#include "pch.h" #include "EffectCache.h" #include #include #include #include #include #include #include "EffectCompiler.h" #include template void serialize(Archive& ar, ComPtr& o) { SIZE_T size = 0; ar& size; HRESULT hr = D3DCreateBlob(size, o.ReleaseAndGetAddressOf()); BYTE* buf = (BYTE*)o->GetBufferPointer(); for (SIZE_T i = 0; i < size; ++i) { ar& (*buf++); } } template void serialize(Archive& ar, const ComPtr& o) { SIZE_T size = o->GetBufferSize(); ar& size; BYTE* buf = (BYTE*)o->GetBufferPointer(); for (SIZE_T i = 0; i < size; ++i) { ar& (*buf++); } } template void serialize(Archive& ar, const EffectConstantDesc& o) { size_t index = o.defaultValue.index(); ar& index; if (index == 0) { ar& std::get<0>(o.defaultValue); } else { ar& std::get<1>(o.defaultValue); } ar& o.label; index = o.maxValue.index(); ar& index; if (index == 1) { ar& std::get<1>(o.maxValue); } else if (index == 2) { ar& std::get<2>(o.maxValue); } index = o.minValue.index(); ar& index; if (index == 1) { ar& std::get<1>(o.minValue); } else if (index == 2) { ar& std::get<2>(o.minValue); } ar& o.name& o.type; } template void serialize(Archive& ar, EffectConstantDesc& o) { size_t index = 0; ar& index; if (index == 0) { o.defaultValue = 0.0f; ar& std::get<0>(o.defaultValue); } else { o.defaultValue = 0; ar& std::get<1>(o.defaultValue); } ar& o.label; ar& index; if (index == 1) { o.maxValue = 0.0f; ar& std::get<1>(o.maxValue); } else if (index == 2) { o.maxValue = 0; ar& std::get<2>(o.maxValue); } ar& index; if (index == 1) { o.minValue = 0.0f; ar& std::get<1>(o.minValue); } else if (index == 2) { o.minValue = 0; ar& std::get<2>(o.minValue); } ar& o.name& o.type; } template void serialize(Archive& ar, EffectValueConstantDesc& o) { ar& o.name& o.type& o.valueExpr; } template void serialize(Archive& ar, EffectIntermediateTextureDesc& o) { ar& o.format& o.name& o.sizeExpr; } template void serialize(Archive& ar, EffectSamplerDesc& o) { ar& o.filterType& o.name; } template void serialize(Archive& ar, EffectPassDesc& o) { ar& o.inputs& o.outputs& o.cso; } template void serialize(Archive& ar, EffectDesc& o) { ar& o.outSizeExpr& o.constants& o.valueConstants& o.textures& o.samplers& o.passes; } std::wstring ConvertFileName(const wchar_t* fileName) { std::wstring file(fileName); // 删除文件名中的路径 size_t pos = file.find_last_of('\\'); if (pos != std::wstring::npos) { file.erase(0, pos + 1); } std::replace(file.begin(), file.end(), '.', '_'); return file; } std::wstring GetCacheFileName(const wchar_t* fileName, std::string_view hash) { return fmt::format(L".\\cache\\{}_{}.cmfx", ConvertFileName(fileName), StrUtils::UTF8ToUTF16(hash)); } bool EffectCache::Load(const wchar_t* fileName, std::string_view hash, EffectDesc& desc) { std::wstring cacheFileName = GetCacheFileName(fileName, hash); if (!Utils::FileExists(cacheFileName.c_str())) { return false; } std::vector buf; if (!Utils::ReadFile(cacheFileName.c_str(), buf) || buf.empty()) { return false; } if (buf.size() < 100) { return false; } // 格式：HASH-VERSION-{BODY} // 检查哈希 std::vector bufHash; if (!Utils::Hasher::GetInstance()->Hash( buf.data() + Utils::Hasher::GetInstance()->GetHashLength(), buf.size() - Utils::Hasher::GetInstance()->GetHashLength(), bufHash )) { SPDLOG_LOGGER_ERROR(logger, "计算哈希失败"); return false; } if (std::memcmp(buf.data(), bufHash.data(), bufHash.size()) != 0) { SPDLOG_LOGGER_INFO(logger, "哈希检查失败"); return false; } try { yas::mem_istream mi(buf.data() + bufHash.size(), buf.size() - bufHash.size()); yas::binary_iarchive ia(mi); // 检查版本 UINT version; ia& version; if (version != EffectCompiler::VERSION) { SPDLOG_LOGGER_INFO(logger, "版本不匹配"); return false; } ia& desc; } catch (...) { SPDLOG_LOGGER_INFO(logger, "反序列化失败"); desc = {}; return false; } SPDLOG_LOGGER_INFO(logger, "已读取缓存 " + StrUtils::UTF16ToUTF8(cacheFileName)); return true; } void EffectCache::Save(const wchar_t* fileName, std::string_view hash, const EffectDesc& desc) { // 格式：HASH-VERSION-{BODY} std::vector buf; buf.reserve(4096); buf.resize(Utils::Hasher::GetInstance()->GetHashLength()); try { yas::vector_ostream os(buf); yas::binary_oarchive, yas::binary> oa(os); oa& EffectCompiler::VERSION; oa& desc; } catch (...) { SPDLOG_LOGGER_ERROR(logger, "序列化失败"); return; } // 填充 HASH std::vector bufHash; if (!Utils::Hasher::GetInstance()->Hash( buf.data() + Utils::Hasher::GetInstance()->GetHashLength(), buf.size() - Utils::Hasher::GetInstance()->GetHashLength(), bufHash )) { SPDLOG_LOGGER_ERROR(logger, "计算哈希失败"); return; } std::memcpy(buf.data(), bufHash.data(), bufHash.size()); if (!Utils::DirExists(L".\\cache")) { if (!CreateDirectory(L".\\cache", nullptr)) { SPDLOG_LOGGER_ERROR(logger, MakeWin32ErrorMsg("创建 cache 文件夹失败")); return; } } else { // 删除所有该文件的缓存 std::wregex regex(fmt::format(L"^{}_[0-9,a-f]{{{}}}.cmfx$", ConvertFileName(fileName), Utils::Hasher::GetInstance()->GetHashLength() * 2), std::wregex::optimize | std::wregex::nosubs); WIN32_FIND_DATA findData; HANDLE hFind = FindFirstFile(L".\\cache\\*", &findData); if (hFind != INVALID_HANDLE_VALUE) { while (FindNextFile(hFind, &findData)) { if (lstrlenW(findData.cFileName) < 8) { continue; } // 正则匹配文件名 if (!std::regex_match(findData.cFileName, regex)) { continue; } if (!DeleteFile((L".\\cache\\"s + findData.cFileName).c_str())) { SPDLOG_LOGGER_ERROR(logger, MakeWin32ErrorMsg(fmt::format("删除缓存文件{}失败", StrUtils::UTF16ToUTF8(findData.cFileName)))); } } FindClose(hFind); } else { SPDLOG_LOGGER_ERROR(logger, MakeWin32ErrorMsg("查找缓存文件失败")); } } std::wstring cacheFileName = GetCacheFileName(fileName, hash); if (!Utils::WriteFile(cacheFileName.c_str(), buf.data(), buf.size())) { SPDLOG_LOGGER_ERROR(logger, "保存缓存失败"); } SPDLOG_LOGGER_INFO(logger, "已保存缓存 " + StrUtils::UTF16ToUTF8(cacheFileName)); }