor* _invstd)
, *$(at::Tensor* _running_mean)
, *$(at::Tensor* _running_var)
, $(double _momentum)
, $(double _eps)
, *$(at::Tensor* _counts)));
}|]
native_batch_norm_backward_tttttttbda
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> CBool
-> CDouble
-> Ptr (StdArray '(CBool,3))
-> IO (Ptr (StdTuple '(Tensor,Tensor,Tensor)))
native_batch_norm_backward_tttttttbda :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> CBool
-> CDouble
-> Ptr (StdArray '(CBool, 3))
-> IO (Ptr (StdTuple '(Tensor, Tensor, Tensor)))
native_batch_norm_backward_tttttttbda Ptr Tensor
_grad_out Ptr Tensor
_input Ptr Tensor
_weight Ptr Tensor
_running_mean Ptr Tensor
_running_var Ptr Tensor
_save_mean Ptr Tensor
_save_invstd CBool
_train CDouble
_eps Ptr (StdArray '(CBool, 3))
_output_mask =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor,at::Tensor>(at::native_batch_norm_backward(
*$(at::Tensor* _grad_out)
, *$(at::Tensor* _input)
, *$(at::Tensor* _weight)
, *$(at::Tensor* _running_mean)
, *$(at::Tensor* _running_var)
, *$(at::Tensor* _save_mean)
, *$(at::Tensor* _save_invstd)
, $(bool _train)
, $(double _eps)
, *$(std::array<bool,3>* _output_mask)));
}|]
batch_norm_backward_reduce_tttttbbb
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> CBool
-> CBool
-> CBool
-> IO (Ptr (StdTuple '(Tensor,Tensor,Tensor,Tensor)))
batch_norm_backward_reduce_tttttbbb :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> CBool
-> CBool
-> CBool
-> IO (Ptr (StdTuple '(Tensor, Tensor, Tensor, Tensor)))
batch_norm_backward_reduce_tttttbbb Ptr Tensor
_grad_out Ptr Tensor
_input Ptr Tensor
_mean Ptr Tensor
_invstd Ptr Tensor
_weight CBool
_input_g CBool
_weight_g CBool
_bias_g =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor,at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor,at::Tensor,at::Tensor>(at::batch_norm_backward_reduce(
*$(at::Tensor* _grad_out)
, *$(at::Tensor* _input)
, *$(at::Tensor* _mean)
, *$(at::Tensor* _invstd)
, *$(at::Tensor* _weight)
, $(bool _input_g)
, $(bool _weight_g)
, $(bool _bias_g)));
}|]
batch_norm_backward_elemt_tttttttt
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> IO (Ptr Tensor)
batch_norm_backward_elemt_tttttttt :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> IO (Ptr Tensor)
batch_norm_backward_elemt_tttttttt Ptr Tensor
_grad_out Ptr Tensor
_input Ptr Tensor
_mean Ptr Tensor
_invstd Ptr Tensor
_weight Ptr Tensor
_mean_dy Ptr Tensor
_mean_dy_xmu Ptr Tensor
_count =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::batch_norm_backward_elemt(
*$(at::Tensor* _grad_out)
, *$(at::Tensor* _input)
, *$(at::Tensor* _mean)
, *$(at::Tensor* _invstd)
, *$(at::Tensor* _weight)
, *$(at::Tensor* _mean_dy)
, *$(at::Tensor* _mean_dy_xmu)
, *$(at::Tensor* _count)));
}|]
batch_norm_update_stats_tttd
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> CDouble
-> IO (Ptr (StdTuple '(Tensor,Tensor)))
batch_norm_update_stats_tttd :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> CDouble
-> IO (Ptr (StdTuple '(Tensor, Tensor)))
batch_norm_update_stats_tttd Ptr Tensor
_input Ptr Tensor
_running_mean Ptr Tensor
_running_var CDouble
_momentum =
[C.throwBlock| std::tuple<at::Tensor,at::Tensor>* { return new std::tuple<at::Tensor,at::Tensor>(at::batch_norm_update_stats(
*$(at::Tensor* _input)
, *$(at::Tensor* _running_mean)
, *$(at::Tensor* _running_var)
