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clang-p2996/llvm/utils/TableGen/Common/CodeGenTarget.h
Jessica Clarke ef455e6b16 [TableGen] Replace all lingering uses of getName with getEnumName 
The former is a wrapper for the latter with two differences: Other is
mapped to "UNKNOWN" (rather than "MVT::Other"), and iPTR(Any) are mapped
to "TLI.getPointerTy()" rather than "MVT::iPTR(Any)".

The only uses are in FastISelMap::printFunctionDefinitions. Most of
these uses are just a form of name mangling to ensure uniqueness, so the
actual string isn't important (and, in the case of MVT::iPTR(Any), were
both to be used, they would clash). Two uses are for a case statement,
which requires the expression to be a constant (of the right type), but
neither UNKNOWN nor TLI.getPointerTy() are constants, so would not work
there. The remaining uses are where an expression is needed, so UNKNOWN
similarly doesn't work, though TLI.getPointerTy() could in this case.
However, neither iPTR nor iPTRAny are supposed to make it this far
through TableGen, and should instead have been replaced with concrete
types, so this case should not be hit. Moreover, for almost all of these
uses, the name is passed to getLegalCName, which will strip an MVT::
prefix but will leave TLI.getPointerTy() unchanged, which is not a valid
C identifier, nor component thereof.

Thus, delete this unnecessary, and mostly-broken, wrapper and just use
the underlying getEnumName. This has been verified to have no effect on
the generated files for any in-tree target, including experimental ones.

Reviewers: arsenm

Reviewed By: arsenm

Pull Request: https://github.com/llvm/llvm-project/pull/113731
2024-10-30 03:12:23 +00:00

