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#pragma once
#ifndef AT_PER_OPERATOR_HEADERS
#include <ATen/Functions.h>
#else
#include <ATen/ops/view.h>
#include <ATen/ops/view_copy.h>
#endif
#include <ATen/Tensor.h>
#include <ATen/core/DimVector.h>
#include <c10/util/Exception.h>
#include <c10/util/MaybeOwned.h>
#include <c10/util/irange.h>
#include <functional>
#include <sstream>
#include <tuple>
#include <utility>
namespace at {
TORCH_API std::vector<int64_t> infer_size(IntArrayRef a, IntArrayRef b);
TORCH_API std::vector<SymInt> infer_size_symint(
SymIntArrayRef a,
SymIntArrayRef b);
TORCH_API DimVector infer_size_dimvector(IntArrayRef a, IntArrayRef b);
TORCH_API SymDimVector
infer_size_symdimvector(SymIntArrayRef a, SymIntArrayRef b);
// Named type instead of a pair/tuple so that we can be sure to
// construct the vectors in place and get NRVO.
template <typename Container>
struct InferExpandGeometryResult {
Container sizes;
Container strides;
explicit InferExpandGeometryResult(size_t ndim)
: sizes(ndim), strides(ndim) {}
explicit InferExpandGeometryResult(IntArrayRef sizes_, size_t ndim)
: sizes(sizes_.begin(), sizes_.end()), strides(ndim) {}
};
TORCH_API std::tuple<std::vector<int64_t>, std::vector<int64_t>>
inferExpandGeometry(
IntArrayRef tensor_sizes,
IntArrayRef tensor_strides,
IntArrayRef sizes);
TORCH_API InferExpandGeometryResult<DimVector> inferExpandGeometry_dimvector(
IntArrayRef tensor_sizes,
IntArrayRef tensor_strides,
IntArrayRef sizes);
TORCH_API std::vector<int64_t> infer_dense_strides(
IntArrayRef tensor_sizes,
IntArrayRef tensor_strides);
// True if input shapes are expandable
// NOTE: infer_size did a similar check, please keep them sync if change is
// needed
inline bool are_expandable(IntArrayRef shape1, IntArrayRef shape2) {
size_t ndim1 = shape1.size();
size_t ndim2 = shape2.size();
size_t ndim = ndim1 < ndim2 ? ndim1 : ndim2;
for (int64_t i = static_cast<int64_t>(ndim) - 1; i >= 0; --i) {
if (shape1[--ndim1] == shape2[--ndim2] || shape1[ndim1] == 1 ||
shape2[ndim2] == 1) {
continue;
}
return false;
}
return true;
}
// avoid copy-construction of Tensor by using a reference_wrapper.
inline void check_defined(
std::initializer_list<std::reference_wrapper<const Tensor>> tensors,
const char* api_name) {
for (auto& t : tensors) {
if (!t.get().defined()) {
AT_ERROR(api_name, "(...) called with an undefined Tensor");
}
}
}
// NOTE [ ExpandUtils Borrowing ]
//
// Functions in ExpandUtils return `c10::MaybeOwned<Tensor>` because
// expansion may not actually be needed, in which case we can improve
// efficiency by returning
// `c10::MaybeOwned<Tensor>::borrowed(to_expand)`. However, this means
// that you need to be careful: the returned `c10::MaybeOwned<Tensor>`
// must not outlive the original `Tensor` object that `to_expand`
// referred to! The deleted rvalue reference overloads of these
// functions help with this by preventing trivial use of a temporary
// resulting from a function call, but it is still possible to make a
// mistake.