, $(double _momentum)));
}|]
is_vulkan_available
:: IO (CBool)
is_vulkan_available :: IO CBool
is_vulkan_available =
[C.throwBlock| bool { return (at::is_vulkan_available(
));
}|]
_nnpack_available
:: IO (CBool)
_nnpack_available :: IO CBool
_nnpack_available =
[C.throwBlock| bool { return (at::_nnpack_available(
));
}|]
_nnpack_spatial_convolution_tttll
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
_nnpack_spatial_convolution_tttll :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
_nnpack_spatial_convolution_tttll Ptr Tensor
_input Ptr Tensor
_weight Ptr Tensor
_bias Ptr IntArray
_padding Ptr IntArray
_stride =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::_nnpack_spatial_convolution(
*$(at::Tensor* _input)
, *$(at::Tensor* _weight)
, *$(at::Tensor* _bias)
, *$(std::vector<int64_t>* _padding)
, *$(std::vector<int64_t>* _stride)));
}|]
_nnpack_spatial_convolution_tttl
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> Ptr IntArray
-> IO (Ptr Tensor)
_nnpack_spatial_convolution_tttl :: Ptr Tensor
-> Ptr Tensor -> Ptr Tensor -> Ptr IntArray -> IO (Ptr Tensor)
_nnpack_spatial_convolution_tttl Ptr Tensor
_input Ptr Tensor
_weight Ptr Tensor
_bias Ptr IntArray
_padding =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::_nnpack_spatial_convolution(
*$(at::Tensor* _input)
, *$(at::Tensor* _weight)
, *$(at::Tensor* _bias)
, *$(std::vector<int64_t>* _padding)));
}|]
ones_lNo
:: Ptr IntArray
-> Ptr DimnameList
-> Ptr TensorOptions
-> IO (Ptr Tensor)
ones_lNo :: Ptr IntArray
-> Ptr DimnameList -> Ptr TensorOptions -> IO (Ptr Tensor)
ones_lNo Ptr IntArray
_size Ptr DimnameList
_names Ptr TensorOptions
_options =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::ones(
*$(std::vector<int64_t>* _size)
, *$(std::vector<at::Dimname>* _names)
, *$(at::TensorOptions* _options)));
}|]
ones_lN
:: Ptr IntArray
-> Ptr DimnameList
-> IO (Ptr Tensor)
ones_lN :: Ptr IntArray -> Ptr DimnameList -> IO (Ptr Tensor)
ones_lN Ptr IntArray
_size Ptr DimnameList
_names =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::ones(
*$(std::vector<int64_t>* _size)
, *$(std::vector<at::Dimname>* _names)));
}|]
ones_lo
:: Ptr IntArray
-> Ptr TensorOptions
-> IO (Ptr Tensor)
ones_lo :: Ptr IntArray -> Ptr TensorOptions -> IO (Ptr Tensor)
ones_lo Ptr IntArray
_size Ptr TensorOptions
_options =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::ones(
*$(std::vector<int64_t>* _size)
, *$(at::TensorOptions* _options)));
}|]
ones_l
:: Ptr IntArray
-> IO (Ptr Tensor)
ones_l :: Ptr IntArray -> IO (Ptr Tensor)
ones_l Ptr IntArray
_size =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::ones(
*$(std::vector<int64_t>* _size)));
}|]
ones_out_tl
:: Ptr Tensor
-> Ptr IntArray
-> IO (Ptr Tensor)
ones_out_tl :: Ptr Tensor -> Ptr IntArray -> IO (Ptr Tensor)
ones_out_tl Ptr Tensor
_out Ptr IntArray
_size =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::ones_out(
*$(at::Tensor* _out)
, *$(std::vector<int64_t>* _size)));
}|]
ones_like_toM
:: Ptr Tensor
-> Ptr TensorOptions
-> MemoryFormat
-> IO (Ptr Tensor)
ones_like_toM :: Ptr Tensor -> Ptr TensorOptions -> ScalarType -> IO (Ptr Tensor)
ones_like_toM Ptr Tensor
_self Ptr TensorOptions
_options ScalarType
_memory_format =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::ones_like(
*$(at::Tensor* _self)
, *$(at::TensorOptions* _options)
