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

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//===- Attribute.cpp - Attribute wrapper class ----------------------------===//
//
// Part of the MLIR 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
//
//===----------------------------------------------------------------------===//
//
// Attribute wrapper to simplify using TableGen Record defining a MLIR
// Attribute.
//
//===----------------------------------------------------------------------===//
#include "mlir/TableGen/Format.h"
#include "mlir/TableGen/Operator.h"
#include "llvm/TableGen/Record.h"
using namespace mlir;
using llvm::CodeInit;
using llvm::DefInit;
using llvm::Init;
using llvm::Record;
using llvm::StringInit;
// Returns the initializer's value as string if the given TableGen initializer
// is a code or string initializer. Returns the empty StringRef otherwise.
static StringRef getValueAsString(const Init *init) {
if (const auto *code = dyn_cast<CodeInit>(init))
return code->getValue().trim();
else if (const auto *str = dyn_cast<StringInit>(init))
return str->getValue().trim();
return {};
}
tblgen::AttrConstraint::AttrConstraint(const Record *record)
: Constraint(Constraint::CK_Attr, record) {
assert(isSubClassOf("AttrConstraint") &&
"must be subclass of TableGen 'AttrConstraint' class");
}
bool tblgen::AttrConstraint::isSubClassOf(StringRef className) const {
return def->isSubClassOf(className);
}
tblgen::Attribute::Attribute(const Record *record) : AttrConstraint(record) {
assert(record->isSubClassOf("Attr") &&
"must be subclass of TableGen 'Attr' class");
}
tblgen::Attribute::Attribute(const DefInit *init) : Attribute(init->getDef()) {}
bool tblgen::Attribute::isDerivedAttr() const {
return isSubClassOf("DerivedAttr");
}
bool tblgen::Attribute::isTypeAttr() const {
return isSubClassOf("TypeAttrBase");
}
bool tblgen::Attribute::isEnumAttr() const {
return isSubClassOf("EnumAttrInfo");
}
StringRef tblgen::Attribute::getStorageType() const {
const auto *init = def->getValueInit("storageType");
auto type = getValueAsString(init);
if (type.empty())
return "Attribute";
return type;
}
StringRef tblgen::Attribute::getReturnType() const {
const auto *init = def->getValueInit("returnType");
return getValueAsString(init);
}
StringRef tblgen::Attribute::getConvertFromStorageCall() const {
const auto *init = def->getValueInit("convertFromStorage");
return getValueAsString(init);
}
bool tblgen::Attribute::isConstBuildable() const {
const auto *init = def->getValueInit("constBuilderCall");
return !getValueAsString(init).empty();
}
StringRef tblgen::Attribute::getConstBuilderTemplate() const {
const auto *init = def->getValueInit("constBuilderCall");
return getValueAsString(init);
}
tblgen::Attribute tblgen::Attribute::getBaseAttr() const {
if (const auto *defInit =
llvm::dyn_cast<llvm::DefInit>(def->getValueInit("baseAttr"))) {
return Attribute(defInit).getBaseAttr();
}
return *this;
}
bool tblgen::Attribute::hasDefaultValue() const {
const auto *init = def->getValueInit("defaultValue");
return !getValueAsString(init).empty();
}
StringRef tblgen::Attribute::getDefaultValue() const {
const auto *init = def->getValueInit("defaultValue");
return getValueAsString(init);
Spike to define real math ops and lowering of one variant of add to corresponding integer ops. The only reason in starting with a fixedpoint add is that it is the absolute simplest variant and illustrates the level of abstraction I'm aiming for. The overall flow would be: 1. Determine quantization parameters (out of scope of this cl). 2. Source dialect rules to lower supported math ops to the quantization dialect (out of scope of this cl). 3. Quantization passes: [-quant-convert-const, -quant-lower-uniform-real-math, -quant-lower-unsupported-to-float] (the last one not implemented yet) 4. Target specific lowering of the integral arithmetic ops (roughly at the level of gemmlowp) to more fundamental operations (i.e. calls to gemmlowp, simd instructions, DSP instructions, etc). How I'm doing this should facilitate implementation of just about any kind of backend except TFLite, which has a very course, adhoc surface area for its quantized kernels. Options there include (I'm not taking an opinion on this - just trying to provide options): a) Not using any of this: just match q/dbarrier + tf math ops to the supported TFLite quantized op set. b) Implement the more fundamental integer math ops on TFLite and convert to those instead of the current op set. Note that I've hand-waved over the process of choosing appropriate quantization parameters. Getting to that next. As you can see, different implementations will likely have different magic combinations of specific math support, and we will need the target system that has been discussed for some of the esoteric cases (i.e. many DSPs only support POT fixedpoint). Two unrelated changes to the overall goal of this CL and can be broken out of desired: - Adding optional attribute support to TabelGen - Allowing TableGen native rewrite hooks to return nullptr, signalling that no rewrite has been done. PiperOrigin-RevId: 235267229
