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variable.cpp
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variable.cpp
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#include <torch/csrc/autograd/variable.h>
#include <torch/csrc/autograd/InferenceMode.h>
#include <torch/csrc/autograd/autograd.h>
#include <torch/csrc/autograd/edge.h>
#include <torch/csrc/autograd/engine.h>
#include <torch/csrc/autograd/function.h>
#include <torch/csrc/autograd/functions/accumulate_grad.h>
#include <torch/csrc/autograd/functions/tensor.h>
#include <torch/csrc/autograd/generated/Functions.h>
#include <torch/csrc/autograd/utils/error_messages.h>
#include <ATen/core/VariableHooksInterface.h>
#include <ATen/ATen.h>
#include <ATen/FuncTorchTLS.h>
#include <ATen/MemoryOverlap.h>
#include <c10/util/Exception.h>
#include <iostream>
#include <list>
#include <memory>
#include <mutex>
#include <stdexcept>
#include <string>
#include <typeinfo>
#include <utility>
#include <vector>
namespace torch {
namespace autograd {
DifferentiableViewMeta::DifferentiableViewMeta(
at::TensorImpl* self_impl,
c10::optional<ViewInfo> backward_info,
c10::optional<ViewInfo> forward_info,
bool shared_view_info,
CreationMeta creation_meta)
: AutogradMeta(self_impl),
backward_info_(std::move(backward_info)),
forward_info_(std::move(forward_info)),
shared_view_info_(shared_view_info),
creation_meta_(creation_meta) {
is_view_ = true;
if (backward_info_.has_value()) {
self_impl->set_version_counter(
impl::version_counter(backward_info_.value().base_));
attr_version_ = self_impl->version_counter().current_version();
TORCH_INTERNAL_ASSERT(
backward_info_.value().base_.unsafeGetTensorImpl() != self_impl);
}
if (shared_view_info_) {
TORCH_INTERNAL_ASSERT(
backward_info_.has_value(),
"Shared view info require a backward view info.");
TORCH_INTERNAL_ASSERT(
!forward_info_.has_value(),
"Shared view info require forward view info to be empty")
}
}
// Chain this view info with the new view op between base and tensor
ViewInfo ViewInfo::chain(
const Variable& base,
const Variable& tensor,
std::function<Variable(const Variable&)> view_func) const {
// Set `view_func` using the root base as input.
// `view_func` is used to recover views in backward when either as_strided is
// not supported or the view function changes the metadata which is not
// recorded by as_strided See Note [View + Inplace update on base tensor] and
// [View + Inplace update on view tensor] for more details how we use this
// function in backward.
if (view_func) {
// both current_view and it's parent have a view_func
if (view_fn_) {
// Copy parent view function to gain ownership
auto prev_fn = view_fn_;
view_func = [=](const at::Tensor& root_base) {
auto temp = prev_fn(root_base);
return view_func(temp);
};
} else {
// current_view has a view_func and but it's parent doesn't have one
if (base.unsafeGetTensorImpl()->support_as_strided()) {
auto size = base.sym_sizes().vec();
auto stride = base.sym_strides().vec();
auto storage_offset = base.sym_storage_offset();
view_func = [=](const at::Tensor& root_base) {
auto temp = root_base.as_strided_symint(size, stride, storage_offset);
return view_func(temp);
};
} else {
// When base is a view but doesn't carry a view_fn in
// DifferentiableViewMeta, it's a view that doesn't support inplace
// update, e.g. unbind. In this case we should throw an error when
// inplace update happens in **forward**. One would naturally think the
// following function will be first called in backward pass. But the
// first call site is indeed in **forward** pass when we refresh
// `grad_fn` triggered by inplace update. Search Note [View + Inplace
// update for view tensor] to for the call site.
view_func = [=](const at::Tensor& root_base) {
TORCH_CHECK(
false,
"This view is the output of a function that returns multiple views."
"Such functions do not allow the output views to be modified inplace."
