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deploy-202
| Author | SHA1 | Date | |
|---|---|---|---|
| c2153b6fab |
@ -1,276 +0,0 @@
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#include "DeadCodeElimination.h"
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#include <iostream>
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extern int DEBUG;
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namespace sysy {
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void DeadCodeElimination::runDCEPipeline() {
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const auto& functions = pModule->getFunctions();
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for (const auto& function : functions) {
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const auto& func = function.second;
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bool changed = true;
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while (changed) {
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changed = false;
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eliminateDeadStores(func.get(), changed);
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eliminateDeadLoads(func.get(), changed);
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eliminateDeadAllocas(func.get(), changed);
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eliminateDeadRedundantLoadStore(func.get(), changed);
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eliminateDeadGlobals(changed);
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}
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}
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}
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// 消除无用存储 消除条件:
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// 存储的目标指针(pointer)不是全局变量(!isGlobal(pointer))。
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// 存储的目标指针不是数组参数(!isArr(pointer) 或不在函数参数列表里)。
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// 该指针的所有使用者(uses)仅限 alloca 或 store(即没有 load 或其他指令使用它)。
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void DeadCodeElimination::eliminateDeadStores(Function* func, bool& changed) {
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for (const auto& block : func->getBasicBlocks()) {
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auto& instrs = block->getInstructions();
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for (auto iter = instrs.begin(); iter != instrs.end();) {
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auto inst = iter->get();
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if (!inst->isStore()) {
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++iter;
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continue;
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}
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auto storeInst = dynamic_cast<StoreInst*>(inst);
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auto pointer = storeInst->getPointer();
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// 如果是全局变量或者是函数的数组参数
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if (isGlobal(pointer) || (isArr(pointer) &&
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std::find(func->getEntryBlock()->getArguments().begin(),
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func->getEntryBlock()->getArguments().end(),
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pointer) != func->getEntryBlock()->getArguments().end())) {
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++iter;
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continue;
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}
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bool changetag = true;
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for (auto& use : pointer->getUses()) {
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// 依次判断store的指针是否被其他指令使用
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auto user = use->getUser();
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auto userInst = dynamic_cast<Instruction*>(user);
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// 如果使用store的指针的指令不是Alloca或Store,则不删除
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if (userInst != nullptr && !userInst->isAlloca() && !userInst->isStore()) {
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changetag = false;
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break;
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}
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}
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if (changetag) {
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changed = true;
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if(DEBUG){
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std::cout << "=== Dead Store Found ===\n";
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SysYPrinter::printInst(storeInst);
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}
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usedelete(storeInst);
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iter = instrs.erase(iter);
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} else {
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++iter;
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}
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}
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}
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}
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// 消除无用加载 消除条件:
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// 该指令的结果未被使用(inst->getUses().empty())。
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void DeadCodeElimination::eliminateDeadLoads(Function* func, bool& changed) {
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for (const auto& block : func->getBasicBlocks()) {
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auto& instrs = block->getInstructions();
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for (auto iter = instrs.begin(); iter != instrs.end();) {
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auto inst = iter->get();
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if (inst->isBinary() || inst->isUnary() || inst->isLoad()) {
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if (inst->getUses().empty()) {
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changed = true;
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if(DEBUG){
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std::cout << "=== Dead Load Binary Unary Found ===\n";
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SysYPrinter::printInst(inst);
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}
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usedelete(inst);
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iter = instrs.erase(iter);
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continue;
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}
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}
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++iter;
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}
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}
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}
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// 消除无用加载 消除条件:
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// 该 alloca 未被任何指令使用(allocaInst->getUses().empty())。
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// 该 alloca 不是函数的参数(不在 entry 块的参数列表里)。
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void DeadCodeElimination::eliminateDeadAllocas(Function* func, bool& changed) {
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for (const auto& block : func->getBasicBlocks()) {
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auto& instrs = block->getInstructions();
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for (auto iter = instrs.begin(); iter != instrs.end();) {
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auto inst = iter->get();
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if (inst->isAlloca()) {
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auto allocaInst = dynamic_cast<AllocaInst*>(inst);
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if (allocaInst->getUses().empty() &&
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std::find(func->getEntryBlock()->getArguments().begin(),
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func->getEntryBlock()->getArguments().end(),
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allocaInst) == func->getEntryBlock()->getArguments().end()) {
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changed = true;
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if(DEBUG){
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std::cout << "=== Dead Alloca Found ===\n";
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SysYPrinter::printInst(inst);
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}
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usedelete(inst);
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iter = instrs.erase(iter);
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continue;
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}
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}
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++iter;
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}
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}
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}
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void DeadCodeElimination::eliminateDeadIndirectiveAllocas(Function* func, bool& changed) {
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// 删除mem2reg时引入的且现在已经没有value使用了的隐式alloca
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FunctionAnalysisInfo* funcInfo = pCFA->getFunctionAnalysisInfo(func);
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for (auto it = funcInfo->getIndirectAllocas().begin(); it != funcInfo->getIndirectAllocas().end();) {
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auto &allocaInst = *it;
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if (allocaInst->getUses().empty()) {
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changed = true;
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if(DEBUG){
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std::cout << "=== Dead Indirect Alloca Found ===\n";
