#if _WIN32 #define _CRT_RAND_S #include #endif #include "SpecBase.hpp" #include "Blender/BlenderSupport.hpp" #include "BlenderConnection.hpp" #include "DNACommon/DNACommon.hpp" #include "DNACommon/TXTR.hpp" #include namespace DataSpec { static logvisor::Module Log("urde::SpecBase"); static const hecl::SystemChar* MomErr[] = { _S("Your metroid is in another castle"), _S("HECL is experiencing a PTSD attack"), _S("Unable to freeze metroids"), _S("Ridley ate your homework"), _S("Expected 0 maternal symbolisms, found ∞"), _S("Contradictive narratives unsupported"), _S("Wiimote profile \"NES + Zapper\" not recognized"), _S("Unable to find Waldo"), _S("Expected Ridley, found furby"), _S("Adam has not authorized this, please do not bug the developers"), _S("Lady returned objection"), _S("Unterminated plot thread 'Deleter' detected") }; constexpr uint32_t MomErrCount = std::extent::value; SpecBase::SpecBase(const hecl::Database::DataSpecEntry* specEntry, hecl::Database::Project& project, bool pc) : hecl::Database::IDataSpec(specEntry), m_project(project), m_pc(pc), m_masterShader(project.getProjectWorkingPath(), ".hecl/RetroMasterShader.blend") {} bool SpecBase::canExtract(const ExtractPassInfo& info, std::vector& reps) { m_disc = nod::OpenDiscFromImage(info.srcpath.c_str(), m_isWii); if (!m_disc) return false; const char* gameID = m_disc->getHeader().m_gameID; if (!memcmp(gameID, "R3O", 3)) { unsigned int t = time(nullptr); #if _WIN32 rand_s(&t); int r = t % MomErrCount; #else int r = rand_r(&t) % MomErrCount; #endif Log.report(logvisor::Fatal, MomErr[r]); } m_standalone = true; if (m_isWii && !memcmp(gameID, "R3M", 3)) m_standalone = false; if (m_standalone && !checkStandaloneID(gameID)) return false; char region = m_disc->getHeader().m_gameID[3]; static const hecl::SystemString regNONE = _S(""); static const hecl::SystemString regE = _S("NTSC"); static const hecl::SystemString regJ = _S("NTSC-J"); static const hecl::SystemString regP = _S("PAL"); const hecl::SystemString* regstr = ®NONE; switch (region) { case 'E': regstr = ®E; break; case 'J': regstr = ®J; break; case 'P': regstr = ®P; break; } if (m_standalone) return checkFromStandaloneDisc(*m_disc, *regstr, info.extractArgs, reps); else return checkFromTrilogyDisc(*m_disc, *regstr, info.extractArgs, reps); } void SpecBase::doExtract(const ExtractPassInfo& info, FProgress progress) { DataSpec::g_curSpec = this; if (!Blender::BuildMasterShader(m_masterShader)) Log.report(logvisor::Fatal, "Unable to build master shader blend"); if (m_isWii) { /* Extract root files for repacking later */ hecl::ProjectPath outDir(m_project.getProjectWorkingPath(), _S("out")); outDir.makeDir(); nod::ExtractionContext ctx = {true, info.force, nullptr}; if (!m_standalone) { progress(_S("Trilogy Files"), _S(""), 1, 0.0); nod::Partition* data = m_disc->getDataPartition(); const nod::Node& root = data->getFSTRoot(); for (const nod::Node& child : root) if (child.getKind() == nod::Node::Kind::File) child.extractToDirectory(outDir.getAbsolutePath(), ctx); progress(_S("Trilogy Files"), _S(""), 1, 1.0); } } extractFromDisc(*m_disc, info.force, progress); } bool SpecBase::canCook(const hecl::ProjectPath& path, hecl::BlenderToken& btok) { if (!checkPathPrefix(path)) return false; if (hecl::IsPathBlend(path)) { hecl::BlenderConnection& conn = btok.getBlenderConnection(); if (!conn.openBlend(path)) return false; if (conn.getBlendType() != hecl::BlenderConnection::BlendType::None) return true; } else if (hecl::IsPathPNG(path)) { return true; } else if (hecl::IsPathYAML(path)) { FILE* fp = hecl::Fopen(path.getAbsolutePath().c_str(), _S("r")); bool retval = validateYAMLDNAType(fp); fclose(fp); return retval; } return false; } const hecl::Database::DataSpecEntry* SpecBase::overrideDataSpec(const hecl::ProjectPath& path, const hecl::Database::DataSpecEntry* oldEntry, hecl::BlenderToken& btok) { if (!checkPathPrefix(path)) return nullptr; if (hecl::IsPathBlend(path)) { hecl::BlenderConnection& conn = btok.getBlenderConnection(); if (!conn.openBlend(path)) { Log.report(logvisor::Error, _S("unable to cook '%s'"), path.getAbsolutePath().c_str()); return nullptr; } hecl::BlenderConnection::BlendType type = conn.getBlendType(); if (type == hecl::BlenderConnection::BlendType::Mesh || type == hecl::BlenderConnection::BlendType::Area) return oldEntry; } else if (hecl::IsPathPNG(path)) { return oldEntry; } return getOriginalSpec(); } void SpecBase::doCook(const hecl::ProjectPath& path, const hecl::ProjectPath& cookedPath, bool fast, hecl::BlenderToken& btok, FCookProgress progress) { DataSpec::g_curSpec = this; if (hecl::IsPathBlend(path)) { hecl::BlenderConnection& conn = btok.getBlenderConnection(); if (!conn.openBlend(path)) return; switch (conn.getBlendType()) { case hecl::BlenderConnection::BlendType::Mesh: { hecl::BlenderConnection::DataStream ds = conn.beginData(); cookMesh(cookedPath, path, ds, fast, progress); break; } case hecl::BlenderConnection::BlendType::Actor: { hecl::BlenderConnection::DataStream ds = conn.beginData(); cookActor(cookedPath, path, ds, fast, progress); break; } case hecl::BlenderConnection::BlendType::Area: { hecl::BlenderConnection::DataStream ds = conn.beginData(); cookArea(cookedPath, path, ds, fast, progress); break; } default: break; } } else if (hecl::IsPathPNG(path)) { if (m_pc) TXTR::CookPC(path, cookedPath); else TXTR::Cook(path, cookedPath); } else if (hecl::IsPathYAML(path)) { FILE* fp = hecl::Fopen(path.getAbsolutePath().c_str(), _S("r")); cookYAML(cookedPath, path, fp, progress); fclose(fp); } } bool SpecBase::canPackage(const PackagePassInfo& info) { return false; } void SpecBase::gatherDependencies(const PackagePassInfo& info, std::unordered_set& implicitsOut) { } void SpecBase::doPackage(const PackagePassInfo& info) { } }