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Extract the generateHashTable function.

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The constant hash tables for sub-registers and overlaps are generated
the same way, so extract a function to generate and print the hash
table.

Also use the information computed by CodeGenRegisters.cpp instead of the
locally data.

git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@132886 91177308-0d34-0410-b5e6-96231b3b80d8
This commit is contained in:
Jakob Stoklund Olesen 2011-06-12 07:04:26 +00:00
parent 1edc08b09f
commit 4091b059ec
1 changed files with 61 additions and 144 deletions
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205
utils/TableGen/RegisterInfoEmitter.cpp
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@ -19,6 +19,7 @@
#include "Record.h"
#include "llvm/ADT/StringExtras.h"
#include "llvm/ADT/STLExtras.h"
#include "llvm/Support/Format.h"
#include <algorithm>
#include <set>
using namespace llvm;
@ -168,6 +169,51 @@ static void addSubSuperReg(Record *R, Record *S,
addSubSuperReg(R, *I, SubRegs, SuperRegs, Aliases);
}
typedef std::pair<unsigned, unsigned> UUPair;
typedef std::vector<UUPair> UUVector;
// Generate and print a quadratically probed hash table of unsigned pairs.
// The pair (0,0) is used as a sentinel, so it cannot be a data point.
static void generateHashTable(raw_ostream &OS, const char *Name,
const UUVector &Data) {
const UUPair Sentinel(0, 0);
unsigned HSize = Data.size();
UUVector HT;
// Hashtable size must be a power of two.
HSize = 2 * NextPowerOf2(2 * HSize);
HT.assign(HSize, Sentinel);
// Insert all entries.
unsigned MaxProbes = 0;
for (unsigned i = 0, e = Data.size(); i != e; ++i) {
UUPair D = Data[i];
unsigned Idx = (D.first + D.second * 37) & (HSize - 1);
unsigned ProbeAmt = 2;
while (HT[Idx] != Sentinel) {
Idx = (Idx + ProbeAmt) & (HSize - 1);
ProbeAmt += 2;
}
HT[Idx] = D;
MaxProbes = std::max(MaxProbes, ProbeAmt/2);
}
// Print the hash table.
OS << "\n\n // Max number of probes: " << MaxProbes
<< "\n // Used entries: " << Data.size()
<< "\n const unsigned " << Name << "Size = " << HSize << ';'
<< "\n const unsigned " << Name << "[] = {\n";
for (unsigned i = 0, e = HSize; i != e; ++i) {
UUPair D = HT[i];
OS << format(" %3u,%3u,", D.first, D.second);
if (i % 8 == 7 && i + 1 != e)
OS << '\n';
}
OS << "\n };\n";
}
//
// RegisterInfoEmitter::run - Main register file description emitter.
//
void RegisterInfoEmitter::run(raw_ostream &OS) {
@ -468,157 +514,28 @@ void RegisterInfoEmitter::run(raw_ostream &OS) {
// Print the SubregHashTable, a simple quadratically probed
// hash table for determining if a register is a subregister
// of another register.
unsigned NumSubRegs = 0;
std::map<Record*, unsigned> RegNo;
UUVector HTData;
for (unsigned i = 0, e = Regs.size(); i != e; ++i) {
RegNo[Regs[i].TheDef] = i;
NumSubRegs += RegisterSubRegs[Regs[i].TheDef].size();
unsigned RegNo = Regs[i].EnumValue;
const CodeGenRegister::SuperRegList &SR = Regs[i].getSuperRegs();
for (CodeGenRegister::SuperRegList::const_iterator I = SR.begin(),
E = SR.end(); I != E; ++I)
HTData.push_back(UUPair((*I)->EnumValue, RegNo));
}
unsigned SubregHashTableSize = 2 * NextPowerOf2(2 * NumSubRegs);
unsigned* SubregHashTable = new unsigned[2 * SubregHashTableSize];
std::fill(SubregHashTable, SubregHashTable + 2 * SubregHashTableSize, ~0U);
unsigned hashMisses = 0;
for (unsigned i = 0, e = Regs.size(); i != e; ++i) {
Record* R = Regs[i].TheDef;
for (std::set<Record*>::iterator I = RegisterSubRegs[R].begin(),
E = RegisterSubRegs[R].end(); I != E; ++I) {
Record* RJ = *I;
// We have to increase the indices of both registers by one when
// computing the hash because, in the generated code, there
// will be an extra empty slot at register 0.
size_t index = ((i+1) + (RegNo[RJ]+1) * 37) & (SubregHashTableSize-1);
unsigned ProbeAmt = 2;
while (SubregHashTable[index*2] != ~0U &&
SubregHashTable[index*2+1] != ~0U) {
index = (index + ProbeAmt) & (SubregHashTableSize-1);
ProbeAmt += 2;
hashMisses++;
}
SubregHashTable[index*2] = i;