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SysYPrinter::printInst(allocaInst.get());
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}
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it = funcInfo->getIndirectAllocas().erase(it);
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} else {
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++it;
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}
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}
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}
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// 该全局变量未被任何指令使用(global->getUses().empty())。
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void DeadCodeElimination::eliminateDeadGlobals(bool& changed) {
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auto& globals = pModule->getGlobals();
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for (auto it = globals.begin(); it != globals.end();) {
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auto& global = *it;
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if (global->getUses().empty()) {
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changed = true;
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if(DEBUG){
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std::cout << "=== Dead Global Found ===\n";
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SysYPrinter::printValue(global.get());
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}
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it = globals.erase(it);
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} else {
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++it;
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}
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}
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}
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// 消除冗余加载和存储 消除条件:
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// phi 指令的目标指针仅被该 phi 使用(无其他 store/load 使用)。
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// memset 指令的目标指针未被使用(pointer->getUses().empty())
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// store -> load -> store 模式
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void DeadCodeElimination::eliminateDeadRedundantLoadStore(Function* func, bool& changed) {
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for (const auto& block : func->getBasicBlocks()) {
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auto& instrs = block->getInstructions();
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for (auto iter = instrs.begin(); iter != instrs.end();) {
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auto inst = iter->get();
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if (inst->isPhi()) {
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auto phiInst = dynamic_cast<PhiInst*>(inst);
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auto pointer = phiInst->getPointer();
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bool tag = true;
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for (const auto& use : pointer->getUses()) {
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auto user = use->getUser();
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if (user != inst) {
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tag = false;
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break;
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}
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}
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/// 如果 pointer 仅被该 phi 使用,可以删除 ph
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if (tag) {
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changed = true;
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usedelete(inst);
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iter = instrs.erase(iter);
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continue;
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}
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// 数组指令还不完善,不保证memset优化效果
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} else if (inst->isMemset()) {
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auto memsetInst = dynamic_cast<MemsetInst*>(inst);
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auto pointer = memsetInst->getPointer();
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if (pointer->getUses().empty()) {
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changed = true;
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usedelete(inst);
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iter = instrs.erase(iter);
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continue;
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}
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}else if(inst->isLoad()) {
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if (iter != instrs.begin()) {
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auto loadInst = dynamic_cast<LoadInst*>(inst);
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auto loadPointer = loadInst->getPointer();
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// TODO:store -> load -> store 模式
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auto prevIter = std::prev(iter);
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auto prevInst = prevIter->get();
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if (prevInst->isStore()) {
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auto prevStore = dynamic_cast<StoreInst*>(prevInst);
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auto prevStorePointer = prevStore->getPointer();
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auto prevStoreValue = prevStore->getOperand(0);
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// 确保前一个 store 不是数组操作
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if (prevStore->getIndices().empty()) {
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// 检查后一条指令是否是 store 同一个值
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auto nextIter = std::next(iter);
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if (nextIter != instrs.end()) {
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auto nextInst = nextIter->get();
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if (nextInst->isStore()) {
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auto nextStore = dynamic_cast<StoreInst*>(nextInst);
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auto nextStorePointer = nextStore->getPointer();
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auto nextStoreValue = nextStore->getOperand(0);
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// 确保后一个 store 不是数组操作
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if (nextStore->getIndices().empty()) {
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// 判断优化条件:
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// 1. prevStore 的指针操作数 == load 的指针操作数
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// 2. nextStore 的值操作数 == load 指令本身
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if (prevStorePointer == loadPointer &&
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nextStoreValue == loadInst) {
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// 可以优化直接把prevStorePointer的值存到nextStorePointer
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changed = true;
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nextStore->setOperand(0, prevStoreValue);
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if(DEBUG){
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std::cout << "=== Dead Store Load Store Found(now only del Load) ===\n";
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SysYPrinter::printInst(prevStore);
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SysYPrinter::printInst(loadInst);
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SysYPrinter::printInst(nextStore);
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}
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usedelete(loadInst);
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iter = instrs.erase(iter);
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// 删除 prevStore 这里是不是可以留给删除无用store处理?
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// if (prevStore->getUses().empty()) {
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// usedelete(prevStore);
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// instrs.erase(prevIter); // 删除 prevStore
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// }
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continue; // 跳过 ++iter,因为已经移动迭代器
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}
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}
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}
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}
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}
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}
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}
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}
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++iter;
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}
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}
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}
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bool DeadCodeElimination::isGlobal(Value *val){
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auto gval = dynamic_cast<GlobalValue *>(val);
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return gval != nullptr;
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}
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bool DeadCodeElimination::isArr(Value *val){
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auto aval = dynamic_cast<AllocaInst *>(val);
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return aval != nullptr && aval->getNumDims() != 0;
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}
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void DeadCodeElimination::usedelete(Instruction *instr){
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for (auto &use1 : instr->getOperands()) {
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auto val1 = use1->getValue();
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val1->removeUse(use1);
