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clang-p2996/mlir/lib/Dialect/LLVMIR/IR/LLVMAttrs.cpp
Billy Zhu 1e8dad3bef [MLIR][LLVM] Support Recursive DITypes (#80251) 
Following the discussion from [this
thread](https://discourse.llvm.org/t/handling-cyclic-dependencies-in-debug-info/67526/11),
this PR adds support for recursive DITypes.

This PR adds:
1. DIRecursiveTypeAttrInterface: An interface that DITypeAttrs can
implement to indicate that it supports recursion. See full description
in code.
2. Importer & exporter support (The only DITypeAttr that implements the
interface is DICompositeTypeAttr, so the exporter is only implemented
for composites too. There will be two methods that each llvm DI type
that supports mutation needs to implement since there's nothing
general).

---------

Co-authored-by: Tobias Gysi <tobias.gysi@nextsilicon.com>
2024-03-15 09:58:25 -07:00

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//===- LLVMAttrs.cpp - LLVM Attributes registration -----------------------===//
//
// 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
//
//===----------------------------------------------------------------------===//
//
// This file defines the attribute details for the LLVM IR dialect in MLIR.
//
//===----------------------------------------------------------------------===//
#include "mlir/Dialect/LLVMIR/LLVMAttrs.h"
#include "mlir/Dialect/LLVMIR/LLVMDialect.h"
#include "mlir/IR/Builders.h"
#include "mlir/IR/DialectImplementation.h"
#include "mlir/Interfaces/FunctionInterfaces.h"
#include "llvm/ADT/StringExtras.h"
#include "llvm/ADT/TypeSwitch.h"
#include "llvm/BinaryFormat/Dwarf.h"
#include "llvm/IR/DebugInfoMetadata.h"
#include <optional>
using namespace mlir;
using namespace mlir::LLVM;
/// Parses DWARF expression arguments with respect to the DWARF operation
/// opcode. Some DWARF expression operations have a specific number of operands
/// and may appear in a textual form.
static LogicalResult parseExpressionArg(AsmParser &parser, uint64_t opcode,
SmallVector<uint64_t> &args);
/// Prints DWARF expression arguments with respect to the specific DWARF
/// operation. Some operands are printed in their textual form.
static void printExpressionArg(AsmPrinter &printer, uint64_t opcode,
ArrayRef<uint64_t> args);
#include "mlir/Dialect/LLVMIR/LLVMAttrInterfaces.cpp.inc"
#include "mlir/Dialect/LLVMIR/LLVMOpsEnums.cpp.inc"
#define GET_ATTRDEF_CLASSES
#include "mlir/Dialect/LLVMIR/LLVMOpsAttrDefs.cpp.inc"
//===----------------------------------------------------------------------===//
// LLVMDialect registration
//===----------------------------------------------------------------------===//
void LLVMDialect::registerAttributes() {
addAttributes<
#define GET_ATTRDEF_LIST
#include "mlir/Dialect/LLVMIR/LLVMOpsAttrDefs.cpp.inc"
>();
}
//===----------------------------------------------------------------------===//
// DINodeAttr
//===----------------------------------------------------------------------===//
bool DINodeAttr::classof(Attribute attr) {
return llvm::isa<DIBasicTypeAttr, DICompileUnitAttr, DICompositeTypeAttr,
DIDerivedTypeAttr, DIFileAttr, DIGlobalVariableAttr,
DILabelAttr, DILexicalBlockAttr, DILexicalBlockFileAttr,
DILocalVariableAttr, DIModuleAttr, DINamespaceAttr,
DINullTypeAttr, DISubprogramAttr, DISubrangeAttr,
DISubroutineTypeAttr>(attr);
}
//===----------------------------------------------------------------------===//
// DIScopeAttr
//===----------------------------------------------------------------------===//
bool DIScopeAttr::classof(Attribute attr) {
return llvm::isa<DICompileUnitAttr, DICompositeTypeAttr, DIFileAttr,
DILocalScopeAttr, DIModuleAttr, DINamespaceAttr>(attr);
}
//===----------------------------------------------------------------------===//
// DILocalScopeAttr
//===----------------------------------------------------------------------===//
bool DILocalScopeAttr::classof(Attribute attr) {
return llvm::isa<DILexicalBlockAttr, DILexicalBlockFileAttr,
DISubprogramAttr>(attr);
}
//===----------------------------------------------------------------------===//
// DITypeAttr
//===----------------------------------------------------------------------===//
bool DITypeAttr::classof(Attribute attr) {
return llvm::isa<DINullTypeAttr, DIBasicTypeAttr, DICompositeTypeAttr,
DIDerivedTypeAttr, DISubroutineTypeAttr>(attr);
}
//===----------------------------------------------------------------------===//
// TBAANodeAttr
//===----------------------------------------------------------------------===//
bool TBAANodeAttr::classof(Attribute attr) {
return llvm::isa<TBAATypeDescriptorAttr, TBAARootAttr>(attr);
}
//===----------------------------------------------------------------------===//
// MemoryEffectsAttr
//===----------------------------------------------------------------------===//
MemoryEffectsAttr MemoryEffectsAttr::get(MLIRContext *context,
ArrayRef<ModRefInfo> memInfoArgs) {
if (memInfoArgs.empty())
