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|
//===- RegisterInfoEmitter.cpp - Generate a Register File Desc. -*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//
// This tablegen backend is responsible for emitting a description of a target
// register file for a code generator. It uses instances of the Register,
// RegisterAliases, and RegisterClass classes to gather this information.
//
//===----------------------------------------------------------------------===//
#include "RegisterInfoEmitter.h"
#include "CodeGenTarget.h"
#include "CodeGenRegisters.h"
#include "llvm/TableGen/Record.h"
#include "llvm/ADT/BitVector.h"
#include "llvm/ADT/StringExtras.h"
#include "llvm/ADT/STLExtras.h"
#include "llvm/Support/Format.h"
#include <algorithm>
#include <set>
using namespace llvm;
// runEnums - Print out enum values for all of the registers.
void
RegisterInfoEmitter::runEnums(raw_ostream &OS,
CodeGenTarget &Target, CodeGenRegBank &Bank) {
const std::vector<CodeGenRegister*> &Registers = Bank.getRegisters();
std::string Namespace = Registers[0]->TheDef->getValueAsString("Namespace");
EmitSourceFileHeader("Target Register Enum Values", OS);
OS << "\n#ifdef GET_REGINFO_ENUM\n";
OS << "#undef GET_REGINFO_ENUM\n";
OS << "namespace llvm {\n\n";
OS << "class MCRegisterClass;\n"
<< "extern const MCRegisterClass " << Namespace
<< "MCRegisterClasses[];\n\n";
if (!Namespace.empty())
OS << "namespace " << Namespace << " {\n";
OS << "enum {\n NoRegister,\n";
for (unsigned i = 0, e = Registers.size(); i != e; ++i)
OS << " " << Registers[i]->getName() << " = " <<
Registers[i]->EnumValue << ",\n";
assert(Registers.size() == Registers[Registers.size()-1]->EnumValue &&
"Register enum value mismatch!");
OS << " NUM_TARGET_REGS \t// " << Registers.size()+1 << "\n";
OS << "};\n";
if (!Namespace.empty())
OS << "}\n";
ArrayRef<CodeGenRegisterClass*> RegisterClasses = Bank.getRegClasses();
if (!RegisterClasses.empty()) {
OS << "\n// Register classes\n";
if (!Namespace.empty())
OS << "namespace " << Namespace << " {\n";
OS << "enum {\n";
for (unsigned i = 0, e = RegisterClasses.size(); i != e; ++i) {
if (i) OS << ",\n";
OS << " " << RegisterClasses[i]->getName() << "RegClassID";
OS << " = " << i;
}
OS << "\n };\n";
if (!Namespace.empty())
OS << "}\n";
}
const std::vector<Record*> RegAltNameIndices = Target.getRegAltNameIndices();
// If the only definition is the default NoRegAltName, we don't need to
// emit anything.
if (RegAltNameIndices.size() > 1) {
OS << "\n// Register alternate name indices\n";
if (!Namespace.empty())
OS << "namespace " << Namespace << " {\n";
OS << "enum {\n";
for (unsigned i = 0, e = RegAltNameIndices.size(); i != e; ++i)
OS << " " << RegAltNameIndices[i]->getName() << ",\t// " << i << "\n";
OS << " NUM_TARGET_REG_ALT_NAMES = " << RegAltNameIndices.size() << "\n";
OS << "};\n";
if (!Namespace.empty())
OS << "}\n";
}
OS << "} // End llvm namespace \n";
OS << "#endif // GET_REGINFO_ENUM\n\n";
}
void
RegisterInfoEmitter::EmitRegMapping(raw_ostream &OS,
const std::vector<CodeGenRegister*> &Regs,
bool isCtor) {
// Collect all information about dwarf register numbers
typedef std::map<Record*, std::vector<int64_t>, LessRecord> DwarfRegNumsMapTy;
DwarfRegNumsMapTy DwarfRegNums;
// First, just pull all provided information to the map
unsigned maxLength = 0;
for (unsigned i = 0, e = Regs.size(); i != e; ++i) {
Record *Reg = Regs[i]->TheDef;
std::vector<int64_t> RegNums = Reg->getValueAsListOfInts("DwarfNumbers");
maxLength = std::max((size_t)maxLength, RegNums.size());
if (DwarfRegNums.count(Reg))
errs() << "Warning: DWARF numbers for register " << getQualifiedName(Reg)
<< "specified multiple times\n";
DwarfRegNums[Reg] = RegNums;
}
if (!maxLength)
return;
// Now we know maximal length of number list. Append -1's, where needed
for (DwarfRegNumsMapTy::iterator
I = DwarfRegNums.begin(), E = DwarfRegNums.end(); I != E; ++I)
for (unsigned i = I->second.size(), e = maxLength; i != e; ++i)
I->second.push_back(-1);
// Emit reverse information about the dwarf register numbers.