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}
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}
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} // namespace sysy
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801
src/Mem2Reg.cpp
801
src/Mem2Reg.cpp
@ -1,801 +0,0 @@
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#include "Mem2Reg.h"
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#include <algorithm>
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#include <cassert>
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#include <iterator>
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#include <memory>
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#include <queue>
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#include <stack>
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#include <string>
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#include <unordered_map>
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#include <utility>
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#include "IR.h"
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#include "SysYIRAnalyser.h"
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#include "SysYIRPrinter.h"
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namespace sysy {
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// 计算给定变量的定义块集合的迭代支配边界
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// TODO:优化Semi-Naive IDF
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std::unordered_set<BasicBlock *> Mem2Reg::computeIterDf(const std::unordered_set<BasicBlock *> &blocks) {
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std::unordered_set<BasicBlock *> workList;
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std::unordered_set<BasicBlock *> ret_list;
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workList.insert(blocks.begin(), blocks.end());
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while (!workList.empty()) {
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auto n = workList.begin();
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BlockAnalysisInfo* blockInfo = controlFlowAnalysis->getBlockAnalysisInfo(*n);
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auto DFs = blockInfo->getDomFrontiers();
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for (auto c : DFs) {
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// 如果c不在ret_list中,则将其加入ret_list和workList
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// 这里的c是n的支配边界
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// 也就是n的支配边界中的块
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// 需要注意的是,支配边界是一个集合,所以可能会有重复
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if (ret_list.count(c) == 0U) {
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ret_list.emplace(c);
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workList.emplace(c);
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}
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}
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workList.erase(n);
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}
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return ret_list;
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}
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/**
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* 计算value2Blocks的映射,包括value2AllocBlocks、value2DefBlocks以及value2UseBlocks
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* 其中value2DefBlocks可用于计算迭代支配边界来插入相应变量的phi结点
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* 这里的value2AllocBlocks、value2DefBlocks和value2UseBlocks改变了函数级别的分析信息
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*/
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auto Mem2Reg::computeValue2Blocks() -> void {
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SysYPrinter printer(pModule); // 初始化打印机
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// std::cout << "===== Start computeValue2Blocks =====" << std::endl;
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auto &functions = pModule->getFunctions();
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for (const auto &function : functions) {
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auto func = function.second.get();
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// std::cout << "\nProcessing function: " << func->getName() << std::endl;
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FunctionAnalysisInfo* funcInfo = controlFlowAnalysis->getFunctionAnalysisInfo(func);
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if (!funcInfo) {
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std::cerr << "ERROR: No analysis info for function " << func->getName() << std::endl;
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continue;
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}
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auto basicBlocks = func->getBasicBlocks();
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// std::cout << "BasicBlocks count: " << basicBlocks.size() << std::endl;
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for (auto &it : basicBlocks) {
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auto basicBlock = it.get();
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// std::cout << "\nProcessing BB: " << basicBlock->getName() << std::endl;
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// printer.printBlock(basicBlock); // 打印基本块内容
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auto &instrs = basicBlock->getInstructions();
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for (auto &instr : instrs) {
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// std::cout << " Analyzing instruction: ";
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// printer.printInst(instr.get());
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// std::cout << std::endl;
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if (instr->isAlloca()) {
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if (!(isArr(instr.get()) || isGlobal(instr.get()))) {
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// std::cout << " Found alloca: ";
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// printer.printInst(instr.get());
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// std::cout << " -> Adding to allocBlocks" << std::endl;
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funcInfo->addValue2AllocBlocks(instr.get(), basicBlock);
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} else {
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// std::cout << " Skip array/global alloca: ";
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// printer.printInst(instr.get());
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// std::cout << std::endl;
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}
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}
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else if (instr->isStore()) {
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auto val = instr->getOperand(1);
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// std::cout << " Store target: ";
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// printer.printInst(dynamic_cast<Instruction *>(val));
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if (!(isArr(val) || isGlobal(val))) {
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// std::cout << " Adding store to defBlocks for value: ";
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// printer.printInst(dynamic_cast<Instruction *>(instr.get()));
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// std::cout << std::endl;
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// 将store的目标值添加到defBlocks中
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funcInfo->addValue2DefBlocks(val, basicBlock);
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} else {
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// std::cout << " Skip array/global store" << std::endl;
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}
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}
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else if (instr->isLoad()) {
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auto val = instr->getOperand(0);
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// std::cout << " Load source: ";
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// printer.printInst(dynamic_cast<Instruction *>(val));
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// std::cout << std::endl;
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if (!(isArr(val) || isGlobal(val))) {
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// std::cout << " Adding load to useBlocks for value: ";
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// printer.printInst(dynamic_cast<Instruction *>(val));
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// std::cout << std::endl;
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funcInfo->addValue2UseBlocks(val, basicBlock);
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} else {
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// std::cout << " Skip array/global load" << std::endl;
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}
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}
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}
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}
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// 打印分析结果
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// std::cout << "\nAnalysis results for function " << func->getName() << ":" << std::endl;
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// auto &allocMap = funcInfo->getValue2AllocBlocks();
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// std::cout << "AllocBlocks (" << allocMap.size() << "):" << std::endl;
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// for (auto &[val, bb] : allocMap) {
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// std::cout << " ";
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// printer.printInst(dynamic_cast<Instruction *>(val));
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// std::cout << " in BB: " << bb->getName() << std::endl;
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// }
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// auto &defMap = funcInfo->getValue2DefBlocks();
