llvm-project/mlir/lib/TableGen/Pattern.cpp

260 lines
8.3 KiB
C++

//===- Pattern.cpp - Pattern wrapper class ----------------------*- C++ -*-===//
//
// 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.
// =============================================================================
//
// Pattern wrapper class to simplify using TableGen Record defining a MLIR
// Pattern.
//
//===----------------------------------------------------------------------===//
#include "mlir/TableGen/Pattern.h"
#include "llvm/ADT/Twine.h"
#include "llvm/TableGen/Error.h"
#include "llvm/TableGen/Record.h"
using namespace mlir;
using mlir::tblgen::Operator;
bool tblgen::DagLeaf::isUnspecified() const {
return !def || isa<llvm::UnsetInit>(def);
}
bool tblgen::DagLeaf::isOperandMatcher() const {
if (!def || !isa<llvm::DefInit>(def))
return false;
// Operand matchers specify a type constraint.
return cast<llvm::DefInit>(def)->getDef()->isSubClassOf("TypeConstraint");
}
bool tblgen::DagLeaf::isAttrMatcher() const {
if (!def || !isa<llvm::DefInit>(def))
return false;
// Attribute matchers specify an attribute constraint.
return cast<llvm::DefInit>(def)->getDef()->isSubClassOf("AttrConstraint");
}
bool tblgen::DagLeaf::isAttrTransformer() const {
if (!def || !isa<llvm::DefInit>(def))
return false;
return cast<llvm::DefInit>(def)->getDef()->isSubClassOf("tAttr");
}
bool tblgen::DagLeaf::isConstantAttr() const {
if (!def || !isa<llvm::DefInit>(def))
return false;
return cast<llvm::DefInit>(def)->getDef()->isSubClassOf("ConstantAttr");
}
tblgen::Constraint tblgen::DagLeaf::getAsConstraint() const {
assert((isOperandMatcher() || isAttrMatcher()) &&
"the DAG leaf must be operand or attribute");
return Constraint(cast<llvm::DefInit>(def)->getDef());
}
tblgen::ConstantAttr tblgen::DagLeaf::getAsConstantAttr() const {
assert(isConstantAttr() && "the DAG leaf must be constant attribute");
return ConstantAttr(cast<llvm::DefInit>(def));
}
std::string tblgen::DagLeaf::getConditionTemplate() const {
return getAsConstraint().getConditionTemplate();
}
std::string tblgen::DagLeaf::getTransformationTemplate() const {
assert(isAttrTransformer() && "the DAG leaf must be attribute transformer");
return cast<llvm::DefInit>(def)
->getDef()
->getValueAsString("attrTransform")
.str();
}
bool tblgen::DagNode::isAttrTransformer() const {
auto op = node->getOperator();
if (!op || !isa<llvm::DefInit>(op))
return false;
return cast<llvm::DefInit>(op)->getDef()->isSubClassOf("tAttr");
}
std::string tblgen::DagNode::getTransformationTemplate() const {
assert(isAttrTransformer() && "the DAG leaf must be attribute transformer");
return cast<llvm::DefInit>(node->getOperator())
->getDef()
->getValueAsString("attrTransform")
.str();
}
llvm::StringRef tblgen::DagNode::getOpName() const {
return node->getNameStr();
}
Operator &tblgen::DagNode::getDialectOp(RecordOperatorMap *mapper) const {
llvm::Record *opDef = cast<llvm::DefInit>(node->getOperator())->getDef();
return mapper->try_emplace(opDef, opDef).first->second;
}
unsigned tblgen::DagNode::getNumOps() const {
unsigned count = isReplaceWithValue() ? 0 : 1;
for (unsigned i = 0, e = getNumArgs(); i != e; ++i) {
if (auto child = getArgAsNestedDag(i))
count += child.getNumOps();
}
return count;
}
unsigned tblgen::DagNode::getNumArgs() const { return node->getNumArgs(); }
bool tblgen::DagNode::isNestedDagArg(unsigned index) const {
return isa<llvm::DagInit>(node->getArg(index));
}
tblgen::DagNode tblgen::DagNode::getArgAsNestedDag(unsigned index) const {
return DagNode(dyn_cast_or_null<llvm::DagInit>(node->getArg(index)));
}
tblgen::DagLeaf tblgen::DagNode::getArgAsLeaf(unsigned index) const {
assert(!isNestedDagArg(index));
return DagLeaf(node->getArg(index));
}
StringRef tblgen::DagNode::getArgName(unsigned index) const {
return node->getArgNameStr(index);
}
static void collectBoundArguments(const llvm::DagInit *tree,
tblgen::Pattern *pattern) {
auto &op = pattern->getDialectOp(tblgen::DagNode(tree));
if (llvm::StringInit *si = tree->getName()) {
auto name = si->getAsUnquotedString();
if (!name.empty())
pattern->getSourcePatternBoundResults().insert(name);
}
// TODO(jpienaar): Expand to multiple matches.