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//===- CodeGenTarget.h - Target Class Wrapper -------------------*- 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
//
//===----------------------------------------------------------------------===//
//
// This file defines wrappers for the Target class and related global
// functionality. This makes it easier to access the data and provides a single
// place that needs to check it for validity. All of these classes abort
// on error conditions.
//
//===----------------------------------------------------------------------===//
#ifndef LLVM_UTILS_TABLEGEN_COMMON_CODEGENTARGET_H
#define LLVM_UTILS_TABLEGEN_COMMON_CODEGENTARGET_H
#include "Basic/CodeGenIntrinsics.h"
#include "Basic/SDNodeProperties.h"
#include "CodeGenHwModes.h"
#include "CodeGenInstruction.h"
#include "InfoByHwMode.h"
#include "llvm/ADT/ArrayRef.h"
#include "llvm/ADT/DenseMap.h"
#include "llvm/ADT/SmallVector.h"
#include "llvm/ADT/StringRef.h"
#include "llvm/CodeGenTypes/MachineValueType.h"
#include <cassert>
#include <memory>
#include <optional>
#include <string>
#include <vector>
namespace llvm {
class RecordKeeper;
class Record;
class CodeGenRegBank;
class CodeGenRegister;
class CodeGenRegisterClass;
class CodeGenSchedModels;
class CodeGenSubRegIndex;
/// getValueType - Return the MVT::SimpleValueType that the specified TableGen
/// record corresponds to.
MVT::SimpleValueType getValueType(const Record *Rec);
StringRef getEnumName(MVT::SimpleValueType T);
/// getQualifiedName - Return the name of the specified record, with a
/// namespace qualifier if the record contains one.
std::string getQualifiedName(const Record *R);
/// CodeGenTarget - This class corresponds to the Target class in the .td files.
///
class CodeGenTarget {
const RecordKeeper &Records;
const Record *TargetRec;
mutable DenseMap<const Record *, std::unique_ptr<CodeGenInstruction>>
Instructions;
mutable std::unique_ptr<CodeGenRegBank> RegBank;
mutable ArrayRef<const Record *> RegAltNameIndices;
mutable SmallVector<ValueTypeByHwMode, 8> LegalValueTypes;
CodeGenHwModes CGH;
ArrayRef<const Record *> MacroFusions;
mutable bool HasVariableLengthEncodings = false;
void ReadInstructions() const;
void ReadLegalValueTypes() const;
mutable std::unique_ptr<CodeGenSchedModels> SchedModels;
mutable StringRef InstNamespace;
mutable std::vector<const CodeGenInstruction *> InstrsByEnum;
mutable CodeGenIntrinsicMap Intrinsics;
mutable unsigned NumPseudoInstructions = 0;
public:
CodeGenTarget(const RecordKeeper &Records);
~CodeGenTarget();
const Record *getTargetRecord() const { return TargetRec; }
StringRef getName() const;
/// getInstNamespace - Return the target-specific instruction namespace.
///
StringRef getInstNamespace() const;
/// getRegNamespace - Return the target-specific register namespace.
StringRef getRegNamespace() const;
/// getInstructionSet - Return the InstructionSet object.
///
const Record *getInstructionSet() const;
/// getAllowRegisterRenaming - Return the AllowRegisterRenaming flag value for
/// this target.
///
bool getAllowRegisterRenaming() const;
/// getAsmParser - Return the AssemblyParser definition for this target.
///
const Record *getAsmParser() const;
/// getAsmParserVariant - Return the AssemblyParserVariant definition for
/// this target.
///
const Record *getAsmParserVariant(unsigned i) const;
/// getAsmParserVariantCount - Return the AssemblyParserVariant definition
/// available for this target.
///
unsigned getAsmParserVariantCount() const;
/// getAsmWriter - Return the AssemblyWriter definition for this target.
///
const Record *getAsmWriter() const;
/// getRegBank - Return the register bank description.
CodeGenRegBank &getRegBank() const;
/// Return the largest register class on \p RegBank which supports \p Ty and
/// covers \p SubIdx if it exists.
std::optional<CodeGenRegisterClass *>
getSuperRegForSubReg(const ValueTypeByHwMode &Ty, CodeGenRegBank &RegBank,
const CodeGenSubRegIndex *SubIdx,
bool MustBeAllocatable = false) const;
/// getRegisterByName - If there is a register with the specific AsmName,
/// return it.
const CodeGenRegister *getRegisterByName(StringRef Name) const;
ArrayRef<const Record *> getRegAltNameIndices() const {
if (RegAltNameIndices.empty())
RegAltNameIndices = Records.getAllDerivedDefinitions("RegAltNameIndex");
return RegAltNameIndices;
}
const CodeGenRegisterClass &getRegisterClass(const Record *R) const;
/// getRegisterVTs - Find the union of all possible SimpleValueTypes for the
/// specified physical register.
std::vector<ValueTypeByHwMode> getRegisterVTs(const Record *R) const;
ArrayRef<ValueTypeByHwMode> getLegalValueTypes() const {
if (LegalValueTypes.empty())
ReadLegalValueTypes();
return LegalValueTypes;
}
CodeGenSchedModels &getSchedModels() const;
const CodeGenHwModes &getHwModes() const { return CGH; }
bool hasMacroFusion() const { return !MacroFusions.empty(); }
ArrayRef<const Record *> getMacroFusions() const { return MacroFusions; }
private:
DenseMap<const Record *, std::unique_ptr<CodeGenInstruction>> &
getInstructions() const {
if (Instructions.empty())
ReadInstructions();
return Instructions;
}
public:
CodeGenInstruction &getInstruction(const Record *InstRec) const {
if (Instructions.empty())
ReadInstructions();
auto I = Instructions.find(InstRec);
assert(I != Instructions.end() && "Not an instruction");
return *I->second;
}
/// Returns the number of predefined instructions.
static unsigned getNumFixedInstructions();
/// Returns the number of pseudo instructions.
unsigned getNumPseudoInstructions() const {
if (InstrsByEnum.empty())
ComputeInstrsByEnum();
return NumPseudoInstructions;
}
/// Return all of the instructions defined by the target, ordered by their
/// enum value.
/// The following order of instructions is also guaranteed:
/// - fixed / generic instructions as declared in TargetOpcodes.def, in order;
/// - pseudo instructions in lexicographical order sorted by name;
/// - other instructions in lexicographical order sorted by name.
ArrayRef<const CodeGenInstruction *> getInstructionsByEnumValue() const {
if (InstrsByEnum.empty())
ComputeInstrsByEnum();
return InstrsByEnum;
}
/// Return the integer enum value corresponding to this instruction record.
unsigned getInstrIntValue(const Record *R) const {
if (InstrsByEnum.empty())
ComputeInstrsByEnum();
return getInstruction(R).EnumVal;
}
typedef ArrayRef<const CodeGenInstruction *>::const_iterator inst_iterator;
inst_iterator inst_begin() const {
return getInstructionsByEnumValue().begin();
}
inst_iterator inst_end() const { return getInstructionsByEnumValue().end(); }
/// Return whether instructions have variable length encodings on this target.
bool hasVariableLengthEncodings() const { return HasVariableLengthEncodings; }
/// isLittleEndianEncoding - are instruction bit patterns defined as [0..n]?
///
bool isLittleEndianEncoding() const;
/// reverseBitsForLittleEndianEncoding - For little-endian instruction bit
/// encodings, reverse the bit order of all instructions.
void reverseBitsForLittleEndianEncoding();
/// guessInstructionProperties - should we just guess unset instruction
/// properties?
bool guessInstructionProperties() const;
const CodeGenIntrinsic &getIntrinsic(const Record *Def) const {
return Intrinsics[Def];
}
private:
void ComputeInstrsByEnum() const;
};
/// ComplexPattern - ComplexPattern info, corresponding to the ComplexPattern
/// tablegen class in TargetSelectionDAG.td
class ComplexPattern {
const Record *Ty;
unsigned NumOperands;
std::string SelectFunc;
std::vector<const Record *> RootNodes;
unsigned Properties; // Node properties
unsigned Complexity;
public:
ComplexPattern(const Record *R);
const Record *getValueType() const { return Ty; }
unsigned getNumOperands() const { return NumOperands; }
const std::string &getSelectFunc() const { return SelectFunc; }
const ArrayRef<const Record *> getRootNodes() const { return RootNodes; }
bool hasProperty(enum SDNP Prop) const { return Properties & (1 << Prop); }
unsigned getComplexity() const { return Complexity; }
};
} // namespace llvm
#endif // LLVM_UTILS_TABLEGEN_COMMON_CODEGENTARGET_H
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