SubregHashTable[index*2+1] = RegNo[RJ];
}
}
OS << "\n\n // Number of hash collisions: " << hashMisses << "\n";
if (SubregHashTableSize) {
std::string Namespace = Regs[0].TheDef->getValueAsString("Namespace");
OS << " const unsigned SubregHashTable[] = { ";
for (unsigned i = 0; i < SubregHashTableSize - 1; ++i) {
if (i != 0)
// Insert spaces for nice formatting.
OS << " ";
if (SubregHashTable[2*i] != ~0U) {
OS << getQualifiedName(Regs[SubregHashTable[2*i]].TheDef) << ", "
<< getQualifiedName(Regs[SubregHashTable[2*i+1]].TheDef) << ", \n";
} else {
OS << Namespace << "::NoRegister, " << Namespace << "::NoRegister, \n";
}
}
unsigned Idx = SubregHashTableSize*2-2;
if (SubregHashTable[Idx] != ~0U) {
OS << " "
<< getQualifiedName(Regs[SubregHashTable[Idx]].TheDef) << ", "
<< getQualifiedName(Regs[SubregHashTable[Idx+1]].TheDef) << " };\n";
} else {
OS << Namespace << "::NoRegister, " << Namespace << "::NoRegister };\n";
}
OS << " const unsigned SubregHashTableSize = "
<< SubregHashTableSize << ";\n";
} else {
OS << " const unsigned SubregHashTable[] = { ~0U, ~0U };\n"
<< " const unsigned SubregHashTableSize = 1;\n";
}
delete [] SubregHashTable;
generateHashTable(OS, "SubregHashTable", HTData);
// Print the AliasHashTable, a simple quadratically probed
// hash table for determining if a register aliases another register.
unsigned NumAliases = 0;
RegNo.clear();
HTData.clear();
for (unsigned i = 0, e = Regs.size(); i != e; ++i) {
RegNo[Regs[i].TheDef] = i;
NumAliases += RegisterAliases[Regs[i].TheDef].size();
unsigned RegNo = Regs[i].EnumValue;
const CodeGenRegister::Set &O = Overlaps[&Regs[i]];
for (CodeGenRegister::Set::const_iterator I = O.begin(), E = O.end();
I != E; ++I)
if (*I != &Regs[i])
HTData.push_back(UUPair(RegNo, (*I)->EnumValue));
}
unsigned AliasesHashTableSize = 2 * NextPowerOf2(2 * NumAliases);
unsigned* AliasesHashTable = new unsigned[2 * AliasesHashTableSize];
std::fill(AliasesHashTable, AliasesHashTable + 2 * AliasesHashTableSize, ~0U);
hashMisses = 0;
for (unsigned i = 0, e = Regs.size(); i != e; ++i) {
Record* R = Regs[i].TheDef;
for (std::set<Record*>::iterator I = RegisterAliases[R].begin(),
E = RegisterAliases[R].end(); I != E; ++I) {
Record* RJ = *I;
// We have to increase the indices of both registers by one when
// computing the hash because, in the generated code, there
// will be an extra empty slot at register 0.
size_t index = ((i+1) + (RegNo[RJ]+1) * 37) & (AliasesHashTableSize-1);
unsigned ProbeAmt = 2;
while (AliasesHashTable[index*2] != ~0U &&
AliasesHashTable[index*2+1] != ~0U) {
index = (index + ProbeAmt) & (AliasesHashTableSize-1);
ProbeAmt += 2;
hashMisses++;
}
AliasesHashTable[index*2] = i;
AliasesHashTable[index*2+1] = RegNo[RJ];
}
}
OS << "\n\n // Number of hash collisions: " << hashMisses << "\n";
if (AliasesHashTableSize) {
std::string Namespace = Regs[0].TheDef->getValueAsString("Namespace");
OS << " const unsigned AliasesHashTable[] = { ";
for (unsigned i = 0; i < AliasesHashTableSize - 1; ++i) {
if (i != 0)
// Insert spaces for nice formatting.
OS << " ";
if (AliasesHashTable[2*i] != ~0U) {
OS << getQualifiedName(Regs[AliasesHashTable[2*i]].TheDef) << ", "
<< getQualifiedName(Regs[AliasesHashTable[2*i+1]].TheDef) << ", \n";
} else {
OS << Namespace << "::NoRegister, " << Namespace << "::NoRegister, \n";
}
}
unsigned Idx = AliasesHashTableSize*2-2;
if (AliasesHashTable[Idx] != ~0U) {
OS << " "
<< getQualifiedName(Regs[AliasesHashTable[Idx]].TheDef) << ", "
<< getQualifiedName(Regs[AliasesHashTable[Idx+1]].TheDef) << " };\n";
} else {
OS << Namespace << "::NoRegister, " << Namespace << "::NoRegister };\n";
}
OS << " const unsigned AliasesHashTableSize = "
<< AliasesHashTableSize << ";\n";
} else {
OS << " const unsigned AliasesHashTable[] = { ~0U, ~0U };\n"
<< " const unsigned AliasesHashTableSize = 1;\n";
}
delete [] AliasesHashTable;
if (!RegisterAliases.empty())
OS << "\n\n // Register Overlap Lists...\n";
generateHashTable(OS, "AliasesHashTable", HTData);
// Emit an overlap list for all registers.
for (unsigned i = 0, e = Regs.size(); i != e; ++i) {