for (unsigned j = 0; j < 2; ++j) {
OS << " switch (";
if (j == 0)
OS << "DwarfFlavour";
else
OS << "EHFlavour";
OS << ") {\n"
<< " default:\n"
<< " assert(0 && \"Unknown DWARF flavour\");\n"
<< " break;\n";
for (unsigned i = 0, e = maxLength; i != e; ++i) {
OS << " case " << i << ":\n";
for (DwarfRegNumsMapTy::iterator
I = DwarfRegNums.begin(), E = DwarfRegNums.end(); I != E; ++I) {
int DwarfRegNo = I->second[i];
if (DwarfRegNo < 0)
continue;
OS << " ";
if (!isCtor)
OS << "RI->";
OS << "mapDwarfRegToLLVMReg(" << DwarfRegNo << ", "
<< getQualifiedName(I->first) << ", ";
if (j == 0)
OS << "false";
else
OS << "true";
OS << " );\n";
}
OS << " break;\n";
}
OS << " }\n";
}
for (unsigned i = 0, e = Regs.size(); i != e; ++i) {
Record *Reg = Regs[i]->TheDef;
const RecordVal *V = Reg->getValue("DwarfAlias");
if (!V || !V->getValue())
continue;
DefInit *DI = dynamic_cast<DefInit*>(V->getValue());
Record *Alias = DI->getDef();
DwarfRegNums[Reg] = DwarfRegNums[Alias];
}
// Emit information about the dwarf register numbers.
for (unsigned j = 0; j < 2; ++j) {
OS << " switch (";
if (j == 0)
OS << "DwarfFlavour";
else
OS << "EHFlavour";
OS << ") {\n"
<< " default:\n"
<< " assert(0 && \"Unknown DWARF flavour\");\n"
<< " break;\n";
for (unsigned i = 0, e = maxLength; i != e; ++i) {
OS << " case " << i << ":\n";
// Sort by name to get a stable order.
for (DwarfRegNumsMapTy::iterator
I = DwarfRegNums.begin(), E = DwarfRegNums.end(); I != E; ++I) {
int RegNo = I->second[i];
OS << " ";
if (!isCtor)
OS << "RI->";
OS << "mapLLVMRegToDwarfReg(" << getQualifiedName(I->first) << ", "
<< RegNo << ", ";
if (j == 0)
OS << "false";
else
OS << "true";
OS << " );\n";
}
OS << " break;\n";
}
OS << " }\n";
}
}
// Print a BitVector as a sequence of hex numbers using a little-endian mapping.
// Width is the number of bits per hex number.
static void printBitVectorAsHex(raw_ostream &OS,
const BitVector &Bits,
unsigned Width) {
assert(Width <= 32 && "Width too large");
unsigned Digits = (Width + 3) / 4;
for (unsigned i = 0, e = Bits.size(); i < e; i += Width) {
unsigned Value = 0;
for (unsigned j = 0; j != Width && i + j != e; ++j)
Value |= Bits.test(i + j) << j;
OS << format("0x%0*x, ", Digits, Value);
}
}
// Helper to emit a set of bits into a constant byte array.
class BitVectorEmitter {
BitVector Values;
public:
void add(unsigned v) {
if (v >= Values.size())
Values.resize(((v/8)+1)*8); // Round up to the next byte.
Values[v] = true;
}
void print(raw_ostream &OS) {
printBitVectorAsHex(OS, Values, 8);
}
};
//
// runMCDesc - Print out MC register descriptions.
//
void
RegisterInfoEmitter::runMCDesc(raw_ostream &OS, CodeGenTarget &Target,
CodeGenRegBank &RegBank) {
EmitSourceFileHeader("MC Register Information", OS);
OS << "\n#ifdef GET_REGINFO_MC_DESC\n";
OS << "#undef GET_REGINFO_MC_DESC\n";
std::map<const CodeGenRegister*, CodeGenRegister::Set> Overlaps;
RegBank.computeOverlaps(Overlaps);
OS << "namespace llvm {\n\n";
const std::string &TargetName = Target.getName();
OS << "\nnamespace {\n";
const std::vector<CodeGenRegister*> &Regs = RegBank.getRegisters();
// Emit an overlap list for all registers.
for (unsigned i = 0, e = Regs.size(); i != e; ++i) {
const CodeGenRegister *Reg = Regs[i];
const CodeGenRegister::Set &O = Overlaps[Reg];
// Move Reg to the front so TRI::getAliasSet can share the list.
