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https://github.com/RPCS3/llvm-mirror.git
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3ec8f080f0
llvm-svn: 7802
242 lines
9.6 KiB
C++
242 lines
9.6 KiB
C++
//===- MappingInfo.cpp - create LLVM info and output to .s file ---------===//
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//
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// This file contains a FunctionPass called MappingInfo,
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// which creates two maps: one between LLVM Instructions and MachineInstrs
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// (the "LLVM I TO MI MAP"), and another between MachineBasicBlocks and
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// MachineInstrs (the "BB TO MI MAP").
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//
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// As a side effect, it outputs this information as .byte directives to
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// the assembly file. The output is designed to survive the SPARC assembler,
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// in order that the Reoptimizer may read it in from memory later when the
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// binary is loaded. Therefore, it may contain some hidden SPARC-architecture
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// dependencies. Currently this question is purely theoretical as the
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// Reoptimizer works only on the SPARC.
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//
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// The LLVM I TO MI MAP consists of a set of information for each
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// BasicBlock in a Function, ordered from begin() to end(). The information
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// for a BasicBlock consists of
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// 1) its (0-based) index in the Function,
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// 2) the number of LLVM Instructions it contains, and
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// 3) information for each Instruction, in sequence from the begin()
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// to the end() of the BasicBlock. The information for an Instruction
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// consists of
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// 1) its (0-based) index in the BasicBlock,
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// 2) the number of MachineInstrs that correspond to that Instruction
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// (as reported by MachineCodeForInstruction), and
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// 3) the MachineInstr number calculated by create_MI_to_number_Key,
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// for each of the MachineInstrs that correspond to that Instruction.
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//
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// The BB TO MI MAP consists of a three-element tuple for each
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// MachineBasicBlock in a function, ordered from begin() to end() of
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// its MachineFunction: first, the index of the MachineBasicBlock in the
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// function; second, the number of the MachineBasicBlock in the function
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// as computed by create_BB_to_MInumber_Key; and third, the number of
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// MachineInstrs in the MachineBasicBlock.
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//
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//===--------------------------------------------------------------------===//
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#include "MappingInfo.h"
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#include "llvm/Pass.h"
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#include "llvm/Module.h"
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#include "llvm/CodeGen/MachineFunction.h"
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#include "llvm/CodeGen/MachineCodeForInstruction.h"
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namespace {
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class MappingInfoCollector : public FunctionPass {
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std::ostream &Out;
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public:
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MappingInfoCollector(std::ostream &out) : Out(out){}
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const char *getPassName () const { return "Instr. Mapping Info Collector"; }
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bool runOnFunction(Function &FI);
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typedef std::map<const MachineInstr*, unsigned> InstructionKey;
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private:
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MappingInfo *currentOutputMap;
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std::map<Function *, unsigned> Fkey; // Function # for all functions.
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bool doInitialization(Module &M);
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void create_BB_to_MInumber_Key(Function &FI, InstructionKey &key);
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void create_MI_to_number_Key(Function &FI, InstructionKey &key);
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void buildBBMIMap (Function &FI, MappingInfo &Map);
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void buildLMIMap (Function &FI, MappingInfo &Map);
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void writeNumber(unsigned X);
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void selectOutputMap (MappingInfo &m) { currentOutputMap = &m; }
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void outByte (unsigned char b) { currentOutputMap->outByte (b); }
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};
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}
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/// getMappingInfoCollector -- Static factory method: returns a new
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/// MappingInfoCollector Pass object, which uses OUT as its
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/// output stream for assembly output.
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Pass *getMappingInfoCollector(std::ostream &out){
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return (new MappingInfoCollector(out));
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}
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/// runOnFunction -- Builds up the maps for the given function FI and then
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/// writes them out as assembly code to the current output stream OUT.
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/// This is an entry point to the pass, called by the PassManager.
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bool MappingInfoCollector::runOnFunction(Function &FI) {
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unsigned num = Fkey[&FI]; // Function number for the current function.
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// Create objects to hold the maps.
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MappingInfo LMIMap ("LLVM I TO MI MAP", "LMIMap", num);
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MappingInfo BBMIMap ("BB TO MI MAP", "BBMIMap", num);
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// Now, build the maps.
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buildLMIMap (FI, LMIMap);
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buildBBMIMap (FI, BBMIMap);
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// Now, write out the maps.
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LMIMap.dumpAssembly (Out);
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BBMIMap.dumpAssembly (Out);
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return false;
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}
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/// writeNumber -- Write out the number X as a sequence of .byte
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/// directives to the current output stream Out. This method performs a
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/// run-length encoding of the unsigned integers X that are output.
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void MappingInfoCollector::writeNumber(unsigned X) {
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unsigned i=0;
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do {
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unsigned tmp = X & 127;
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X >>= 7;
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if (X) tmp |= 128;
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outByte (tmp);
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++i;
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} while(X);
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}
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/// doInitialization -- Assign a number to each Function, as follows:
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/// Functions are numbered starting at 0 at the begin() of each Module.
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/// Functions which are External (and thus have 0 basic blocks) are not
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/// inserted into the maps, and are not assigned a number. The side-effect
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/// of this method is to fill in Fkey to contain the mapping from Functions
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/// to numbers. (This method is called automatically by the PassManager.)
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bool MappingInfoCollector::doInitialization(Module &M) {
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unsigned i = 0;
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for (Module::iterator FI = M.begin(), FE = M.end(); FI != FE; ++FI) {
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if (FI->isExternal()) continue;
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Fkey[FI] = i;
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++i;
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}
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return false; // Success.
