313 lines
10 KiB
C++
313 lines
10 KiB
C++
#pragma once
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#include "Dom.h" // 支配树分析依赖
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#include "Loop.h" // 循环分析依赖
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#include "Liveness.h" // 活跃性分析依赖
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#include "AliasAnalysis.h" // 别名分析依赖
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#include "SideEffectAnalysis.h" // 副作用分析依赖
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#include "CallGraphAnalysis.h" // 调用图分析依赖
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#include "IR.h" // IR定义
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#include "Pass.h" // Pass框架
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#include <algorithm>
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#include <map>
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#include <memory>
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#include <optional>
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#include <set>
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#include <vector>
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namespace sysy {
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// 前向声明
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class LoopCharacteristicsResult;
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/**
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* @brief 循环特征信息结构 - 基础循环分析阶段
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* 存储循环的基本特征信息,为后续精确分析提供基础
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*/
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struct LoopCharacteristics {
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Loop* loop; // 关联的循环对象
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// ========== 基础循环形式分析 ==========
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bool isCountingLoop; // 是否为计数循环 (for i=0; i<n; i++)
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bool isSimpleForLoop; // 是否为简单for循环
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bool hasComplexControlFlow; // 是否有复杂控制流 (break, continue)
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bool isInnermost; // 是否为最内层循环
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// ========== 基础归纳变量分析 ==========
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std::vector<Value*> basicInductionVars; // 基本归纳变量
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std::map<Value*, int> inductionSteps; // 归纳变量的步长(简化)
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// ========== 基础循环不变量分析 ==========
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std::set<Value*> loopInvariants; // 循环不变量
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std::set<Instruction*> invariantInsts; // 可提升的不变指令
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// ========== 基础边界分析 ==========
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std::optional<int> staticTripCount; // 静态循环次数(如果可确定)
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bool hasKnownBounds; // 是否有已知边界
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// ========== 基础纯度和副作用分析 ==========
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bool isPure; // 是否为纯循环(无副作用)
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bool accessesOnlyLocalMemory; // 是否只访问局部内存
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bool hasNoMemoryAliasConflicts; // 是否无内存别名冲突
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// ========== 基础内存访问模式分析 ==========
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struct MemoryAccessPattern {
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std::vector<Instruction*> loadInsts; // load指令列表
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std::vector<Instruction*> storeInsts; // store指令列表
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bool isArrayParameter; // 是否为数组参数访问
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bool isGlobalArray; // 是否为全局数组访问
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bool hasConstantIndices; // 是否使用常量索引
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};
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std::map<Value*, MemoryAccessPattern> memoryPatterns; // 内存访问模式
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// ========== 基础性能特征 ==========
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size_t instructionCount; // 循环体指令数
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size_t memoryOperationCount; // 内存操作数
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size_t arithmeticOperationCount; // 算术操作数
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double computeToMemoryRatio; // 计算与内存操作比率
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// ========== 基础优化提示 ==========
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bool benefitsFromUnrolling; // 是否适合循环展开
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int suggestedUnrollFactor; // 建议的展开因子
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// 构造函数 - 简化的基础分析初始化
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LoopCharacteristics(Loop* l) : loop(l),
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isCountingLoop(false), isSimpleForLoop(false), hasComplexControlFlow(false),
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isInnermost(false), hasKnownBounds(false), isPure(false),
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accessesOnlyLocalMemory(false), hasNoMemoryAliasConflicts(false),
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benefitsFromUnrolling(false), suggestedUnrollFactor(1),
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instructionCount(0), memoryOperationCount(0),
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arithmeticOperationCount(0), computeToMemoryRatio(0.0) {}
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};
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/**
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* @brief 循环特征分析结果类
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* 包含函数中所有循环的特征信息,并提供查询接口
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*/
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class LoopCharacteristicsResult : public AnalysisResultBase {
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public:
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LoopCharacteristicsResult(Function *F) : AssociatedFunction(F) {}
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~LoopCharacteristicsResult() override = default;
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// ========== 基础接口 ==========
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/**
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* 添加循环特征信息
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*/
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void addLoopCharacteristics(std::unique_ptr<LoopCharacteristics> characteristics) {
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auto* loop = characteristics->loop;
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CharacteristicsMap[loop] = std::move(characteristics);
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}
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/**
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* 获取指定循环的特征信息
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*/
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const LoopCharacteristics* getCharacteristics(Loop* loop) const {
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auto it = CharacteristicsMap.find(loop);
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return (it != CharacteristicsMap.end()) ? it->second.get() : nullptr;
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}
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/**
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* 获取所有循环特征信息
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*/
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const std::map<Loop*, std::unique_ptr<LoopCharacteristics>>& getAllCharacteristics() const {
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return CharacteristicsMap;
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}
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// ========== 核心查询接口 ==========
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/**
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* 获取所有计数循环
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*/
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std::vector<Loop*> getCountingLoops() const {
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std::vector<Loop*> result;
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for (const auto& [loop, chars] : CharacteristicsMap) {
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if (chars->isCountingLoop) {
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result.push_back(loop);
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}
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}
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return result;
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}
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/**
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* 获取所有纯循环(无副作用)
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*/
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std::vector<Loop*> getPureLoops() const {
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std::vector<Loop*> result;
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for (const auto& [loop, chars] : CharacteristicsMap) {
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if (chars->isPure) {
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result.push_back(loop);
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}
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}
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return result;
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}
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/**
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* 获取所有只访问局部内存的循环
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*/
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std::vector<Loop*> getLocalMemoryOnlyLoops() const {
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std::vector<Loop*> result;
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for (const auto& [loop, chars] : CharacteristicsMap) {
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if (chars->accessesOnlyLocalMemory) {
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result.push_back(loop);
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}
