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FunctionsManual.h
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FunctionsManual.h
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#pragma once
// NB: Must be at the top of file to avoid including the deprecated "math.h".
// https://stackoverflow.com/questions/6563810/m-pi-works-with-math-h-but-not-with-cmath-in-visual-studio
#ifdef _MSC_VER
#ifndef _USE_MATH_DEFINES
#define _USE_MATH_DEFINES
#endif
#include <cmath>
#endif
#include <ATen/ATen.h>
#include <torch/csrc/autograd/generated/Functions.h>
namespace torch::autograd::generated::details {
extern const char* kCudnnDoubleBackwardMsg;
// A simple way to imperatively compute index ranges for slots
// that have been flattened
struct TORCH_API IndexRangeGenerator {
IndexRange range(size_t range_size) {
i += range_size;
return {i - range_size, i};
}
size_t size() {
return i;
}
private:
size_t i = 0;
};
TORCH_API Tensor toNonOptFwGrad(const c10::optional<Tensor>& t);
TORCH_API Tensor toNonOptPrimal(const c10::optional<Tensor>& t);
TORCH_API Tensor toNonOptTensor(const c10::optional<Tensor>& t);
TORCH_API inline c10::optional<Tensor> wrap_opt_if(
const Tensor& t,
const bool cond) {
using OptTensor = c10::optional<Tensor>;
return cond ? OptTensor(t) : static_cast<OptTensor>(c10::nullopt);
}
TORCH_API Tensor
apply_loss_reduction(const Tensor& unreduced, int64_t reduction);
TORCH_API bool any_variable_defined(const variable_list& variables);
TORCH_API void copy_range(
variable_list& out,
IndexRange range,
const at::Tensor& t);
TORCH_API void copy_range(
variable_list& out,
IndexRange range,
at::ArrayRef<at::Tensor> t);
TORCH_API at::Tensor copysign_tensor_self_backward(
const Tensor& grad,
const Tensor& self,
const Tensor& result);
TORCH_API at::Tensor not_implemented(const char* name, const char* reason = "");
TORCH_API std::vector<Tensor> not_implemented_list(
const char* name,
const char* reason = "");
at::Tensor handle_r_to_c(ScalarType self_st, Tensor gradient_result);
at::Tensor maybe_multiply(const at::Tensor& t, const at::Scalar& s);
int64_t _safe_size(IntArrayRef sizes, IntArrayRef dim);
Tensor restore_reduced_dims(
const Tensor& output,
IntArrayRef dims,
bool keepdim);
Tensor scale_grad_by_count(
const Tensor& grad,
const Tensor& mask,
IntArrayRef dims);
at::Tensor norm_backward(
const at::Tensor& grad,
const at::Tensor& self,
const optional<at::Scalar>& p_,
const at::Tensor& norm);
at::Tensor norm_backward(
at::Tensor grad,
const at::Tensor& self,
const optional<at::Scalar>& p_,
at::Tensor norm,
at::IntArrayRef dim,
bool keepdim);
Tensor norm_jvp(
const Tensor& self_p,
const Tensor& self_t,
const optional<Scalar>& p_,
Tensor norm,
IntArrayRef dim,
bool keepdim);
Tensor norm_jvp(
const Tensor& grad,
const Tensor& self,
const optional<Scalar>& p_,
Tensor norm);
Tensor _nested_from_padded_backward(
const Tensor& grad,
const Tensor& input,
const bool do_transform_0213);
std::tuple<Tensor, Tensor, Tensor> linear_double_backward(
const variable_list& grads,
const Tensor& self,
const Tensor& grad_output,
const Tensor& weight);
Tensor linalg_vector_norm_jvp(
const Tensor& self_p,
const Tensor& self_t,
const Scalar& scalar_ord,
Tensor norm,
const at::OptionalIntArrayRef& opt_dim,
bool keepdim);
at::Tensor linalg_vector_norm_backward(
at::Tensor grad,
