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custom_function.cpp
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custom_function.cpp
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#include <c10/util/irange.h>
#include <torch/csrc/autograd/autograd.h>
#include <torch/csrc/autograd/custom_function.h>
#include <torch/csrc/autograd/functions/accumulate_grad.h>
#include <utility>
namespace torch {
namespace autograd {
VariableInfo::VariableInfo(const Variable& var)
: layout(var.layout()),
device(var.device()),
scalar_type(var.scalar_type()),
size(var.sym_sizes().vec()),
requires_grad(var.requires_grad()),
is_empty(false) {}
VariableInfo::VariableInfo() : requires_grad(false), is_empty(true) {}
Variable VariableInfo::zeros(at::OptionalDeviceGuard& device_guard) const {
if (is_empty) {
// Return undefined tensor.
return at::Tensor();
} else {
return at::zeros_symint(
size, at::TensorOptions(scalar_type).device(device).layout(layout));
}
}
// This function has two main goals:
// 1) Use the user-provided jvp function to populate the outputs' forward
// gradient 2) Perform error checking to ensure that view and inplace ops are
// properly handled
//
// For 1) we have to:
// - Create a variable_list of grad_inputs based on the function inputs
// - Call the user jvp function with these to get the grad_outputs
// - Set the forward grad field on each output based on these grad_outputs
//
// For 2) we want to check the following:
// - If an output is a view, then the generated forward grad must be a view as
// well and
// the output's base's forward grad must be the output's forward grad's base.
// - If an input was modified inplace (it must be an output as well) we make
// sure that its
// forward grad was also modified inplace and already present on the
// corresponding output.
void _process_forward_mode_AD(
const variable_list& inputs,
std::unordered_map<at::TensorImpl*, size_t> inputs_mapping,
const at::ArrayRef<c10::optional<Variable>> raw_outputs,
const optional_variable_list& outputs,
const std::unordered_set<at::TensorImpl*>& non_differentiable,
const std::unordered_set<at::TensorImpl*>& dirty_inputs,
_jvp_fn_t jvp_user_function) {
// TODO handle multiple levels here
uint64_t level = 0;
const auto num_inputs = inputs.size();
const auto num_outputs = outputs.size();
// The tracking info below are used to perform the view and inplace checks.
// They are lazily initialized to reduce the cost of this function in the
// common case where the user is not using forward mode AD.
variable_list input_grads;
std::vector<int64_t> grad_versions;
std::vector<at::TensorImpl*> grad_impls;
std::unordered_map<at::TensorImpl*, size_t> inputs_bases;
auto init_tracked_info = [&]() {
input_grads.resize(num_inputs);
grad_versions.resize(num_inputs);
grad_impls.resize(num_inputs);
for (const auto i : c10::irange(num_inputs)) {
const auto& inp = inputs[i];
if (inp.is_view() && impl::get_view_autograd_meta(inp)->has_fw_view()) {
inputs_bases.emplace(
impl::get_view_autograd_meta(inp)
->get_forward_view()
.base_.unsafeGetTensorImpl(),
i);
} else {
inputs_bases.emplace(inp.unsafeGetTensorImpl(), i);
}
}
};
bool any_input_has_grad = false;
// Extract the input's forward gradients and record any info we will need
// later
for (const auto i : c10::irange(num_inputs)) {
const auto& inp = inputs[i];
if (!inp.defined()) {
continue;
}
const auto& fw_grad = inp._fw_grad(level);
if (fw_grad.defined()) {
if (!any_input_has_grad) {
any_input_has_grad = true;
init_tracked_info();
}
input_grads[i] = fw_grad;
grad_versions[i] = fw_grad._version();
grad_impls[i] = fw_grad.unsafeGetTensorImpl();
}
}
// If no input has forward grad, nothing to do here
if (!any_input_has_grad) {
return;
}
torch::autograd::variable_list forward_grads;
{
at::AutoFwGradMode fw_grad_mode(false);
forward_grads = jvp_user_function(inputs, std::move(input_grads));
}
// NOLINTNEXTLINE(cppcoreguidelines-init-variables)
const auto num_forward_grads = forward_grads.size();
// contrary to backward mode, we don't allow returning too many gradients
TORCH_CHECK(
num_forward_grads == num_outputs,
"Function's jvp returned "
"an invalid number of forward gradients (expected ",
num_outputs,
" but got ",
num_forward_grads,
")");
for (const auto i : c10::irange(num_outputs)) {
const auto& out =
outputs[i].has_value() ? outputs[i].value() : at::Tensor();
auto out_tensor_impl = raw_outputs[i].value().unsafeGetTensorImpl();
bool is_differentiable =
(non_differentiable.count(out_tensor_impl) == 0 &&
isDifferentiableType(raw_outputs[i].value().scalar_type()));
const auto& out_grad = forward_grads[i];
if (!out.defined() || !is_differentiable) {
TORCH_CHECK(
!out_grad.defined(),
"Function's jvp returned a gradient at position ",
i,
", but "
" the corresponding forward output is not a differentiable Tensor."