"You should replace the inplace operation by an out-of-place one");
return root_base;
};
}
}
} else if (view_fn_) {
// if current_view doesn't have a view_func but it's parent has one
// Copy parent view function to gain ownership
auto prev_view_fn = view_fn_;
auto size = tensor.sym_sizes().vec();
auto stride = tensor.sym_strides().vec();
auto storage_offset = tensor.sym_storage_offset();
view_func = [=](const at::Tensor& root_base) {
auto temp = prev_view_fn(root_base);
return temp.as_strided_symint(size, stride, storage_offset);
};
}
return ViewInfo(base_, std::move(view_func));
}
namespace {
at::Tensor singleton_undefined_tensor;
struct ConcreteAutogradMetaFactory : public c10::impl::AutogradMetaFactory {
std::unique_ptr<c10::AutogradMetaInterface> make() const override {
return std::make_unique<AutogradMeta>();
}
const at::Tensor& undefined_tensor() const override {
return singleton_undefined_tensor;
}
};
ConcreteAutogradMetaFactory meta_factory;
static c10::impl::AutogradMetaFactoryRegisterer meta_factory_registerer(
&meta_factory);
} // namespace
namespace impl {
AutogradMeta* materialize_autograd_meta(const at::TensorBase& self) {
TORCH_CHECK(
self.defined(),
"cannot call materialize_autograd_meta() on undefined tensor");
auto p = self.unsafeGetTensorImpl();
if (!p->autograd_meta()) {
p->set_autograd_meta(std::make_unique<AutogradMeta>());
}
return get_autograd_meta(self);
}
void update_tensor_hooks_on_new_gradfn(
const at::TensorBase& self,
const std::shared_ptr<torch::autograd::Node>& old_fn,
const std::shared_ptr<torch::autograd::Node>& new_fn) {
// This function is called whenever the grad_fn of the tensor is
// changed. We assume here that new_fn does not yet have hooks of
// its own.
//
// This function does two things:
// (1) reset the list when grad_fn is updated, so new hooks don't
// get erroneously registered to the old grad_fn.
// Note that the old cpp_hooks_list_ is still kept alive by the
// old grad_fn so hooks registered to the older version of the tensor
// will continue to be active.
// (2) If there is a retains_grad hook registered, move that from the
// old cpp_hooks_list_ to the new one
const auto& meta = impl::get_autograd_meta(self);
TORCH_INTERNAL_ASSERT(meta);
TORCH_INTERNAL_ASSERT(new_fn);
meta->cpp_hooks_list_ = nullptr;
const c10::impl::PyInterpreter* interp =
self.unsafeGetTensorImpl()->pyobj_slot()->pyobj_interpreter();
if (interp) {
(*interp)->reset_backward_hooks(self.unsafeGetTensorImpl());
}
if (self.retains_grad()) {
TORCH_INTERNAL_ASSERT(old_fn);
auto out = old_fn->pop_retains_grad_hook(self.output_nr());
TORCH_INTERNAL_ASSERT(out != nullptr);
new_fn->add_retains_grad_hook(std::move(out), self.output_nr());
}
}
void rebase_history(const Variable& self, Edge gradient_edge) {
TORCH_INTERNAL_ASSERT(gradient_edge.function != nullptr);
const auto& meta = impl::get_autograd_meta(self);
auto old_fn = meta != nullptr ? meta->grad_fn_ : nullptr;
auto diff_view_meta = get_view_autograd_meta(self);
if (diff_view_meta && diff_view_meta->has_bw_view()) {
// See NOTE [ View + Inplace detection ]
auto creation_meta = diff_view_meta->get_creation_meta();
// Do not use handle_view_on_rebase here as check_inplace should have been
// called before this and either throw an error
TORCH_INTERNAL_ASSERT(creation_meta == CreationMeta::DEFAULT);
TORCH_INTERNAL_ASSERT(gradient_edge.input_nr == 0);
TORCH_INTERNAL_ASSERT(gradient_edge.function);
TORCH_CHECK(
gradient_edge.function->num_inputs() == 1,