const at::Tensor& self,
const at::Scalar& ord,
at::Tensor norm,
const at::OptionalIntArrayRef& opt_dim,
bool keepdim);
at::Tensor pow_backward(
at::Tensor grad,
const at::Tensor& self,
const at::Scalar& exponent_);
at::Tensor pow_backward_self(
const at::Tensor& grad,
const at::Tensor& self,
const at::Tensor& exponent);
at::Tensor pow_backward_exponent(
const at::Tensor& grad,
const at::Tensor& self,
const at::Tensor& exponent,
const at::Tensor& result);
at::Tensor pow_backward_exponent(
const at::Tensor& grad,
const at::Scalar& base,
const at::Tensor& exponent,
const at::Tensor& result);
at::Tensor angle_backward(const at::Tensor& grad, const at::Tensor& self);
template <typename T>
at::Tensor mul_tensor_backward(const Tensor& grad, T other, ScalarType self_st);
template <typename T>
at::Tensor div_tensor_self_backward(
const Tensor& grad,
T other,
ScalarType self_st);
at::Tensor div_tensor_other_backward(
const Tensor& grad,
const Tensor& self,
const Tensor& other);
template <typename T>
at::Tensor div_tensor_self_backward(
const Tensor& grad,
T other,
ScalarType self_st,
const c10::optional<c10::string_view>& rounding_mode);
at::Tensor div_tensor_other_backward(
const Tensor& grad,
const Tensor& self,
const Tensor& other,
const c10::optional<c10::string_view>& rounding_mode);
at::Tensor mvlgamma_backward(
const at::Tensor& grad,
const at::Tensor& self,
int64_t p);
at::Tensor permute_backwards(const at::Tensor& grad, at::IntArrayRef fwd_dims);
at::Tensor rad2deg_backward(const at::Tensor& grad);
at::Tensor deg2rad_backward(const at::Tensor& grad);
at::Tensor unsqueeze_multiple(
const at::Tensor& t,
at::OptionalIntArrayRef opt_dim,
size_t n_dims);
at::Tensor sum_backward(
const at::Tensor& grad,
at::SymIntArrayRef sizes,
at::OptionalIntArrayRef opt_dims,
bool keepdim);
at::Tensor sum_backward(
const at::Tensor& grad,
c10::SymIntArrayRef sizes,
c10::IntArrayRef dims,
bool keepdim);
at::Tensor nansum_backward(
const at::Tensor& grad,
const at::Tensor& self,
at::OptionalIntArrayRef dims,
bool keepdim);
std::vector<int64_t> reverse_list(const at::IntArrayRef list);
std::vector<c10::SymInt> reverse_list_symint(const c10::SymIntArrayRef list);
at::Tensor reverse_dim(const at::Tensor& t, int64_t dim);
at::Tensor prod_safe_zeros_backward(
const at::Tensor& grad,
const at::Tensor& inp,
int64_t dim);
at::Tensor prod_backward(
const at::Tensor& grad,
const at::Tensor& input,
const at::Tensor& result);
at::Tensor prod_backward(
at::Tensor grad,
const at::Tensor& input,
at::Tensor result,
int64_t dim,
bool keepdim);
at::Tensor solve_jvp(
const Tensor& X,
const Tensor& A,
const Tensor& dA,
const Tensor& dB);
at::Tensor solve_backward_self(
const at::Tensor& grad,
const at::Tensor& self,
const at::Tensor& A);
at::Tensor solve_backward_A(
const at::Tensor& grad,
const at::Tensor& self,
const at::Tensor& A,
const at::Tensor& solution);
at::Tensor cumsum_backward(const at::Tensor& grad, int64_t dim);
at::Tensor logsumexp_backward(
at::Tensor grad,
const at::Tensor& self,
at::Tensor result,
at::IntArrayRef dim,
bool keepdim);
at::Tensor logsumexp_jvp(
const at::Tensor& self_p,
const at::Tensor& self_t,
IntArrayRef dim,
bool keepdim);
at::Tensor logcumsumexp_backward(
at::Tensor grad,
const at::Tensor& self,
at::Tensor result,
int64_t dim);
at::Tensor logcumsumexp_jvp(
