caio/clang-p2996
1
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity
Files
1e2c5481502b305d2e38ce94defffb43b82dbe3c
clang-p2996/mlir/lib/Rewrite/FrozenRewritePatternSet.cpp
River Riddle 8c66344ee9 [mlir:PDL] Add support for DialectConversion with pattern configurations 
Up until now PDL(L) has not supported dialect conversion because we had no
way of remapping values or integrating with type conversions. This commit
rectifies that by adding a new "pattern configuration" concept to PDL. This
essentially allows for attaching external configurations to patterns, which
can hook into pattern events (for now just the scope of a rewrite, but we
could also pass configs to native rewrites as well). This allows for injecting
the type converter into the conversion pattern rewriter.

Differential Revision: https://reviews.llvm.org/D133142
2022-11-08 01:57:57 -08:00

142 lines
5.4 KiB
C++
Raw Blame History

//===- FrozenRewritePatternSet.cpp - Frozen Pattern List -------*- C++ -*-===//
//
// 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
//
//===----------------------------------------------------------------------===//
#include "mlir/Rewrite/FrozenRewritePatternSet.h"
#include "ByteCode.h"
#include "mlir/Conversion/PDLToPDLInterp/PDLToPDLInterp.h"
#include "mlir/Dialect/PDL/IR/PDLOps.h"
#include "mlir/Interfaces/SideEffectInterfaces.h"
#include "mlir/Pass/Pass.h"
#include "mlir/Pass/PassManager.h"
using namespace mlir;
static LogicalResult
convertPDLToPDLInterp(ModuleOp pdlModule,
DenseMap<Operation *, PDLPatternConfigSet *> &configMap) {
// Skip the conversion if the module doesn't contain pdl.
if (pdlModule.getOps<pdl::PatternOp>().empty())
return success();
// Simplify the provided PDL module. Note that we can't use the canonicalizer
// here because it would create a cyclic dependency.
auto simplifyFn = [](Operation *op) {
// TODO: Add folding here if ever necessary.
if (isOpTriviallyDead(op))
op->erase();
};
pdlModule.getBody()->walk(simplifyFn);
/// Lower the PDL pattern module to the interpreter dialect.
PassManager pdlPipeline(pdlModule.getContext());
#ifdef NDEBUG
// We don't want to incur the hit of running the verifier when in release
// mode.
pdlPipeline.enableVerifier(false);
#endif
pdlPipeline.addPass(createPDLToPDLInterpPass(configMap));
if (failed(pdlPipeline.run(pdlModule)))
return failure();
// Simplify again after running the lowering pipeline.
pdlModule.getBody()->walk(simplifyFn);
return success();
}
//===----------------------------------------------------------------------===//
// FrozenRewritePatternSet
//===----------------------------------------------------------------------===//
FrozenRewritePatternSet::FrozenRewritePatternSet()
: impl(std::make_shared<Impl>()) {}
FrozenRewritePatternSet::FrozenRewritePatternSet(
RewritePatternSet &&patterns, ArrayRef<std::string> disabledPatternLabels,
ArrayRef<std::string> enabledPatternLabels)
: impl(std::make_shared<Impl>()) {
DenseSet<StringRef> disabledPatterns, enabledPatterns;
disabledPatterns.insert(disabledPatternLabels.begin(),
disabledPatternLabels.end());
enabledPatterns.insert(enabledPatternLabels.begin(),
enabledPatternLabels.end());
// Functor used to walk all of the operations registered in the context. This
// is useful for patterns that get applied to multiple operations, such as
// interface and trait based patterns.
std::vector<RegisteredOperationName> opInfos;
auto addToOpsWhen =
[&](std::unique_ptr<RewritePattern> &pattern,
function_ref<bool(RegisteredOperationName)> callbackFn) {
if (opInfos.empty())
opInfos = pattern->getContext()->getRegisteredOperations();
for (RegisteredOperationName info : opInfos)
if (callbackFn(info))
impl->nativeOpSpecificPatternMap[info].push_back(pattern.get());
impl->nativeOpSpecificPatternList.push_back(std::move(pattern));
};
for (std::unique_ptr<RewritePattern> &pat : patterns.getNativePatterns()) {
// Don't add patterns that haven't been enabled by the user.
if (!enabledPatterns.empty()) {
auto isEnabledFn = [&](StringRef label) {
return enabledPatterns.count(label);
};
if (!isEnabledFn(pat->getDebugName()) &&
llvm::none_of(pat->getDebugLabels(), isEnabledFn))
continue;
}
// Don't add patterns that have been disabled by the user.
if (!disabledPatterns.empty()) {
auto isDisabledFn = [&](StringRef label) {
return disabledPatterns.count(label);
};
if (isDisabledFn(pat->getDebugName()) ||
llvm::any_of(pat->getDebugLabels(), isDisabledFn))
continue;
}
if (Optional<OperationName> rootName = pat->getRootKind()) {
impl->nativeOpSpecificPatternMap[*rootName].push_back(pat.get());
impl->nativeOpSpecificPatternList.push_back(std::move(pat));
continue;
}
if (Optional<TypeID> interfaceID = pat->getRootInterfaceID()) {
addToOpsWhen(pat, [&](RegisteredOperationName info) {
return info.hasInterface(*interfaceID);
});
continue;
}
if (Optional<TypeID> traitID = pat->getRootTraitID()) {
addToOpsWhen(pat, [&](RegisteredOperationName info) {
return info.hasTrait(*traitID);
});
continue;
}
impl->nativeAnyOpPatterns.push_back(std::move(pat));
}
// Generate the bytecode for the PDL patterns if any were provided.
PDLPatternModule &pdlPatterns = patterns.getPDLPatterns();
ModuleOp pdlModule = pdlPatterns.getModule();
if (!pdlModule)
return;
DenseMap<Operation *, PDLPatternConfigSet *> configMap =
pdlPatterns.takeConfigMap();
if (failed(convertPDLToPDLInterp(pdlModule, configMap)))
llvm::report_fatal_error(
"failed to lower PDL pattern module to the PDL Interpreter");
// Generate the pdl bytecode.
impl->pdlByteCode = std::make_unique<detail::PDLByteCode>(
pdlModule, pdlPatterns.takeConfigs(), configMap,
pdlPatterns.takeConstraintFunctions(),
pdlPatterns.takeRewriteFunctions());
}
FrozenRewritePatternSet::~FrozenRewritePatternSet() = default;
Reference in New Issue View Git Blame Copy Permalink