"Functions which modify views in-place must return a single Variable");
auto view_info = diff_view_meta->get_backward_view();
diff_view_meta->output_nr_ = gradient_edge.input_nr;
auto copy_slices = std::make_shared<CopySlices>(
view_info.base_,
at::TensorGeometry(self),
view_info.view_fn_,
std::move(gradient_edge.function));
set_gradient_edge(view_info.base_, {std::move(copy_slices), 0});
self.grad_fn(); // trigger an update to the view's grad_fn
return;
}
set_gradient_edge(self, std::move(gradient_edge));
// Pass both self and its grad_fn to avoid calling into grad_fn reentrantly
torch::autograd::impl::update_tensor_hooks_on_new_gradfn(
self, old_fn, self.grad_fn());
}
void create_cpp_hook(const at::TensorBase& self, bool is_retains_grad_hook) {
const auto& fn = self.grad_fn();
std::shared_ptr<hooks_list>& list =
materialize_autograd_meta(self)->cpp_hooks_list_;
// NOLINTNEXTLINE(modernize-make-shared)
list.reset(new hooks_list());
std::unique_ptr<FunctionPreHook> hook_ptr{
new CppFunctionTensorPreHook(list, self.output_nr())};
// NB: we could potentially only update hooks_ if !fn, but it shouldn't
// matter
// and this was the way before, so we keep it like this for now.
clear_hooks(self);
add_hook(self, std::make_unique<CppFunctionTensorPreHook>(list, 0));
if (fn) {
fn->add_tensor_pre_hook(std::move(hook_ptr));
}
}
void set_grad_accumulator(
const Variable& self,
std::weak_ptr<Node> grad_accumulator) {
materialize_autograd_meta(self)->grad_accumulator_ =
std::move(grad_accumulator);
}
std::shared_ptr<Node> try_get_grad_accumulator(const Variable& self) {
if (get_autograd_meta(self)) {
return get_autograd_meta(self)->grad_accumulator_.lock();
} else {
return nullptr;
}
}
std::shared_ptr<Node> grad_accumulator(const Variable& self) {
auto autograd_meta = get_autograd_meta(self);
if (!autograd_meta) {
return nullptr;
}
if (autograd_meta->grad_fn_) {
throw std::logic_error(
"grad_accumulator() should be only called on leaf Variables");
}
if (!autograd_meta->requires_grad_) {
return nullptr;
}
std::lock_guard<std::mutex> lock(autograd_meta->mutex_);
auto result = autograd_meta->grad_accumulator_.lock();
if (result)
return result;
c10::raw::intrusive_ptr::incref(self.unsafeGetTensorImpl());
auto intrusive_from_this =
c10::intrusive_ptr<at::TensorImpl>::reclaim(self.unsafeGetTensorImpl());
result = std::make_shared<AccumulateGrad>(
Variable(std::move(intrusive_from_this)));
autograd_meta->grad_accumulator_ = result;
return result;
}
Edge gradient_edge(const Variable& self) {
// If grad_fn is null (as is the case for a leaf node), we instead
// interpret the gradient function to be a gradient accumulator, which will
// accumulate its inputs into the grad property of the variable. These
// nodes get suppressed in some situations, see "suppress gradient
// accumulation" below. Note that only variables which have `requires_grad =
// True` can have gradient accumulators.
if (const auto& gradient = self.grad_fn()) {
return Edge(gradient, self.output_nr());
} else {
return Edge(grad_accumulator(self), 0);
}
}
void set_gradient_edge(const Variable& self, Edge edge) {
auto* meta = materialize_autograd_meta(self);
meta->grad_fn_ = std::move(edge.function);
meta->output_nr_ = edge.input_nr;
// For views, make sure this new grad_fn_ is not overwritten unless it is
// necessary in the VariableHooks::grad_fn below. This logic is only relevant
// for custom autograd Functions for which multiple operations can happen on a
// given Tensor before its gradient edge is set when exiting the custom
// Function.