const at::Tensor& self_p,
const at::Tensor& self_t,
int64_t dim);
at::Tensor unbind_backward(const variable_list& grads, int64_t dim);
at::Tensor unbind_backward_nested(
const variable_list& grads,
const Tensor& nt_sizes,
int64_t dim,
const at::TensorOptions& options);
at::Tensor unsqueeze_to(const at::Tensor& self, c10::SymIntArrayRef sym_sizes);
at::Tensor unsqueeze_to(
const at::Tensor& self,
int64_t dim,
c10::SymIntArrayRef sym_sizes);
at::Tensor unsqueeze_to(
const at::Tensor& self,
IntArrayRef dim,
c10::SymIntArrayRef sym_sizes);
std::vector<at::Tensor> cat_tensors_backward(
const at::Tensor& grad,
const std::vector<std::vector<c10::SymInt>>& sizes,
const std::vector<ScalarType>& dtypes,
int64_t dim);
std::vector<at::Tensor> stack_tensors_backward(
const at::Tensor& grad,
int64_t dim,
const std::vector<ScalarType>& dtypes);
std::vector<at::Tensor> block_diag_backward(
const at::Tensor& grad,
const std::vector<std::vector<int64_t>>& sizes,
const std::vector<ScalarType>& dtypes);
at::Tensor clamp_backward(
const at::Tensor& grad,
const at::Tensor& self,
const optional<at::Scalar>& min,
const optional<at::Scalar>& max);
at::Tensor clamp_backward(
const at::Tensor& grad,
const at::Tensor& self,
const at::Tensor& min,
const at::Tensor& max);
std::tuple<at::Tensor, at::Tensor> clamp_backward_min_max(
const at::Tensor& grad,
const at::Tensor& self,
const at::Tensor& min,
const at::Tensor& max,
const std::array<bool, 2>&);
at::Tensor clamp_jvp(
const Tensor& self_p,
const Tensor& self_t,
const Tensor& min_p,
const Tensor& min_t,
const Tensor& max_p,
const Tensor& max_t);
at::SymIntArrayRef strides_or_error(
const Tensor& input,
c10::string_view const& input_name);
at::Tensor mm_mat1_backward(
const Tensor& grad,
const Tensor& mat2,
at::SymIntArrayRef mat1_sizes,
at::SymIntArrayRef mat1_strides,
c10::Layout mat1_layout,
const Scalar& alpha);
at::Tensor mm_mat2_backward(
const at::Tensor& grad,
const at::Tensor& mat1,
at::SymIntArrayRef sizes,
at::SymIntArrayRef strides,
c10::Layout layout,
const at::Scalar& alpha);
at::Tensor mm_mat1_sparse_backward(
const at::Tensor& grad,
const at::Tensor& mat1,
const at::Tensor& mat2,
const at::Scalar& alpha);
std::tuple<Tensor, Tensor, Tensor> sparse_sampled_addmm_backward(
const Tensor& grad,
const Tensor& self,
const c10::optional<Tensor>& mat1,
const c10::optional<Tensor>& mat2,
const Scalar& alpha,
const Scalar& beta,
const std::array<bool, 3>& grad_input_mask);
at::Tensor sparse_mask_backward(
const at::Tensor& grad,
const at::Tensor& mask,
c10::Layout self_layout);
at::Tensor sparse_sparse_matmul_backward(
const at::Tensor& grad,
const at::Tensor& mat1,
const at::Tensor& mat2,
int64_t grad_order);
at::Tensor renorm_backward(
const at::Tensor& grad,
const at::Tensor& self,
const at::Scalar& p,
int64_t dim,
const at::Scalar& maxnorm);
at::Tensor renorm_jvp(
const at::Tensor& self_p,
const at::Tensor& self_t,
const at::Scalar& p,
int64_t dim,
const at::Scalar& maxnorm);
at::Tensor repeat_backward(
at::Tensor grad,
at::SymIntArrayRef repeats,
at::SymIntArrayRef input_shape);
at::Tensor _fused_dropout_backward(
const at::Tensor& grad,
const at::Tensor& mask,
double p1m);
at::Tensor infinitely_differentiable_native_dropout_backward(
const at::Tensor& grad,
const at::Tensor& mask,
double scale);
at::Tensor native_dropout_double_backward(