inline c10::MaybeOwned<Tensor> expand_inplace(
const Tensor& tensor,
const Tensor& to_expand) {
if (tensor.sym_sizes().equals(to_expand.sym_sizes())) {
return c10::MaybeOwned<Tensor>::borrowed(to_expand);
}
return c10::MaybeOwned<Tensor>::owned(
to_expand.expand_symint(tensor.sym_sizes()));
}
inline c10::MaybeOwned<Tensor> expand_inplace(
const Tensor& tensor,
Tensor&& to_expand) = delete;
inline c10::MaybeOwned<Tensor> expand_inplace(
const Tensor& tensor,
const Tensor& to_expand,
const char* api_name) {
check_defined({tensor, to_expand}, api_name);
return expand_inplace(tensor, to_expand);
}
inline c10::MaybeOwned<Tensor> expand_inplace(
const Tensor& tensor,
Tensor&& to_expand,
const char* api_name) = delete;
inline std::tuple<c10::MaybeOwned<Tensor>, c10::MaybeOwned<Tensor>>
expand_inplace(
const Tensor& tensor,
const Tensor& to_expand1,
const Tensor& to_expand2) {
if (tensor.sizes().equals(to_expand1.sizes()) &&
tensor.sizes().equals((to_expand2.sizes()))) {
return std::make_tuple(
c10::MaybeOwned<Tensor>::borrowed(to_expand1),
c10::MaybeOwned<Tensor>::borrowed(to_expand2));
}
return std::make_tuple(
c10::MaybeOwned<Tensor>::owned(to_expand1.expand(tensor.sizes())),
c10::MaybeOwned<Tensor>::owned(to_expand2.expand(tensor.sizes())));
}
inline std::tuple<c10::MaybeOwned<Tensor>, c10::MaybeOwned<Tensor>>
expand_inplace(
const Tensor& tensor,
Tensor&& to_expand1,
const Tensor& to_expand2) = delete;
inline std::tuple<c10::MaybeOwned<Tensor>, c10::MaybeOwned<Tensor>>
expand_inplace(
const Tensor& tensor,
const Tensor& to_expand1,
Tensor&& to_expand2) = delete;
inline std::tuple<c10::MaybeOwned<Tensor>, c10::MaybeOwned<Tensor>>
expand_inplace(const Tensor& tensor, Tensor&& to_expand1, Tensor&& to_expand2) =
delete;
inline std::tuple<c10::MaybeOwned<Tensor>, c10::MaybeOwned<Tensor>>
expand_inplace(
const Tensor& tensor,
const Tensor& to_expand1,
const Tensor& to_expand2,
const char* api_name) {
check_defined({tensor, to_expand1, to_expand2}, api_name);
return expand_inplace(tensor, to_expand1, to_expand2);
}
inline std::tuple<c10::MaybeOwned<Tensor>, c10::MaybeOwned<Tensor>>
expand_inplace(
const Tensor& tensor,
Tensor&& to_expand1,
const Tensor& to_expand2,
const char* api_name) = delete;
inline std::tuple<c10::MaybeOwned<Tensor>, c10::MaybeOwned<Tensor>>
expand_inplace(
const Tensor& tensor,
const Tensor& to_expand1,
Tensor&& to_expand2,
const char* api_name) = delete;
inline std::tuple<c10::MaybeOwned<Tensor>, c10::MaybeOwned<Tensor>>
expand_inplace(
const Tensor& tensor,
Tensor&& to_expand1,
Tensor&& to_expand2,
const char* api_name) = delete;
// See NOTE [ ExpandUtils Borrowing ] above for `MaybeOwned` explanation.