OS << " const unsigned " << Reg->getName() << "_Overlaps[] = { "
<< getQualifiedName(Reg->TheDef) << ", ";
for (CodeGenRegister::Set::const_iterator I = O.begin(), E = O.end();
I != E; ++I)
if (*I != Reg)
OS << getQualifiedName((*I)->TheDef) << ", ";
OS << "0 };\n";
}
// Emit the empty sub-registers list
OS << " const unsigned Empty_SubRegsSet[] = { 0 };\n";
// Loop over all of the registers which have sub-registers, emitting the
// sub-registers list to memory.
for (unsigned i = 0, e = Regs.size(); i != e; ++i) {
const CodeGenRegister &Reg = *Regs[i];
if (Reg.getSubRegs().empty())
continue;
// getSubRegs() orders by SubRegIndex. We want a topological order.
SetVector<CodeGenRegister*> SR;
Reg.addSubRegsPreOrder(SR);
OS << " const unsigned " << Reg.getName() << "_SubRegsSet[] = { ";
for (unsigned j = 0, je = SR.size(); j != je; ++j)
OS << getQualifiedName(SR[j]->TheDef) << ", ";
OS << "0 };\n";
}
// Emit the empty super-registers list
OS << " const unsigned Empty_SuperRegsSet[] = { 0 };\n";
// Loop over all of the registers which have super-registers, emitting the
// super-registers list to memory.
for (unsigned i = 0, e = Regs.size(); i != e; ++i) {
const CodeGenRegister &Reg = *Regs[i];
const CodeGenRegister::SuperRegList &SR = Reg.getSuperRegs();
if (SR.empty())
continue;
OS << " const unsigned " << Reg.getName() << "_SuperRegsSet[] = { ";
for (unsigned j = 0, je = SR.size(); j != je; ++j)
OS << getQualifiedName(SR[j]->TheDef) << ", ";
OS << "0 };\n";
}
OS << "}\n"; // End of anonymous namespace...
OS << "\nextern const MCRegisterDesc " << TargetName
<< "RegDesc[] = { // Descriptors\n";
OS << " { \"NOREG\",\t0,\t0,\t0 },\n";
// Now that register alias and sub-registers sets have been emitted, emit the
// register descriptors now.
for (unsigned i = 0, e = Regs.size(); i != e; ++i) {
const CodeGenRegister &Reg = *Regs[i];
OS << " { \"";
OS << Reg.getName() << "\",\t" << Reg.getName() << "_Overlaps,\t";
if (!Reg.getSubRegs().empty())
OS << Reg.getName() << "_SubRegsSet,\t";
else
OS << "Empty_SubRegsSet,\t";
if (!Reg.getSuperRegs().empty())
OS << Reg.getName() << "_SuperRegsSet";
else
OS << "Empty_SuperRegsSet";
OS << " },\n";
}
OS << "};\n\n"; // End of register descriptors...
ArrayRef<CodeGenRegisterClass*> RegisterClasses = RegBank.getRegClasses();
// Loop over all of the register classes... emitting each one.
OS << "namespace { // Register classes...\n";
// Emit the register enum value arrays for each RegisterClass
for (unsigned rc = 0, e = RegisterClasses.size(); rc != e; ++rc) {
const CodeGenRegisterClass &RC = *RegisterClasses[rc];
ArrayRef<Record*> Order = RC.getOrder();
// Give the register class a legal C name if it's anonymous.
std::string Name = RC.getName();
// Emit the register list now.
OS << " // " << Name << " Register Class...\n"
<< " static const unsigned " << Name
<< "[] = {\n ";
for (unsigned i = 0, e = Order.size(); i != e; ++i) {
Record *Reg = Order[i];
OS << getQualifiedName(Reg) << ", ";
}
OS << "\n };\n\n";
OS << " // " << Name << " Bit set.\n"
<< " static const unsigned char " << Name
<< "Bits[] = {\n ";
BitVectorEmitter BVE;
for (unsigned i = 0, e = Order.size(); i != e; ++i) {
Record *Reg = Order[i];
BVE.add(Target.getRegBank().getReg(Reg)->EnumValue);
}
BVE.print(OS);
OS << "\n };\n\n";
}
OS << "}\n\n";
OS << "extern const MCRegisterClass " << TargetName
<< "MCRegisterClasses[] = {\n";
for (unsigned rc = 0, e = RegisterClasses.size(); rc != e; ++rc) {
const CodeGenRegisterClass &RC = *RegisterClasses[rc];
OS << " MCRegisterClass(" << RC.getQualifiedName() + "RegClassID" << ", "
<< '\"' << RC.getName() << "\", "
<< RC.SpillSize/8 << ", "
<< RC.SpillAlignment/8 << ", "
<< RC.CopyCost << ", "
<< RC.Allocatable << ", "
<< RC.getName() << ", " << RC.getName() << " + "
<< RC.getOrder().size() << ", "
<< RC.getName() << "Bits, sizeof(" << RC.getName() << "Bits)"
<< "),\n";
}
OS << "};\n\n";
// MCRegisterInfo initialization routine.