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// std::cout << "DefBlocks (" << defMap.size() << "):" << std::endl;
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// for (auto &[val, bbs] : defMap) {
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// std::cout << " ";
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// printer.printInst(dynamic_cast<Instruction *>(val));
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// for (const auto &[bb, count] : bbs) {
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// std::cout << " in BB: " << bb->getName() << " (count: " << count << ")";
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// }
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// }
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// auto &useMap = funcInfo->getValue2UseBlocks();
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// std::cout << "UseBlocks (" << useMap.size() << "):" << std::endl;
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// for (auto &[val, bbs] : useMap) {
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// std::cout << " ";
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// printer.printInst(dynamic_cast<Instruction *>(val));
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// for (const auto &[bb, count] : bbs) {
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// std::cout << " in BB: " << bb->getName() << " (count: " << count << ")";
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// }
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// }
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}
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// std::cout << "===== End computeValue2Blocks =====" << std::endl;
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}
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/**
|
||||
* @brief 级联关系的顺带消除,用于llvm mem2reg类预优化1
|
||||
*
|
||||
* 采用队列进行模拟,从某种程度上来看其实可以看作是UD链的反向操作;
|
||||
*
|
||||
* @param [in] instr store指令使用的指令
|
||||
* @param [in] changed 不动点法的判断标准,地址传递
|
||||
* @param [in] func 指令所在函数
|
||||
* @param [in] block 指令所在基本块
|
||||
* @param [in] instrs 基本块所在指令集合,地址传递
|
||||
* @return 无返回值,但满足条件的情况下会对指令进行删除
|
||||
*/
|
||||
auto Mem2Reg::cascade(Instruction *instr, bool &changed, Function *func, BasicBlock *block,
|
||||
std::list<std::unique_ptr<Instruction>> &instrs) -> void {
|
||||
if (instr != nullptr) {
|
||||
if (instr->isUnary() || instr->isBinary() || instr->isLoad()) {
|
||||
std::queue<Instruction *> toRemove;
|
||||
toRemove.push(instr);
|
||||
while (!toRemove.empty()) {
|
||||
auto top = toRemove.front();
|
||||
toRemove.pop();
|
||||
auto operands = top->getOperands();
|
||||
for (const auto &operand : operands) {
|
||||
auto elem = dynamic_cast<Instruction *>(operand->getValue());
|
||||
if (elem != nullptr) {
|
||||
if ((elem->isUnary() || elem->isBinary() || elem->isLoad()) && elem->getUses().size() == 1 &&
|
||||
elem->getUses().front()->getUser() == top) {
|
||||
toRemove.push(elem);
|
||||
} else if (elem->isAlloca()) {
|
||||
// value2UseBlock中该block对应次数-1,如果该变量的该useblock中count减为0了,则意味着
|
||||
// 该block其他地方也没用到该alloc了,故从value2UseBlock中删除
|
||||
FunctionAnalysisInfo* funcInfo = controlFlowAnalysis->getFunctionAnalysisInfo(func);
|
||||
auto res = funcInfo->removeValue2UseBlock(elem, block);
|
||||
// 只要有一次返回了true,就说明有变化
|
||||
if (res) {
|
||||
changed = true;
|
||||
}
|
||||
}
|
||||
}
|
||||
}
|
||||
auto tofind =
|
||||
std::find_if(instrs.begin(), instrs.end(), [&top](const auto &instr) { return instr.get() == top; });
|
||||
assert(tofind != instrs.end());
|
||||
usedelete(tofind->get());
|
||||
instrs.erase(tofind);
|
||||
}
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
/**
|
||||
* llvm mem2reg预优化1: 删除不含load的alloc和store
|
||||
*
|
||||
* 1. 删除不含load的alloc和store;
|
||||
* 2. 删除store指令,之前的用于作store指令第0个操作数的那些级联指令就冗余了,也要删除;
|
||||
* 3. 删除之后,可能有些变量的load使用恰好又没有了,因此再次从第一步开始循环,这里使用不动点法
|
||||
*
|
||||
* 由于删除了级联关系,所以这里的方法有点儿激进;
|
||||
* 同时也考虑了级联关系时如果调用了函数,可能会有side effect,所以没有删除调用函数的级联关系;
|
||||
* 而且关于函数参数的alloca不会在指令中删除,也不会在value2Alloca中删除;
|
||||
* 同样地,我们不考虑数组和global,不过这里的代码是基于value2blocks的,在value2blocks中已经考虑了,所以不用显式指明
|
||||
*=
|
||||
*/
|
||||
auto Mem2Reg::preOptimize1() -> void {
|
||||
SysYPrinter printer(pModule); // 初始化打印机
|
||||
|
||||
auto &functions = pModule->getFunctions();
|
||||
// std::cout << "===== Start preOptimize1 =====" << std::endl;
|
||||
|
||||
for (const auto &function : functions) {
|
||||
auto func = function.second.get();
|
||||
// std::cout << "\nProcessing function: " << func->getName() << std::endl;
|
||||
|
||||
FunctionAnalysisInfo* funcInfo = controlFlowAnalysis->getFunctionAnalysisInfo(func);
|
||||
if (!funcInfo) {
|
||||
// std::cerr << "ERROR: No analysis info for function " << func->getName() << std::endl;
|
||||
continue;
|
||||
}
|
||||
|
||||
auto &vToDefB = funcInfo->getValue2DefBlocks();
|
||||
auto &vToUseB = funcInfo->getValue2UseBlocks();
|
||||
auto &vToAllocB = funcInfo->getValue2AllocBlocks();
|
||||
|
||||
// 打印初始状态
|
||||
// std::cout << "Initial allocas: " << vToAllocB.size() << std::endl;
|
||||
// for (auto &[val, bb] : vToAllocB) {
|
||||
// std::cout << " Alloca: ";
|
||||
// printer.printInst(dynamic_cast<Instruction *>(val));
|
||||
// std::cout << " in BB: " << bb->getName() << std::endl;
|
||||
// }
|
||||
|
||||
// 阶段1:删除无store的alloca
|
||||
// std::cout << "\nPhase 1: Remove unused allocas" << std::endl;
|
||||
for (auto iter = vToAllocB.begin(); iter != vToAllocB.end();) {
|
||||
auto val = iter->first;
|
||||
auto bb = iter->second;
|
||||
|
||||
// std::cout << "Checking alloca: ";
|
||||
// printer.printInst(dynamic_cast<Instruction *>(val));
|
||||
// std::cout << " in BB: " << bb->getName() << std::endl;
|
||||
|
||||
// 如果该alloca没有对应的store指令,且不在函数参数中
|
||||
// 这里的vToDefB是value2DefBlocks,vToUseB是value2UseBlocks
|
||||
|
||||
// 打印vToDefB
|
||||
// std::cout << "DefBlocks (" << vToDefB.size() << "):" << std::endl;
|
||||
// for (auto &[val, bbs] : vToDefB) {
|
||||
// std::cout << " ";
|
||||
// printer.printInst(dynamic_cast<Instruction *>(val));
|
||||
// for (const auto &[bb, count] : bbs) {
|
||||
// std::cout << " in BB: " << bb->getName() << " (count: " << count << ")" << std::endl;
|
||||
// }
|
||||
// }
|
||||
// std::cout << vToDefB.count(val) << std::endl;
|
||||
|
||||
if (vToDefB.count(val) == 0U &&
|
||||
std::find(func->getEntryBlock()->getArguments().begin(),
|
||||
func->getEntryBlock()->getArguments().end(),
|
||||
val) == func->getEntryBlock()->getArguments().end()) {
|
||||
|
||||
// std::cout << " Removing unused alloca: ";
|
||||
// printer.printInst(dynamic_cast<Instruction *>(val));
|
||||
// std::cout << std::endl;
|
||||
|
||||
auto tofind = std::find_if(bb->getInstructions().begin(),
|
||||
bb->getInstructions().end(),
|
||||
[val](const auto &instr) {
|
||||
return instr.get() == val;
|
||||
});
|
||||
if (tofind == bb->getInstructions().end()) {
|
||||
// std::cerr << "ERROR: Alloca not found in BB!" << std::endl;
|
||||
++iter;
|
||||
continue;
|
||||
}
|
||||
|
||||
usedelete(tofind->get());
|
||||
bb->getInstructions().erase(tofind);
|
||||
iter = vToAllocB.erase(iter);
|
||||
} else {
|
||||
++iter;
|
||||
}
|
||||
}
|
||||
|
||||
// 阶段2:删除无load的store
|
||||
// std::cout << "\nPhase 2: Remove dead stores" << std::endl;
|
||||
bool changed = true;
|
||||
int iteration = 0;
|
||||
|
||||
while (changed) {
|
||||
changed = false;
|
||||
iteration++;
|
||||
// std::cout << "\nIteration " << iteration << std::endl;
|
||||
|
||||
for (auto iter = vToDefB.begin(); iter != vToDefB.end();) {
|
||||
auto val = iter->first;
|
||||
|
||||
// std::cout << "Checking value: ";
|
||||
// printer.printInst(dynamic_cast<Instruction *>(val));
|
||||
// std::cout << std::endl;
|
||||
|
||||
if (vToUseB.count(val) == 0U) {
|
||||
// std::cout << " Found dead store for value: ";
|
||||
// printer.printInst(dynamic_cast<Instruction *>(val));
|
||||
// std::cout << std::endl;
|
||||
|
||||
auto blocks = funcInfo->getDefBlocksByValue(val);
|
||||
for (auto block : blocks) {
|
||||
// std::cout << " Processing BB: " << block->getName() << std::endl;
|
||||
// printer.printBlock(block); // 打印基本块内容
|
||||
|
||||
auto &instrs = block->getInstructions();
|
||||
for (auto it = instrs.begin(); it != instrs.end();) {
|
||||
if ((*it)->isStore() && (*it)->getOperand(1) == val) {
|
||||
// std::cout << " Removing store: ";
|
||||
// printer.printInst(it->get());
|
||||
std::cout << std::endl;
|
||||
|
||||
auto valUsedByStore = dynamic_cast<Instruction *>((*it)->getOperand(0));
|
||||
usedelete(it->get());
|
||||
|
||||
if (valUsedByStore != nullptr &&
|
||||
valUsedByStore->getUses().size() == 1 &&
|
||||
valUsedByStore->getUses().front()->getUser() == (*it).get()) {
|
||||
// std::cout << " Cascade deleting: ";
|
||||
// printer.printInst(valUsedByStore);
|
||||
// std::cout << std::endl;
|
||||
|
||||
cascade(valUsedByStore, changed, func, block, instrs);
|
||||
}
|
||||
it = instrs.erase(it);
|
||||
changed = true;
|
||||
} else {
|
||||
++it;
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
// 删除对应的alloca
|
||||
if (std::find(func->getEntryBlock()->getArguments().begin(),
|
||||
func->getEntryBlock()->getArguments().end(),
|
||||
val) == func->getEntryBlock()->getArguments().end()) {
|
||||
auto bb = funcInfo->getAllocBlockByValue(val);
|
||||
if (bb != nullptr) {
|
||||
// std::cout << " Removing alloca: ";
|
||||
// printer.printInst(dynamic_cast<Instruction *>(val));
|
||||
// std::cout << " in BB: " << bb->getName() << std::endl;
|
||||
|
||||
funcInfo->removeValue2AllocBlock(val);
|
||||
auto tofind = std::find_if(bb->getInstructions().begin(),
|
||||
bb->getInstructions().end(),
|
||||
[val](const auto &instr) {
|
||||
return instr.get() == val;
|
||||
});
|
||||
if (tofind != bb->getInstructions().end()) {
|
||||
usedelete(tofind->get());
|
||||
bb->getInstructions().erase(tofind);
|
||||
} else {
|
||||
std::cerr << "ERROR: Alloca not found in BB!" << std::endl;
|
||||
}
|
||||
}
|
||||
}
|
||||
iter = vToDefB.erase(iter);
|
||||
} else {
|
||||
++iter;
|
||||
}
|
||||
}
|
||||
}
|
||||
}
|
||||
// std::cout << "===== End preOptimize1 =====" << std::endl;
|
||||
}
|
||||
|
||||
/**
|
||||
* llvm mem2reg预优化2: 针对某个变量的Defblocks只有一个块的情况
|
||||
*
|
||||
* 1. 该基本块最后一次对该变量的store指令后的所有对该变量的load指令都可以替换为该基本块最后一次store指令的第0个操作数;
|
||||
* 2. 以该基本块为必经结点的结点集合中的对该变量的load指令都可以替换为该基本块最后一次对该变量的store指令的第0个操作数;
|
||||
* 3.
