torch-mlir/lib/Dialect/Torch/Transforms/ReduceOpVariants.cpp

287 lines
12 KiB
C++

//===- ReduceOpVariants.cpp --------------------------------------*- C++-*-===//
//
// This file is licensed 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.
//
//===----------------------------------------------------------------------===//
#include "PassDetail.h"
#include "mlir/Transforms/DialectConversion.h"
#include "torch-mlir/Dialect/Torch/IR/TorchOps.h"
#include "torch-mlir/Dialect/Torch/Transforms/Passes.h"
#include "llvm/ADT/StringExtras.h"
using namespace mlir;
using namespace mlir::torch;
using namespace mlir::torch::Torch;
// Create an overwrite in a manner that preserves the
// `OverwriteTensorContentsOp` invariant that both arguments
// must have the same shape and dtype.
static void createOverwriteTensorContents(PatternRewriter &rewriter,
Location loc, Value overwriterTensor,
Value overwrittenTensor) {
Type overwriterTensorType = overwriterTensor.getType();
Type overwrittenTensorType = overwrittenTensor.getType()
.dyn_cast<NonValueTensorType>()
.getWithValueSemantics();
if (overwriterTensorType != overwrittenTensorType) {
overwriterTensor = rewriter.create<TensorStaticInfoCastOp>(
loc, overwrittenTensorType, overwriterTensor);
}
rewriter.create<OverwriteTensorContentsOp>(loc, overwriterTensor,
overwrittenTensor);
}
static Type getContainerOrTensorTypeWithValueSemantics(Type type) {
if (auto optionalType = type.dyn_cast<OptionalType>()) {
Type newContainedType = getContainerOrTensorTypeWithValueSemantics(
optionalType.getContainedType());
return OptionalType::get(newContainedType);
} else if (auto listType = type.dyn_cast<ListType>()) {
Type newContainedType =
getContainerOrTensorTypeWithValueSemantics(listType.getContainedType());
return ListType::get(newContainedType);
} else if (auto tensorType = type.dyn_cast<NonValueTensorType>()) {
return tensorType.getWithValueSemantics();
} else {
return nullptr;
}
}
namespace {
// Convert value semantic ops operating on mutable arrays to instead operate on
// immutable tensors.
class ConvertHasValueSemanticsOpsToValueTensors : public RewritePattern {
public:
ConvertHasValueSemanticsOpsToValueTensors(MLIRContext *context)
: RewritePattern(MatchAnyOpTypeTag(), /*benefit=*/1, context) {}
LogicalResult matchAndRewrite(Operation *op,
PatternRewriter &rewriter) const override {
if (!op->hasTrait<Torch::OpTrait::HasValueSemantics>())
return rewriter.notifyMatchFailure(op, "does not have value semantics");
rewriter.startRootUpdate(op);
// Convert all operands.
SmallVector<Value> newOperands;
for (OpOperand &opOperand : op->getOpOperands()) {
Type operandType = opOperand.get().getType();
if (operandType.isa<NonValueTensorType>()) {
opOperand.set(rewriter.create<CopyToValueTensorOp>(op->getLoc(),
opOperand.get()));
} else if (auto listType = operandType.dyn_cast<ListType>()) {
if (!(listType.getContainedType().isa<NonValueTensorType>() ||
listType.getContainedType().isa<OptionalType>()))
continue;
// Construct a new list whose elements are value tensors copied from
// the non-value tensors of the original list.
auto listConstruct =
opOperand.get().getDefiningOp<PrimListConstructOp>();
if (!listConstruct) {
rewriter.cancelRootUpdate(op);
return rewriter.notifyMatchFailure(
op, "unimplemented: list of non vtensor type not constructed "
"from list construct");
}
if (listConstruct.getElements().empty())
continue;
// TODO: Handle optional type in list type.
if (auto optionalType =
listType.getContainedType().dyn_cast<OptionalType>()) {
if (!llvm::all_of(listConstruct.getElements(), [](Value val) {
return val.getType().isa<NonValueTensorType, Torch::NoneType>();
})) {
rewriter.cancelRootUpdate(op);
return rewriter.notifyMatchFailure(
op, "unimplemented: list containing optional type is not "
"handled.");
}
}
auto newListElements = llvm::to_vector(llvm::map_range(
listConstruct.getElements(), [&](Value tensor) -> Value {
if (tensor.getType().isa<NonValueTensorType>()) {
return rewriter.create<CopyToValueTensorOp>(op->getLoc(),
tensor);
}
return tensor;
}));
Type newListType = getContainerOrTensorTypeWithValueSemantics(listType);
if (!newListType) {
rewriter.cancelRootUpdate(op);
return rewriter.notifyMatchFailure(
op, "Unable to convert list type to value semantics.");
}
opOperand.set(rewriter.create<PrimListConstructOp>(
op->getLoc(), newListType, newListElements));
} else if (auto optionalType = operandType.dyn_cast<OptionalType>()) {
// TODO: A more general way to handle the optional type is to
// introduce a `copy.to_optional_vtensor` op.
if (!optionalType.getContainedType().isa<NonValueTensorType>())
continue;
// Create a new optional value whose input is a value tensor copied
// from the non value tensor of the original optional value.
auto derefine = opOperand.get().getDefiningOp<DerefineOp>();
if (!derefine) {
rewriter.cancelRootUpdate(op);
return rewriter.notifyMatchFailure(
op, "unimplemented: optional of non vtensor type not from "
"derefine");
}
if (!derefine.getOperand().getType().isa<NonValueTensorType>())
continue;
auto newOperand = rewriter.create<CopyToValueTensorOp>(
op->getLoc(), derefine.getOperand());
opOperand.set(rewriter.create<DerefineOp>(
op->getLoc(), Torch::OptionalType::get(newOperand.getType()),
newOperand));
}
}
// Convert all results.