const at::Tensor& ggI,
const at::Tensor& grad,
const at::Tensor& mask,
double scale);
at::Tensor evenly_distribute_backward(
const at::Tensor& grad,
const at::Tensor& input,
const at::Tensor& value);
Tensor sgn_backward(const Tensor& x, const Tensor& gx, const Tensor& sgn);
Tensor masked_fill_backward(const Tensor& grad, const Tensor& mask);
at::Tensor var_backward(
at::Tensor grad,
const at::Tensor& self,
at::OptionalIntArrayRef dim,
const c10::optional<c10::Scalar>& correction,
bool keepdim);
at::Tensor var_jvp(
const at::Tensor& self_t,
const at::Tensor& self_p,
const at::Tensor& result,
at::OptionalIntArrayRef dim_opt,
const c10::optional<c10::Scalar>& correction,
bool keepdim);
at::Tensor std_backward(
const at::Tensor& result,
const at::Tensor& grad,
const at::Tensor& self,
at::OptionalIntArrayRef dim,
const c10::optional<c10::Scalar>& correction,
bool keepdim);
Tensor mean_backward(
const Tensor& grad,
c10::SymIntArrayRef shape,
at::OptionalIntArrayRef opt_dim,
c10::SymInt numel,
bool keepdim);
Tensor var_mean_backward(
const Tensor& gvar,
const Tensor& gmean,
const Tensor& self,
at::OptionalIntArrayRef dim_opt,
const c10::optional<c10::Scalar>& correction,
bool keepdim);
Tensor std_mean_backward(
const Tensor& gstd,
const Tensor& gmean,
const Tensor& self,
const Tensor& std,
at::OptionalIntArrayRef dim_opt,
const c10::optional<c10::Scalar>& correction,
bool keepdim);
at::Tensor cholesky_backward(
const at::Tensor& grad,
bool upper,
const at::Tensor& L);
at::Tensor cholesky_jvp(
const at::Tensor& input_tangent,
const at::Tensor& L,
bool upper);
at::Tensor cholesky_inverse_backward(
const at::Tensor& grad,
const at::Tensor& L,
bool upper,
const at::Tensor& inverse);
at::Tensor cholesky_inverse_jvp(
const at::Tensor& F,
const at::Tensor& dF,
const at::Tensor& X,
bool upper);
Tensor pinv_jvp(const Tensor& A, const Tensor& pinvA, const Tensor& dA);
Tensor pinv_backward(const Tensor& grad, const Tensor& pinvA, const Tensor& A);
at::Tensor split_with_sizes_backward(
const std::vector<torch::autograd::Variable>& grads,
c10::SymIntArrayRef split_sizes,
int64_t dim,
c10::SymIntArrayRef sizes,
const at::TensorOptions& options);
at::Tensor _nested_split_with_sizes_backward(
const std::vector<torch::autograd::Variable>& grads,
c10::SymIntArrayRef split_sizes,
int64_t dim,
const Tensor& nt_sizes,
const at::TensorOptions& options);
at::Tensor split_backward(
const std::vector<torch::autograd::Variable>& grads,
const c10::SymInt& split_size,
int64_t dim,
c10::SymIntArrayRef sizes,
const at::TensorOptions& options);
at::Tensor max_pool_double_backward(
const at::Tensor& grad,
const at::Tensor& indices,
int dim);
at::Tensor error_for_max_pool2d_double_backward();
at::Tensor glu_double_backward(
const at::Tensor& grad,
const at::Tensor& grad_output,
const at::Tensor& input,
int64_t dim);
at::Tensor glu_double_backward_grad_output(
const at::Tensor& grad,
const at::Tensor& input,
int64_t dim);
at::Tensor infinitely_differentiable_silu_backward(
const at::Tensor& grad_output,
const at::Tensor& input);
at::Tensor infinitely_differentiable_mish_backward(
const at::Tensor& grad_output,
const at::Tensor& input);
Tensor infinitely_differentiable_logit_backward(
const Tensor& grad,
const Tensor& self,
c10::optional<double> eps);
Tensor binary_cross_entropy_target_backward(