inline std::tuple<c10::MaybeOwned<Tensor>, c10::MaybeOwned<Tensor>>
expand_outplace(const Tensor& to_expand1, const Tensor& to_expand2) {
auto s1 = to_expand1.sym_sizes();
auto s2 = to_expand2.sym_sizes();
if (s1.equals(s2)) {
return std::make_tuple(
c10::MaybeOwned<Tensor>::borrowed(to_expand1),
c10::MaybeOwned<Tensor>::borrowed(to_expand2));
}
auto expanded_size = infer_size_symdimvector(s1, s2);
return std::make_tuple(
c10::MaybeOwned<Tensor>::owned(to_expand1.expand_symint(expanded_size)),
c10::MaybeOwned<Tensor>::owned(to_expand2.expand_symint(expanded_size)));
}
inline std::tuple<c10::MaybeOwned<Tensor>, c10::MaybeOwned<Tensor>>
expand_outplace(Tensor&& to_expand1, const Tensor& to_expand2) = delete;
inline std::tuple<c10::MaybeOwned<Tensor>, c10::MaybeOwned<Tensor>>
expand_outplace(const Tensor& to_expand1, Tensor&& to_expand2) = delete;
inline std::tuple<c10::MaybeOwned<Tensor>, c10::MaybeOwned<Tensor>>
expand_outplace(Tensor&& to_expand1, Tensor&& to_expand2) = delete;
inline std::tuple<c10::MaybeOwned<Tensor>, c10::MaybeOwned<Tensor>>
expand_outplace(
const Tensor& to_expand1,
const Tensor& to_expand2,
const char* api_name) {
check_defined({to_expand1, to_expand2}, api_name);
return expand_outplace(to_expand1, to_expand2);
}
inline std::tuple<c10::MaybeOwned<Tensor>, c10::MaybeOwned<Tensor>>
expand_outplace(
Tensor&& to_expand1,
const Tensor& to_expand2,
const char* api_name) = delete;
inline std::tuple<c10::MaybeOwned<Tensor>, c10::MaybeOwned<Tensor>>
expand_outplace(
const Tensor& to_expand1,
Tensor&& to_expand2,
const char* api_name) = delete;
inline std::tuple<c10::MaybeOwned<Tensor>, c10::MaybeOwned<Tensor>>
expand_outplace(
Tensor&& to_expand1,
Tensor&& to_expand2,
const char* api_name) = delete;
inline std::tuple<
c10::MaybeOwned<Tensor>,
c10::MaybeOwned<Tensor>,
c10::MaybeOwned<Tensor>>
expand_outplace(
const Tensor& to_expand1,
const Tensor& to_expand2,
const Tensor& to_expand3) {
if (to_expand1.sizes().equals(to_expand2.sizes()) &&
to_expand1.sizes().equals(to_expand3.sizes())) {
return std::make_tuple(
c10::MaybeOwned<Tensor>::borrowed(to_expand1),
c10::MaybeOwned<Tensor>::borrowed(to_expand2),
c10::MaybeOwned<Tensor>::borrowed(to_expand3));
}
auto expanded_size12 =
infer_size_dimvector(to_expand1.sizes(), to_expand2.sizes());
auto expanded_size =
infer_size_dimvector(expanded_size12, to_expand3.sizes());
return std::make_tuple(
c10::MaybeOwned<Tensor>::owned(to_expand1.expand(expanded_size)),
c10::MaybeOwned<Tensor>::owned(to_expand2.expand(expanded_size)),
c10::MaybeOwned<Tensor>::owned(to_expand3.expand(expanded_size)));
}
inline std::tuple<
c10::MaybeOwned<Tensor>,
c10::MaybeOwned<Tensor>,
c10::MaybeOwned<Tensor>>
expand_outplace(
Tensor&& to_expand1,
const Tensor& to_expand2,
const Tensor& to_expand3) = delete;
inline std::tuple<
c10::MaybeOwned<Tensor>,
c10::MaybeOwned<Tensor>,
c10::MaybeOwned<Tensor>>
expand_outplace(
const Tensor& to_expand1,
Tensor&& to_expand2,
const Tensor& to_expand3) = delete;
inline std::tuple<
c10::MaybeOwned<Tensor>,
c10::MaybeOwned<Tensor>,
c10::MaybeOwned<Tensor>>
expand_outplace(
Tensor&& to_expand1,
