#ifndef CTOOL_COOK #define CTOOL_COOK #include "ToolBase.hpp" #include #include "hecl/ClientProcess.hpp" class ToolCook final : public ToolBase { std::vector m_selectedItems; std::unique_ptr m_fallbackProj; hecl::Database::Project* m_useProj; const hecl::Database::DataSpecEntry* m_spec = nullptr; bool m_recursive = false; bool m_fast = false; public: ToolCook(const ToolPassInfo& info) : ToolBase(info), m_useProj(info.project) { /* Check for recursive flag */ for (hecl::SystemChar arg : info.flags) if (arg == _S('r')) m_recursive = true; /* Scan args */ if (info.args.size()) { /* See if project path is supplied via args and use that over the getcwd one */ m_selectedItems.reserve(info.args.size()); for (const hecl::SystemString& arg : info.args) { if (arg.empty()) continue; else if (!arg.compare(_S("--fast"))) { m_fast = true; continue; } else if (arg.size() >= 8 && !arg.compare(0, 7, _S("--spec="))) { hecl::SystemString specName(arg.begin() + 7, arg.end()); for (const hecl::Database::DataSpecEntry* spec : hecl::Database::DATA_SPEC_REGISTRY) { if (!hecl::StrCaseCmp(spec->m_name.data(), specName.c_str())) { m_spec = spec; break; } } if (!m_spec) LogModule.report(logvisor::Fatal, "unable to find data spec '%s'", specName.c_str()); continue; } else if (arg.size() >= 2 && arg[0] == _S('-') && arg[1] == _S('-')) continue; hecl::SystemString subPath; hecl::ProjectRootPath root = hecl::SearchForProject(MakePathArgAbsolute(arg, info.cwd), subPath); if (root) { if (!m_fallbackProj) { m_fallbackProj.reset(new hecl::Database::Project(root)); m_useProj = m_fallbackProj.get(); } else if (m_fallbackProj->getProjectRootPath() != root) LogModule.report(logvisor::Fatal, _S("hecl cook can only process multiple items in the same project; ") _S("'%s' and '%s' are different projects"), m_fallbackProj->getProjectRootPath().getAbsolutePath().data(), root.getAbsolutePath().data()); m_selectedItems.emplace_back(*m_useProj, subPath); } } } if (!m_useProj) LogModule.report(logvisor::Fatal, "hecl cook must be ran within a project directory or " "provided a path within a project"); /* Default case: recursive at root */ if (m_selectedItems.empty()) { m_selectedItems.reserve(1); m_selectedItems.push_back({hecl::ProjectPath(*m_useProj, _S(""))}); m_recursive = true; } } static void Help(HelpOutput& help) { help.secHead(_S("NAME")); help.beginWrap(); help.wrap(_S("hecl-cook - Cook objects within the project database\n")); help.endWrap(); help.secHead(_S("SYNOPSIS")); help.beginWrap(); help.wrap(_S("hecl cook [-rf] [--fast] [--spec=] [...]\n")); help.endWrap(); help.secHead(_S("DESCRIPTION")); help.beginWrap(); help.wrap(_S("This command initiates a cooking pass on the project database. Cooking ") _S("is analogous to compiling in software development. The resulting object buffers ") _S("are cached within the project database. HECL performs the following ") _S("tasks for each object during the cook process:\n\n")); help.wrapBold(_S("- Object Gather: ")); help.wrap(_S("Files added with ")); help.wrapBold(_S("hecl add")); help.wrap(_S(" are queried for their dependent files (e.g. ")); help.wrapBold(_S(".blend")); help.wrap(_S(" files return any linked ")); help.wrapBold(_S(".png")); help.wrap(_S(" images). If the dependent files are unable to be found, the cook process aborts.\n\n")); help.wrapBold(_S("- Modtime Comparison: ")); help.wrap(_S("Files that have previously finished a cook pass are inspected for their time of ") _S("last modification. If the file hasn't changed since its previous cook-pass, the ") _S("process is skipped. If the file has been moved or deleted, the object is automatically ") _S("removed from the project database.\n\n")); help.wrapBold(_S("- Cook: ")); help.wrap(_S("A type-specific procedure compiles the file's contents into an efficient format ") _S("for use by the runtime. A data-buffer is provided to HECL.\n\n")); help.wrapBold(_S("- Hash and Compress: ")); help.wrap(_S("The data-buffer is hashed and compressed before being cached in the object database.\n\n")); help.endWrap(); help.secHead(_S("OPTIONS")); help.optionHead(_S("..."), _S("input file(s)")); help.beginWrap(); help.wrap(_S("Specifies working file(s) containing production data to be cooked by HECL. ") _S("Glob-strings may be specified (e.g. ")); help.wrapBold(_S("*.blend")); help.wrap(_S(") to automatically cook all matching current-directory files in the project database. ") _S("If no path specified, all files in the project database are cooked.\n")); help.endWrap(); help.optionHead(_S("-r"), _S("recursion")); help.beginWrap(); help.wrap(_S("Enables recursive file-matching for cooking entire directories of working files.\n")); help.endWrap(); help.optionHead(_S("-f"), _S("force")); help.beginWrap(); help.wrap(_S("Forces cooking of all matched files, ignoring timestamp differences.\n")); help.endWrap(); help.optionHead(_S("--fast"), _S("fast cook")); help.beginWrap(); help.wrap(_S("Performs draft-optimization cooking for supported data types.\n")); help.endWrap(); help.optionHead(_S("--spec="), _S("data specification")); help.beginWrap(); help.wrap(_S("Specifies a DataSpec to use when cooking. ") _S("This build of hecl supports the following values of :\n")); for (const hecl::Database::DataSpecEntry* spec : hecl::Database::DATA_SPEC_REGISTRY) { if (!spec->m_factory) continue; help.wrap(_S(" ")); help.wrapBold(spec->m_name.data()); help.wrap(_S("\n")); } } hecl::SystemString toolName() const {return _S("cook");} int run() { hecl::MultiProgressPrinter printer(true); hecl::ClientProcess cp(&printer, m_info.verbosityLevel); for (int i=0 ; im_numCookPasses ; ++i) for (const hecl::ProjectPath& path : m_selectedItems) m_useProj->cookPath(path, printer, m_recursive, m_info.force, m_fast, m_spec, &cp, i); cp.waitUntilComplete(); return 0; } }; #endif // CTOOL_COOK