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}
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/// create_BB_to_MInumber_Key -- Assign a number to each MachineBasicBlock
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/// in the given Function, as follows: Numbering starts at zero in each
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/// Function. MachineBasicBlocks are numbered from begin() to end()
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/// in the Function's corresponding MachineFunction. Each successive
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/// MachineBasicBlock increments the numbering by the number of instructions
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/// it contains. The side-effect of this method is to fill in the paramete
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/// KEY with the mapping of MachineBasicBlocks to numbers. KEY
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/// is keyed on MachineInstrs, so each MachineBasicBlock is represented
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/// therein by its first MachineInstr.
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void MappingInfoCollector::create_BB_to_MInumber_Key(Function &FI,
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InstructionKey &key) {
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unsigned i = 0;
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MachineFunction &MF = MachineFunction::get(&FI);
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for (MachineFunction::iterator BI = MF.begin(), BE = MF.end();
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BI != BE; ++BI) {
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MachineBasicBlock &miBB = *BI;
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key[miBB[0]] = i;
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i = i+(miBB.size());
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}
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}
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/// create_MI_to_number_Key -- Assign a number to each MachineInstr
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/// in the given Function with respect to its enclosing MachineBasicBlock, as
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/// follows: Numberings start at 0 in each MachineBasicBlock. MachineInstrs
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/// are numbered from begin() to end() in their MachineBasicBlock. Each
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/// MachineInstr is numbered, then the numbering is incremented by 1. The
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/// side-effect of this method is to fill in the parameter KEY
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/// with the mapping from MachineInstrs to numbers.
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void MappingInfoCollector::create_MI_to_number_Key(Function &FI,
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InstructionKey &key) {
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MachineFunction &MF = MachineFunction::get(&FI);
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for (MachineFunction::iterator BI=MF.begin(), BE=MF.end(); BI != BE; ++BI) {
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MachineBasicBlock &miBB = *BI;
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unsigned j = 0;
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for(MachineBasicBlock::iterator miI = miBB.begin(), miE = miBB.end();
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miI != miE; ++miI, ++j) {
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key[*miI] = j;
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}
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}
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}
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/// buildBBMIMap -- Build the BB TO MI MAP for the function FI,
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/// and save it into the parameter MAP.
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void MappingInfoCollector::buildBBMIMap(Function &FI, MappingInfo &Map) {
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unsigned bb = 0;
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// First build temporary table used to write out the map.
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InstructionKey BBkey;
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create_BB_to_MInumber_Key(FI, BBkey);
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selectOutputMap (Map);
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MachineFunction &MF = MachineFunction::get(&FI);
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for (MachineFunction::iterator BI = MF.begin(), BE = MF.end();
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BI != BE; ++BI, ++bb) {
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MachineBasicBlock &miBB = *BI;
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writeNumber(bb);
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writeNumber(BBkey[miBB[0]]);
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writeNumber(miBB.size());
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}
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}
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/// buildLMIMap -- Build the LLVM I TO MI MAP for the function FI,
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/// and save it into the parameter MAP.
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void MappingInfoCollector::buildLMIMap(Function &FI, MappingInfo &Map) {
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unsigned bb = 0;
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// First build temporary table used to write out the map.
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InstructionKey MIkey;
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create_MI_to_number_Key(FI, MIkey);
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selectOutputMap (Map);
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for (Function::iterator BI = FI.begin(), BE = FI.end();
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BI != BE; ++BI, ++bb) {
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unsigned li = 0;
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writeNumber(bb);
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writeNumber(BI->size());
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for (BasicBlock::iterator II = BI->begin(), IE = BI->end(); II != IE;
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++II, ++li) {
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MachineCodeForInstruction& miI = MachineCodeForInstruction::get(II);
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writeNumber(li);
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writeNumber(miI.size());
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for (MachineCodeForInstruction::iterator miII = miI.begin(),
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miIE = miI.end(); miII != miIE; ++miII) {
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writeNumber(MIkey[*miII]);
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}
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}
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}
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}
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void MappingInfo::byteVector::dumpAssembly (std::ostream &Out) {
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for (iterator i = begin (), e = end (); i != e; ++i)
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Out << ".byte " << (int)*i << "\n";
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}
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void MappingInfo::dumpAssembly (std::ostream &Out) {
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// Prologue:
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// Output a comment describing the map.
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Out << "!" << comment << "\n";
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// Switch the current section to .rodata in the assembly output:
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Out << "\t.section \".rodata\"\n\t.align 8\n";
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// Output a global symbol naming the map:
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Out << "\t.global " << symbolPrefix << functionNumber << "\n";
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Out << "\t.type " << symbolPrefix << functionNumber << ",#object\n";
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Out << symbolPrefix << functionNumber << ":\n";
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// Output a word containing the length of the map:
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Out << "\t.word .end_" << symbolPrefix << functionNumber << "-"
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<< symbolPrefix << functionNumber << "\n";
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// Output the map data itself:
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bytes.dumpAssembly (Out);
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// Epilogue:
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// Output a local symbol marking the end of the map:
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Out << ".end_" << symbolPrefix << functionNumber << ":\n";
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// Output size directive giving the size of the map:
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Out << "\t.size " << symbolPrefix << functionNumber << ", .end_"
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<< symbolPrefix << functionNumber << "-" << symbolPrefix
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<< functionNumber << "\n\n";
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}
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