OS << "static inline void Init" << TargetName
<< "MCRegisterInfo(MCRegisterInfo *RI, unsigned RA, "
<< "unsigned DwarfFlavour = 0, unsigned EHFlavour = 0) {\n";
OS << " RI->InitMCRegisterInfo(" << TargetName << "RegDesc, "
<< Regs.size()+1 << ", RA, " << TargetName << "MCRegisterClasses, "
<< RegisterClasses.size() << ");\n\n";
EmitRegMapping(OS, Regs, false);
OS << "}\n\n";
OS << "} // End llvm namespace \n";
OS << "#endif // GET_REGINFO_MC_DESC\n\n";
}
void
RegisterInfoEmitter::runTargetHeader(raw_ostream &OS, CodeGenTarget &Target,
CodeGenRegBank &RegBank) {
EmitSourceFileHeader("Register Information Header Fragment", OS);
OS << "\n#ifdef GET_REGINFO_HEADER\n";
OS << "#undef GET_REGINFO_HEADER\n";
const std::string &TargetName = Target.getName();
std::string ClassName = TargetName + "GenRegisterInfo";
OS << "#include \"llvm/Target/TargetRegisterInfo.h\"\n";
OS << "#include <string>\n\n";
OS << "namespace llvm {\n\n";
OS << "struct " << ClassName << " : public TargetRegisterInfo {\n"
<< " explicit " << ClassName
<< "(unsigned RA, unsigned D = 0, unsigned E = 0);\n"
<< " virtual bool needsStackRealignment(const MachineFunction &) const\n"
<< " { return false; }\n"
<< " unsigned getSubReg(unsigned RegNo, unsigned Index) const;\n"
<< " unsigned getSubRegIndex(unsigned RegNo, unsigned SubRegNo) const;\n"
<< " unsigned composeSubRegIndices(unsigned, unsigned) const;\n"
<< " const TargetRegisterClass *"
"getSubClassWithSubReg(const TargetRegisterClass*, unsigned) const;\n"
<< " const TargetRegisterClass *getMatchingSuperRegClass("
"const TargetRegisterClass*, const TargetRegisterClass*, "
"unsigned) const;\n"
<< "};\n\n";
const std::vector<Record*> &SubRegIndices = RegBank.getSubRegIndices();
if (!SubRegIndices.empty()) {
OS << "\n// Subregister indices\n";
std::string Namespace = SubRegIndices[0]->getValueAsString("Namespace");
if (!Namespace.empty())
OS << "namespace " << Namespace << " {\n";
OS << "enum {\n NoSubRegister,\n";
for (unsigned i = 0, e = RegBank.getNumNamedIndices(); i != e; ++i)
OS << " " << SubRegIndices[i]->getName() << ",\t// " << i+1 << "\n";
OS << " NUM_TARGET_NAMED_SUBREGS = " << SubRegIndices.size()+1 << "\n";
OS << "};\n";
if (!Namespace.empty())
OS << "}\n";
}
ArrayRef<CodeGenRegisterClass*> RegisterClasses = RegBank.getRegClasses();
if (!RegisterClasses.empty()) {
OS << "namespace " << RegisterClasses[0]->Namespace
<< " { // Register classes\n";
for (unsigned i = 0, e = RegisterClasses.size(); i != e; ++i) {
const CodeGenRegisterClass &RC = *RegisterClasses[i];
const std::string &Name = RC.getName();
// Output the register class definition.
OS << " struct " << Name << "Class : public TargetRegisterClass {\n"
<< " " << Name << "Class();\n";
if (!RC.AltOrderSelect.empty())
OS << " ArrayRef<unsigned> "
"getRawAllocationOrder(const MachineFunction&) const;\n";
OS << " };\n";
// Output the extern for the instance.
OS << " extern " << Name << "Class\t" << Name << "RegClass;\n";
// Output the extern for the pointer to the instance (should remove).
OS << " static TargetRegisterClass * const "<< Name <<"RegisterClass = &"
<< Name << "RegClass;\n";
}
OS << "} // end of namespace " << TargetName << "\n\n";
}
OS << "} // End llvm namespace \n";
OS << "#endif // GET_REGINFO_HEADER\n\n";
}
//
// runTargetDesc - Output the target register and register file descriptions.