, $(at::MemoryFormat _memory_format)));
}|]
ones_like_to
:: Ptr Tensor
-> Ptr TensorOptions
-> IO (Ptr Tensor)
ones_like_to :: Ptr Tensor -> Ptr TensorOptions -> IO (Ptr Tensor)
ones_like_to Ptr Tensor
_self Ptr TensorOptions
_options =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::ones_like(
*$(at::Tensor* _self)
, *$(at::TensorOptions* _options)));
}|]
ones_like_t
:: Ptr Tensor
-> IO (Ptr Tensor)
ones_like_t :: Ptr Tensor -> IO (Ptr Tensor)
ones_like_t Ptr Tensor
_self =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::ones_like(
*$(at::Tensor* _self)));
}|]
pairwise_distance_ttddb
:: Ptr Tensor
-> Ptr Tensor
-> CDouble
-> CDouble
-> CBool
-> IO (Ptr Tensor)
pairwise_distance_ttddb :: Ptr Tensor
-> Ptr Tensor -> CDouble -> CDouble -> CBool -> IO (Ptr Tensor)
pairwise_distance_ttddb Ptr Tensor
_x1 Ptr Tensor
_x2 CDouble
_p CDouble
_eps CBool
_keepdim =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::pairwise_distance(
*$(at::Tensor* _x1)
, *$(at::Tensor* _x2)
, $(double _p)
, $(double _eps)
, $(bool _keepdim)));
}|]
pairwise_distance_ttdd
:: Ptr Tensor
-> Ptr Tensor
-> CDouble
-> CDouble
-> IO (Ptr Tensor)
pairwise_distance_ttdd :: Ptr Tensor -> Ptr Tensor -> CDouble -> CDouble -> IO (Ptr Tensor)
pairwise_distance_ttdd Ptr Tensor
_x1 Ptr Tensor
_x2 CDouble
_p CDouble
_eps =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::pairwise_distance(
*$(at::Tensor* _x1)
, *$(at::Tensor* _x2)
, $(double _p)
, $(double _eps)));
}|]
pairwise_distance_ttd
:: Ptr Tensor
-> Ptr Tensor
-> CDouble
-> IO (Ptr Tensor)
pairwise_distance_ttd :: Ptr Tensor -> Ptr Tensor -> CDouble -> IO (Ptr Tensor)
pairwise_distance_ttd Ptr Tensor
_x1 Ptr Tensor
_x2 CDouble
_p =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::pairwise_distance(
*$(at::Tensor* _x1)
, *$(at::Tensor* _x2)
, $(double _p)));
}|]
pairwise_distance_tt
:: Ptr Tensor
-> Ptr Tensor
-> IO (Ptr Tensor)
pairwise_distance_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor)
pairwise_distance_tt Ptr Tensor
_x1 Ptr Tensor
_x2 =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::pairwise_distance(
*$(at::Tensor* _x1)
, *$(at::Tensor* _x2)));
}|]
cdist_ttdl
:: Ptr Tensor
-> Ptr Tensor
-> CDouble
-> Int64
-> IO (Ptr Tensor)
cdist_ttdl :: Ptr Tensor -> Ptr Tensor -> CDouble -> Int64 -> IO (Ptr Tensor)
cdist_ttdl Ptr Tensor
_x1 Ptr Tensor
_x2 CDouble
_p Int64
_compute_mode =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::cdist(
*$(at::Tensor* _x1)
, *$(at::Tensor* _x2)
, $(double _p)
, $(int64_t _compute_mode)));
}|]
cdist_ttd
:: Ptr Tensor
-> Ptr Tensor
-> CDouble
-> IO (Ptr Tensor)
cdist_ttd :: Ptr Tensor -> Ptr Tensor -> CDouble -> IO (Ptr Tensor)
cdist_ttd Ptr Tensor
_x1 Ptr Tensor
_x2 CDouble
_p =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::cdist(
*$(at::Tensor* _x1)
, *$(at::Tensor* _x2)
, $(double _p)));
}|]
cdist_tt
:: Ptr Tensor
-> Ptr Tensor
-> IO (Ptr Tensor)
cdist_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor)
cdist_tt Ptr Tensor
_x1 Ptr Tensor
_x2 =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::cdist(
*$(at::Tensor* _x1)
, *$(at::Tensor* _x2)));
}|]
_euclidean_dist_tt
:: Ptr Tensor
-> Ptr Tensor
-> IO (Ptr Tensor)
_euclidean_dist_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor)
_euclidean_dist_tt Ptr Tensor
_x1 Ptr Tensor