Tensor&& to_expand2,
const Tensor& to_expand3) = delete;
inline std::tuple<
c10::MaybeOwned<Tensor>,
c10::MaybeOwned<Tensor>,
c10::MaybeOwned<Tensor>>
expand_outplace(
const Tensor& to_expand1,
const Tensor& to_expand2,
Tensor&& to_expand3) = delete;
inline std::tuple<
c10::MaybeOwned<Tensor>,
c10::MaybeOwned<Tensor>,
c10::MaybeOwned<Tensor>>
expand_outplace(
Tensor&& to_expand1,
const Tensor& to_expand2,
Tensor&& to_expand3) = delete;
inline std::tuple<
c10::MaybeOwned<Tensor>,
c10::MaybeOwned<Tensor>,
c10::MaybeOwned<Tensor>>
expand_outplace(
const Tensor& to_expand1,
Tensor&& to_expand2,
Tensor&& to_expand3) = delete;
inline std::tuple<
c10::MaybeOwned<Tensor>,
c10::MaybeOwned<Tensor>,
c10::MaybeOwned<Tensor>>
expand_outplace(Tensor&& to_expand1, Tensor&& to_expand2, Tensor&& to_expand3) =
delete;
inline std::tuple<
c10::MaybeOwned<Tensor>,
c10::MaybeOwned<Tensor>,
c10::MaybeOwned<Tensor>>
expand_outplace(
const Tensor& to_expand1,
const Tensor& to_expand2,
const Tensor& to_expand3,
const char* api_name) {
check_defined({to_expand1, to_expand2, to_expand3}, api_name);
return expand_outplace(to_expand1, to_expand2, to_expand3);
}
inline std::tuple<
c10::MaybeOwned<Tensor>,
c10::MaybeOwned<Tensor>,
c10::MaybeOwned<Tensor>>
expand_outplace(
Tensor&& to_expand1,
const Tensor& to_expand2,
const Tensor& to_expand3,
const char* api_name) = delete;
inline std::tuple<
c10::MaybeOwned<Tensor>,
c10::MaybeOwned<Tensor>,
c10::MaybeOwned<Tensor>>
expand_outplace(
const Tensor& to_expand1,
Tensor&& to_expand2,
const Tensor& to_expand3,
const char* api_name) = delete;
inline std::tuple<
c10::MaybeOwned<Tensor>,
c10::MaybeOwned<Tensor>,
c10::MaybeOwned<Tensor>>
expand_outplace(
Tensor&& to_expand1,
Tensor&& to_expand2,
const Tensor& to_expand3,
const char* api_name) = delete;
inline std::tuple<
c10::MaybeOwned<Tensor>,
c10::MaybeOwned<Tensor>,
c10::MaybeOwned<Tensor>>
expand_outplace(
const Tensor& to_expand1,
const Tensor& to_expand2,
Tensor&& to_expand3,
const char* api_name) = delete;
inline std::tuple<
c10::MaybeOwned<Tensor>,
c10::MaybeOwned<Tensor>,
c10::MaybeOwned<Tensor>>
expand_outplace(
Tensor&& to_expand1,
const Tensor& to_expand2,
Tensor&& to_expand3,
const char* api_name) = delete;
inline std::tuple<
c10::MaybeOwned<Tensor>,
c10::MaybeOwned<Tensor>,
c10::MaybeOwned<Tensor>>
expand_outplace(
const Tensor& to_expand1,
Tensor&& to_expand2,
Tensor&& to_expand3,
const char* api_name) = delete;
inline std::tuple<
c10::MaybeOwned<Tensor>,
c10::MaybeOwned<Tensor>,
c10::MaybeOwned<Tensor>>
expand_outplace(
Tensor&& to_expand1,
Tensor&& to_expand2,
Tensor&& to_expand3,
const char* api_name) = delete;
inline c10::MaybeOwned<Tensor> expand_size(
const Tensor& to_expand,
IntArrayRef sizes) {
if (to_expand.sizes().equals(sizes)) {
return c10::MaybeOwned<Tensor>::borrowed(to_expand);
}
return c10::MaybeOwned<Tensor>::owned(to_expand.expand(sizes));
}
inline c10::MaybeOwned<Tensor> expand_size(
Tensor&& to_expand,
IntArrayRef sizes) = delete;
inline c10::MaybeOwned<Tensor> expand_size(
const Tensor& to_expand,
IntArrayRef sizes,
const char* api_name) {
