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Initial checking : Writes LLVM - MI mappiing to the .s file

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git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@2911 91177308-0d34-0410-b5e6-96231b3b80d8
This commit is contained in:
Mehwish Nagda 2002-07-15 23:08:49 +00:00
parent ab6317a1e5
commit b43086b4b7
2 changed files with 494 additions and 0 deletions
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247
lib/CodeGen/InstrSelection/MappingInfo.cpp Normal file
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//===- MappingInfo.cpp - create LLVM info and output to .s file ---------===//
//
// Create Map from LLVM BB and Instructions and Machine Instructions
// and output the information as .byte directives to the .s file
//
//===--------------------------------------------------------------------===//
#include "llvm/CodeGen/MappingInfo.h"
#include "llvm/Pass.h"
#include "llvm/Module.h"
#include "llvm/CodeGen/MachineInstr.h"
#include "llvm/CodeGen/MachineCodeForBasicBlock.h"
#include "llvm/CodeGen/MachineCodeForInstruction.h"
#include <map>
#include <vector>
#include <iostream>
using std::vector;
// MappingInfo - This method collects mapping info
// for the mapping from LLVM to machine code.
//
namespace {
class getMappingInfoForFunction : public Pass {
std::ostream &Out;
private:
std::map<const Function*, int> Fkey; //key of function to num
std::map<const MachineInstr*, int> BBkey; //key basic block to num
std::map<const MachineInstr*, int> MIkey; //key machine instruction to num
vector<vector<int> > BBmap;
vector<vector<int> > MImap;
void createFunctionKey(Module *M);
void createBasicBlockKey(Module *M);
void createMachineInstructionKey(Module *M);
void createBBToMImap(Module *M);
void createLLVMToMImap(Module *M);
void writeNumber(int X);
public:
getMappingInfoForFunction(std::ostream &out) : Out(out){}
const char* getPassName() const {
return "Sparc CollectMappingInfoForInstruction";
}
bool run(Module &M);
};
}
//pass definition
Pass *MappingInfoForFunction(std::ostream &out){
return (new getMappingInfoForFunction(out));
}
//function definitions :
//create and output maps to the .s file
bool getMappingInfoForFunction::run(Module &m) {
Module *M = &m;
//map for Function to Function number
createFunctionKey(M);
//map for BB to LLVM instruction number
createBasicBlockKey(M);
//map from Machine Instruction to Machine Instruction number
createMachineInstructionKey(M);
//map of Basic Block to first Machine Instruction and number
// of instructions go thro each function
createBBToMImap(M);
//map of LLVM Instruction to Machine Instruction
createLLVMToMImap(M);
// Write map to the sparc assembly stream
// Start by writing out the basic block to first and last
// machine instruction map to the .s file
Out << "\n\n!BB TO MI MAP\n";
Out << "\t.section \".data\"\n\t.align 8\n";
Out << "\t.global BBMIMap\n";
Out << "BBMIMap:\n";
//add stream object here that will contain info about the map
//add object to write this out to the .s file
for (vector<vector<int> >::iterator BBmapI =
BBmap.begin(), BBmapE = BBmap.end(); BBmapI != BBmapE;
++BBmapI){
writeNumber((*BBmapI)[0]);
writeNumber((*BBmapI)[1]);
writeNumber((*BBmapI)[2]);
writeNumber((*BBmapI)[3]);
}
Out << "\t.type BBMIMap,#object\n";
Out << "\t.size BBMIMap,"<<BBmap.size() << "\n";
//output length info
Out <<"\n\n!LLVM BB MAP Length\n\t.section \".bbdata";
Out << "\",#alloc,#write\n\t.global BBMIMap_length\n\t.align 4\n\t.type BBMIMap_length,";
Out <<"#object\n\t.size BBMIMap_length,4\nBBMIMap_length:\n\t.word "
<< ((BBmap.size())*4)<<"\n\n\n\n";
//Now write out the LLVM instruction to the corresponding
//machine instruction map
Out << "!LLVM I TO MI MAP\n";
Out << "\t.section\".data\"\n\t.align 8\n";
Out << "\t.global LMIMap\n";
Out << "LMIMap:\n";
//add stream object here that will contain info about the map
//add object to write this out to the .s file
for (vector<vector<int> >::iterator MImapI =
MImap.begin(), MImapE = MImap.end(); MImapI != MImapE;
++MImapI){