const Tensor& grad,
const Tensor& self,
const Tensor& target,
const c10::optional<Tensor>& weight,
int64_t reduction);
Tensor binary_cross_entropy_double_backward_target(
const Tensor& grad,
const Tensor& grad_output,
const Tensor& self,
const Tensor& target,
const c10::optional<Tensor>& weight,
int64_t reduction);
Tensor binary_cross_entropy_with_logits_backward(
const Tensor& grad,
const Tensor& input,
const Tensor& target,
const c10::optional<Tensor>& weight_opt,
const c10::optional<Tensor>& pos_weight_opt,
int64_t reduction);
at::Tensor binary_cross_entropy_with_logits_target_backward(
const at::Tensor& grad_output,
const at::Tensor& self,
const at::Tensor& target,
const c10::optional<at::Tensor>& weight,
const c10::optional<at::Tensor>& pos_weight,
int64_t reduction);
at::Tensor log_sigmoid_double_backward(
const at::Tensor& grad,
const at::Tensor& input);
at::Tensor softmax_double_backward(
const at::Tensor& grad,
const at::Tensor& grad_output,
int dim,
const at::Tensor& output);
at::Tensor binary_cross_entropy_double_backward(
const at::Tensor& grad_output,
const at::Tensor& grad,
const at::Tensor& input,
const at::Tensor& target,
const c10::optional<at::Tensor>& weight,
int64_t reduction);
at::Tensor binary_cross_entropy_double_backward_grad_output(
const at::Tensor& grad,
const at::Tensor& input,
const at::Tensor& target,
const c10::optional<at::Tensor>& weight,
int64_t reduction);
at::Tensor smooth_l1_loss_double_backward(
const at::Tensor& grad,
const at::Tensor& input,
const at::Tensor& target,
int64_t reduction,
double beta);
at::Tensor huber_loss_double_backward(
const at::Tensor& grad,
const at::Tensor& input,
const at::Tensor& target,
int64_t reduction,
double delta);
at::Tensor huber_loss_double_backward_grad_output(
const at::Tensor& grad,
const at::Tensor& grad_output,
const at::Tensor& input,
const at::Tensor& target,
int64_t reduction,
double delta);
at::Tensor mse_loss_double_backward(
const at::Tensor& grad,
const at::Tensor& input,
int64_t reduction);
at::Tensor soft_margin_loss_double_backward(
const at::Tensor& grad,
const at::Tensor& input,
const at::Tensor& target,
int64_t reduction);
at::Tensor soft_margin_loss_double_backward_grad_output(
const at::Tensor& grad,
const at::Tensor& grad_output,
const at::Tensor& input,
const at::Tensor& target,
int64_t reduction);
at::Tensor softplus_double_backward(
const at::Tensor& grad,
const at::Tensor& input,
const at::Scalar& beta,
const at::Scalar& threshold);
std::tuple<at::Tensor, at::Tensor> slogdet_jvp(
const at::Tensor& LU,
const at::Tensor& pivots,
const at::Tensor& dA,
const at::Tensor& sign,
const bool use_A_T);
at::Tensor slogdet_backward(
const at::Tensor& grad_sign,
const at::Tensor& grad_logabsdet,
const at::Tensor& A,
const at::Tensor& signdet,
const at::Tensor& LU,
const at::Tensor& pivots);
at::Tensor log1p_backward(const at::Tensor& grad, const at::Tensor& self);
at::Tensor sinc_backward(const at::Tensor& grad, const at::Tensor& self);
at::Tensor sparse_constructor_values_backward(
const at::Tensor& sparse_grad_out,
const at::Tensor& indices);
at::Tensor embedding_dense_double_backward_symint(
const at::Tensor& grad,
const at::Tensor& indices,
const c10::SymInt& padding_idx);
at::Tensor index_backward(
at::Tensor zeros_like_self,
const torch::List<c10::optional<Tensor>>& indices,