"You should return None at that position instead.");
continue;
}
TORCH_INTERNAL_ASSERT(raw_outputs[i].has_value());
bool is_input = inputs_mapping.count(out_tensor_impl) > 0;
bool is_modified = dirty_inputs.count(out_tensor_impl) > 0;
if (is_modified) {
TORCH_CHECK(
is_input,
"Only input Tensors should be given to ctx.mark_dirty(). If a Tensor is not an input, there"
" is no need to pass it to mark_dirty().");
auto inp_idx = inputs_mapping[out_tensor_impl];
if (grad_impls[inp_idx]) {
// If there was already a forward grad for that input
// Just make sure that it is modified inplace and returned as-is
TORCH_CHECK(
out_grad._version() != grad_versions[inp_idx],
"An inplace custom Function is not modifying the "
"forward mode gradients inplace. If the forward is modifying an input inplace, then the jvp "
"function must modify the corresponding gradient inplace.")
TORCH_CHECK(
out_grad.unsafeGetTensorImpl() == grad_impls[inp_idx],
"An inplace custom Function is not returning the "
"forward mode gradients as-is. If the forward is modifying an input inplace, then the jvp "
"function must modify the gradient inplace and return it as-is.")
} else {
// If that Tensor didn't had gradients already, set the newly returned
// one We could also use inputs[inp_idx] here as it is the same as out
out._set_fw_grad(out_grad, level, /* is_inplace_op */ true);
}
} else {
// At this point, outputs[i] cannot be one of the input (raw_outputs[i]
// might be but was changed by the backward code)
TORCH_INTERNAL_ASSERT(
inputs_mapping.count(out.unsafeGetTensorImpl()) == 0);
if (out.is_view() && impl::get_view_autograd_meta(out)->has_fw_view()) {
// If the output is a view
const auto& out_view_info =
impl::get_view_autograd_meta(out)->get_forward_view();
if (inputs_bases.count(out_view_info.base_.unsafeGetTensorImpl())) {
// And it is a view of an input (either that input is its base or they
// have a common base)
const auto matching_input_idx =
inputs_bases[out_view_info.base_.unsafeGetTensorImpl()];
const auto& matching_input = inputs[matching_input_idx];
const auto& matching_input_grad = matching_input._fw_grad(level);
// If the matching input has a forward grad, the user should have
// returned a view of that Tensor
if (matching_input_grad.defined()) {
TORCH_CHECK(
out_grad.is_view() &&
impl::get_view_autograd_meta(out_grad)->has_fw_view(),
"A custom Function's forward is returning a view (or an input as-is) but the jvp is not "
"returning a view.");
const auto& out_grad_base = impl::get_view_autograd_meta(out_grad)
->get_forward_view()
.base_;
if (matching_input_grad.is_view() &&
impl::get_view_autograd_meta(matching_input_grad)
->has_fw_view()) {
// If the matching input's grad is a view, ensure that the
// out_grad is a view of the same base
const auto& matching_input_grad_base =
impl::get_view_autograd_meta(matching_input_grad)
->get_forward_view()
.base_;
TORCH_CHECK(
matching_input_grad_base.unsafeGetTensorImpl() ==
out_grad_base.unsafeGetTensorImpl(),
"A custom Function is returning a view but the jvp is not returning a view of the same base as "
"the given grad input.");
} else {
// If the matching input's grad is not a view, then it must be the
// output gradient's base
TORCH_CHECK(
matching_input_grad.unsafeGetTensorImpl() ==
out_grad_base.unsafeGetTensorImpl(),
"A custom Function is returning a view but the jvp is not returning a view of the given grad input.");
}
} else {
// We have a view op where the input didn't have a forward grad but
// the user returned one for the output To ensure that we maintain
// the view/inplace constraints, we consider this as an inplace op
// This case CANNOT happen in codegen as all view ops are mapping
// from one Tensor to one Tensor and so the output of the view
// cannot have a forward grad if the base does not.