auto diff_view_meta = get_view_autograd_meta(self);
if (diff_view_meta && diff_view_meta->has_bw_view()) {
diff_view_meta->set_attr_version(self._version());
}
}
Node* grad_fn_unsafe(const Variable& self) {
if (get_autograd_meta(self)) {
return get_autograd_meta(self)->grad_fn_.get();
} else {
return nullptr;
}
}
// Versions
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
void set_version_counter(
const Variable& self,
const c10::VariableVersion& version_counter) {
TORCH_CHECK(
self.defined(), "cannot call set_version_counter() on undefined tensor");
self.unsafeGetTensorImpl()->set_version_counter(version_counter);
}
void bump_version(const Variable& self) {
TORCH_CHECK(self.defined(), "cannot call bump_version() on undefined tensor");
self.unsafeGetTensorImpl()->bump_version();
}
const c10::VariableVersion& version_counter(const Variable& self) {
TORCH_CHECK(
self.defined(), "cannot call version_counter() on undefined tensor");
return self.unsafeGetTensorImpl()->version_counter();
}
// Hooks
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
void add_hook(
const at::TensorBase& self,
std::unique_ptr<FunctionPreHook> hook) {
AutogradMeta* meta = materialize_autograd_meta(self);
TORCH_INTERNAL_ASSERT(meta->hooks_.empty());
meta->hooks_.push_back(std::move(hook));
}
std::vector<std::unique_ptr<FunctionPreHook>>& hooks(const Variable& self) {
TORCH_INTERNAL_ASSERT(get_autograd_meta(self));
return get_autograd_meta(self)->hooks_;
}
void clear_hooks(const at::TensorBase& self) {
// This is a little goofy, but usually this should be a no oop
materialize_autograd_meta(self)->hooks_.clear();
}
void set_name(const Variable& self, const std::string& name) {
materialize_autograd_meta(self)->name_ = name;
}
// Miscellaneous
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
AutogradMeta* get_autograd_meta(const at::TensorBase& self) {
// NB: could return nullptr
TORCH_CHECK(
self.defined(), "cannot call get_autograd_meta() on undefined tensor");
return static_cast<AutogradMeta*>(
self.unsafeGetTensorImpl()->autograd_meta());
}
DifferentiableViewMeta* get_view_autograd_meta(const at::TensorBase& self) {
// NB: return nullptr if self is not a view
AutogradMeta* meta = get_autograd_meta(self);
if (meta && meta->is_view_) {
return static_cast<DifferentiableViewMeta*>(meta);
} else {
return nullptr;
}
}
} // namespace impl
using at::Tensor;
struct VariableHooks final : at::impl::VariableHooksInterface {
at::TensorBase tensor_data(const at::TensorBase&) const override;
at::TensorBase variable_data(const at::TensorBase&) const override;
const std::shared_ptr<torch::autograd::Node>& grad_fn(
const at::TensorBase&) const override;
unsigned _register_hook(
const at::TensorBase&,
std::function<at::TensorBase(const at::TensorBase&)> hook) const override;
void remove_hook(const at::TensorBase&, unsigned pos) const override;
bool is_view(const at::TensorBase&) const override;
const at::TensorBase& base(const at::TensorBase&) const override;
const std::string& name(const at::TensorBase&) const override;
bool is_leaf(const at::TensorBase&) const override;
int64_t output_nr(const at::TensorBase&) const override;
void set_data(const at::TensorBase& self, const at::TensorBase& new_data)
const override;
at::TensorBase data(const at::TensorBase& self) const override;
int64_t _version(const at::TensorBase& self) const override;
void retain_grad(const at::TensorBase& self) const override;
bool retains_grad(const at::TensorBase& self) const override;
void _backward(
const Tensor& self,
at::TensorList inputs,
const c10::optional<Tensor>& gradient,
c10::optional<bool> keep_graph,
bool create_graph) const override;
void requires_grad_(const at::TensorBase& self, bool _requires_grad)