rewriter.setInsertionPointAfter(op);
for (Value result : op->getResults()) {
auto tensorType = result.getType().dyn_cast<NonValueTensorType>();
if (!tensorType)
continue;
result.setType(tensorType.getWithValueSemantics());
auto nonValueTensor =
rewriter.create<CopyToNonValueTensorOp>(op->getLoc(), result);
result.replaceAllUsesExcept(nonValueTensor, nonValueTensor);
}
rewriter.finalizeRootUpdate(op);
return success();
}
};
} // namespace
// Reduce Ops without value semantics but the corresponding without trailing
// underscore variant doesn't exist.
namespace {
class ReduceNonValueSemanticOps : public RewritePattern {
public:
ReduceNonValueSemanticOps(MLIRContext *context)
: RewritePattern(MatchAnyOpTypeTag(), /*benefit=*/1, context) {}
LogicalResult matchAndRewrite(Operation *op,
PatternRewriter &rewriter) const override {
Location loc = op->getLoc();
Operation *newOp;
if (isa<AtenBernoulli_FloatOp>(op)) {
newOp = rewriter.create<ValsemVariantAtenBernoulliFloatOp>(
loc, op->getResultTypes(), op->getOperands());
} else {
return failure();
}
auto tensor =
rewriter.create<CopyToValueTensorOp>(loc, newOp->getResult(0));
createOverwriteTensorContents(rewriter, loc, tensor, op->getOperand(0));
rewriter.replaceOp(op, op->getOperand(0));
return success();
}
};
} // namespace
namespace {
// Reduce the "trailing underscore inplace variant" to the value semantic
// variant + an overwrite of the original "self" argument.
class ReduceTrailingUnderscoreInplaceVariant : public RewritePattern {
public:
ReduceTrailingUnderscoreInplaceVariant(MLIRContext *context)
: RewritePattern(MatchAnyOpTypeTag(), /*benefit=*/1, context) {}
LogicalResult matchAndRewrite(Operation *op,
PatternRewriter &rewriter) const override {
if (!op->hasTrait<Torch::OpTrait::IsTrailingUnderscoreInplaceVariant>())
return rewriter.notifyMatchFailure(op, "is not trailing_ variant");
SmallVector<StringRef> fragments;
llvm::SplitString(op->getName().getStringRef(), fragments, ".");
assert(fragments.size() >= 3 && fragments[2].endswith("_") &&
"IsTrailingUnderscoreInplaceVariant incorrectly applied");
fragments[2] = fragments[2].drop_back();
std::string noUnderscoreName = llvm::join(fragments, ".");
OperationState state(op->getLoc(), noUnderscoreName);
state.addTypes(op->getResultTypes());
state.addOperands(op->getOperands());
state.addAttributes(op->getAttrDictionary().getValue());
// Note: No successors or regions. Torch JIT operators don't have any.
assert(op->getNumRegions() == 0 && op->getNumSuccessors() == 0 &&
"Torch JIT operators shouldn't have regions or successors");
Operation *newOp = rewriter.create(state);
auto tensor =
rewriter.create<CopyToValueTensorOp>(op->getLoc(), newOp->getResult(0));
createOverwriteTensorContents(rewriter, op->getLoc(), tensor,
op->getOperand(0));
rewriter.replaceOp(op, op->getOperand(0));
return success();
}
};
} // namespace
static LogicalResult
reduceNonValueTensorLiteralOpToValueTensorLiteralOp(NonValueTensorLiteralOp op,
PatternRewriter &rewriter) {
Value valueTensor =
rewriter.create<ValueTensorLiteralOp>(op->getLoc(), op.getValue());
Value tensor =
copyTensorToType(rewriter, op->getLoc(), op.getType(), valueTensor);
rewriter.replaceOp(op, {tensor});
return success();
}
namespace {
class ReduceOpVariantsPass : public ReduceOpVariantsBase<ReduceOpVariantsPass> {
void runOnOperation() override {
MLIRContext *context = &getContext();
RewritePatternSet patterns(context);
patterns.add<ConvertHasValueSemanticsOpsToValueTensors>(context);
patterns.add<ReduceTrailingUnderscoreInplaceVariant>(context);
patterns.add(reduceNonValueTensorLiteralOpToValueTensorLiteralOp);
patterns.add<ReduceNonValueSemanticOps>(context);
ConversionTarget target(*context);
target.addIllegalOp<NonValueTensorLiteralOp>();
target.addIllegalOp<AtenBernoulli_FloatOp>();
target.markUnknownOpDynamicallyLegal([](Operation *op) {
if (op->hasTrait<Torch::OpTrait::HasValueSemantics>()) {
auto hasValueSemantics = [](Type t) {
// TODO: Make this an allowlist based on a closed torch dialect
// type system.
if (auto tensorType = t.dyn_cast<NonValueTensorType>()) {
return false;
}
return true;
};
return llvm::all_of(op->getOperandTypes(), hasValueSemantics) &&
llvm::all_of(op->getResultTypes(), hasValueSemantics);
}
if (op->hasTrait<Torch::OpTrait::IsTrailingUnderscoreInplaceVariant>()) {
return false;
}
return true;
});
if (failed(applyPartialConversion(getOperation(), target,
std::move(patterns)))) {
return signalPassFailure();
}
}
};
} // namespace
std::unique_ptr<OperationPass<func::FuncOp>>
mlir::torch::Torch::createReduceOpVariantsPass() {
return std::make_unique<ReduceOpVariantsPass>();
}