_x2 =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::_euclidean_dist(
*$(at::Tensor* _x1)
, *$(at::Tensor* _x2)));
}|]
_cdist_forward_ttdl
:: Ptr Tensor
-> Ptr Tensor
-> CDouble
-> Int64
-> IO (Ptr Tensor)
_cdist_forward_ttdl :: Ptr Tensor -> Ptr Tensor -> CDouble -> Int64 -> IO (Ptr Tensor)
_cdist_forward_ttdl Ptr Tensor
_x1 Ptr Tensor
_x2 CDouble
_p Int64
_compute_mode =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::_cdist_forward(
*$(at::Tensor* _x1)
, *$(at::Tensor* _x2)
, $(double _p)
, $(int64_t _compute_mode)));
}|]
_cdist_backward_tttdt
:: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> CDouble
-> Ptr Tensor
-> IO (Ptr Tensor)
_cdist_backward_tttdt :: Ptr Tensor
-> Ptr Tensor
-> Ptr Tensor
-> CDouble
-> Ptr Tensor
-> IO (Ptr Tensor)
_cdist_backward_tttdt Ptr Tensor
_grad Ptr Tensor
_x1 Ptr Tensor
_x2 CDouble
_p Ptr Tensor
_cdist =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::_cdist_backward(
*$(at::Tensor* _grad)
, *$(at::Tensor* _x1)
, *$(at::Tensor* _x2)
, $(double _p)
, *$(at::Tensor* _cdist)));
}|]
pdist_td
:: Ptr Tensor
-> CDouble
-> IO (Ptr Tensor)
pdist_td :: Ptr Tensor -> CDouble -> IO (Ptr Tensor)
pdist_td Ptr Tensor
_self CDouble
_p =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::pdist(
*$(at::Tensor* _self)
, $(double _p)));
}|]
pdist_t
:: Ptr Tensor
-> IO (Ptr Tensor)
pdist_t :: Ptr Tensor -> IO (Ptr Tensor)
pdist_t Ptr Tensor
_self =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::pdist(
*$(at::Tensor* _self)));
}|]
_pdist_forward_td
:: Ptr Tensor
-> CDouble
-> IO (Ptr Tensor)
_pdist_forward_td :: Ptr Tensor -> CDouble -> IO (Ptr Tensor)
_pdist_forward_td Ptr Tensor
_self CDouble
_p =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::_pdist_forward(
*$(at::Tensor* _self)
, $(double _p)));
}|]
_pdist_forward_t
:: Ptr Tensor
-> IO (Ptr Tensor)
_pdist_forward_t :: Ptr Tensor -> IO (Ptr Tensor)
_pdist_forward_t Ptr Tensor
_self =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::_pdist_forward(
*$(at::Tensor* _self)));
}|]
_pdist_backward_ttdt
:: Ptr Tensor
-> Ptr Tensor
-> CDouble
-> Ptr Tensor
-> IO (Ptr Tensor)
_pdist_backward_ttdt :: Ptr Tensor
-> Ptr Tensor -> CDouble -> Ptr Tensor -> IO (Ptr Tensor)
_pdist_backward_ttdt Ptr Tensor
_grad Ptr Tensor
_self CDouble
_p Ptr Tensor
_pdist =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::_pdist_backward(
*$(at::Tensor* _grad)
, *$(at::Tensor* _self)
, $(double _p)
, *$(at::Tensor* _pdist)));
}|]
cosine_similarity_ttld
:: Ptr Tensor
-> Ptr Tensor
-> Int64
-> CDouble
-> IO (Ptr Tensor)
cosine_similarity_ttld :: Ptr Tensor -> Ptr Tensor -> Int64 -> CDouble -> IO (Ptr Tensor)
cosine_similarity_ttld Ptr Tensor
_x1 Ptr Tensor
_x2 Int64
_dim CDouble
_eps =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::cosine_similarity(
*$(at::Tensor* _x1)
, *$(at::Tensor* _x2)
, $(int64_t _dim)
, $(double _eps)));
}|]
cosine_similarity_ttl
:: Ptr Tensor
-> Ptr Tensor
-> Int64
-> IO (Ptr Tensor)
cosine_similarity_ttl :: Ptr Tensor -> Ptr Tensor -> Int64 -> IO (Ptr Tensor)
cosine_similarity_ttl Ptr Tensor
_x1 Ptr Tensor
_x2 Int64
_dim =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::cosine_similarity(
*$(at::Tensor* _x1)
, *$(at::Tensor* _x2)
, $(int64_t _dim)));
}|]
cosine_similarity_tt
:: Ptr Tensor
-> Ptr Tensor
-> IO (Ptr Tensor)
cosine_similarity_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor)