//
void
RegisterInfoEmitter::runTargetDesc(raw_ostream &OS, CodeGenTarget &Target,
CodeGenRegBank &RegBank){
EmitSourceFileHeader("Target Register and Register Classes Information", OS);
OS << "\n#ifdef GET_REGINFO_TARGET_DESC\n";
OS << "#undef GET_REGINFO_TARGET_DESC\n";
OS << "namespace llvm {\n\n";
// Get access to MCRegisterClass data.
OS << "extern const MCRegisterClass " << Target.getName()
<< "MCRegisterClasses[];\n";
// Start out by emitting each of the register classes.
ArrayRef<CodeGenRegisterClass*> RegisterClasses = RegBank.getRegClasses();
// Collect all registers belonging to any allocatable class.
std::set<Record*> AllocatableRegs;
// Collect allocatable registers.
for (unsigned rc = 0, e = RegisterClasses.size(); rc != e; ++rc) {
const CodeGenRegisterClass &RC = *RegisterClasses[rc];
ArrayRef<Record*> Order = RC.getOrder();
if (RC.Allocatable)
AllocatableRegs.insert(Order.begin(), Order.end());
}
OS << "namespace { // Register classes...\n";
// Emit the ValueType arrays for each RegisterClass
for (unsigned rc = 0, e = RegisterClasses.size(); rc != e; ++rc) {
const CodeGenRegisterClass &RC = *RegisterClasses[rc];
// Give the register class a legal C name if it's anonymous.
std::string Name = RC.getName() + "VTs";
// Emit the register list now.
OS << " // " << Name
<< " Register Class Value Types...\n"
<< " static const EVT " << Name
<< "[] = {\n ";
for (unsigned i = 0, e = RC.VTs.size(); i != e; ++i)
OS << getEnumName(RC.VTs[i]) << ", ";
OS << "MVT::Other\n };\n\n";
}
OS << "} // end anonymous namespace\n\n";
// Now that all of the structs have been emitted, emit the instances.
if (!RegisterClasses.empty()) {
OS << "namespace " << RegisterClasses[0]->Namespace
<< " { // Register class instances\n";
for (unsigned i = 0, e = RegisterClasses.size(); i != e; ++i)
OS << " " << RegisterClasses[i]->getName() << "Class\t"
<< RegisterClasses[i]->getName() << "RegClass;\n";
std::map<unsigned, std::set<unsigned> > SuperRegClassMap;
OS << "\n static const TargetRegisterClass* const "
<< "NullRegClasses[] = { NULL };\n\n";
unsigned NumSubRegIndices = RegBank.getSubRegIndices().size();
if (NumSubRegIndices) {
// Compute the super-register classes for each RegisterClass
for (unsigned rc = 0, e = RegisterClasses.size(); rc != e; ++rc) {
const CodeGenRegisterClass &RC = *RegisterClasses[rc];
for (DenseMap<Record*,Record*>::const_iterator
i = RC.SubRegClasses.begin(),
e = RC.SubRegClasses.end(); i != e; ++i) {
// Find the register class number of i->second for SuperRegClassMap.
const CodeGenRegisterClass *RC2 = RegBank.getRegClass(i->second);
assert(RC2 && "Invalid register class in SubRegClasses");
SuperRegClassMap[RC2->EnumValue].insert(rc);
}
}
// Emit the super-register classes for each RegisterClass
for (unsigned rc = 0, e = RegisterClasses.size(); rc != e; ++rc) {
const CodeGenRegisterClass &RC = *RegisterClasses[rc];
// Give the register class a legal C name if it's anonymous.
std::string Name = RC.getName();
OS << " // " << Name
<< " Super-register Classes...\n"
<< " static const TargetRegisterClass* const "
<< Name << "SuperRegClasses[] = {\n ";
bool Empty = true;
std::map<unsigned, std::set<unsigned> >::iterator I =
SuperRegClassMap.find(rc);
if (I != SuperRegClassMap.end()) {
for (std::set<unsigned>::iterator II = I->second.begin(),
EE = I->second.end(); II != EE; ++II) {
const CodeGenRegisterClass &RC2 = *RegisterClasses[*II];
if (!Empty)
OS << ", ";
OS << "&" << RC2.getQualifiedName() << "RegClass";
Empty = false;
}
}
OS << (!Empty ? ", " : "") << "NULL";
OS << "\n };\n\n";
}
}
// Emit the sub-classes array for each RegisterClass
for (unsigned rc = 0, e = RegisterClasses.size(); rc != e; ++rc) {
const CodeGenRegisterClass &RC = *RegisterClasses[rc];
// Give the register class a legal C name if it's anonymous.