return MemoryEffectsAttr::get(context, ModRefInfo::ModRef,
ModRefInfo::ModRef, ModRefInfo::ModRef);
if (memInfoArgs.size() == 3)
return MemoryEffectsAttr::get(context, memInfoArgs[0], memInfoArgs[1],
memInfoArgs[2]);
return {};
}
bool MemoryEffectsAttr::isReadWrite() {
if (this->getArgMem() != ModRefInfo::ModRef)
return false;
if (this->getInaccessibleMem() != ModRefInfo::ModRef)
return false;
if (this->getOther() != ModRefInfo::ModRef)
return false;
return true;
}
//===----------------------------------------------------------------------===//
// DIExpression
//===----------------------------------------------------------------------===//
DIExpressionAttr DIExpressionAttr::get(MLIRContext *context) {
return get(context, ArrayRef<DIExpressionElemAttr>({}));
}
LogicalResult parseExpressionArg(AsmParser &parser, uint64_t opcode,
SmallVector<uint64_t> &args) {
auto operandParser = [&]() -> LogicalResult {
uint64_t operand = 0;
if (!args.empty() && opcode == llvm::dwarf::DW_OP_LLVM_convert) {
// Attempt to parse a keyword.
StringRef keyword;
if (succeeded(parser.parseOptionalKeyword(&keyword))) {
operand = llvm::dwarf::getAttributeEncoding(keyword);
if (operand == 0) {
// The keyword is invalid.
return parser.emitError(parser.getCurrentLocation())
<< "encountered unknown attribute encoding \"" << keyword
<< "\"";
}
}
}
// operand should be non-zero if a keyword was parsed. Otherwise, the
// operand MUST be an integer.
if (operand == 0) {
// Parse the next operand as an integer.
if (parser.parseInteger(operand)) {
return parser.emitError(parser.getCurrentLocation())
<< "expected integer operand";
}
}
args.push_back(operand);
return success();
};
// Parse operands as a comma-separated list.
return parser.parseCommaSeparatedList(operandParser);
}
void printExpressionArg(AsmPrinter &printer, uint64_t opcode,
ArrayRef<uint64_t> args) {
size_t i = 0;
llvm::interleaveComma(args, printer, [&](uint64_t operand) {
if (i > 0 && opcode == llvm::dwarf::DW_OP_LLVM_convert) {
if (const StringRef keyword =
llvm::dwarf::AttributeEncodingString(operand);
!keyword.empty()) {
printer << keyword;
return;
}
}
// All operands are expected to be printed as integers.
printer << operand;
i++;
});
}
//===----------------------------------------------------------------------===//
// DICompositeTypeAttr
//===----------------------------------------------------------------------===//
DIRecursiveTypeAttrInterface
DICompositeTypeAttr::withRecId(DistinctAttr recId) {
return DICompositeTypeAttr::get(getContext(), getTag(), recId, getName(),
getFile(), getLine(), getScope(),
getBaseType(), getFlags(), getSizeInBits(),
getAlignInBits(), getElements());
}
DIRecursiveTypeAttrInterface
DICompositeTypeAttr::getRecSelf(DistinctAttr recId) {
return DICompositeTypeAttr::get(recId.getContext(), 0, recId, {}, {}, 0, {},
{}, DIFlags(), 0, 0, {});
}
//===----------------------------------------------------------------------===//
// TargetFeaturesAttr
//===----------------------------------------------------------------------===//
TargetFeaturesAttr TargetFeaturesAttr::get(MLIRContext *context,
llvm::ArrayRef<StringRef> features) {
return Base::get(context,
llvm::map_to_vector(features, [&](StringRef feature) {
return StringAttr::get(context, feature);
}));
}
TargetFeaturesAttr TargetFeaturesAttr::get(MLIRContext *context,
StringRef targetFeatures) {
SmallVector<StringRef> features;
targetFeatures.split(features, ',', /*MaxSplit=*/-1,
/*KeepEmpty=*/false);
return get(context, features);
}
LogicalResult
TargetFeaturesAttr::verify(function_ref<InFlightDiagnostic()> emitError,
llvm::ArrayRef<StringAttr> features) {
for (StringAttr featureAttr : features) {
if (!featureAttr || featureAttr.empty())
return emitError() << "target features can not be null or empty";
auto feature = featureAttr.strref();
if (feature[0] != '+' && feature[0] != '-')
return emitError() << "target features must start with '+' or '-'";
if (feature.contains(','))
return emitError() << "target features can not contain ','";
}
return success();
}
bool TargetFeaturesAttr::contains(StringAttr feature) const {
if (nullOrEmpty())
return false;
// Note: Using StringAttr does pointer comparisons.
return llvm::is_contained(getFeatures(), feature);
}
bool TargetFeaturesAttr::contains(StringRef feature) const {
if (nullOrEmpty())
return false;
return llvm::is_contained(getFeatures(), feature);
}
std::string TargetFeaturesAttr::getFeaturesString() const {
std::string featuresString;
llvm::raw_string_ostream ss(featuresString);
llvm::interleave(
getFeatures(), ss, [&](auto &feature) { ss << feature.strref(); }, ",");
return ss.str();
}
TargetFeaturesAttr TargetFeaturesAttr::featuresAt(Operation *op) {
auto parentFunction = op->getParentOfType<FunctionOpInterface>();
if (!parentFunction)
return {};
return parentFunction.getOperation()->getAttrOfType<TargetFeaturesAttr>(
getAttributeName());
}
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