#ifndef _DNAMP1_SCAN_HPP_ #define _DNAMP1_SCAN_HPP_ #include #include "../DNACommon/DNACommon.hpp" #include "DNAMP1.hpp" namespace DataSpec::DNAMP1 { struct SCAN : BigDNA { AT_DECL_DNA_YAML Value version; Value magic; UniqueID32 frame; UniqueID32 string; enum class ScanSpeed : atUint32 { Normal, Slow }; Value scanSpeed; enum class Category : atUint32 { None, SpacePirateData, ChozoLore, Creatures, Research }; Value category; Value isImportant; struct Texture : BigDNA { AT_DECL_EXPLICIT_DNA_YAML UniqueID32 texture; Value appearanceRange; enum class Position : atInt32 { Pane0, Pane1, Pane2, Pane3, Pane01, Pane12, Pane23, Pane012, Pane123, Pane0123, Pane4, Pane5, Pane6, Pane7, Pane45, Pane56, Pane67, Pane456, Pane567, Pane4567, Invalid = -1 }; Value position; Value width; // width of animation cell Value height; // height of animation cell Value interval; // 0.0 - 1.0 Value fadeDuration; // 0.0 - 1.0 }; Texture textures[4]; static bool Extract(PAKEntryReadStream& rs, const hecl::ProjectPath& outPath) { SCAN scan; scan.read(rs); athena::io::FileWriter writer(outPath.getAbsolutePath()); athena::io::ToYAMLStream(scan, writer); return true; } static bool Cook(const SCAN& scan, const hecl::ProjectPath& outPath) { athena::io::FileWriter ws(outPath.getAbsolutePath()); scan.write(ws); return true; } static Category GetCategory(const hecl::ProjectPath& inPath) { SCAN scan; athena::io::FileReader reader(inPath.getAbsolutePath()); if (reader.hasError()) return Category::None; if (!athena::io::FromYAMLStream(scan, reader)) return Category::None; return scan.category; } static void Name(const SpecBase& dataSpec, PAKEntryReadStream& rs, PAKRouter& pakRouter, PAK::Entry& entry) { SCAN scan; scan.read(rs); if (scan.string) { PAK::Entry* ent = (PAK::Entry*)pakRouter.lookupEntry(scan.string); ent->name = hecl::Format("SCAN_%s_strg", entry.id.toString().c_str()); } for (int i=0 ; i<4 ; ++i) { const Texture& tex = scan.textures[i]; if (tex.texture) { PAK::Entry* ent = (PAK::Entry*)pakRouter.lookupEntry(tex.texture); ent->name = hecl::Format("SCAN_%s_tex%d", entry.id.toString().c_str(), i+1); } } } void gatherDependencies(std::vector& pathsOut) { g_curSpec->flattenDependencies(frame, pathsOut); g_curSpec->flattenDependencies(string, pathsOut); for (int i = 0; i < 4; ++i) g_curSpec->flattenDependencies(textures[i].texture, pathsOut); } }; } #endif