const at::Tensor& grad);
at::Tensor _cudnn_ctc_loss_backward(
const at::Tensor& grad_out,
const at::Tensor& loss,
const at::Tensor& raw_grad,
bool zero_infinity);
at::Tensor elu_double_backward(
const Tensor& grad,
const Tensor& grad_output,
const Scalar& alpha,
const Scalar& scale,
const Scalar& input_scale,
bool is_result,
const Tensor& self_or_result);
Tensor svd_backward(
const Tensor& gU,
const Tensor& gS,
const Tensor& gVh,
const Tensor& U,
const Tensor& S,
const Tensor& Vh);
std::tuple<Tensor, Tensor, Tensor> linalg_svd_jvp(
const Tensor& dA,
const Tensor& U,
const Tensor& S,
const Tensor& Vh,
const bool full_matrices);
Tensor slice_backward_wrapper(
const at::Tensor& grad,
const c10::SymIntArrayRef& input_sizes,
int64_t dim,
c10::optional<c10::SymInt> start,
c10::optional<c10::SymInt> end,
c10::SymInt step);
std::tuple<Tensor, Tensor> linalg_eig_jvp(
const Tensor& dA,
const Tensor& L,
const Tensor& V,
const bool is_hermitian);
Tensor linalg_eig_backward(
const Tensor& gL,
const Tensor& gV,
const Tensor& L,
const Tensor& V,
const bool is_hermitian,
const bool symeig_eigenvectors = true);
Tensor linalg_lstsq_jvp(
const Tensor& A,
const Tensor& B,
const Tensor& dA,
const Tensor& dB);
std::tuple<Tensor, Tensor> triangular_solve_backward(
const Tensor& grad_x,
const Tensor& grad_m,
const Tensor& b,
const Tensor& a,
const Tensor& x,
const bool upper,
const bool transpose,
const bool unitriangular,
std::array<bool, 2> output_mask);
Tensor triangular_solve_jvp(
const Tensor& X,
const Tensor& A,
const Tensor& dA,
const Tensor& dB,
const bool upper,
const bool transpose,
const bool unitriangular);
Tensor linalg_solve_triangular_forward_AD(
const Tensor& A_t,
const Tensor& B_t,
const Tensor& A,
const Tensor& X,
const bool upper,
const bool left,
const bool unitriangular);
std::tuple<Tensor, Tensor> linalg_solve_triangular_backward(
const Tensor& grad,
const Tensor& A,
const Tensor& X,
const bool upper,
const bool left,
const bool unitriangular,
std::array<bool, 2> output_mask);
std::tuple<Tensor, Tensor, Tensor> _trilinear_backward(
const Tensor& grad_out,
const c10::optional<Tensor>& i1,
const c10::optional<Tensor>& i2,
const c10::optional<Tensor>& i3,
IntArrayRef expand1,
IntArrayRef expand2,
IntArrayRef expand3,
IntArrayRef sumdim,
std::array<bool, 3> grad_mask);
std::tuple<Tensor, Tensor> linalg_qr_jvp(
const Tensor& dA,
const Tensor& Q,
const Tensor& R,
const c10::string_view mode);
Tensor linalg_qr_backward(
const Tensor& gQ,
const Tensor& gR,
const Tensor& Q,
const Tensor& R,
const c10::string_view mode);
Tensor linalg_matrix_exp_differential(
const Tensor& self,
const Tensor& grad,
bool adjoint);
std::tuple<Tensor, Tensor, Tensor> batchnorm_double_backward(
const Tensor& input,
const c10::optional<Tensor>& gamma,
const Tensor& ggI,
const Tensor& ggG,
const Tensor& ggB,
const Tensor& gO,
const c10::optional<Tensor>& running_mean,
const c10::optional<Tensor>& running_var,
bool training,
double eps,
const c10::optional<Tensor>& save_mean,
const c10::optional<Tensor>& save_invstd,
std::array<bool, 3> output_mask);
std::tuple<Tensor, Tensor> _euclidean_dist_backward(
const Tensor& grad,
const Tensor& x1,
const Tensor& x2,
const Tensor& res);
Tensor fft_backward(
const Tensor& self,
const Tensor& grad,
int64_t signal_ndim,
bool complex_input,