cosine_similarity_tt Ptr Tensor
_x1 Ptr Tensor
_x2 =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::cosine_similarity(
*$(at::Tensor* _x1)
, *$(at::Tensor* _x2)));
}|]
permute_tl
:: Ptr Tensor
-> Ptr IntArray
-> IO (Ptr Tensor)
permute_tl :: Ptr Tensor -> Ptr IntArray -> IO (Ptr Tensor)
permute_tl Ptr Tensor
_self Ptr IntArray
_dims =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::permute(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _dims)));
}|]
movedim_tll
:: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
movedim_tll :: Ptr Tensor -> Ptr IntArray -> Ptr IntArray -> IO (Ptr Tensor)
movedim_tll Ptr Tensor
_self Ptr IntArray
_source Ptr IntArray
_destination =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::movedim(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _source)
, *$(std::vector<int64_t>* _destination)));
}|]
moveaxis_tll
:: Ptr Tensor
-> Ptr IntArray
-> Ptr IntArray
-> IO (Ptr Tensor)
moveaxis_tll :: Ptr Tensor -> Ptr IntArray -> Ptr IntArray -> IO (Ptr Tensor)
moveaxis_tll Ptr Tensor
_self Ptr IntArray
_source Ptr IntArray
_destination =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::moveaxis(
*$(at::Tensor* _self)
, *$(std::vector<int64_t>* _source)
, *$(std::vector<int64_t>* _destination)));
}|]
adjoint_t
:: Ptr Tensor
-> IO (Ptr Tensor)
adjoint_t :: Ptr Tensor -> IO (Ptr Tensor)
adjoint_t Ptr Tensor
_self =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::adjoint(
*$(at::Tensor* _self)));
}|]
pixel_shuffle_tl
:: Ptr Tensor
-> Int64
-> IO (Ptr Tensor)
pixel_shuffle_tl :: Ptr Tensor -> Int64 -> IO (Ptr Tensor)
pixel_shuffle_tl Ptr Tensor
_self Int64
_upscale_factor =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::pixel_shuffle(
*$(at::Tensor* _self)
, $(int64_t _upscale_factor)));
}|]
pixel_unshuffle_tl
:: Ptr Tensor
-> Int64
-> IO (Ptr Tensor)
pixel_unshuffle_tl :: Ptr Tensor -> Int64 -> IO (Ptr Tensor)
pixel_unshuffle_tl Ptr Tensor
_self Int64
_downscale_factor =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::pixel_unshuffle(
*$(at::Tensor* _self)
, $(int64_t _downscale_factor)));
}|]
channel_shuffle_tl
:: Ptr Tensor
-> Int64
-> IO (Ptr Tensor)
channel_shuffle_tl :: Ptr Tensor -> Int64 -> IO (Ptr Tensor)
channel_shuffle_tl Ptr Tensor
_self Int64
_groups =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::channel_shuffle(
*$(at::Tensor* _self)
, $(int64_t _groups)));
}|]
native_channel_shuffle_tl
:: Ptr Tensor
-> Int64
-> IO (Ptr Tensor)
native_channel_shuffle_tl :: Ptr Tensor -> Int64 -> IO (Ptr Tensor)
native_channel_shuffle_tl Ptr Tensor
_self Int64
_groups =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::native_channel_shuffle(
*$(at::Tensor* _self)
, $(int64_t _groups)));
}|]
_pin_memory_tD
:: Ptr Tensor
-> DeviceType
-> IO (Ptr Tensor)
_pin_memory_tD :: Ptr Tensor -> DeviceType -> IO (Ptr Tensor)
_pin_memory_tD Ptr Tensor
_self DeviceType
_device =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::_pin_memory(
*$(at::Tensor* _self)
, $(at::DeviceType _device)));
}|]
_pin_memory_t
:: Ptr Tensor
-> IO (Ptr Tensor)
_pin_memory_t :: Ptr Tensor -> IO (Ptr Tensor)
_pin_memory_t Ptr Tensor
_self =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::_pin_memory(
*$(at::Tensor* _self)));
}|]
pinverse_td
:: Ptr Tensor
-> CDouble
-> IO (Ptr Tensor)
pinverse_td :: Ptr Tensor -> CDouble -> IO (Ptr Tensor)