writeNumber((*MImapI)[0]);
writeNumber((*MImapI)[1]);
writeNumber((*MImapI)[2]);
writeNumber((*MImapI)[3]);
}
Out << "\t.type LMIMap,#object\n";
Out << "\t.size LMIMap,"<<MImap.size() << "\n";
//output length info
Out <<"\n\n!LLVM MI MAP Length\n\t.section\".llvmdata";
Out << "\",#alloc,#write\n\t.global LMIMap_length\n\t.align 4\n\t.type LMIMap_length,";
Out <<"#object\n\t.size LMIMap_length,4\nLMIMap_length:\n\t.word "
<< ((MImap.size())*4)<<"\n\n\n\n";
return false;
}
//write out information as .byte directives
void getMappingInfoForFunction::writeNumber(int X) {
do {
int tmp = X & 127;
X >>= 7;
if (X) tmp |= 128;
Out << "\t.byte " << tmp << "\n";
} while(X);
}
//Assign a number to each Function
void getMappingInfoForFunction::createFunctionKey(Module *M){
int i = 0;
int j = 0;
for (Module::iterator FI = M->begin(), FE = M->end();
FI != FE; ++FI){
if(FI->size() <=1) continue;
Fkey[FI] = i;
++i;
}
}
//Assign a Number to each BB
void getMappingInfoForFunction::createBasicBlockKey(Module *M){
int i = 0;
for (Module::iterator FI = M->begin(), FE = M->end();
FI != FE; ++FI){
// int i = 0;
if(FI->size() <= 1) continue;
for (Function::iterator BI = FI->begin(), BE = FI->end();
BI != BE; ++BI){
MachineCodeForBasicBlock &miBB = MachineCodeForBasicBlock::get(BI);
BBkey[miBB[0]] = i;
i = i+(miBB.size());
}
}
}
void getMappingInfoForFunction::createMachineInstructionKey(Module *M){
for (Module::iterator FI = M->begin(), FE = M->end();
FI != FE; ++FI){
if(FI->size() <= 1) continue;
for (Function::iterator BI=FI->begin(), BE=FI->end();
BI != BE; ++BI){
MachineCodeForBasicBlock &miBB = MachineCodeForBasicBlock::get(BI);
int j = 0;
for (MachineCodeForBasicBlock::iterator miI = miBB.begin(),
miE = miBB.end(); miI != miE; ++miI, ++j){
MIkey[*miI] = j;
}
}
}
}
void getMappingInfoForFunction::createBBToMImap(Module *M){
//go thro each function in the module
for (Module::iterator FI = M->begin(), FE = M->end();
FI != FE; ++FI){
if(FI->size() <= 1)continue;
//go thro each basic block in that function
int i = 0;
for (Function::iterator BI = FI->begin(),
BE = FI->end(); BI != BE; ++BI){
//create a Map record
//get the corresponding machine instruction
MachineCodeForBasicBlock &miBB = MachineCodeForBasicBlock::get(BI);
//add record into the map
BBmap.push_back(vector<int>());
vector<int> &oneBB = BBmap.back();
oneBB.reserve(4);
//add the function number
oneBB.push_back(Fkey[FI]);
//add the machine instruction number
oneBB.push_back( i );
oneBB.push_back( BBkey[ miBB[0] ]);
//add the number of instructions
oneBB.push_back(miBB.size());
++i;
}
}
}
void getMappingInfoForFunction::createLLVMToMImap(Module *M){
for (Module::iterator FI = M->begin(), FE = M->end();
FI != FE; ++FI){
if(FI->size() <= 1) continue;
int i =0;
for (Function::iterator BI = FI->begin(), BE = FI->end();
BI != BE; ++BI, ++i){
int j = 0;
for (BasicBlock::iterator II = BI->begin(),
IE = BI->end(); II != IE; ++II, ++j){
MachineCodeForInstruction& miI =
MachineCodeForInstruction::get(II);
for (MachineCodeForInstruction::iterator miII = miI.begin(),
miIE = miI.end(); miII != miIE; ++miII){
vector<int> oneMI;
oneMI.push_back(Fkey[FI]);
oneMI.push_back(i);
oneMI.push_back(j);
oneMI.push_back(MIkey[*miII]);
MImap.push_back(oneMI);
}
}
}
}
}

247
lib/Target/SparcV9/InstrSelection/MappingInfo.cpp Normal file
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//===- MappingInfo.cpp - create LLVM info and output to .s file ---------===//
//
// Create Map from LLVM BB and Instructions and Machine Instructions
// and output the information as .byte directives to the .s file
//
//===--------------------------------------------------------------------===//
#include "llvm/CodeGen/MappingInfo.h"
#include "llvm/Pass.h"
#include "llvm/Module.h"
#include "llvm/CodeGen/MachineInstr.h"
#include "llvm/CodeGen/MachineCodeForBasicBlock.h"
#include "llvm/CodeGen/MachineCodeForInstruction.h"
#include <map>
#include <vector>
#include <iostream>
using std::vector;
// MappingInfo - This method collects mapping info
// for the mapping from LLVM to machine code.