const override;
};
VariableHooks variableHooks;
at::impl::VariableHooksRegisterer registerVariableHooks(&variableHooks);
at::TensorBase VariableHooks::variable_data(const at::TensorBase& self) const {
TORCH_CHECK(
self.defined(), "cannot call variable_data() on undefined tensor");
auto self_impl_copy = self.unsafeGetTensorImpl()->shallow_copy_and_detach(
/*version_counter=*/0,
/*allow_tensor_metadata_change=*/false);
self_impl_copy->set_autograd_meta(nullptr);
return at::Tensor(self_impl_copy);
}
at::TensorBase VariableHooks::tensor_data(const at::TensorBase& self) const {
TORCH_CHECK(self.defined(), "cannot call tensor_data() on undefined tensor");
auto self_impl_copy = self.unsafeGetTensorImpl()->shallow_copy_and_detach(
/*version_counter=*/self.unsafeGetTensorImpl()->version_counter(),
/*allow_tensor_metadata_change=*/
self.unsafeGetTensorImpl()->allow_tensor_metadata_change());
return at::Tensor(self_impl_copy);
}
bool VariableHooks::is_leaf(const at::TensorBase& self) const {
if (impl::get_autograd_meta(self)) {
return impl::get_autograd_meta(self)->grad_fn_ == nullptr;
} else {
return true;
}
}
int64_t VariableHooks::output_nr(const at::TensorBase& self) const {
if (impl::get_autograd_meta(self)) {
return impl::get_autograd_meta(self)->output_nr_;
} else {
return 0;
}
}
void VariableHooks::set_data(
const at::TensorBase& self_base,
const at::TensorBase& new_data_base) const {
at::OptionalTensorRef self_ref(self_base);
const Tensor& self = *self_ref;
at::OptionalTensorRef new_data_ref(new_data_base);
const Tensor& new_data = *new_data_ref;
// `var.set_data(new_data)` shallow-copies all non-autograd TensorImpl fields
// from `new_data` to `var`. It requires that `new_data` and `var` have
// compatible tensor type.
TORCH_CHECK(
_has_compatible_shallow_copy_type(self, new_data),
"Attempted to call `variable.set_data(tensor)`, but `variable` and `tensor` have incompatible tensor type.");
TORCH_CHECK(
!self.requires_grad() ||
isDifferentiableType(at::typeMetaToScalarType(new_data.dtype())),
"data set to a tensor that requires gradients must be floating point or complex dtype");
// Resets gradient accumulator if metadata is out of date
AutogradMeta* autograd_meta = impl::get_autograd_meta(self);
if (autograd_meta) {
std::lock_guard<std::mutex> lock(autograd_meta->mutex_);
auto prior_accumulator = autograd_meta->grad_accumulator_.lock();
if (prior_accumulator) {
const auto prior_device = prior_accumulator->input_metadata(0).device();
const auto new_device = new_data.device();
if (!new_data.options().type_equal(self.options()) ||
prior_device != new_device) {
autograd_meta->grad_accumulator_.reset();
}
}
}
// Version counter is not shared when we replace a `Variable`'s tensor data
// by calling `set_data(...)`. The original version of the `Variable` is
// always preserved. See NOTE [ Version Counter Sharing ] for details.
//
// `var.set_data(new_data)` always ignores `var`'s
// `allow_tensor_metadata_change_`, because users need this API as an escape
// hatch for changing a tensor's metadata regardless of its
// `allow_tensor_metadata_change_` value, and the users are responsible for
// ensuring this is the behavior they want.
self.unsafeGetTensorImpl()->shallow_copy_from(new_data.getIntrusivePtr());
}
at::TensorBase VariableHooks::data(const at::TensorBase& self) const {
return self.variable_data();
}
int64_t VariableHooks::_version(const at::TensorBase& self) const {
return self.unsafeGetTensorImpl()->version_counter().current_version();
}
void VariableHooks::retain_grad(const at::TensorBase& self) const {
TORCH_CHECK(
self.requires_grad(),
"can't retain_grad on Tensor that has requires_grad=False");
// temporary hack to improve functorch UX.
