torch-mlir/projects/ltc/csrc/base_lazy_backend/mlir_node.cpp

157 lines
5.7 KiB
C++

//===- mlir_node.cpp ------------------------------------------------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
// Also available under a BSD-style license. See LICENSE.
//
//===----------------------------------------------------------------------===//
// This file is adapted from pytorch/pytorch
// https://github.com/pytorch/pytorch/blob/lazy_tensor_staging/torch/csrc/lazy/ts_backend/ts_node.cpp
//===----------------------------------------------------------------------===//
#include "mlir_node.h"
#include "utils/exception.h"
namespace torch {
namespace lazy {
namespace {
hash_t OperandHashes(const OpList &operands, const c10::ArrayRef<Shape> &shapes,
const hash_t &seed, bool bakeInSizes) {
hash_t hash = seed;
for (auto &operand : operands) {
if (!operand) {
hash = HashCombine(hash, static_cast<uint64_t>(kNullOpt));
continue;
}
auto operand_hash = bakeInSizes ? operand.shapeHash() : operand.hash();
hash = HashCombine(hash, operand_hash);
}
for (auto &shape : shapes) {
hash = HashCombine(hash, shape.hash(bakeInSizes));
}
return hash;
}
} // namespace
// Adds a static hook that is run after every single TorchMlirNode is
// initialized
static std::vector<std::function<void(TorchMlirNode *)>> constructor_hooks;
void TorchMlirNode::addConstructorHook(std::function<void(TorchMlirNode *)> f) {
constructor_hooks.emplace_back(f);
}
TorchMlirNode::TorchMlirNode(OpKind op, OpList operands,
std::vector<Shape> &&shapes, size_t num_outputs,
hash_t hash_seed)
: Node(op, operands, std::move(shapes), num_outputs) {
hash_seed = HashCombine(op.hash(), hash_seed);
shape_hash_ = OperandHashes(operands, this->shapes(), hash_seed, true);
dag_hash_ = (enableDynamicShape()
? OperandHashes(operands, this->shapes(), hash_seed, false)
: shape_hash_);
for (std::function<void(TorchMlirNode *)> &f : constructor_hooks) {
f(this);
}
}
TorchMlirNode::TorchMlirNode(OpKind op, OpList operands,
const std::function<Shape()> &shape_fn,
size_t num_outputs, hash_t hash_seed)
: TorchMlirNode(op, operands, std::vector<Shape>{}, num_outputs,
hash_seed) {
addComputedShape(shape_fn);
}
TorchMlirNode::TorchMlirNode(OpKind op, OpList operands, size_t num_outputs,
hash_t hash_seed)
: TorchMlirNode(op, operands, std::vector<Shape>{}, num_outputs,
hash_seed) {}
TorchMlirNode::TorchMlirNode(OpKind op, Shape shape, size_t num_outputs,
hash_t hash_seed)
: TorchMlirNode(op, {}, {std::move(shape)}, num_outputs, hash_seed) {}
hash_t TorchMlirNode::hash() const { return dag_hash_; }
hash_t TorchMlirNode::shapeHash() const { return shape_hash_; }
TorchMlirNode *TorchMlirNode::mlir_node(int index) const {
return dynamic_cast<TorchMlirNode *>(operands_.at(index).get());
}
///////////////////////////////////////////////////////////////////////////////
// TorchMlirTensorList
///////////////////////////////////////////////////////////////////////////////
OpKind TorchMlirTensorList::ClassOpKind() {
// Note: this OpKind is separate from ltc_ops.h since it would be a circular
// import otherwise
static const OpKind tensor_list_opkind =
OpKind::Get("lazy_tensors::tensor_list");
return tensor_list_opkind;
}
TorchMlirTensorList::TorchMlirTensorList(OpList values)
: TorchMlirNode(
/*op=*/TorchMlirTensorList::ClassOpKind(),
/*operands=*/values,
/*shapes=*/std::vector<Shape>(),
/*num_outputs=*/1,
/*hash_seed=*/kHashSeed) {}
torch::lazy::TorchMlirOpVector
TorchMlirTensorList::Lower(TorchMlirFunction function,
TorchMlirLoweringContext *loctx) const {
std::vector<torch::jit::Value *> tensor_list;
CHECK(!operands().empty());
for (const torch::lazy::Output &operand : operands()) {
tensor_list.emplace_back(loctx->GetOutputOp(operand));
}
auto graph = function->graph();
auto listnode =
graph->insertNode(graph->createList(c10::TensorType::get(), tensor_list));
return {listnode->output()};
}
///////////////////////////////////////////////////////////////////////////////
// TorchMlirOptionalTensorList
///////////////////////////////////////////////////////////////////////////////
OpKind TorchMlirOptionalTensorList::ClassOpKind() {
// Note: this OpKind is separate from ltc_ops.h since it would be a circular
// import otherwise
static const OpKind tensor_list_opkind =
OpKind::Get("lazy_tensors::optional_tensor_list");
return tensor_list_opkind;
}
TorchMlirOptionalTensorList::TorchMlirOptionalTensorList(OpList values)
: TorchMlirNode(
/*op=*/TorchMlirOptionalTensorList::ClassOpKind(),
/*operands=*/values,
/*shapes=*/std::vector<Shape>(),
/*num_outputs=*/1,
/*hash_seed=*/kHashSeed) {}
torch::lazy::TorchMlirOpVector
TorchMlirOptionalTensorList::Lower(TorchMlirFunction function,
TorchMlirLoweringContext *loctx) const {
std::vector<torch::jit::Value *> tensor_list;
CHECK(!operands().empty());
for (const torch::lazy::Output &operand : operands()) {
tensor_list.emplace_back(loctx->GetOutputOp(operand));
}
auto graph = function->graph();
auto listnode = graph->insertNode(graph->createList(
c10::OptionalType::create(c10::TensorType::get()), tensor_list));
return {listnode->output()};
}
} // namespace lazy
} // namespace torch