#include "Runtime/GuiSys/CStringTable.hpp" #include #include "Runtime/CToken.hpp" namespace urde { namespace { constexpr std::array languages{ FOURCC('ENGL'), FOURCC('FREN'), FOURCC('GERM'), FOURCC('SPAN'), FOURCC('ITAL'), FOURCC('DUTC'), FOURCC('JAPN'), }; } // Anonymous namespace FourCC CStringTable::mCurrentLanguage = languages[0]; CStringTable::CStringTable(CInputStream& in) { LoadStringTable(in); } void CStringTable::LoadStringTable(CInputStream& in) { in.readUint32Big(); in.readUint32Big(); u32 langCount = in.readUint32Big(); x0_stringCount = in.readUint32Big(); std::vector> langOffsets; for (u32 i = 0; i < langCount; ++i) { FourCC fcc(in.readUint32()); u32 off = in.readUint32Big(); langOffsets.emplace_back(fcc, off); } u32 lang = 0; u32 offset = 0; while ((langCount--) > 0) { if (langOffsets[lang].first == mCurrentLanguage) { offset = langOffsets[lang].second; break; } lang++; } /* * If we fail to get a language, default to the first in the list * This way we always display _something_ */ if (offset == UINT32_MAX) offset = langOffsets[0].second; in.seek(offset); u32 dataLen = in.readUint32Big(); m_bufLen = dataLen; x4_data.reset(new u8[dataLen]); in.readUBytesToBuf(x4_data.get(), dataLen); u32* off = reinterpret_cast(x4_data.get()); for (u32 i = 0; i < x0_stringCount; ++i, ++off) *off = hecl::SBig(*off); for (u32 i = x0_stringCount * 4; i < dataLen; i += 2) { u16* chr = reinterpret_cast(x4_data.get() + i); *chr = hecl::SBig(*chr); } } const char16_t* CStringTable::GetString(s32 str) const { if (str < 0 || u32(str) >= x0_stringCount) return u"Invalid"; u32 off = *reinterpret_cast(x4_data.get() + str * 4); return reinterpret_cast(x4_data.get() + off); } void CStringTable::SetLanguage(s32 lang) { mCurrentLanguage = languages[lang]; } CFactoryFnReturn FStringTableFactory(const SObjectTag&, CInputStream& in, const CVParamTransfer&, [[maybe_unused]] CObjectReference* selfRef) { return TToken::GetIObjObjectFor(std::make_unique(in)); } } // namespace urde