const auto& functorch_tls = at::functorch::functorchTLSAccessor();
if (functorch_tls) {
functorch_tls->checkSupportsRetainGrad();
}
if (self.is_leaf()) { // no-op for leaves
return;
}
if (impl::get_autograd_meta(self)->retains_grad_) {
return;
}
c10::weak_intrusive_ptr<c10::TensorImpl> weak_self(self.getIntrusivePtr());
auto retain_grad_hook = [weak_self](const at::TensorBase& grad_base) {
at::Tensor grad{grad_base};
if (!weak_self.expired() && grad.defined()) {
auto var = weak_self.lock();
if (!var->grad().defined()) {
if (grad.is_sparse()) {
var->mutable_grad() = grad.clone();
} else {
var->mutable_grad() = grad.clone(at::MemoryFormat::Contiguous);
}
} else {
var->mutable_grad() = var->grad() + grad;
}
}
return at::TensorBase{};
};
const auto& fn = self.grad_fn();
std::unique_ptr<FunctionPreHook> hook_ptr{new CppFunctionSingleTensorPreHook(
std::move(retain_grad_hook), self.output_nr())};
fn->add_retains_grad_hook(std::move(hook_ptr), self.output_nr());
impl::get_autograd_meta(self)->retains_grad_ = true;
}
bool VariableHooks::retains_grad(const at::TensorBase& self) const {
if (impl::get_autograd_meta(self)) {
return impl::get_autograd_meta(self)->retains_grad_;
} else {
return false;
}
}
void VariableHooks::_backward(
const Tensor& self,
at::TensorList inputs,
const c10::optional<Tensor>& gradient,
c10::optional<bool> keep_graph,
bool create_graph) const {
// TODO torch::autograd::backward should take the c10::optional<Tensor>
// gradient directly instead of us having to unwrap it to Tensor _gradient
// here.
Tensor _gradient = gradient.has_value() ? *gradient : Tensor();
std::vector<torch::autograd::Variable> input_vars(
inputs.begin(), inputs.end());
torch::autograd::backward(
{self}, {std::move(_gradient)}, keep_graph, create_graph, input_vars);
}
void VariableHooks::requires_grad_(
const at::TensorBase& self,
bool _requires_grad) const {
if (!self.is_leaf() && !_requires_grad) {
throw std::runtime_error(
autograd::utils::requires_grad_leaf_error(_requires_grad));
}
self.set_requires_grad(_requires_grad);
}
// Backward View Variables
//~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
bool VariableHooks::is_view(const at::TensorBase& self) const {
auto diff_view_meta = torch::autograd::impl::get_view_autograd_meta(self);
if (diff_view_meta) {
return diff_view_meta->has_bw_view();
} else {
return false;
}
}
const at::TensorBase& VariableHooks::base(const at::TensorBase& self) const {
auto diff_view_meta = torch::autograd::impl::get_view_autograd_meta(self);
if (diff_view_meta) {
TORCH_CHECK(
diff_view_meta->has_bw_view(),
"Can't get base of non-backward view Tensor");
return diff_view_meta->get_backward_view().base_;
} else {
throw std::runtime_error("Can't get base of non-view Tensor");
}
}
namespace {
std::string singleton_string;
}
const std::string& VariableHooks::name(const at::TensorBase& self) const {
TORCH_CHECK(
self.defined(), "cannot call variable_data() on undefined tensor");
if (torch::autograd::impl::get_autograd_meta(self)) {
return torch::autograd::impl::get_autograd_meta(self)->name_;
} else {
return singleton_string;
}
}
namespace {
std::shared_ptr<torch::autograd::Node> singleton_shared_ptr;
}
const std::shared_ptr<torch::autograd::Node>& VariableHooks::grad_fn(
const at::TensorBase& self) const {
auto diff_view_meta = torch::autograd::impl::get_view_autograd_meta(self);
if (diff_view_meta && diff_view_meta->has_bw_view()) {
// See NOTE [ View + Inplace detection ]
std::lock_guard<std::mutex> lock(diff_view_meta->mutex_);
auto view_info = diff_view_meta->get_backward_view();
if (!diff_view_meta->grad_fn_ && !view_info.base_.requires_grad()) {
return diff_view_meta->grad_fn_;
}
auto current_version = self._version();
auto old_fn = diff_view_meta->grad_fn_;
if (diff_view_meta->get_attr_version() != current_version) {
// This is an indirect rebase_history due to another view or the base
// being modified inplace
handle_view_on_rebase(diff_view_meta, /* indirect */ true);
TORCH_INTERNAL_ASSERT(diff_view_meta->output_nr_ == 0);
// Note [View + Inplace update for view tensor]
// An inplace update happened on Tensor `self` (which is a view).