2019-02-23 07:11:00 +08:00
}
bool tblgen::Attribute::isOptional() const {
return def->getValueAsBit("isOptional");
}
StringRef tblgen::Attribute::getAttrDefName() const {
if (def->isAnonymous()) {
return getBaseAttr().def->getName();
}
return def->getName();
}
StringRef tblgen::Attribute::getDerivedCodeBody() const {
assert(isDerivedAttr() && "only derived attribute has 'body' field");
return def->getValueAsString("body");
}
tblgen::ConstantAttr::ConstantAttr(const DefInit *init) : def(init->getDef()) {
assert(def->isSubClassOf("ConstantAttr") &&
"must be subclass of TableGen 'ConstantAttr' class");
}
tblgen::Attribute tblgen::ConstantAttr::getAttribute() const {
return Attribute(def->getValueAsDef("attr"));
}
StringRef tblgen::ConstantAttr::getConstantValue() const {
return def->getValueAsString("value");
}
tblgen::EnumAttrCase::EnumAttrCase(const llvm::DefInit *init)
: Attribute(init) {
assert(isSubClassOf("EnumAttrCaseInfo") &&
"must be subclass of TableGen 'EnumAttrInfo' class");
}
bool tblgen::EnumAttrCase::isStrCase() const {
return isSubClassOf("StrEnumAttrCase");
}
StringRef tblgen::EnumAttrCase::getSymbol() const {
return def->getValueAsString("symbol");
}
int64_t tblgen::EnumAttrCase::getValue() const {
return def->getValueAsInt("value");
}
const llvm::Record &tblgen::EnumAttrCase::getDef() const { return *def; }
tblgen::EnumAttr::EnumAttr(const llvm::Record *record) : Attribute(record) {
assert(isSubClassOf("EnumAttrInfo") &&
"must be subclass of TableGen 'EnumAttr' class");
}
tblgen::EnumAttr::EnumAttr(const llvm::Record &record) : Attribute(&record) {}
tblgen::EnumAttr::EnumAttr(const llvm::DefInit *init)
: EnumAttr(init->getDef()) {}
bool tblgen::EnumAttr::classof(const Attribute *attr) {
return attr->isSubClassOf("EnumAttrInfo");
}
bool tblgen::EnumAttr::isBitEnum() const { return isSubClassOf("BitEnumAttr"); }
StringRef tblgen::EnumAttr::getEnumClassName() const {
return def->getValueAsString("className");
}
StringRef tblgen::EnumAttr::getCppNamespace() const {
return def->getValueAsString("cppNamespace");
}
StringRef tblgen::EnumAttr::getUnderlyingType() const {
return def->getValueAsString("underlyingType");
}
StringRef tblgen::EnumAttr::getUnderlyingToSymbolFnName() const {
return def->getValueAsString("underlyingToSymbolFnName");
}
StringRef tblgen::EnumAttr::getStringToSymbolFnName() const {
return def->getValueAsString("stringToSymbolFnName");
}
StringRef tblgen::EnumAttr::getSymbolToStringFnName() const {
return def->getValueAsString("symbolToStringFnName");
}
StringRef tblgen::EnumAttr::getSymbolToStringFnRetType() const {
return def->getValueAsString("symbolToStringFnRetType");
}
StringRef tblgen::EnumAttr::getMaxEnumValFnName() const {
return def->getValueAsString("maxEnumValFnName");
}
std::vector<tblgen::EnumAttrCase> tblgen::EnumAttr::getAllCases() const {
const auto *inits = def->getValueAsListInit("enumerants");
std::vector<tblgen::EnumAttrCase> cases;
cases.reserve(inits->size());
for (const llvm::Init *init : *inits) {
cases.push_back(tblgen::EnumAttrCase(cast<llvm::DefInit>(init)));
}
return cases;
}
tblgen::StructFieldAttr::StructFieldAttr(const llvm::Record *record)
: def(record) {
assert(def->isSubClassOf("StructFieldAttr") &&
"must be subclass of TableGen 'StructFieldAttr' class");
}
tblgen::StructFieldAttr::StructFieldAttr(const llvm::Record &record)
: StructFieldAttr(&record) {}
tblgen::StructFieldAttr::StructFieldAttr(const llvm::DefInit *init)
: StructFieldAttr(init->getDef()) {}
StringRef tblgen::StructFieldAttr::getName() const {
return def->getValueAsString("name");
}
tblgen::Attribute tblgen::StructFieldAttr::getType() const {
auto init = def->getValueInit("type");
return tblgen::Attribute(cast<llvm::DefInit>(init));
}
tblgen::StructAttr::StructAttr(const llvm::Record *record) : Attribute(record) {
assert(isSubClassOf("StructAttr") &&
"must be subclass of TableGen 'StructAttr' class");
}
tblgen::StructAttr::StructAttr(const llvm::DefInit *init)
: StructAttr(init->getDef()) {}
StringRef tblgen::StructAttr::getStructClassName() const {
return def->getValueAsString("className");
}
StringRef tblgen::StructAttr::getCppNamespace() const {
Dialect dialect(def->getValueAsDef("structDialect"));
return dialect.getCppNamespace();
}
std::vector<mlir::tblgen::StructFieldAttr>
tblgen::StructAttr::getAllFields() const {
std::vector<mlir::tblgen::StructFieldAttr> attributes;
const auto *inits = def->getValueAsListInit("fields");
attributes.reserve(inits->size());
for (const llvm::Init *init : *inits) {
attributes.emplace_back(cast<llvm::DefInit>(init));
}
return attributes;
}