bool complex_output,
bool inverse,
IntArrayRef checked_signal_sizes,
int64_t normalization,
bool onesided,
IntArrayRef output_sizes);
Tensor fft_r2c_backward(
const Tensor& grad,
at::IntArrayRef dim,
int64_t normalization,
bool onesided,
const c10::SymInt& last_dim_size);
Tensor fft_c2r_backward(
const Tensor& grad,
IntArrayRef dim,
int64_t normalization);
Tensor constant_pad_nd_backward(const Tensor& grad, c10::SymIntArrayRef pad);
std::tuple<Tensor, Tensor> cholesky_solve_backward(
const Tensor& grad_x,
const Tensor& self,
const Tensor& input2,
const Tensor& result,
const bool upper,
std::array<bool, 2> output_mask);
Tensor cholesky_solve_jvp(
const Tensor& X,
const Tensor& U,
const Tensor& dU,
const Tensor& dB,
const bool upper);
std::tuple<Tensor, Tensor, Tensor>
infinitely_differentiable_native_group_norm_backward(
const Tensor& dY,
const Tensor& dmean,
const Tensor& drstd,
const Tensor& X,
const Tensor& mean,
const Tensor& rstd,
const c10::optional<Tensor>& gamma,
c10::SymInt N,
const c10::SymInt& C,
c10::SymInt HxW,
int64_t group,
double eps,
std::array<bool, 3> grad_input_mask);
Tensor gelu_double_backward(
const Tensor& ggI,
const Tensor& gO,
const Tensor& input,
c10::string_view approximate);
Tensor as_strided_backward(
Tensor grad,
const TensorGeometry& input_geometry,
c10::SymIntArrayRef sizes,
c10::SymIntArrayRef strides,
const optional<c10::SymInt>& storage_offset_);
Tensor as_strided_scatter_backward(
const Tensor& grad,
const TensorGeometry& input_geometry,
const TensorGeometry& src_geometry,
c10::SymIntArrayRef sizes,
c10::SymIntArrayRef strides,
optional<c10::SymInt> storage_offset);
std::tuple<Tensor, Tensor> atan2_backward(
const Tensor& grad,
const Tensor& self,
const Tensor& other,
std::array<bool, 2> output_mask);
Tensor amaxamin_jvp(
const Tensor& x,
const Tensor& dx,
const Tensor& result,
IntArrayRef dim,
bool keepdim);
std::tuple<Tensor, Tensor, Tensor> layer_norm_double_backward(
const Tensor& input,
const c10::optional<Tensor>& gamma,
const Tensor& ggI,
const Tensor& ggG,
const Tensor& ggB,
const Tensor& gO,
const Tensor& save_mean,
const Tensor& save_invstd,
c10::SymIntArrayRef normalized_shape,
std::array<bool, 3> output_mask);
std::tuple<Tensor, Tensor> householder_product_backward(
const Tensor& grad,
const Tensor& result,
const Tensor& input,
const Tensor& tau,
const bool flip_order = false);
Tensor householder_product_jvp(
const Tensor& dV,
const Tensor& dtau,
const Tensor& prod,
const Tensor& V,
const Tensor& tau);
std::tuple<Tensor, Tensor, Tensor> ormqr_backward(
const Tensor& grad,
const Tensor& result,
const Tensor& self,
const Tensor& tau,
const Tensor& other,
bool left,
bool transpose,
std::array<bool, 3> grad_output_mask);
std::tuple<Tensor, Tensor> polar_backward(
const Tensor& grad,
const Tensor& result);
Tensor i1_backward(
const Tensor& grad,
const Tensor& self,
const Tensor& result);
Tensor i1e_backward(
const Tensor& grad,
const Tensor& self,
const Tensor& result);
Tensor linalg_lu_solve_LU(
const Tensor& grad,
const Tensor& LU,
const Tensor& pivots,
const Tensor& X,
const bool left,
const bool adjoint);
Tensor linalg_lu_solve_jvp(
const Tensor& X,
const Tensor& LU,
const Tensor& pivots,
const Tensor& dLU,
const Tensor& dB,
const bool left,
const bool adjoint);
std::tuple<Tensor, Tensor> linalg_solve_backward(
const Tensor& gX,
