CodeGenTarget.h
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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_CODEGENTARGET_H
#define LLVM_UTILS_TABLEGEN_CODEGENTARGET_H
#include "CodeGenHwModes.h"
#include "CodeGenInstruction.h"
#include "CodeGenRegisters.h"
#include "InfoByHwMode.h"
#include "SDNodeProperties.h"
#include "llvm/Support/raw_ostream.h"
#include "llvm/TableGen/Record.h"
#include <algorithm>
namespace llvm {
struct CodeGenRegister;
class CodeGenSchedModels;
class CodeGenTarget;
/// getValueType - Return the MVT::SimpleValueType that the specified TableGen
/// record corresponds to.
MVT::SimpleValueType getValueType(Record *Rec);
StringRef getName(MVT::SimpleValueType T);
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 {
RecordKeeper &Records;
Record *TargetRec;
mutable DenseMap<const Record*,
std::unique_ptr<CodeGenInstruction>> Instructions;
mutable std::unique_ptr<CodeGenRegBank> RegBank;
mutable std::vector<Record*> RegAltNameIndices;
mutable SmallVector<ValueTypeByHwMode, 8> LegalValueTypes;
CodeGenHwModes CGH;
void ReadRegAltNameIndices() const;
void ReadInstructions() const;
void ReadLegalValueTypes() const;
mutable std::unique_ptr<CodeGenSchedModels> SchedModels;
mutable std::vector<const CodeGenInstruction*> InstrsByEnum;
mutable unsigned NumPseudoInstructions = 0;
public:
CodeGenTarget(RecordKeeper &Records);
~CodeGenTarget();
Record *getTargetRecord() const { return TargetRec; }
const 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.
///
Record *getInstructionSet() const;
/// getAllowRegisterRenaming - Return the AllowRegisterRenaming flag value for
/// this target.
///
bool getAllowRegisterRenaming() const;
/// getAsmParser - Return the AssemblyParser definition for this target.
///
Record *getAsmParser() const;
/// getAsmParserVariant - Return the AssemblyParserVariant definition for
/// this target.
///
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.
///
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.
Optional<CodeGenRegisterClass *>
getSuperRegForSubReg(const ValueTypeByHwMode &Ty, CodeGenRegBank &RegBank,
const CodeGenSubRegIndex *SubIdx) const;
/// getRegisterByName - If there is a register with the specific AsmName,
/// return it.
const CodeGenRegister *getRegisterByName(StringRef Name) const;
const std::vector<Record*> &getRegAltNameIndices() const {
if (RegAltNameIndices.empty()) ReadRegAltNameIndices();
return RegAltNameIndices;
}
const CodeGenRegisterClass &getRegisterClass(Record *R) const {
return *getRegBank().getRegClass(R);
}
/// getRegisterVTs - Find the union of all possible SimpleValueTypes for the
/// specified physical register.
std::vector<ValueTypeByHwMode> getRegisterVTs(Record *R) const;
ArrayRef<ValueTypeByHwMode> getLegalValueTypes() const {
if (LegalValueTypes.empty())
ReadLegalValueTypes();
return LegalValueTypes;
}
CodeGenSchedModels &getSchedModels() const;
const CodeGenHwModes &getHwModes() const { return CGH; }
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;
}
typedef ArrayRef<const CodeGenInstruction *>::const_iterator inst_iterator;
inst_iterator inst_begin() const{return getInstructionsByEnumValue().begin();}
inst_iterator inst_end() const { return getInstructionsByEnumValue().end(); }
/// 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;
private:
void ComputeInstrsByEnum() const;
};
/// ComplexPattern - ComplexPattern info, corresponding to the ComplexPattern
/// tablegen class in TargetSelectionDAG.td
class ComplexPattern {
MVT::SimpleValueType Ty;
unsigned NumOperands;
std::string SelectFunc;
std::vector<Record*> RootNodes;
unsigned Properties; // Node properties
unsigned Complexity;
public:
ComplexPattern(Record *R);
MVT::SimpleValueType getValueType() const { return Ty; }
unsigned getNumOperands() const { return NumOperands; }
const std::string &getSelectFunc() const { return SelectFunc; }
const std::vector<Record*> &getRootNodes() const {
return RootNodes;
}
bool hasProperty(enum SDNP Prop) const { return Properties & (1 << Prop); }
unsigned getComplexity() const { return Complexity; }
};
} // End llvm namespace
#endif