// For example:
// view_1 = view_op_1(diff_view_meta->base_)
// view_2 = view_op_2(view_1)
// ...
// self = view_op_n(view_n-1)
// self = inplace_op(self)
//
// For CPU/CUDA backends, we employ one AsStridedBackward0 Node to
// represent the chain of view backward ops for efficiency.
//
// However in XLA backend we don't have full support of
// AsStridedBackward0, we instead run a full forward pass with a tensor
// that requires gradient to get proper grad_fn setup, then save it to
// DifferentiableViewMeta for future use. This is fairly cheap for XLA
// lazy tensor approach (but would be really expensive for CPU/CUDA). XLA
// Tensor only run through VariableType dispatch and lower the forward
// pass to a XLA HLO graph, then we take grad_fn and never materialize the
// tensor content. So we only construct the graph but not execute it,
// which is a fairly cheap operation to do.
//
// See Note [View + Inplace update for base tensor] for what we do to base
// tensor when an in-place operation happens.
//
// TODO: Potentially the following logic can be replaced by special logic
// in VariableType_x.cpp
// that would provide a way to recreate the grad_fn chain.
if (view_info.has_view_fn()) {
auto view_fn = view_info.view_fn();
Tensor diff_view;
{
// We can reach this path with grad_mode disabled, e.g. engine
AutoGradMode grad_mode(true);
diff_view = view_fn(view_info.base_);
}
diff_view_meta->grad_fn_ = diff_view.grad_fn();
} else {
auto fn =
std::make_shared<torch::autograd::generated::AsStridedBackward0>();
fn->self_geometry = at::TensorGeometry(view_info.base_);
fn->size = self.sym_sizes().vec();
fn->stride = self.sym_strides().vec();
fn->storage_offset = self.sym_storage_offset();
fn->set_next_edges(
torch::autograd::collect_next_edges(view_info.base_));
fn->add_input_metadata(
view_info.base_.options(),
self.sym_sizes(), // Note: sizes(), not base_.sizes(), is
// intentional
self.unsafeGetTensorImpl()->is_python_dispatch());
diff_view_meta->grad_fn_ = std::move(fn);
}
diff_view_meta->set_attr_version(current_version);
torch::autograd::impl::update_tensor_hooks_on_new_gradfn(
self, old_fn, diff_view_meta->grad_fn_);
}
return diff_view_meta->grad_fn_;
}
if (torch::autograd::impl::get_autograd_meta(self)) {
return torch::autograd::impl::get_autograd_meta(self)->grad_fn_;
} else {
return singleton_shared_ptr;
}
}
void VariableHooks::remove_hook(const at::TensorBase& self, unsigned pos)
const {
auto& list =
torch::autograd::impl::materialize_autograd_meta(self)->cpp_hooks_list_;
TORCH_CHECK(
list && pos < list->size(), "Invalid index, no hook at position ", pos);
// Hook will be ignored
(*list)[pos] = nullptr;
}
unsigned VariableHooks::_register_hook(
const at::TensorBase& self,
std::function<at::TensorBase(const at::TensorBase&)> hook) const {
TORCH_CHECK(
self.requires_grad(),
"cannot register a hook on a variable that "
"doesn't require gradient");
// NB: materialize_autograd_meta unnecessary due to requires grad check
auto& list = torch::autograd::impl::get_autograd_meta(self)->cpp_hooks_list_;
if (!list) {
torch::autograd::impl::create_cpp_hook(
self, /*is_retains_grad_hook=*/false);
}
unsigned idx = list->size();
list->push_back(hook);
return idx;
}
void handle_view_on_rebase(
DifferentiableViewMeta* diff_view_meta,
bool indirect) {
/// See NOTE [ View + Inplace detection ] for justification of the logic below
auto creation_meta = diff_view_meta->get_creation_meta();
if (creation_meta != CreationMeta::DEFAULT) {
auto grad_fn = diff_view_meta->grad_fn_.get();
std::string msg;
std::string modified_obj;
// Create the header for the error message.
