#pragma once #include "ToolBase.hpp" #include #if _WIN32 #include #else #include #endif #include "hecl/MultiProgressPrinter.hpp" class ToolExtract final : public ToolBase { hecl::Database::IDataSpec::ExtractPassInfo m_einfo; struct SpecExtractPass { const hecl::Database::DataSpecEntry* m_entry; std::unique_ptr m_instance; SpecExtractPass(const hecl::Database::DataSpecEntry* entry, std::unique_ptr&& instance) : m_entry(entry), m_instance(std::move(instance)) {} SpecExtractPass(const SpecExtractPass& other) = delete; SpecExtractPass(SpecExtractPass&& other) = default; }; std::vector m_specPasses; std::vector m_reps; std::unique_ptr m_fallbackProj; hecl::Database::Project* m_useProj = nullptr; public: ToolExtract(const ToolPassInfo& info) : ToolBase(info) { if (!m_info.args.size()) LogModule.report(logvisor::Fatal, "hecl extract needs a source path as its first argument"); if (!info.project) { hecl::SystemString rootDir; if (info.output.empty()) { /* Get name from input file and init project there */ hecl::SystemString baseFile = info.args.front(); size_t slashPos = baseFile.rfind(_SYS_STR('/')); if (slashPos == hecl::SystemString::npos) slashPos = baseFile.rfind(_SYS_STR('\\')); if (slashPos != hecl::SystemString::npos) baseFile.assign(baseFile.begin() + slashPos + 1, baseFile.end()); size_t dotPos = baseFile.rfind(_SYS_STR('.')); if (dotPos != hecl::SystemString::npos) baseFile.assign(baseFile.begin(), baseFile.begin() + dotPos); if (baseFile.empty()) LogModule.report(logvisor::Fatal, "hecl extract must be ran within a project directory"); rootDir = info.cwd + baseFile; } else { if (hecl::PathRelative(info.output.c_str())) rootDir = info.cwd + info.output; else rootDir = info.output; } size_t ErrorRef = logvisor::ErrorCount; hecl::ProjectRootPath newProjRoot(rootDir); newProjRoot.makeDir(); m_fallbackProj.reset(new hecl::Database::Project(newProjRoot)); if (logvisor::ErrorCount > ErrorRef) LogModule.report(logvisor::Fatal, "unable to init project at '%s'", rootDir.c_str()); LogModule.report(logvisor::Info, _SYS_STR("initialized project at '%s/.hecl'"), rootDir.c_str()); m_useProj = m_fallbackProj.get(); } else m_useProj = info.project; m_einfo.srcpath = m_info.args.front(); m_einfo.force = info.force; m_einfo.extractArgs.reserve(info.args.size()); auto it = info.args.cbegin(); ++it; for (; it != info.args.cend(); ++it) m_einfo.extractArgs.push_back(*it); m_specPasses.reserve(hecl::Database::DATA_SPEC_REGISTRY.size()); for (const hecl::Database::DataSpecEntry* entry : hecl::Database::DATA_SPEC_REGISTRY) { if (entry->m_factory) { auto ds = entry->m_factory(*m_useProj, hecl::Database::DataSpecTool::Extract); if (ds && ds->canExtract(m_einfo, m_reps)) m_specPasses.emplace_back(entry, std::move(ds)); } } } static void Help(HelpOutput& help) { help.secHead(_SYS_STR("NAME")); help.beginWrap(); help.wrap(_SYS_STR("hecl-extract - Extract objects from supported package/image formats\n")); help.endWrap(); help.secHead(_SYS_STR("SYNOPSIS")); help.beginWrap(); help.wrap(_SYS_STR("hecl extract [...]\n")); help.endWrap(); help.secHead(_SYS_STR("DESCRIPTION")); help.beginWrap(); help.wrap(_SYS_STR("This command recursively extracts all or part of a dataspec-supported ") _SYS_STR("package format. Each object is decoded to a working format and added to the project.\n\n")); help.endWrap(); help.secHead(_SYS_STR("OPTIONS")); help.optionHead(_SYS_STR("[/...]"), _SYS_STR("input file")); help.beginWrap(); help.wrap(_SYS_STR("Specifies the package file or disc image to source data from. ") _SYS_STR("An optional subnode specifies a named hierarchical-node specific ") _SYS_STR("to the game architecture (levels/areas).")); help.endWrap(); } hecl::SystemString toolName() const { return _SYS_STR("extract"); } static void _recursivePrint(int level, hecl::Database::IDataSpec::ExtractReport& rep) { for (int l = 0; l < level; ++l) hecl::Printf(_SYS_STR(" ")); if (XTERM_COLOR) hecl::Printf(_SYS_STR("" BOLD "%s" NORMAL ""), rep.name.c_str()); else hecl::Printf(_SYS_STR("%s"), rep.name.c_str()); if (rep.desc.size()) hecl::Printf(_SYS_STR(" [%s]"), rep.desc.c_str()); hecl::Printf(_SYS_STR("\n")); for (hecl::Database::IDataSpec::ExtractReport& child : rep.childOpts) _recursivePrint(level + 1, child); } int run() { if (m_specPasses.empty()) { if (XTERM_COLOR) hecl::Printf(_SYS_STR("" RED BOLD "NOTHING TO EXTRACT" NORMAL "\n")); else hecl::Printf(_SYS_STR("NOTHING TO EXTRACT\n")); return 1; } if (XTERM_COLOR) hecl::Printf(_SYS_STR("" GREEN BOLD "ABOUT TO EXTRACT:" NORMAL "\n")); else hecl::Printf(_SYS_STR("ABOUT TO EXTRACT:\n")); for (hecl::Database::IDataSpec::ExtractReport& rep : m_reps) { _recursivePrint(0, rep); hecl::Printf(_SYS_STR("\n")); } fflush(stdout); if (continuePrompt()) { for (SpecExtractPass& ds : m_specPasses) { if (XTERM_COLOR) hecl::Printf(_SYS_STR("" MAGENTA BOLD "Using DataSpec %s:" NORMAL "\n"), ds.m_entry->m_name.data()); else hecl::Printf(_SYS_STR("Using DataSpec %s:\n"), ds.m_entry->m_name.data()); ds.m_instance->doExtract(m_einfo, {true}); hecl::Printf(_SYS_STR("\n\n")); } } return 0; } };