pinverse_td Ptr Tensor
_self CDouble
_rcond =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::pinverse(
*$(at::Tensor* _self)
, $(double _rcond)));
}|]
pinverse_t
:: Ptr Tensor
-> IO (Ptr Tensor)
pinverse_t :: Ptr Tensor -> IO (Ptr Tensor)
pinverse_t Ptr Tensor
_self =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::pinverse(
*$(at::Tensor* _self)));
}|]
poisson_nll_loss_ttbbdl
:: Ptr Tensor
-> Ptr Tensor
-> CBool
-> CBool
-> CDouble
-> Int64
-> IO (Ptr Tensor)
poisson_nll_loss_ttbbdl :: Ptr Tensor
-> Ptr Tensor
-> CBool
-> CBool
-> CDouble
-> Int64
-> IO (Ptr Tensor)
poisson_nll_loss_ttbbdl Ptr Tensor
_input Ptr Tensor
_target CBool
_log_input CBool
_full CDouble
_eps Int64
_reduction =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::poisson_nll_loss(
*$(at::Tensor* _input)
, *$(at::Tensor* _target)
, $(bool _log_input)
, $(bool _full)
, $(double _eps)
, $(int64_t _reduction)));
}|]
rad2deg_t
:: Ptr Tensor
-> IO (Ptr Tensor)
rad2deg_t :: Ptr Tensor -> IO (Ptr Tensor)
rad2deg_t Ptr Tensor
_self =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::rad2deg(
*$(at::Tensor* _self)));
}|]
rad2deg__t
:: Ptr Tensor
-> IO (Ptr Tensor)
rad2deg__t :: Ptr Tensor -> IO (Ptr Tensor)
rad2deg__t Ptr Tensor
_self =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::rad2deg_(
*$(at::Tensor* _self)));
}|]
rad2deg_out_tt
:: Ptr Tensor
-> Ptr Tensor
-> IO (Ptr Tensor)
rad2deg_out_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor)
rad2deg_out_tt Ptr Tensor
_out Ptr Tensor
_self =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::rad2deg_out(
*$(at::Tensor* _out)
, *$(at::Tensor* _self)));
}|]
deg2rad_t
:: Ptr Tensor
-> IO (Ptr Tensor)
deg2rad_t :: Ptr Tensor -> IO (Ptr Tensor)
deg2rad_t Ptr Tensor
_self =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::deg2rad(
*$(at::Tensor* _self)));
}|]
deg2rad__t
:: Ptr Tensor
-> IO (Ptr Tensor)
deg2rad__t :: Ptr Tensor -> IO (Ptr Tensor)
deg2rad__t Ptr Tensor
_self =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::deg2rad_(
*$(at::Tensor* _self)));
}|]
deg2rad_out_tt
:: Ptr Tensor
-> Ptr Tensor
-> IO (Ptr Tensor)
deg2rad_out_tt :: Ptr Tensor -> Ptr Tensor -> IO (Ptr Tensor)
deg2rad_out_tt Ptr Tensor
_out Ptr Tensor
_self =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::deg2rad_out(
*$(at::Tensor* _out)
, *$(at::Tensor* _self)));
}|]
scalar_tensor_so
:: Ptr Scalar
-> Ptr TensorOptions
-> IO (Ptr Tensor)
scalar_tensor_so :: Ptr Scalar -> Ptr TensorOptions -> IO (Ptr Tensor)
scalar_tensor_so Ptr Scalar
_s Ptr TensorOptions
_options =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::scalar_tensor(
*$(at::Scalar* _s)
, *$(at::TensorOptions* _options)));
}|]
scalar_tensor_s
:: Ptr Scalar
-> IO (Ptr Tensor)
scalar_tensor_s :: Ptr Scalar -> IO (Ptr Tensor)
scalar_tensor_s Ptr Scalar
_s =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::scalar_tensor(
*$(at::Scalar* _s)));
}|]
rand_lNo
:: Ptr IntArray
-> Ptr DimnameList
-> Ptr TensorOptions
-> IO (Ptr Tensor)
rand_lNo :: Ptr IntArray
-> Ptr DimnameList -> Ptr TensorOptions -> IO (Ptr Tensor)
rand_lNo Ptr IntArray
_size Ptr DimnameList
_names Ptr TensorOptions
_options =
[C.throwBlock| at::Tensor* { return new at::Tensor(at::rand(
*$(std::vector<int64_t>* _size)
, *$(std::vector<at::Dimname>* _names)
, *$(at::TensorOptions* _options)));
}|]