#include "stdafx.h" #include "Profiler.h" EightBit::Profiler::Profiler(MOS6502& targetProcessor, Disassembly& disassemblerTarget, Symbols& symbolsTarget) : processor(targetProcessor), disassembler(disassemblerTarget), symbols(symbolsTarget) { instructionCounts.fill(0); addressProfiles.fill(0); addressCounts.fill(0); BuildAddressScopes(); } void EightBit::Profiler::Generate() { StartingOutput.fire(EventArgs()); EmitProfileInformation(); StartingOutput.fire(EventArgs()); } void EightBit::Profiler::EmitProfileInformation() { { StartingLineOutput.fire(EventArgs()); // For each memory address for (int address = 0; address < 0x10000; ++address) { // If there are any cycles associated auto cycles = addressProfiles[address]; if (cycles > 0) { // Dump a profile/disassembly line auto source = disassembler.disassemble(address); EmitLine.fire(ProfileLineEventArgs(source, cycles)); } } FinishedLineOutput.fire(EventArgs()); } { StartingScopeOutput.fire(EventArgs()); for (auto& scopeCycle : scopeCycles) { auto name = scopeCycle.first; auto cycles = scopeCycle.second; auto namedAddress = (size_t)symbols.getAddresses().find(name)->second; auto count = addressCounts[namedAddress]; EmitScope.fire(ProfileScopeEventArgs(name, cycles, count)); } FinishedScopeOutput.fire(EventArgs()); } } void EightBit::Profiler::addInstruction(uint8_t instruction) { ++instructionCounts[instruction]; } void EightBit::Profiler::addAddress(uint16_t address, int cycles) { addressCounts[address]++; addressProfiles[address] += cycles; auto addressScope = addressScopes[address]; if (!addressScope.empty()) { if (scopeCycles.find(addressScope) == scopeCycles.end()) scopeCycles[addressScope] = 0; scopeCycles[addressScope] += cycles; } } void EightBit::Profiler::BuildAddressScopes() { for (auto& label : symbols.getLabels()) { auto address = label.first; auto key = label.second; auto scope = symbols.getScopes().find(key); if (scope != symbols.getScopes().end()) { for (uint16_t i = address; i < address + scope->second; ++i) { addressScopes[i] = key; } } } }