check_defined({to_expand}, api_name);
return expand_size(to_expand, sizes);
}
inline c10::MaybeOwned<Tensor> expand_size(
Tensor&& to_expand,
IntArrayRef sizes,
const char* api_name) = delete;
inline std::vector<Tensor> expand_outplace(TensorList to_expand) {
// expands a list of Tensors; ignores undefined (null) tensors
bool first = true;
DimVector sizes;
for (const auto i : c10::irange(to_expand.size())) {
if (!to_expand[i].defined()) {
continue;
} else if (first) {
sizes = to_expand[i].sizes();
first = false;
} else {
sizes = infer_size_dimvector(sizes, to_expand[i].sizes());
}
}
std::vector<Tensor> result(to_expand.size());
for (const auto i : c10::irange(to_expand.size())) {
if (!to_expand[i].defined()) {
continue;
} else if (to_expand[i].sizes().equals(sizes)) {
result[i] = to_expand[i];
} else {
result[i] = to_expand[i].expand(sizes);
}
}
return result;
}
template <typename T>
inline Tensor _sum_to(
Tensor tensor,
const c10::ArrayRef<T> shape,
bool always_return_non_view = false) {
if (shape.size() == 0) {
return tensor.sum();
}
auto sizes = at::symint::sizes<T>(tensor);
c10::SmallVector<int64_t, 8> reduce_dims;
const int64_t leading_dims = sizes.size() - shape.size();
for (const auto i : c10::irange(leading_dims)) {
reduce_dims.push_back(i);
}
for (int64_t i = leading_dims; i < static_cast<int64_t>(sizes.size()); ++i) {
if (shape[i - leading_dims] == 1 && sizes[i] != 1) {
reduce_dims.push_back(i);
}
}
if (!reduce_dims.empty()) {
tensor = tensor.sum(reduce_dims, /*keepdim=*/true);
}
if (always_return_non_view) {
// This is only actually used by the functionalization pass.
// We want to be able to guarantee that this function doesn't return a view
// of the input.
return leading_dims > 0 ? at::symint::view_copy<T>(tensor, shape)
: tensor.clone();
} else {
return leading_dims > 0 ? at::symint::view<T>(tensor, shape) : tensor;
}
}
inline Tensor sum_to(
Tensor tensor,
const c10::SymIntArrayRef shape,
bool always_return_non_view = false) {
return _sum_to(std::move(tensor), shape, always_return_non_view);
}
// Sums `tensor` repeatedly to produce a tensor of shape `shape`.
// Precondition: is_expandable_to(shape, tensor.sizes()) must be true
inline Tensor sum_to(
Tensor tensor,
const IntArrayRef shape,
bool always_return_non_view = false) {
return _sum_to(std::move(tensor), shape, always_return_non_view);
}
static inline bool is_expandable_to(
SymIntArrayRef shape,
c10::SymIntArrayRef desired) {
size_t ndim = shape.size();
size_t target_dim = desired.size();
if (ndim > target_dim) {
return false;
}
for (const auto i : c10::irange(ndim)) {
const auto& size = shape[ndim - i - 1];
const auto& target = desired[target_dim - i - 1];
if (size != target && size != 1) {
return false;
}
}
return true;
}
static inline bool is_expandable_to(IntArrayRef shape, IntArrayRef desired) {
auto sym_shape = c10::SymIntArrayRef(
reinterpret_cast<const c10::SymInt*>(shape.data()), shape.size());
auto sym_desired = c10::SymIntArrayRef(
reinterpret_cast<const c10::SymInt*>(desired.data()), desired.size());
return is_expandable_to(sym_shape, sym_desired);
}
} // namespace at