std::string Name = RC.getName();
OS << " static const unsigned " << Name << "SubclassMask[] = { ";
printBitVectorAsHex(OS, RC.getSubClasses(), 32);
OS << "};\n\n";
}
// Emit NULL terminated super-class lists.
for (unsigned rc = 0, e = RegisterClasses.size(); rc != e; ++rc) {
const CodeGenRegisterClass &RC = *RegisterClasses[rc];
ArrayRef<CodeGenRegisterClass*> Supers = RC.getSuperClasses();
// Skip classes without supers. We can reuse NullRegClasses.
if (Supers.empty())
continue;
OS << " static const TargetRegisterClass* const "
<< RC.getName() << "Superclasses[] = {\n";
for (unsigned i = 0; i != Supers.size(); ++i)
OS << " &" << Supers[i]->getQualifiedName() << "RegClass,\n";
OS << " NULL\n };\n\n";
}
// Emit methods.
for (unsigned i = 0, e = RegisterClasses.size(); i != e; ++i) {
const CodeGenRegisterClass &RC = *RegisterClasses[i];
OS << RC.getName() << "Class::" << RC.getName()
<< "Class() : TargetRegisterClass(&"
<< Target.getName() << "MCRegisterClasses["
<< RC.getName() + "RegClassID" << "], "
<< RC.getName() + "VTs" << ", "
<< RC.getName() + "SubclassMask" << ", ";
if (RC.getSuperClasses().empty())
OS << "NullRegClasses, ";
else
OS << RC.getName() + "Superclasses, ";
OS << (NumSubRegIndices ? RC.getName() + "Super" : std::string("Null"))
<< "RegClasses"
<< ") {}\n";
if (!RC.AltOrderSelect.empty()) {
OS << "\nstatic inline unsigned " << RC.getName()
<< "AltOrderSelect(const MachineFunction &MF) {"
<< RC.AltOrderSelect << "}\n\nArrayRef<unsigned> "
<< RC.getName() << "Class::"
<< "getRawAllocationOrder(const MachineFunction &MF) const {\n";
for (unsigned oi = 1 , oe = RC.getNumOrders(); oi != oe; ++oi) {
ArrayRef<Record*> Elems = RC.getOrder(oi);
OS << " static const unsigned AltOrder" << oi << "[] = {";
for (unsigned elem = 0; elem != Elems.size(); ++elem)
OS << (elem ? ", " : " ") << getQualifiedName(Elems[elem]);
OS << " };\n";
}
OS << " const MCRegisterClass &MCR = " << Target.getName()
<< "MCRegisterClasses[" << RC.getQualifiedName() + "RegClassID];"
<< " static const ArrayRef<unsigned> Order[] = {\n"
<< " makeArrayRef(MCR.begin(), MCR.getNumRegs()";
for (unsigned oi = 1, oe = RC.getNumOrders(); oi != oe; ++oi)
OS << "),\n makeArrayRef(AltOrder" << oi;
OS << ")\n };\n const unsigned Select = " << RC.getName()
<< "AltOrderSelect(MF);\n assert(Select < " << RC.getNumOrders()
<< ");\n return Order[Select];\n}\n";
}
}
OS << "}\n";
}
OS << "\nnamespace {\n";
OS << " const TargetRegisterClass* const RegisterClasses[] = {\n";
for (unsigned i = 0, e = RegisterClasses.size(); i != e; ++i)
OS << " &" << RegisterClasses[i]->getQualifiedName()
<< "RegClass,\n";
OS << " };\n";
OS << "}\n"; // End of anonymous namespace...
// Emit extra information about registers.
const std::string &TargetName = Target.getName();
OS << "\n static const TargetRegisterInfoDesc "
<< TargetName << "RegInfoDesc[] = "
<< "{ // Extra Descriptors\n";
OS << " { 0, 0 },\n";
const std::vector<CodeGenRegister*> &Regs = RegBank.getRegisters();
for (unsigned i = 0, e = Regs.size(); i != e; ++i) {
const CodeGenRegister &Reg = *Regs[i];
OS << " { ";
OS << Reg.CostPerUse << ", "
<< int(AllocatableRegs.count(Reg.TheDef)) << " },\n";
}
OS << " };\n"; // End of register descriptors...
// Calculate the mapping of subregister+index pairs to physical registers.