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}
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return result;
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}
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/**
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* 获取所有无内存别名冲突的循环
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*/
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std::vector<Loop*> getNoAliasConflictLoops() const {
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std::vector<Loop*> result;
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for (const auto& [loop, chars] : CharacteristicsMap) {
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if (chars->hasNoMemoryAliasConflicts) {
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result.push_back(loop);
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}
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}
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return result;
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}
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/**
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* 获取所有适合展开的循环
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*/
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std::vector<Loop*> getUnrollingCandidates() const {
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std::vector<Loop*> result;
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for (const auto& [loop, chars] : CharacteristicsMap) {
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if (chars->benefitsFromUnrolling) {
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result.push_back(loop);
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}
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}
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return result;
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}
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/**
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* 根据热度排序循环 (用于优化优先级)
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*/
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std::vector<Loop*> getLoopsByHotness() const {
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std::vector<Loop*> result;
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for (const auto& [loop, chars] : CharacteristicsMap) {
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result.push_back(loop);
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}
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// 按循环热度排序 (嵌套深度 + 循环次数 + 指令数)
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std::sort(result.begin(), result.end(), [](Loop* a, Loop* b) {
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double hotnessA = a->getLoopHotness();
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double hotnessB = b->getLoopHotness();
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return hotnessA > hotnessB; // 降序排列
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});
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return result;
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}
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// ========== 基础统计接口 ==========
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/**
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* 获取基础优化统计信息
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*/
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struct BasicOptimizationStats {
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size_t totalLoops;
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size_t countingLoops;
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size_t unrollingCandidates;
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size_t pureLoops;
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size_t localMemoryOnlyLoops;
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size_t noAliasConflictLoops;
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double avgInstructionCount;
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double avgComputeMemoryRatio;
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};
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BasicOptimizationStats getOptimizationStats() const {
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BasicOptimizationStats stats = {};
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stats.totalLoops = CharacteristicsMap.size();
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size_t totalInstructions = 0;
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double totalComputeMemoryRatio = 0.0;
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for (const auto& [loop, chars] : CharacteristicsMap) {
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if (chars->isCountingLoop) stats.countingLoops++;
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if (chars->benefitsFromUnrolling) stats.unrollingCandidates++;
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if (chars->isPure) stats.pureLoops++;
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if (chars->accessesOnlyLocalMemory) stats.localMemoryOnlyLoops++;
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if (chars->hasNoMemoryAliasConflicts) stats.noAliasConflictLoops++;
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totalInstructions += chars->instructionCount;
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totalComputeMemoryRatio += chars->computeToMemoryRatio;
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}
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if (stats.totalLoops > 0) {
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stats.avgInstructionCount = static_cast<double>(totalInstructions) / stats.totalLoops;
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stats.avgComputeMemoryRatio = totalComputeMemoryRatio / stats.totalLoops;
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}
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return stats;
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}
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// 打印分析结果
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void print() const;
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private:
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Function *AssociatedFunction; // 关联的函数
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std::map<Loop*, std::unique_ptr<LoopCharacteristics>> CharacteristicsMap; // 循环特征映射
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};
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/**
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* @brief 基础循环特征分析遍
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* 在循环规范化前执行,进行基础的循环特征分析,为后续精确分析提供基础
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*/
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class LoopCharacteristicsPass : public AnalysisPass {
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public:
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// 唯一的 Pass ID
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static void *ID;
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LoopCharacteristicsPass() : AnalysisPass("LoopCharacteristics", Pass::Granularity::Function) {}
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// 实现 getPassID
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void *getPassID() const override { return &ID; }
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// 核心运行方法
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bool runOnFunction(Function *F, AnalysisManager &AM) override;
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// 获取分析结果
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std::unique_ptr<AnalysisResultBase> getResult() override { return std::move(CurrentResult); }
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private:
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std::unique_ptr<LoopCharacteristicsResult> CurrentResult;
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// ========== 核心分析方法 ==========
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void analyzeLoop(Loop* loop, LoopCharacteristics* characteristics, AnalysisManager &AM,
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AliasAnalysisResult* aliasAnalysis, SideEffectAnalysisResult* sideEffectAnalysis);
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// 基础循环形式分析
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void analyzeLoopForm(Loop* loop, LoopCharacteristics* characteristics);
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// 基础性能指标计算
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void computePerformanceMetrics(Loop* loop, LoopCharacteristics* characteristics);
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// 基础纯度和副作用分析
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void analyzePurityAndSideEffects(Loop* loop, LoopCharacteristics* characteristics,
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SideEffectAnalysisResult* sideEffectAnalysis);
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// 基础归纳变量识别
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void identifyBasicInductionVariables(Loop* loop, LoopCharacteristics* characteristics);
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// 基础循环不变量识别
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void identifyBasicLoopInvariants(Loop* loop, LoopCharacteristics* characteristics);
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// 基础边界分析
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void analyzeBasicLoopBounds(Loop* loop, LoopCharacteristics* characteristics);
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// 基础内存访问模式分析
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void analyzeBasicMemoryAccessPatterns(Loop* loop, LoopCharacteristics* characteristics,
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AliasAnalysisResult* aliasAnalysis);
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// 基础优化评估
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void evaluateBasicOptimizationOpportunities(Loop* loop, LoopCharacteristics* characteristics);
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// ========== 辅助方法 ==========
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bool isBasicInductionVariable(Value* val, Loop* loop);
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bool isBasicLoopInvariant(Value* val, Loop* loop);
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bool hasSimpleMemoryPattern(Loop* loop); // 简单的内存模式检查
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};
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} // namespace sysy
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