|
||||
* 如果对该变量的所有load均替换掉了,删除该基本块中最后一次store指令,如果这个store指令是唯一的define,那么再删除alloca指令(不删除参数的alloca);
|
||||
* 4.
|
||||
* 如果对该value的所有load都替换掉了,对于该变量剩下还有store的话,就转换成了preOptimize1的情况,再调用preOptimize1进行删除;
|
||||
*
|
||||
* 同样不考虑数组和全局变量,因为这些变量不会被mem2reg优化,在value2blocks中已经考虑了,所以不用显式指明;
|
||||
* 替换的操作采用了UD链进行简化和效率的提升
|
||||
*
|
||||
*/
|
||||
auto Mem2Reg::preOptimize2() -> void {
|
||||
auto &functions = pModule->getFunctions();
|
||||
for (const auto &function : functions) {
|
||||
auto func = function.second.get();
|
||||
FunctionAnalysisInfo* funcInfo = controlFlowAnalysis->getFunctionAnalysisInfo(func);
|
||||
auto values = funcInfo->getValuesOfDefBlock();
|
||||
for (auto val : values) {
|
||||
auto blocks = funcInfo->getDefBlocksByValue(val);
|
||||
// 该val只有一个defining block
|
||||
if (blocks.size() == 1) {
|
||||
auto block = *blocks.begin();
|
||||
auto &instrs = block->getInstructions();
|
||||
auto rit = std::find_if(instrs.rbegin(), instrs.rend(),
|
||||
[val](const auto &instr) { return instr->isStore() && instr->getOperand(1) == val; });
|
||||
// 注意reverse_iterator求base后是指向下一个指令,因此要减一才是原来的指令
|
||||
assert(rit != instrs.rend());
|
||||
auto it = --rit.base();
|
||||
auto propogationVal = (*it)->getOperand(0);
|
||||
// 其实该块中it后对该val的load指令也可以替换掉了
|
||||
for (auto curit = std::next(it); curit != instrs.end();) {
|
||||
if ((*curit)->isLoad() && (*curit)->getOperand(0) == val) {
|
||||
curit->get()->replaceAllUsesWith(propogationVal);
|
||||
usedelete(curit->get());
|
||||
curit = instrs.erase(curit);
|
||||
funcInfo->removeValue2UseBlock(val, block);
|
||||
} else {
|
||||
++curit;
|
||||
}
|
||||
}
|
||||
// 在支配树后继结点中替换load指令的操作数
|
||||
BlockAnalysisInfo* blockInfo = controlFlowAnalysis->getBlockAnalysisInfo(block);
|
||||
std::vector<BasicBlock *> blkchildren;
|
||||
// 获取该块的支配树后继结点
|
||||
std::queue<BasicBlock *> q;
|
||||
auto sdoms = blockInfo->getSdoms();
|
||||
for (auto sdom : sdoms) {
|
||||
q.push(sdom);
|
||||
blkchildren.push_back(sdom);
|
||||
}
|
||||
while (!q.empty()) {
|
||||
auto blk = q.front();
|
||||
q.pop();
|
||||
BlockAnalysisInfo* blkInfo = controlFlowAnalysis->getBlockAnalysisInfo(blk);
|
||||
for (auto sdom : blkInfo->getSdoms()) {
|
||||
q.push(sdom);
|
||||
blkchildren.push_back(sdom);
|
||||
}
|
||||
}
|
||||
for (auto child : blkchildren) {
|
||||
auto &childInstrs = child->getInstructions();
|
||||
for (auto childIter = childInstrs.begin(); childIter != childInstrs.end();) {
|
||||
if ((*childIter)->isLoad() && (*childIter)->getOperand(0) == val) {
|
||||
childIter->get()->replaceAllUsesWith(propogationVal);
|
||||
usedelete(childIter->get());
|
||||
childIter = childInstrs.erase(childIter);
|
||||
funcInfo->removeValue2UseBlock(val, child);
|
||||
} else {
|
||||
++childIter;
|
||||
}
|
||||
}
|
||||
}
|
||||
// 如果对该val的所有load均替换掉了,那么对于该val的defining block中的最后一个define也可以删除了
|
||||
// 同时该块中前面对于该val的define也变成死代码了,可调用preOptimize1进行删除
|
||||
if (funcInfo->getUseBlocksByValue(val).empty()) {
|
||||
usedelete(it->get());
|
||||
instrs.erase(it);
|
||||
auto change = funcInfo->removeValue2DefBlock(val, block);
|
||||
if (change) {
|
||||
// 如果define是唯一的,且不是函数参数的alloca,直接删alloca
|
||||
if (std::find(func->getEntryBlock()->getArguments().begin(), func->getEntryBlock()->getArguments().end(),
|
||||
val) == func->getEntryBlock()->getArguments().end()) {
|
||||
auto bb = funcInfo->getAllocBlockByValue(val);
|
||||
assert(bb != nullptr);
|
||||
auto tofind = std::find_if(bb->getInstructions().begin(), bb->getInstructions().end(),
|
||||
[val](const auto &instr) { return instr.get() == val; });
|
||||
usedelete(tofind->get());
|
||||
bb->getInstructions().erase(tofind);
|
||||
funcInfo->removeValue2AllocBlock(val);
|
||||
}
|
||||
} else {
|
||||
// 如果该变量还有其他的define,那么前面的define也变成死代码了
|
||||
assert(!funcInfo->getDefBlocksByValue(val).empty());
|
||||
assert(funcInfo->getUseBlocksByValue(val).empty());
|
||||
preOptimize1();
|
||||
}
|
||||
}
|
||||
}
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
/**
|
||||
* @brief llvm mem2reg类预优化3:针对某个变量的所有读写都在同一个块中的情况
|
||||
*
|
||||
* 1. 将每一个load替换成前一个store的值,并删除该load;
|
||||
* 2. 如果在load前没有对该变量的store,则不删除该load;
|
||||
* 3. 如果一个store后没有任何对改变量的load,则删除该store;
|
||||
*
|
||||
* @note 额外说明:第二点不用显式处理,因为我们的方法是从找到第一个store开始;
|
||||
* 第三点其实可以更激进一步地理解,即每次替换了load之后,它对应地那个store也可以删除了,同时注意这里不要使用preoptimize1进行处理,因为他们的级联关系是有用的:即用来求load的替换值;
|
||||
* 同样地,我们这里不考虑数组和全局变量,因为这些变量不会被mem2reg优化,不过这里在计算value2DefBlocks时已经跳过了,所以不需要再显式处理了;
|
||||
* 替换的操作采用了UD链进行简化和效率的提升
|
||||
*
|
||||