out._set_fw_grad(out_grad, level, /* is_inplace_op */ true);
return;
}
}
}
out._set_fw_grad(out_grad, level, /* is_inplace_op */ false);
}
}
}
at::Tensor _view_as_self_with_no_grad(at::Tensor self) {
// This is called below in _process_backward_mode_ad in two places:
//
// (1) An input has been returned, but it wasn't modified. Return it as a view
// so that we can attach a new grad_fn to the Variable.
// Run in no_grad mode to mimic the behavior of the forward.
//
// (2) Though it is not necessary for the purposes of attaching grad_fn, we
// also call this function when an output is non-differentiable (and does not
// require grad). to help custom forward AD UX more consistent. We'd like to
// uniformly say that returning an input as-is is treated as if
// `self.view_as(self)` were returned for that output.
//
// Alternatively, we could have not disabled forward grad while performing
// this view, but it would mean that the user defined jvp may be silently
// ignored.
at::AutoFwGradMode fw_grad_mode(false);
AutoGradMode grad_mode(false);
return self.view_as(self);
}
optional_variable_list _process_backward_mode_ad(
const std::unordered_map<at::TensorImpl*, size_t>& inputs_mapping,
const std::unordered_set<at::TensorImpl*>& non_differentiable,
const std::unordered_set<at::TensorImpl*>& dirty_inputs,
const at::ArrayRef<c10::optional<Variable>> raw_outputs,
const std::shared_ptr<Node>& cdata) {
int num_outputs = raw_outputs.size();
// Sets the grad_fn and output_nr of an output Variable.
auto set_history = [&](Variable& var,
uint32_t output_nr,
bool is_input,
bool is_modified,
bool is_differentiable) {
if (!is_differentiable) {
if (!var.requires_grad()) {
if (is_input && !is_modified) {
var = _view_as_self_with_no_grad(var);
}
return;
}
// Return detached aliases of inputs, instead of changing their
// requires_grad property.
if (is_input) {
var = var.detach();
} else if (!var.is_view()) {
var.detach_();
}
// If var is a view of one of the inputs of the custom autograd Function,
// we don't detach it in a no_grad block. This is so that we can mimic the
// behavior of returning a view from a no_grad block:
// x = torch.randn(3, requires_grad=True)
// with torch.no_grad():
// y = x.view(-1)
// Here, `y` requires_grad (!).
} else if (is_modified) {
if (var.is_leaf() && var.requires_grad()) {
TORCH_CHECK(
false,
"a leaf Variable that requires grad has been used in an in-place operation.");
}
// No need to mark as modified Tensors that are not inputs.
if (!is_input) {
TORCH_WARN(
"Only input Tensors should be given to ctx.mark_dirty(). If a Tensor is not an input, there"
" is no need to pass it to mark_dirty().");
}
// If the input is a view, the rebase will need to rewrite the graph and
// this only works if we have a single output to this Function.
