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9dd182e0fa3aeb178d274dc0d64b5891436fba47
clang-p2996/mlir/lib/TableGen/Pattern.cpp
Lei Zhang 9dd182e0fa [ODS] Introduce IntEnumAttr 
In ODS, right now we use StringAttrs to emulate enum attributes. It is
suboptimal if the op actually can and wants to store the enum as a
single integer value; we are paying extra cost on storing and comparing
the attribute value.

This CL introduces a new enum attribute subclass that are backed by
IntegerAttr. The downside with IntegerAttr-backed enum attributes is
that the assembly form now uses integer values, which is less obvious
than the StringAttr-backed ones. However, that can be remedied by
defining custom assembly form with the help of the conversion utility
functions generated via EnumsGen.

Choices are given to the dialect writers to decide which one to use for
their enum attributes.

PiperOrigin-RevId: 255935542
2019-07-01 09:55:47 -07:00

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//===- Pattern.cpp - Pattern wrapper class --------------------------------===//
//
// 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/Support/FormatVariadic.h"
#include "llvm/TableGen/Error.h"
#include "llvm/TableGen/Record.h"
using namespace mlir;
using llvm::formatv;
using mlir::tblgen::Operator;
bool tblgen::DagLeaf::isUnspecified() const {
return dyn_cast_or_null<llvm::UnsetInit>(def);
}
bool tblgen::DagLeaf::isOperandMatcher() const {
// Operand matchers specify a type constraint.
return isSubClassOf("TypeConstraint");
}
bool tblgen::DagLeaf::isAttrMatcher() const {
// Attribute matchers specify an attribute constraint.
return isSubClassOf("AttrConstraint");
}
bool tblgen::DagLeaf::isNativeCodeCall() const {
return isSubClassOf("NativeCodeCall");
}
bool tblgen::DagLeaf::isConstantAttr() const {
return isSubClassOf("ConstantAttr");
}
bool tblgen::DagLeaf::isEnumAttrCase() const {
return isSubClassOf("EnumAttrCaseInfo");
}
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));
}
tblgen::EnumAttrCase tblgen::DagLeaf::getAsEnumAttrCase() const {
assert(isEnumAttrCase() && "the DAG leaf must be an enum attribute case");
return EnumAttrCase(cast<llvm::DefInit>(def));
}
std::string tblgen::DagLeaf::getConditionTemplate() const {
return getAsConstraint().getConditionTemplate();
}
llvm::StringRef tblgen::DagLeaf::getNativeCodeTemplate() const {
assert(isNativeCodeCall() && "the DAG leaf must be NativeCodeCall");
return cast<llvm::DefInit>(def)->getDef()->getValueAsString("expression");
}
bool tblgen::DagLeaf::isSubClassOf(StringRef superclass) const {
if (auto *defInit = dyn_cast_or_null<llvm::DefInit>(def))
return defInit->getDef()->isSubClassOf(superclass);
return false;
}
bool tblgen::DagNode::isNativeCodeCall() const {
if (auto *defInit = dyn_cast_or_null<llvm::DefInit>(node->getOperator()))
return defInit->getDef()->isSubClassOf("NativeCodeCall");
return false;
}
bool tblgen::DagNode::isOperation() const {
return !(isNativeCodeCall() || isVerifyUnusedValue() || isReplaceWithValue());
}
llvm::StringRef tblgen::DagNode::getNativeCodeTemplate() const {
assert(isNativeCodeCall() && "the DAG leaf must be NativeCodeCall");
return cast<llvm::DefInit>(node->getOperator())
->getDef()
->getValueAsString("expression");
}
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();
auto it = mapper->find(opDef);
if (it != mapper->end())
return *it->second;
return *mapper->try_emplace(opDef, llvm::make_unique<Operator>(opDef))
.first->second;
}
int tblgen::DagNode::getNumOps() const {
int count = isReplaceWithValue() ? 0 : 1;
for (int i = 0, e = getNumArgs(); i != e; ++i) {
if (auto child = getArgAsNestedDag(i))
count += child.getNumOps();
}
return count;
}
int 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);
}
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";
}
tblgen::Pattern::Pattern(const llvm::Record *def, RecordOperatorMap *mapper)
: def(*def), recordOpMap(mapper) {
collectBoundArguments(getSourcePattern());
}
tblgen::DagNode tblgen::Pattern::getSourcePattern() const {
return tblgen::DagNode(def.getValueAsDag("sourcePattern"));
}
int 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)));
}
void tblgen::Pattern::ensureBoundInSourcePattern(llvm::StringRef name) const {
if (boundArguments.find(name) == boundArguments.end() &&
boundOps.find(name) == boundOps.end())
PrintFatalError(def.getLoc(),
Twine("referencing unbound variable '") + name + "'");
}
llvm::StringMap<tblgen::Argument> &
tblgen::Pattern::getSourcePatternBoundArgs() {
return boundArguments;
}
llvm::StringSet<> &tblgen::Pattern::getSourcePatternBoundOps() {
return boundOps;
}
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;
}
int tblgen::Pattern::getBenefit() const {
// The initial benefit value is a heuristic with number of ops in the source
// pattern.
int initBenefit = getSourcePattern().getNumOps();
llvm::DagInit *delta = def.getValueAsDag("benefitDelta");
if (delta->getNumArgs() != 1 || !isa<llvm::IntInit>(delta->getArg(0))) {
PrintFatalError(def.getLoc(),
"The 'addBenefit' takes and only takes one integer value");
}
return initBenefit + dyn_cast<llvm::IntInit>(delta->getArg(0))->getValue();
}
std::vector<tblgen::Pattern::IdentifierLine>
tblgen::Pattern::getLocation() const {
std::vector<std::pair<StringRef, unsigned>> result;
result.reserve(def.getLoc().size());
for (auto loc : def.getLoc()) {
unsigned buf = llvm::SrcMgr.FindBufferContainingLoc(loc);
assert(buf && "invalid source location");
result.emplace_back(
llvm::SrcMgr.getBufferInfo(buf).Buffer->getBufferIdentifier(),
llvm::SrcMgr.getLineAndColumn(loc, buf).first);
}
return result;
}
void tblgen::Pattern::collectBoundArguments(DagNode tree) {
auto &op = getDialectOp(tree);
auto numOpArgs = op.getNumArgs();
auto numTreeArgs = tree.getNumArgs();
if (numOpArgs != numTreeArgs) {
PrintFatalError(def.getLoc(),
formatv("op '{0}' argument number mismatch: "
"{1} in pattern vs. {2} in definition",
op.getOperationName(), numTreeArgs, numOpArgs));
}
// The name attached to the DAG node's operator is for representing the
// results generated from this op. It should be remembered as bound results.
auto treeName = tree.getOpName();
if (!treeName.empty())
boundOps.insert(treeName);
// TODO(jpienaar): Expand to multiple matches.
for (int i = 0; i != numTreeArgs; ++i) {
if (auto treeArg = tree.getArgAsNestedDag(i)) {
// This DAG node argument is a DAG node itself. Go inside recursively.
collectBoundArguments(treeArg);
} else {
auto treeArgName = tree.getArgName(i);
if (!treeArgName.empty())
boundArguments.try_emplace(treeArgName, op.getArg(i));
}
}
}
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