* @param [in] void
|
||||
* @return 无返回值,但满足条件的情况下会对指令的操作数进行替换以及对指令进行删除
|
||||
*/
|
||||
auto Mem2Reg::preOptimize3() -> void {
|
||||
auto &functions = pModule->getFunctions();
|
||||
for (const auto &function : functions) {
|
||||
auto func = function.second.get();
|
||||
FunctionAnalysisInfo* funcInfo = controlFlowAnalysis->getFunctionAnalysisInfo(func);
|
||||
auto values = funcInfo->getValuesOfDefBlock();
|
||||
for (auto val : values) {
|
||||
auto sblocks = funcInfo->getDefBlocksByValue(val);
|
||||
auto lblocks = funcInfo->getUseBlocksByValue(val);
|
||||
if (sblocks.size() == 1 && lblocks.size() == 1 && *sblocks.begin() == *lblocks.begin()) {
|
||||
auto block = *sblocks.begin();
|
||||
auto &instrs = block->getInstructions();
|
||||
auto it = std::find_if(instrs.begin(), instrs.end(),
|
||||
[val](const auto &instr) { return instr->isStore() && instr->getOperand(1) == val; });
|
||||
while (it != instrs.end()) {
|
||||
auto propogationVal = (*it)->getOperand(0);
|
||||
auto last = std::find_if(std::next(it), instrs.end(), [val](const auto &instr) {
|
||||
return instr->isStore() && instr->getOperand(1) == val;
|
||||
});
|
||||
for (auto curit = std::next(it); curit != last;) {
|
||||
if ((*curit)->isLoad() && (*curit)->getOperand(0) == val) {
|
||||
curit->get()->replaceAllUsesWith(propogationVal);
|
||||
usedelete(curit->get());
|
||||
curit = instrs.erase(curit);
|
||||
funcInfo->removeValue2UseBlock(val, block);
|
||||
} else {
|
||||
++curit;
|
||||
}
|
||||
}
|
||||
// 替换了load之后,它对应地那个store也可以删除了
|
||||
if (!(std::find_if(func->getEntryBlock()->getArguments().begin(), func->getEntryBlock()->getArguments().end(),
|
||||
[val](const auto &instr) { return instr == val; }) !=
|
||||
func->getEntryBlock()->getArguments().end()) &&
|
||||
last == instrs.end()) {
|
||||
usedelete(it->get());
|
||||
it = instrs.erase(it);
|
||||
if (funcInfo->removeValue2DefBlock(val, block)) {
|
||||
auto bb = funcInfo->getAllocBlockByValue(val);
|
||||
if (bb != nullptr) {
|
||||
auto tofind = std::find_if(bb->getInstructions().begin(), bb->getInstructions().end(),
|
||||
[val](const auto &instr) { return instr.get() == val; });
|
||||
usedelete(tofind->get());
|
||||
bb->getInstructions().erase(tofind);
|
||||
funcInfo->removeValue2AllocBlock(val);
|
||||
}
|
||||
}
|
||||
}
|
||||
it = last;
|
||||
}
|
||||
}
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
/**
|
||||
* 为所有变量的定义块集合的迭代支配边界插入phi结点
|
||||
*
|
||||
* insertPhi是mem2reg的核心之一,这里是对所有变量的迭代支配边界的phi结点插入,无参数也无返回值;
|
||||
* 同样跳过对数组和全局变量的处理,因为这些变量不会被mem2reg优化,刚好这里在计算value2DefBlocks时已经跳过了,所以不需要再显式处理了;
|
||||
* 同时我们进行了剪枝处理,只有在基本块入口活跃的变量,才插入phi函数
|
||||
*
|
||||
*/
|
||||
auto Mem2Reg::insertPhi() -> void {
|
||||
auto &functions = pModule->getFunctions();
|
||||
for (const auto &function : functions) {
|
||||
auto func = function.second.get();
|
||||
FunctionAnalysisInfo* funcInfo = controlFlowAnalysis->getFunctionAnalysisInfo(func);
|
||||
const auto &vToDefB = funcInfo->getValue2DefBlocks();
|
||||
for (const auto &map_pair : vToDefB) {
|
||||
// 首先为每个变量找到迭代支配边界
|
||||
auto val = map_pair.first;
|
||||
auto blocks = funcInfo->getDefBlocksByValue(val);
|
||||
auto itDFs = computeIterDf(blocks);
|
||||
// 然后在每个变量相应的迭代支配边界上插入phi结点
|
||||
for (auto basicBlock : itDFs) {
|
||||
const auto &actiTable = activeVarAnalysis->getActiveTable();
|
||||
auto dval = dynamic_cast<User *>(val);
|
||||
// 只有在基本块入口活跃的变量,才插入phi函数
|
||||
if (actiTable.at(basicBlock).front().count(dval) != 0U) {
|
||||
pBuilder->createPhiInst(val->getType(), val, basicBlock);
|
||||
}
|
||||
}
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
/**
|
||||
* 重命名
|
||||
*
|
||||
* 重命名是mem2reg的核心之二,这里是对单个块的重命名,递归实现
|
||||
* 同样跳过对数组和全局变量的处理,因为这些变量不会被mem2reg优化
|
||||
*
|
||||
*/
|
||||
auto Mem2Reg::rename(BasicBlock *block, std::unordered_map<Value *, int> &count,
|
||||
std::unordered_map<Value *, std::stack<Instruction *>> &stacks) -> void {
|
||||
auto &instrs = block->getInstructions();
|
||||
std::unordered_map<Value *, int> valPop;
|
||||
// 第一大步:对块中的所有指令遍历处理
|
||||
for (auto iter = instrs.begin(); iter != instrs.end();) {
|
||||
auto instr = iter->get();
|
||||
// 对于load指令,变量用最新的那个
|
||||
if (instr->isLoad()) {
|
||||
auto val = instr->getOperand(0);
|
||||
if (!(isArr(val) || isGlobal(val))) {
|
||||
if (!stacks[val].empty()) {
|
||||
instr->replaceOperand(0, stacks[val].top());
|
||||
}
|
||||
}
|
||||
}
|
||||
// 然后对于define的情况,看alloca、store和phi指令
|
||||
if (instr->isDefine()) {
|
||||
if (instr->isAlloca()) {
|
||||