TORCH_CHECK(
!(var.is_view() && num_outputs > 1),
"If your Function modifies inplace an input that is a view"
" of another Tensor, your Function cannot return more than one Tensor. This is not supported"
" by the current autograd engine. You should either make sure the input is not a view (using"
" .clone() for example) or make your Function only return one Tensor (potentially splitting"
" it into two Functions: one doing the inplace that returns a single Tensor and a second one"
" that does the other operations). You can ask on the forum https://discuss.pytorch.org/ if"
" you need help to do this change.");
// If the input was modified, transplant the grad_fn in the graph:
// grad_fn <- variable <- self ==> grad_fn <- self <- variable
var.mutable_grad().reset();
impl::clear_hooks(var);
if (auto grad_acc_fn = impl::try_get_grad_accumulator(var)) {
auto& grad_acc = dynamic_cast<AccumulateGrad&>(*grad_acc_fn);
grad_acc.variable.reset();
}
if (cdata) {
impl::rebase_history(var, {cdata, output_nr});
}
} else if (is_input) {
var = _view_as_self_with_no_grad(var);
impl::set_gradient_edge(var, {cdata, output_nr});
} else if (cdata) {
impl::set_gradient_edge(var, {cdata, output_nr});
}
};
optional_variable_list outputs;
std::unordered_set<at::TensorImpl*> outputs_impl; // For dirty_inputs check
outputs.reserve(num_outputs);
int num_diff_outputs = 0;
for (const auto i : c10::irange(num_outputs)) {
// For outputs that are not tensors, put a placeholder undefined input.
if (!raw_outputs[i].has_value()) {
if (cdata) {
auto output_nr = cdata->add_input_metadata(Node::undefined_input());
AT_ASSERT(i == (int)output_nr);
}
outputs.emplace_back();
continue;
}
Variable var = raw_outputs[i].value();
auto out_tensor_impl = var.unsafeGetTensorImpl();
bool is_input = inputs_mapping.count(out_tensor_impl) > 0;
bool is_modified = dirty_inputs.count(out_tensor_impl) > 0;
bool is_differentiable = cdata &&
non_differentiable.count(out_tensor_impl) == 0 &&
isDifferentiableType(var.scalar_type());
if (cdata) {
auto output_nr = cdata->add_input_metadata(var);
AT_ASSERT(i == (int)output_nr);
}
set_history(var, i, is_input, is_modified, is_differentiable);
// For deprecation cycle. Can be removed after 1.6. In the case where we
// detected a view in no grad mode during the forward, only warn the user
// (do not change the flag if we return and input that is a view as is). See
// NOTE [ View + Inplace detection ] for why we replace everything by a
// warning.
if (!(is_input && is_modified) && var.is_view()) {
// is_view() => diff_view_meta
auto diff_view_meta = impl::get_view_autograd_meta(var);
diff_view_meta->set_creation_meta(CreationMeta::IN_CUSTOM_FUNCTION);
}
if (is_differentiable) {
++num_diff_outputs;
}
outputs_impl.insert(out_tensor_impl);
outputs.emplace_back(var);
}
// If multiple differentiable outputs are returned, we do not allow views to
// be modified inplace See NOTE [ View + Inplace detection ] for more details
if (num_diff_outputs > 1) {
for (auto& var : outputs) {
if (var.has_value()) {
auto diff_view_meta = impl::get_view_autograd_meta(var.value());
if (diff_view_meta && diff_view_meta->has_bw_view()) {
diff_view_meta->set_creation_meta(CreationMeta::MULTI_OUTPUT_NODE);
}
}
}
}
// All the modified Tensors must be returned as is for the rewrite to be
// valid.
for (auto& dirty_input : dirty_inputs) {
TORCH_CHECK(
outputs_impl.count(dirty_input) > 0,
"Some elements marked as dirty during the forward method were not returned as output. The"
" inputs that are modified inplace must all be outputs of the Function.");
}
return outputs;
}
optional_variable_list _wrap_outputs(
const variable_list& input_vars,
const std::unordered_set<at::TensorImpl*>& non_differentiable,
const std::unordered_set<at::TensorImpl*>& dirty_inputs,
const at::ArrayRef<c10::optional<Variable>> raw_outputs,
const std::shared_ptr<Node>& cdata,
_jvp_fn_t jvp_user_function) {
std::unordered_map<at::TensorImpl*, size_t> inputs_mapping;
inputs_mapping.reserve(input_vars.size());
for (const auto i : c10::irange(input_vars.size())) {
inputs_mapping.emplace(input_vars[i].unsafeGetTensorImpl(), i);
}
auto outputs = _process_backward_mode_ad(
inputs_mapping, non_differentiable, dirty_inputs, raw_outputs, cdata);
// This must happen after the backward processing as we expect the
// computations happening here to track backward mode gradients.