// This will also create further anonymous indexes.
unsigned NamedIndices = RegBank.getNumNamedIndices();
// Emit SubRegIndex names, skipping 0
const std::vector<Record*> &SubRegIndices = RegBank.getSubRegIndices();
OS << "\n static const char *const " << TargetName
<< "SubRegIndexTable[] = { \"";
for (unsigned i = 0, e = SubRegIndices.size(); i != e; ++i) {
OS << SubRegIndices[i]->getName();
if (i+1 != e)
OS << "\", \"";
}
OS << "\" };\n\n";
// Emit names of the anonymus subreg indexes.
if (SubRegIndices.size() > NamedIndices) {
OS << " enum {";
for (unsigned i = NamedIndices, e = SubRegIndices.size(); i != e; ++i) {
OS << "\n " << SubRegIndices[i]->getName() << " = " << i+1;
if (i+1 != e)
OS << ',';
}
OS << "\n };\n\n";
}
OS << "\n";
std::string ClassName = Target.getName() + "GenRegisterInfo";
// Emit the subregister + index mapping function based on the information
// calculated above.
OS << "unsigned " << ClassName
<< "::getSubReg(unsigned RegNo, unsigned Index) const {\n"
<< " switch (RegNo) {\n"
<< " default:\n return 0;\n";
for (unsigned i = 0, e = Regs.size(); i != e; ++i) {
const CodeGenRegister::SubRegMap &SRM = Regs[i]->getSubRegs();
if (SRM.empty())
continue;
OS << " case " << getQualifiedName(Regs[i]->TheDef) << ":\n";
OS << " switch (Index) {\n";
OS << " default: return 0;\n";
for (CodeGenRegister::SubRegMap::const_iterator ii = SRM.begin(),
ie = SRM.end(); ii != ie; ++ii)
OS << " case " << getQualifiedName(ii->first)
<< ": return " << getQualifiedName(ii->second->TheDef) << ";\n";
OS << " };\n" << " break;\n";
}
OS << " };\n";
OS << " return 0;\n";
OS << "}\n\n";
OS << "unsigned " << ClassName
<< "::getSubRegIndex(unsigned RegNo, unsigned SubRegNo) const {\n"
<< " switch (RegNo) {\n"
<< " default:\n return 0;\n";
for (unsigned i = 0, e = Regs.size(); i != e; ++i) {
const CodeGenRegister::SubRegMap &SRM = Regs[i]->getSubRegs();
if (SRM.empty())
continue;
OS << " case " << getQualifiedName(Regs[i]->TheDef) << ":\n";
for (CodeGenRegister::SubRegMap::const_iterator ii = SRM.begin(),
ie = SRM.end(); ii != ie; ++ii)
OS << " if (SubRegNo == " << getQualifiedName(ii->second->TheDef)
<< ") return " << getQualifiedName(ii->first) << ";\n";
OS << " return 0;\n";
}
OS << " };\n";
OS << " return 0;\n";
OS << "}\n\n";
// Emit composeSubRegIndices
OS << "unsigned " << ClassName
<< "::composeSubRegIndices(unsigned IdxA, unsigned IdxB) const {\n"
<< " switch (IdxA) {\n"
<< " default:\n return IdxB;\n";
for (unsigned i = 0, e = SubRegIndices.size(); i != e; ++i) {
bool Open = false;
for (unsigned j = 0; j != e; ++j) {
if (Record *Comp = RegBank.getCompositeSubRegIndex(SubRegIndices[i],
SubRegIndices[j])) {
if (!Open) {
OS << " case " << getQualifiedName(SubRegIndices[i])
<< ": switch(IdxB) {\n default: return IdxB;\n";
Open = true;
}
OS << " case " << getQualifiedName(SubRegIndices[j])
<< ": return " << getQualifiedName(Comp) << ";\n";
}
}
if (Open)
OS << " }\n";
}
OS << " }\n}\n\n";
// Emit getSubClassWithSubReg.
OS << "const TargetRegisterClass *" << ClassName
<< "::getSubClassWithSubReg(const TargetRegisterClass *RC, unsigned Idx)"
" const {\n";
if (SubRegIndices.empty()) {
OS << " assert(Idx == 0 && \"Target has no sub-registers\");\n"
<< " return RC;\n";
} else {
// Use the smallest type that can hold a regclass ID with room for a
// sentinel.