//
namespace {
class getMappingInfoForFunction : public Pass {
std::ostream &Out;
private:
std::map<const Function*, int> Fkey; //key of function to num
std::map<const MachineInstr*, int> BBkey; //key basic block to num
std::map<const MachineInstr*, int> MIkey; //key machine instruction to num
vector<vector<int> > BBmap;
vector<vector<int> > MImap;
void createFunctionKey(Module *M);
void createBasicBlockKey(Module *M);
void createMachineInstructionKey(Module *M);
void createBBToMImap(Module *M);
void createLLVMToMImap(Module *M);
void writeNumber(int X);
public:
getMappingInfoForFunction(std::ostream &out) : Out(out){}
const char* getPassName() const {
return "Sparc CollectMappingInfoForInstruction";
}
bool run(Module &M);
};
}
//pass definition
Pass *MappingInfoForFunction(std::ostream &out){
return (new getMappingInfoForFunction(out));
}
//function definitions :
//create and output maps to the .s file
bool getMappingInfoForFunction::run(Module &m) {
Module *M = &m;
//map for Function to Function number
createFunctionKey(M);
//map for BB to LLVM instruction number
createBasicBlockKey(M);
//map from Machine Instruction to Machine Instruction number
createMachineInstructionKey(M);
//map of Basic Block to first Machine Instruction and number
// of instructions go thro each function
createBBToMImap(M);
//map of LLVM Instruction to Machine Instruction
createLLVMToMImap(M);
// Write map to the sparc assembly stream
// Start by writing out the basic block to first and last
// machine instruction map to the .s file
Out << "\n\n!BB TO MI MAP\n";
Out << "\t.section \".data\"\n\t.align 8\n";
Out << "\t.global BBMIMap\n";
Out << "BBMIMap:\n";
//add stream object here that will contain info about the map
//add object to write this out to the .s file
for (vector<vector<int> >::iterator BBmapI =
BBmap.begin(), BBmapE = BBmap.end(); BBmapI != BBmapE;
++BBmapI){
writeNumber((*BBmapI)[0]);
writeNumber((*BBmapI)[1]);
writeNumber((*BBmapI)[2]);
writeNumber((*BBmapI)[3]);
}
Out << "\t.type BBMIMap,#object\n";
Out << "\t.size BBMIMap,"<<BBmap.size() << "\n";
//output length info
Out <<"\n\n!LLVM BB MAP Length\n\t.section \".bbdata";
Out << "\",#alloc,#write\n\t.global BBMIMap_length\n\t.align 4\n\t.type BBMIMap_length,";
Out <<"#object\n\t.size BBMIMap_length,4\nBBMIMap_length:\n\t.word "
<< ((BBmap.size())*4)<<"\n\n\n\n";
//Now write out the LLVM instruction to the corresponding
//machine instruction map
Out << "!LLVM I TO MI MAP\n";
Out << "\t.section\".data\"\n\t.align 8\n";
Out << "\t.global LMIMap\n";
Out << "LMIMap:\n";
//add stream object here that will contain info about the map
//add object to write this out to the .s file
for (vector<vector<int> >::iterator MImapI =
MImap.begin(), MImapE = MImap.end(); MImapI != MImapE;
++MImapI){
writeNumber((*MImapI)[0]);
writeNumber((*MImapI)[1]);
writeNumber((*MImapI)[2]);
writeNumber((*MImapI)[3]);
}
Out << "\t.type LMIMap,#object\n";
Out << "\t.size LMIMap,"<<MImap.size() << "\n";
//output length info