_process_forward_mode_AD(
input_vars,
std::move(inputs_mapping),
raw_outputs,
outputs,
non_differentiable,
dirty_inputs,
std::move(jvp_user_function));
return outputs;
}
void check_variable_result(
const at::TensorBase& original,
const at::TensorBase& result,
std::string hook_name) {
if (!original.options().type_equal(result.options())) {
std::stringstream ss;
ss << "hook '" << hook_name << "' has changed the type of value (";
ss << "was " << original.toString() << " got ";
ss << result.toString() << ")";
throw std::runtime_error(ss.str());
}
if (original.is_cuda() != result.is_cuda()) {
std::stringstream ss;
ss << "hook '" << hook_name << "' has changed the type of value";
if (original.is_cuda()) {
ss << " (was CUDA tensor got CPU tensor)";
} else {
ss << " (was CPU tensor got CUDA tensor)";
}
throw std::runtime_error(ss.str());
}
if (original.sym_sizes().vec() != result.sym_sizes().vec()) {
std::stringstream ss;
ss << "hook '" << hook_name << "' has changed the size of value";
throw std::runtime_error(ss.str());
}
}
void AutogradContext::save_for_backward(variable_list to_save) {
to_save_ = std::move(to_save);
}
// The logic for handling saved variables here is the same as
// python_function.cpp See _save_variables() and unpack_saved_variables()
void AutogradContext::save_variables() {
saved_variables_.clear();
auto ptr = grad_fn_.lock();
for (const auto& var : to_save_) {
// Allow empty variables to be saved
if (var.defined()) {
bool is_output = var.grad_fn().get() == ptr.get();
saved_variables_.emplace_back(var, is_output);
} else {
saved_variables_.emplace_back();
}
}
to_save_.clear();
}
variable_list AutogradContext::get_saved_variables() const {
TORCH_CHECK(!has_freed_buffers_, ERR_BACKWARD_TWICE);
variable_list saved;
saved.reserve(saved_variables_.size());
auto ptr = grad_fn_.lock();
TORCH_INTERNAL_ASSERT(ptr);
for (auto& var : saved_variables_) {
saved.push_back(var.unpack(ptr));
}
return saved;
}
bool AutogradContext::needs_input_grad(size_t output_edge_index) const {
auto ptr = grad_fn_.lock();
TORCH_INTERNAL_ASSERT(ptr);
return ptr->task_should_compute_output(output_edge_index);
}
bool AutogradContext::needs_input_grad(
std::initializer_list<IndexRange> idxs) const {
auto ptr = grad_fn_.lock();
TORCH_INTERNAL_ASSERT(ptr);
return ptr->task_should_compute_output(idxs);
}
void AutogradContext::mark_dirty(const variable_list& inputs) {
dirty_inputs_.clear();
dirty_inputs_.reserve(inputs.size());
for (auto& var : inputs) {
dirty_inputs_.insert(var.unsafeGetTensorImpl());
}
}
void AutogradContext::mark_non_differentiable(const variable_list& outputs) {
non_differentiable_.clear();
non_differentiable_.reserve(outputs.size());
for (auto& var : outputs) {
non_differentiable_.insert(var.unsafeGetTensorImpl());
}
}
void AutogradContext::set_materialize_grads(bool value) {
materialize_grads_ = value;
}
const std::unordered_set<at::TensorImpl*>& AutogradContext::get_and_bump_dirty()
const {
for (auto& var : dirty_inputs_) {
var->bump_version();
}
return dirty_inputs_;
}
const std::unordered_set<at::TensorImpl*>& AutogradContext::
get_non_differentiable() const {
return non_differentiable_;
}
} // namespace autograd
} // namespace torch