const Tensor& X,
const Tensor& A,
const Tensor& LU,
const Tensor& pivots,
const bool left,
const bool B_requires_grad);
Tensor linalg_solve_jvp(
const Tensor& dA,
const Tensor& dB,
const Tensor& X,
const Tensor& LU,
const Tensor& pivots,
const bool left,
const bool use_A_T);
Tensor lu_unpack_backward(
const Tensor& L_grad,
const Tensor& U_grad,
const c10::SymInt& m,
const c10::SymInt& n);
Tensor linalg_det_backward(
const Tensor& grad,
const Tensor& det,
const Tensor& A,
const Tensor& LU,
const Tensor& pivots);
Tensor linalg_det_jvp(
const Tensor& dA,
const Tensor& det,
const Tensor& LU,
const Tensor& pivots,
const bool use_A_T);
std::tuple<Tensor, Tensor> linalg_lstsq_backward(
const Tensor& grad,
const Tensor& A,
const Tensor& B_,
const std::array<bool, 2>& grad_input_mask);
Tensor linalg_lu_backward(
const Tensor& L_grad,
const Tensor& U_grad,
const Tensor& P,
const Tensor& L,
const Tensor& U,
const bool pivot);
std::tuple<Tensor, Tensor> linalg_lu_jvp(
const Tensor& dA,
const Tensor& P,
const Tensor& L,
const Tensor& U,
const bool pivot);
Tensor lu_factor_ex_backward(
const Tensor& grad,
const Tensor& LU,
const Tensor& pivs,
const bool pivot);
Tensor lu_factor_ex_jvp(
const Tensor& dX,
const Tensor& LU,
const Tensor& pivs,
const bool pivot);
Tensor batch_norm_jvp(
const Tensor& input_p,
const Tensor& input_t,
const Tensor& weight_p,
const Tensor& weight_t,
const Tensor& bias_p,
const Tensor& bias_t,
const c10::optional<Tensor>& running_mean,
const c10::optional<Tensor>& running_var,
const Tensor& saved_mean,
const Tensor& saved_invstd,
bool train,
double eps);
Tensor layer_norm_jvp(
const Tensor& input_p,
const Tensor& input_t,
const Tensor& weight_p,
const Tensor& weight_t,
const Tensor& bias_p,
const Tensor& bias_t,
const Tensor& saved_mean,
const Tensor& saved_invstd,
c10::SymIntArrayRef normalized_shape);
Tensor group_norm_jvp(
const Tensor& input_p,
const Tensor& input_t,
const Tensor& weight_p,
const Tensor& weight_t,
const Tensor& bias_p,
const Tensor& bias_t,
const Tensor& saved_mean,
const Tensor& saved_invstd,
int64_t groups);
Tensor group_norm_mean_jvp(
const Tensor& input_t,
const Tensor& mean_p,
int64_t groups);
Tensor group_norm_invstd_jvp(
const Tensor& input_p,
const Tensor& input_t,
const Tensor& mean_p,
const Tensor& invstd_p,
int64_t groups);
Tensor convolution_jvp(
const Tensor& input_p,
const Tensor& input_t,
const Tensor& weight_p,
const Tensor& weight_t,
const Tensor& bias_p,
const Tensor& bias_t,
at::SymIntArrayRef stride,
at::SymIntArrayRef padding,
at::SymIntArrayRef dilation,
bool transposed,
at::SymIntArrayRef output_padding,
const c10::SymInt& groups);
Tensor _convolution_jvp(
const Tensor& input_p,
const Tensor& input_t,
const Tensor& weight_p,
const Tensor& weight_t,
const Tensor& bias_p,
const Tensor& bias_t,
at::SymIntArrayRef stride,
at::SymIntArrayRef padding,
at::SymIntArrayRef dilation,
bool transposed,
at::SymIntArrayRef output_padding,
const c10::SymInt& groups,
bool benchmark,
bool deterministic,
bool cudnn_enabled,
bool allow_tf32);
Tensor convolution_backward_jvp_grad_bias(
const Tensor& grad_out_t,
const Tensor& grad_bias);
Tensor cat_jvp(const at::ITensorListRef& tensors, int64_t dim);
Tensor block_diag_jvp(at::TensorList tensors);
Tensor stack_jvp(at::TensorList tensors, int64_t dim);
Tensor cumprod_jvp(