if (indirect) {
modified_obj = "its base or another view of its base has been";
} else {
modified_obj = "is being";
}
if (creation_meta == CreationMeta::INFERENCE_MODE ||
creation_meta == CreationMeta::NO_GRAD_MODE || !grad_fn) {
std::string prefix;
if (grad_fn) {
prefix = c10::str(
"Output ",
diff_view_meta->output_nr_,
" of ",
grad_fn->name(),
" is a view of a view which was created in");
} else {
prefix = "A view was created in";
}
if (creation_meta == CreationMeta::INFERENCE_MODE) {
msg = c10::str(
prefix,
" inference mode and ",
modified_obj,
" modified inplace in normal mode.");
} else {
// create_meta is not necessarily CreationMeta::NO_GRAD_MODE
// e.g. CreationMeta::IN_CUSTOM_FUNCTION is possible, but we know that
// if there is no grad_fn, that means that the view was performed in
// no-grad mode
msg = c10::str(
prefix,
" no_grad mode and ",
modified_obj,
" modified inplace with grad mode enabled.");
}
} else {
msg = c10::str(
"Output ",
diff_view_meta->output_nr_,
" of ",
grad_fn->name(),
" is a view and ",
modified_obj,
" modified inplace.");
}
if (creation_meta == CreationMeta::MULTI_OUTPUT_NODE) {
msg = c10::str(
msg,
" This view is the output of a function that returns multiple views. Such functions do not"
" allow the output views to be modified inplace. You should replace the inplace operation by an"
" out-of-place one.");
} else if (creation_meta == CreationMeta::NO_GRAD_MODE) {
msg = c10::str(
msg,
" Given that this use case is ambiguous and error-prone, it is forbidden."
" You can clarify your code by moving both the view and the inplace either both"
" inside the no_grad block (if you don't want the inplace to be tracked) or both outside (if you want"
" the inplace to be tracked).");
} else if (creation_meta == CreationMeta::INFERENCE_MODE) {
msg = c10::str(
msg,
" Given that this use case is ambiguous and error-prone, it is forbidden."
" You can clarify your code by moving both the view and the inplace either both"
" inside the inference_mode block (if you don't want the inplace to be tracked) or both outside (if you want"
" the inplace to be tracked).");
} else if (creation_meta == CreationMeta::IN_CUSTOM_FUNCTION) {
msg = c10::str(
msg,
" This view was created inside a custom Function (or because an input was returned as-is) and the"
" autograd logic to handle view+inplace would override the custom backward associated with the custom"
" Function, leading to incorrect gradients. This behavior is forbidden. You can fix this by"
" cloning the output of the custom Function.");
} else {
TORCH_INTERNAL_ASSERT(false, "Invalid CreationMeta state");
}
TORCH_CHECK(false, msg);
}
}
} // namespace autograd
} // namespace torch