// alloca指令名字不改了,命名就按x,x_1,x_2...来就行
|
||||
auto val = instr;
|
||||
if (!(isArr(val) || isGlobal(val))) {
|
||||
++valPop[val];
|
||||
stacks[val].push(val);
|
||||
++count[val];
|
||||
}
|
||||
} else if (instr->isPhi()) {
|
||||
// Phi指令也是一条特殊的define指令
|
||||
auto val = dynamic_cast<PhiInst *>(instr)->getMapVal();
|
||||
if (!(isArr(val) || isGlobal(val))) {
|
||||
auto i = count[val];
|
||||
if (i == 0) {
|
||||
// 对还未alloca就有phi的指令的处理,直接删除
|
||||
usedelete(iter->get());
|
||||
iter = instrs.erase(iter);
|
||||
continue;
|
||||
}
|
||||
auto newname = dynamic_cast<Instruction *>(val)->getName() + "_" + std::to_string(i);
|
||||
auto newalloca = pBuilder->createAllocaInstWithoutInsert(val->getType(), {}, block, newname);
|
||||
FunctionAnalysisInfo* ParentfuncInfo = controlFlowAnalysis->getFunctionAnalysisInfo(block->getParent());
|
||||
ParentfuncInfo->addIndirectAlloca(newalloca);
|
||||
instr->replaceOperand(0, newalloca);
|
||||
++valPop[val];
|
||||
stacks[val].push(newalloca);
|
||||
++count[val];
|
||||
}
|
||||
} else {
|
||||
// store指令看operand的名字,我们的实现是规定变量在operand的第二位,用一个新的alloca x_i代替
|
||||
auto val = instr->getOperand(1);
|
||||
if (!(isArr(val) || isGlobal(val))) {
|
||||
auto i = count[val];
|
||||
auto newname = dynamic_cast<Instruction *>(val)->getName() + "_" + std::to_string(i);
|
||||
auto newalloca = pBuilder->createAllocaInstWithoutInsert(val->getType(), {}, block, newname);
|
||||
FunctionAnalysisInfo* ParentfuncInfo = controlFlowAnalysis->getFunctionAnalysisInfo(block->getParent());
|
||||
ParentfuncInfo->addIndirectAlloca(newalloca);
|
||||
// block->getParent()->addIndirectAlloca(newalloca);
|
||||
instr->replaceOperand(1, newalloca);
|
||||
++valPop[val];
|
||||
stacks[val].push(newalloca);
|
||||
++count[val];
|
||||
}
|
||||
}
|
||||
}
|
||||
++iter;
|
||||
}
|
||||
// 第二大步:把所有CFG中的该块的successor的phi指令的相应operand确定
|
||||
for (auto succ : block->getSuccessors()) {
|
||||
auto position = getPredIndex(block, succ);
|
||||
for (auto &instr : succ->getInstructions()) {
|
||||
if (instr->isPhi()) {
|
||||
auto val = dynamic_cast<PhiInst *>(instr.get())->getMapVal();
|
||||
if (!stacks[val].empty()) {
|
||||
instr->replaceOperand(position + 1, stacks[val].top());
|
||||
}
|
||||
} else {
|
||||
// phi指令是添加在块的最前面的,因此过了之后就不会有phi了,直接break
|
||||
break;
|
||||
}
|
||||
}
|
||||
}
|
||||
// 第三大步:递归支配树的后继,支配树才能表示define-use关系
|
||||
BlockAnalysisInfo* blockInfo = controlFlowAnalysis->getBlockAnalysisInfo(block);
|
||||
for (auto sdom : blockInfo->getSdoms()) {
|
||||
rename(sdom, count, stacks);
|
||||
}
|
||||
// 第四大步:遍历块中的所有指令,如果涉及到define,就弹栈,这一步是必要的,可以从递归的整体性来思考原因
|
||||
// 注意这里count没清理,因为平级之间计数仍然是一直增加的,但是stack要清理,因为define-use关系来自直接
|
||||
// 支配结点而不是平级之间,不清理栈会被污染
|
||||
// 提前优化:知道变量对应的要弹栈的次数就可以了,没必要遍历所有instr.
|
||||
for (auto val_pair : valPop) {
|
||||
auto val = val_pair.first;
|
||||
for (int i = 0; i < val_pair.second; ++i) {
|
||||
stacks[val].pop();
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
/**
|
||||
* 重命名所有块
|
||||
*
|
||||
* 调用rename,自上而下实现所有rename
|
||||
*
|
||||
*/
|
||||
auto Mem2Reg::renameAll() -> void {
|
||||
auto &functions = pModule->getFunctions();
|
||||
for (const auto &function : functions) {
|
||||
auto func = function.second.get();
|
||||
// 对于每个function都要SSA化,所以count和stacks定义在这并初始化
|
||||
std::unordered_map<Value *, int> count;
|
||||
std::unordered_map<Value *, std::stack<Instruction *>> stacks;
|
||||
FunctionAnalysisInfo* funcInfo = controlFlowAnalysis->getFunctionAnalysisInfo(func);
|
||||
for (const auto &map_pair : funcInfo->getValue2DefBlocks()) {
|
||||
auto val = map_pair.first;
|
||||
count[val] = 0;
|
||||
}
|
||||
rename(func->getEntryBlock(), count, stacks);
|
||||
}
|
||||
}
|
||||
|
||||
/**
|
||||
* mem2reg,对外的接口
|
||||
*
|
||||
* 静态单一赋值 + mem2reg等pass的逻辑组合
|
||||
*
|
||||
*/
|
||||
auto Mem2Reg::mem2regPipeline() -> void {
|
||||
// 首先进行mem2reg的前置分析
|
||||
controlFlowAnalysis->clear();
|
||||
controlFlowAnalysis->runControlFlowAnalysis();
|
||||
// 活跃变量分析
|
||||
activeVarAnalysis->clear();
|
||||
dataFlowAnalysisUtils.addBackwardAnalyzer(activeVarAnalysis);
|
||||
dataFlowAnalysisUtils.backwardAnalyze(pModule);
|
||||
|
||||
// 计算所有valueToBlocks的定义映射
|
||||
computeValue2Blocks();
|
||||
// SysYPrinter printer(pModule);
|
||||
// 参考llvm的mem2reg遍,在插入phi结点之前,先做些优化
|
||||
preOptimize1();
|
||||
// printer.printIR();
|
||||
preOptimize2();
|
||||
// printer.printIR();
|
||||
// 优化三 可能会针对局部变量优化而删除整个块的alloca/store
|
||||
preOptimize3();
|
||||
//再进行活跃变量分析
|
||||
// 报错?