Out <<"\n\n!LLVM MI MAP Length\n\t.section\".llvmdata";
Out << "\",#alloc,#write\n\t.global LMIMap_length\n\t.align 4\n\t.type LMIMap_length,";
Out <<"#object\n\t.size LMIMap_length,4\nLMIMap_length:\n\t.word "
<< ((MImap.size())*4)<<"\n\n\n\n";
return false;
}
//write out information as .byte directives
void getMappingInfoForFunction::writeNumber(int X) {
do {
int tmp = X & 127;
X >>= 7;
if (X) tmp |= 128;
Out << "\t.byte " << tmp << "\n";
} while(X);
}
//Assign a number to each Function
void getMappingInfoForFunction::createFunctionKey(Module *M){
int i = 0;
int j = 0;
for (Module::iterator FI = M->begin(), FE = M->end();
FI != FE; ++FI){
if(FI->size() <=1) continue;
Fkey[FI] = i;
++i;
}
}
//Assign a Number to each BB
void getMappingInfoForFunction::createBasicBlockKey(Module *M){
int i = 0;
for (Module::iterator FI = M->begin(), FE = M->end();
FI != FE; ++FI){
// int i = 0;
if(FI->size() <= 1) continue;
for (Function::iterator BI = FI->begin(), BE = FI->end();
BI != BE; ++BI){
MachineCodeForBasicBlock &miBB = MachineCodeForBasicBlock::get(BI);
BBkey[miBB[0]] = i;
i = i+(miBB.size());
}
}
}
void getMappingInfoForFunction::createMachineInstructionKey(Module *M){
for (Module::iterator FI = M->begin(), FE = M->end();
FI != FE; ++FI){
if(FI->size() <= 1) continue;
for (Function::iterator BI=FI->begin(), BE=FI->end();
BI != BE; ++BI){
MachineCodeForBasicBlock &miBB = MachineCodeForBasicBlock::get(BI);
int j = 0;
for (MachineCodeForBasicBlock::iterator miI = miBB.begin(),
miE = miBB.end(); miI != miE; ++miI, ++j){
MIkey[*miI] = j;
}
}
}
}
void getMappingInfoForFunction::createBBToMImap(Module *M){
//go thro each function in the module
for (Module::iterator FI = M->begin(), FE = M->end();
FI != FE; ++FI){
if(FI->size() <= 1)continue;
//go thro each basic block in that function
int i = 0;
for (Function::iterator BI = FI->begin(),
BE = FI->end(); BI != BE; ++BI){
//create a Map record
//get the corresponding machine instruction
MachineCodeForBasicBlock &miBB = MachineCodeForBasicBlock::get(BI);
//add record into the map
BBmap.push_back(vector<int>());
vector<int> &oneBB = BBmap.back();
oneBB.reserve(4);
//add the function number
oneBB.push_back(Fkey[FI]);
//add the machine instruction number
oneBB.push_back( i );
oneBB.push_back( BBkey[ miBB[0] ]);
//add the number of instructions
oneBB.push_back(miBB.size());
++i;
}
}
}
void getMappingInfoForFunction::createLLVMToMImap(Module *M){
for (Module::iterator FI = M->begin(), FE = M->end();
FI != FE; ++FI){
if(FI->size() <= 1) continue;
int i =0;
for (Function::iterator BI = FI->begin(), BE = FI->end();
BI != BE; ++BI, ++i){
int j = 0;
for (BasicBlock::iterator II = BI->begin(),
IE = BI->end(); II != IE; ++II, ++j){
MachineCodeForInstruction& miI =
MachineCodeForInstruction::get(II);
for (MachineCodeForInstruction::iterator miII = miI.begin(),
miIE = miI.end(); miII != miIE; ++miII){
vector<int> oneMI;
oneMI.push_back(Fkey[FI]);
oneMI.push_back(i);
oneMI.push_back(j);
oneMI.push_back(MIkey[*miII]);
MImap.push_back(oneMI);
}
}
}
}
}