for (unsigned i = 0, e = tree->getNumArgs(); i != e; ++i) {
auto *arg = tree->getArg(i);
if (auto *argTree = dyn_cast<llvm::DagInit>(arg)) {
collectBoundArguments(argTree, pattern);
continue;
}
StringRef name = tree->getArgNameStr(i);
if (name.empty())
continue;
pattern->getSourcePatternBoundArgs().try_emplace(name, op.getArg(i));
}
}
void tblgen::DagNode::collectBoundArguments(tblgen::Pattern *pattern) const {
::collectBoundArguments(node, pattern);
}
bool tblgen::DagNode::isReplaceWithValue() const {
auto *dagOpDef = cast<llvm::DefInit>(node->getOperator())->getDef();
return dagOpDef->getName() == "replaceWithValue";
}
bool tblgen::DagNode::isVerifyUnusedValue() const {
auto *dagOpDef = cast<llvm::DefInit>(node->getOperator())->getDef();
return dagOpDef->getName() == "verifyUnusedValue";
}
bool tblgen::DagNode::isNativeCodeBuilder() const {
auto *dagOpDef = cast<llvm::DefInit>(node->getOperator())->getDef();
return dagOpDef->isSubClassOf("cOp");
}
llvm::StringRef tblgen::DagNode::getNativeCodeBuilder() const {
assert(isNativeCodeBuilder());
auto *dagOpDef = cast<llvm::DefInit>(node->getOperator())->getDef();
return dagOpDef->getValueAsString("function");
}
tblgen::Pattern::Pattern(const llvm::Record *def, RecordOperatorMap *mapper)
: def(*def), recordOpMap(mapper) {
getSourcePattern().collectBoundArguments(this);
}
tblgen::DagNode tblgen::Pattern::getSourcePattern() const {
return tblgen::DagNode(def.getValueAsDag("sourcePattern"));
}
unsigned tblgen::Pattern::getNumResults() const {
auto *results = def.getValueAsListInit("resultPatterns");
return results->size();
}
tblgen::DagNode tblgen::Pattern::getResultPattern(unsigned index) const {
auto *results = def.getValueAsListInit("resultPatterns");
return tblgen::DagNode(cast<llvm::DagInit>(results->getElement(index)));
}
bool tblgen::Pattern::isArgBoundInSourcePattern(llvm::StringRef name) const {
return boundArguments.find(name) != boundArguments.end();
}
bool tblgen::Pattern::isResultBoundInSourcePattern(llvm::StringRef name) const {
return boundResults.count(name);
}
void tblgen::Pattern::ensureArgBoundInSourcePattern(
llvm::StringRef name) const {
if (!isArgBoundInSourcePattern(name))
PrintFatalError(def.getLoc(),
Twine("referencing unbound variable '") + name + "'");
}
llvm::StringMap<tblgen::Argument> &
tblgen::Pattern::getSourcePatternBoundArgs() {
return boundArguments;
}
llvm::StringSet<> &tblgen::Pattern::getSourcePatternBoundResults() {
return boundResults;
}
const tblgen::Operator &tblgen::Pattern::getSourceRootOp() {
return getSourcePattern().getDialectOp(recordOpMap);
}
tblgen::Operator &tblgen::Pattern::getDialectOp(DagNode node) {
return node.getDialectOp(recordOpMap);
}
std::vector<tblgen::AppliedConstraint> tblgen::Pattern::getConstraints() const {
auto *listInit = def.getValueAsListInit("constraints");
std::vector<tblgen::AppliedConstraint> ret;
ret.reserve(listInit->size());
for (auto it : *listInit) {
auto *dagInit = dyn_cast<llvm::DagInit>(it);
if (!dagInit)
PrintFatalError(def.getLoc(), "all elemements in Pattern multi-entity "
"constraints should be DAG nodes");
std::vector<std::string> entities;
entities.reserve(dagInit->arg_size());
for (auto *argName : dagInit->getArgNames())
entities.push_back(argName->getValue());
ret.emplace_back(cast<llvm::DefInit>(dagInit->getOperator())->getDef(),
std::move(entities));
}
return ret;
}