llvm-project/mlir/lib/IR/PatternMatch.cpp

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//===- PatternMatch.cpp - Base classes for pattern match ------------------===//
//
// Copyright 2019 The MLIR Authors.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
// =============================================================================
#include "mlir/IR/PatternMatch.h"
#include "mlir/IR/BlockAndValueMapping.h"
#include "mlir/IR/Operation.h"
#include "mlir/IR/Value.h"
using namespace mlir;
PatternBenefit::PatternBenefit(unsigned benefit) : representation(benefit) {
assert(representation == benefit && benefit != ImpossibleToMatchSentinel &&
"This pattern match benefit is too large to represent");
}
unsigned short PatternBenefit::getBenefit() const {
assert(representation != ImpossibleToMatchSentinel &&
"Pattern doesn't match");
return representation;
}
//===----------------------------------------------------------------------===//
// Pattern implementation
//===----------------------------------------------------------------------===//
Pattern::Pattern(StringRef rootName, PatternBenefit benefit,
MLIRContext *context)
: rootKind(OperationName(rootName, context)), benefit(benefit) {}
// Out-of-line vtable anchor.
void Pattern::anchor() {}
//===----------------------------------------------------------------------===//
// RewritePattern and PatternRewriter implementation
//===----------------------------------------------------------------------===//
void RewritePattern::rewrite(Operation *op, std::unique_ptr<PatternState> state,
PatternRewriter &rewriter) const {
rewrite(op, rewriter);
}
void RewritePattern::rewrite(Operation *op, PatternRewriter &rewriter) const {
llvm_unreachable("need to implement either matchAndRewrite or one of the "
"rewrite functions!");
}
PatternMatchResult RewritePattern::match(Operation *op) const {
llvm_unreachable("need to implement either match or matchAndRewrite!");
}
/// Patterns must specify the root operation name they match against, and can
/// also specify the benefit of the pattern matching. They can also specify the
/// names of operations that may be generated during a successful rewrite.
RewritePattern::RewritePattern(StringRef rootName,
ArrayRef<StringRef> generatedNames,
PatternBenefit benefit, MLIRContext *context)
: Pattern(rootName, benefit, context) {
generatedOps.reserve(generatedNames.size());
std::transform(generatedNames.begin(), generatedNames.end(),
std::back_inserter(generatedOps), [context](StringRef name) {
return OperationName(name, context);
});
}
PatternRewriter::~PatternRewriter() {
// Out of line to provide a vtable anchor for the class.
}
/// This method performs the final replacement for a pattern, where the
/// results of the operation are updated to use the specified list of SSA
/// values. In addition to replacing and removing the specified operation,
/// clients can specify a list of other nodes that this replacement may make
/// (perhaps transitively) dead. If any of those ops are dead, this will
/// remove them as well.
void PatternRewriter::replaceOp(Operation *op, ArrayRef<Value *> newValues,
ArrayRef<Value *> valuesToRemoveIfDead) {
// Notify the rewriter subclass that we're about to replace this root.
notifyRootReplaced(op);
assert(op->getNumResults() == newValues.size() &&
"incorrect # of replacement values");
op->replaceAllUsesWith(newValues);
notifyOperationRemoved(op);
op->erase();
// TODO: Process the valuesToRemoveIfDead list, removing things and calling
// the notifyOperationRemoved hook in the process.
}
/// op and newOp are known to have the same number of results, replace the
/// uses of op with uses of newOp
void PatternRewriter::replaceOpWithResultsOfAnotherOp(
Operation *op, Operation *newOp, ArrayRef<Value *> valuesToRemoveIfDead) {
assert(op->getNumResults() == newOp->getNumResults() &&
"replacement op doesn't match results of original op");
if (op->getNumResults() == 1)
return replaceOp(op, newOp->getResult(0), valuesToRemoveIfDead);
SmallVector<Value *, 8> newResults(newOp->getResults().begin(),
newOp->getResults().end());
return replaceOp(op, newResults, valuesToRemoveIfDead);
}
/// Move the blocks that belong to "region" before the given position in
/// another region. The two regions must be different. The caller is in
/// charge to update create the operation transferring the control flow to the
/// region and pass it the correct block arguments.
void PatternRewriter::inlineRegionBefore(Region &region, Region &parent,
Region::iterator before) {
parent.getBlocks().splice(before, region.getBlocks());
}
void PatternRewriter::inlineRegionBefore(Region &region, Block *before) {
inlineRegionBefore(region, *before->getParent(), before->getIterator());
}
/// Clone the blocks that belong to "region" before the given position in
/// another region "parent". The two regions must be different. The caller is
/// responsible for creating or updating the operation transferring flow of
/// control to the region and passing it the correct block arguments.
void PatternRewriter::cloneRegionBefore(Region &region, Region &parent,
Region::iterator before,
BlockAndValueMapping &mapping) {
region.cloneInto(&parent, before, mapping);
}
void PatternRewriter::cloneRegionBefore(Region &region, Region &parent,
Region::iterator before) {
BlockAndValueMapping mapping;
cloneRegionBefore(region, parent, before, mapping);
}
void PatternRewriter::cloneRegionBefore(Region &region, Block *before) {
cloneRegionBefore(region, *before->getParent(), before->getIterator());
}
/// This method is used as the final notification hook for patterns that end
/// up modifying the pattern root in place, by changing its operands. This is
/// a minor efficiency win (it avoids creating a new operation and removing
/// the old one) but also often allows simpler code in the client.
///
/// The opsToRemoveIfDead list is an optional list of nodes that the rewriter
/// should remove if they are dead at this point.
///
void PatternRewriter::updatedRootInPlace(
Operation *op, ArrayRef<Value *> valuesToRemoveIfDead) {
// Notify the rewriter subclass that we're about to replace this root.
notifyRootUpdated(op);
// TODO: Process the valuesToRemoveIfDead list, removing things and calling
// the notifyOperationRemoved hook in the process.
}
//===----------------------------------------------------------------------===//
// PatternMatcher implementation
//===----------------------------------------------------------------------===//
RewritePatternMatcher::RewritePatternMatcher(
const OwningRewritePatternList &patterns) {
for (auto &pattern : patterns)
this->patterns.push_back(pattern.get());
// Sort the patterns by benefit to simplify the matching logic.
std::stable_sort(this->patterns.begin(), this->patterns.end(),
[](RewritePattern *l, RewritePattern *r) {
return r->getBenefit() < l->getBenefit();
});
}
/// Try to match the given operation to a pattern and rewrite it.
bool RewritePatternMatcher::matchAndRewrite(Operation *op,
PatternRewriter &rewriter) {
for (auto *pattern : patterns) {
// Ignore patterns that are for the wrong root or are impossible to match.
if (pattern->getRootKind() != op->getName() ||
pattern->getBenefit().isImpossibleToMatch())
continue;
// Try to match and rewrite this pattern. The patterns are sorted by
// benefit, so if we match we can immediately rewrite and return.
if (pattern->matchAndRewrite(op, rewriter))
return true;
}
return false;
}