if (RegisterClasses.size() < UINT8_MAX)
OS << " static const uint8_t Table[";
else if (RegisterClasses.size() < UINT16_MAX)
OS << " static const uint16_t Table[";
else
throw "Too many register classes.";
OS << RegisterClasses.size() << "][" << SubRegIndices.size() << "] = {\n";
for (unsigned rci = 0, rce = RegisterClasses.size(); rci != rce; ++rci) {
const CodeGenRegisterClass &RC = *RegisterClasses[rci];
OS << " {\t// " << RC.getName() << "\n";
for (unsigned sri = 0, sre = SubRegIndices.size(); sri != sre; ++sri) {
Record *Idx = SubRegIndices[sri];
if (CodeGenRegisterClass *SRC = RC.getSubClassWithSubReg(Idx))
OS << " " << SRC->EnumValue + 1 << ",\t// " << Idx->getName()
<< " -> " << SRC->getName() << "\n";
else
OS << " 0,\t// " << Idx->getName() << "\n";
}
OS << " },\n";
}
OS << " };\n assert(RC && \"Missing regclass\");\n"
<< " if (!Idx) return RC;\n --Idx;\n"
<< " assert(Idx < " << SubRegIndices.size() << " && \"Bad subreg\");\n"
<< " unsigned TV = Table[RC->getID()][Idx];\n"
<< " return TV ? getRegClass(TV - 1) : 0;\n";
}
OS << "}\n\n";
// Emit getMatchingSuperRegClass.
OS << "const TargetRegisterClass *" << ClassName
<< "::getMatchingSuperRegClass(const TargetRegisterClass *A,"
" const TargetRegisterClass *B, unsigned Idx) const {\n";
if (SubRegIndices.empty()) {
OS << " llvm_unreachable(\"Target has no sub-registers\");\n";
} else {
// We need to find the largest sub-class of A such that every register has
// an Idx sub-register in B. Map (B, Idx) to a bit-vector of
// super-register classes that map into B. Then compute the largest common
// sub-class with A by taking advantage of the register class ordering,
// like getCommonSubClass().
// Bitvector table is NumRCs x NumSubIndexes x BVWords, where BVWords is
// the number of 32-bit words required to represent all register classes.
const unsigned BVWords = (RegisterClasses.size()+31)/32;
BitVector BV(RegisterClasses.size());
OS << " static const unsigned Table[" << RegisterClasses.size()
<< "][" << SubRegIndices.size() << "][" << BVWords << "] = {\n";
for (unsigned rci = 0, rce = RegisterClasses.size(); rci != rce; ++rci) {
const CodeGenRegisterClass &RC = *RegisterClasses[rci];
OS << " {\t// " << RC.getName() << "\n";
for (unsigned sri = 0, sre = SubRegIndices.size(); sri != sre; ++sri) {
Record *Idx = SubRegIndices[sri];
BV.reset();
RC.getSuperRegClasses(Idx, BV);
OS << " { ";
printBitVectorAsHex(OS, BV, 32);
OS << "},\t// " << Idx->getName() << '\n';
}
OS << " },\n";
}
OS << " };\n assert(A && B && \"Missing regclass\");\n"
<< " --Idx;\n"
<< " assert(Idx < " << SubRegIndices.size() << " && \"Bad subreg\");\n"
<< " const unsigned *TV = Table[B->getID()][Idx];\n"
<< " const unsigned *SC = A->getSubClassMask();\n"
<< " for (unsigned i = 0; i != " << BVWords << "; ++i)\n"
<< " if (unsigned Common = TV[i] & SC[i])\n"
<< " return getRegClass(32*i + CountTrailingZeros_32(Common));\n"
<< " return 0;\n";
}
OS << "}\n\n";
// Emit the constructor of the class...
OS << "extern const MCRegisterDesc " << TargetName << "RegDesc[];\n";
OS << ClassName << "::" << ClassName
<< "(unsigned RA, unsigned DwarfFlavour, unsigned EHFlavour)\n"
<< " : TargetRegisterInfo(" << TargetName << "RegInfoDesc"
<< ", RegisterClasses, RegisterClasses+" << RegisterClasses.size() <<",\n"
<< " " << TargetName << "SubRegIndexTable) {\n"
<< " InitMCRegisterInfo(" << TargetName << "RegDesc, "
<< Regs.size()+1 << ", RA, " << TargetName << "MCRegisterClasses, "
<< RegisterClasses.size() << ");\n\n";
EmitRegMapping(OS, Regs, true);
OS << "}\n\n";
OS << "} // End llvm namespace \n";
OS << "#endif // GET_REGINFO_TARGET_DESC\n\n";
}
void RegisterInfoEmitter::run(raw_ostream &OS) {
CodeGenTarget Target(Records);
CodeGenRegBank &RegBank = Target.getRegBank();
RegBank.computeDerivedInfo();
runEnums(OS, Target, RegBank);
runMCDesc(OS, Target, RegBank);
runTargetHeader(OS, Target, RegBank);
runTargetDesc(OS, Target, RegBank);
}
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