|
||||
|
||||
// printer.printIR();
|
||||
dataFlowAnalysisUtils.backwardAnalyze(pModule);
|
||||
// 为所有变量插入phi结点
|
||||
insertPhi();
|
||||
// 重命名
|
||||
renameAll();
|
||||
}
|
||||
|
||||
/**
|
||||
* 计算块n是块s的第几个前驱
|
||||
*
|
||||
* helperfunction,没有返回值,但是会将dom和other的交集赋值给dom
|
||||
*
|
||||
*/
|
||||
auto Mem2Reg::getPredIndex(BasicBlock *n, BasicBlock *s) -> int {
|
||||
int index = 0;
|
||||
for (auto elem : s->getPredecessors()) {
|
||||
if (elem == n) {
|
||||
break;
|
||||
}
|
||||
++index;
|
||||
}
|
||||
assert(index < static_cast<int>(s->getPredecessors().size()) && "n is not a predecessor of s.");
|
||||
return index;
|
||||
}
|
||||
|
||||
/**
|
||||
* 判断一个value是不是全局变量
|
||||
*/
|
||||
auto Mem2Reg::isGlobal(Value *val) -> bool {
|
||||
auto gval = dynamic_cast<GlobalValue *>(val);
|
||||
return gval != nullptr;
|
||||
}
|
||||
|
||||
/**
|
||||
* 判断一个value是不是数组
|
||||
*/
|
||||
auto Mem2Reg::isArr(Value *val) -> bool {
|
||||
auto aval = dynamic_cast<AllocaInst *>(val);
|
||||
return aval != nullptr && aval->getNumDims() != 0;
|
||||
}
|
||||
|
||||
/**
|
||||
* 删除一个指令的operand对应的value的该条use
|
||||
*/
|
||||
auto Mem2Reg::usedelete(Instruction *instr) -> void {
|
||||
for (auto &use : instr->getOperands()) {
|
||||
auto val = use->getValue();
|
||||
val->removeUse(use);
|
||||
}
|
||||
}
|
||||
} // namespace sysy
|
||||
129
src/Reg2Mem.cpp
129
src/Reg2Mem.cpp
@ -1,129 +0,0 @@
|
||||
#include "Reg2Mem.h"
|
||||
#include <cstddef>
|
||||
#include <iostream>
|
||||
#include <list>
|
||||
#include <memory>
|
||||
|
||||
namespace sysy {
|
||||
|
||||
/**
|
||||
* 删除phi节点
|
||||
* 删除phi节点后可能会生成冗余存储代码
|
||||
*/
|
||||
void Reg2Mem::DeletePhiInst(){
|
||||
auto &functions = pModule->getFunctions();
|
||||
for (auto &function : functions) {
|
||||
auto basicBlocks = function.second->getBasicBlocks();
|
||||
for (auto &basicBlock : basicBlocks) {
|
||||
|
||||
for (auto iter = basicBlock->begin(); iter != basicBlock->end();) {
|
||||
auto &instruction = *iter;
|
||||
if (instruction->isPhi()) {
|
||||
auto predBlocks = basicBlock->getPredecessors();
|
||||
// 寻找源和目的
|
||||
// 目的就是phi指令的第一个操作数
|
||||
// 源就是phi指令的后续操作数
|
||||
auto destination = instruction->getOperand(0);
|
||||
int predBlockindex = 0;
|
||||
for (auto &predBlock : predBlocks) {
|
||||
++predBlockindex;
|
||||
// 判断前驱块儿只有一个后继还是多个后继
|
||||
// 如果有多个
|
||||
auto source = instruction->getOperand(predBlockindex);
|
||||
if (source == destination) {
|
||||
continue;
|
||||
}
|
||||
// std::cout << predBlock->getNumSuccessors() << std::endl;
|
||||
if (predBlock->getNumSuccessors() > 1) {
|
||||
// 创建一个basicblock
|
||||
auto newbasicBlock = function.second->addBasicBlock();
|
||||
std::stringstream ss;
|
||||
ss << " phidel.L" << pBuilder->getLabelIndex();
|
||||
newbasicBlock->setName(ss.str());
|
||||
ss.str("");
|
||||
// // 修改前驱后继关系
|
||||
basicBlock->replacePredecessor(predBlock, newbasicBlock);
|
||||
// predBlock = newbasicBlock;
|
||||
newbasicBlock->addPredecessor(predBlock);
|
||||
newbasicBlock->addSuccessor(basicBlock.get());
|
||||
predBlock->removeSuccessor(basicBlock.get());
|
||||
predBlock->addSuccessor(newbasicBlock);
|
||||
// std::cout << "the block name is " << basicBlock->getName() << std::endl;
|
||||
// for (auto pb : basicBlock->getPredecessors()) {
|
||||
// // newbasicBlock->addPredecessor(pb);
|
||||
// std::cout << pb->getName() << std::endl;
|
||||
// }
|
||||
// sysy::BasicBlock::conectBlocks(newbasicBlock, static_cast<BasicBlock *>(basicBlock.get()));
|
||||
// 若后为跳转指令,应该修改跳转指令所到达的位置
|
||||
auto thelastinst = predBlock->end();
|
||||
(--thelastinst);
|
||||
|
||||
if (thelastinst->get()->isConditional() || thelastinst->get()->isUnconditional()) { // 如果是跳转指令
|
||||
auto opnum = thelastinst->get()->getNumOperands();
|
||||
for (size_t i = 0; i < opnum; i++) {
|
||||
if (thelastinst->get()->getOperand(i) == basicBlock.get()) {
|
||||
thelastinst->get()->replaceOperand(i, newbasicBlock);
|
||||
}
|
||||
}
|
||||
}
|
||||
// 在新块中插入store指令
|
||||
pBuilder->setPosition(newbasicBlock, newbasicBlock->end());
|
||||
// pBuilder->createStoreInst(source, destination);
|
||||
if (source->isInt() || source->isFloat()) {
|
||||
pBuilder->createStoreInst(source, destination);
|
||||
} else {
|
||||
auto loadInst = pBuilder->createLoadInst(source);
|
||||
pBuilder->createStoreInst(loadInst, destination);
|
||||
}
|
||||
// pBuilder->createMoveInst(Instruction::kMove, destination->getType(), destination, source,
|
||||
// newbasicBlock);
|
||||
pBuilder->setPosition(newbasicBlock, newbasicBlock->end());
|
||||
pBuilder->createUncondBrInst(basicBlock.get(), {});
|
||||
} else {
|
||||
// 如果前驱块只有一个后继
|
||||
auto thelastinst = predBlock->end();
|
||||
(--thelastinst);
|
||||
// std::cout << predBlock->getName() << std::endl;
|
||||
// std::cout << thelastinst->get() << std::endl;
|
||||
// std::cout << "First point 11 " << std::endl;
|
||||
if (thelastinst->get()->isConditional() || thelastinst->get()->isUnconditional()) {
|
||||
// 在跳转语句前insert st指令
|
||||
pBuilder->setPosition(predBlock, thelastinst);
|
||||
} else {
|
||||
pBuilder->setPosition(predBlock, predBlock->end());
|
||||
}
|
||||
|
||||
if (source->isInt() || source->isFloat()) {
|
||||
pBuilder->createStoreInst(source, destination);
|
||||
} else {
|
||||
auto loadInst = pBuilder->createLoadInst(source);
|
||||
pBuilder->createStoreInst(loadInst, destination);
|
||||
}
|
||||
}
|
||||
}
|
||||
// 删除phi指令
|
||||
auto &instructions = basicBlock->getInstructions();
|
||||
usedelete(iter->get());
|
||||
iter = instructions.erase(iter);
|
||||
if (basicBlock->getNumInstructions() == 0) {
|
||||
if (basicBlock->getNumSuccessors() == 1) {
|
||||
pBuilder->setPosition(basicBlock.get(), basicBlock->end());
|
||||
pBuilder->createUncondBrInst(basicBlock->getSuccessors()[0], {});
|
||||
}
|
||||
}
|
||||
} else {
|
||||
break;
|
||||
}
|
||||
}
|
||||
}
|
||||
}
|
||||
}
|
||||
|
||||
void Reg2Mem::usedelete(Instruction *instr) {
|
||||
for (auto &use : instr->getOperands()) {
|
||||
auto val = use->getValue();
|
||||
val->removeUse(use);
|
||||
}
|
||||
}
|
||||
|
||||
} // namespace sysy
|
||||
Reference in New Issue
Block a user