metaforce/DataSpec/DNAMP2/STRG.cpp

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#include "STRG.hpp"
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#include "DNAMP2.hpp"
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namespace DataSpec::DNAMP2 {
void STRG::_read(athena::io::IStreamReader& reader) {
atUint32 langCount = reader.readUint32Big();
atUint32 strCount = reader.readUint32Big();
std::vector<FourCC> readLangs;
readLangs.reserve(langCount);
for (atUint32 l = 0; l < langCount; ++l) {
DNAFourCC lang;
lang.read(reader);
readLangs.emplace_back(lang);
reader.seek(8);
}
atUint32 nameCount = reader.readUint32Big();
atUint32 nameTableSz = reader.readUint32Big();
std::unique_ptr<uint8_t[]> nameTableBuf(new uint8_t[nameTableSz]);
reader.readUBytesToBuf(nameTableBuf.get(), nameTableSz);
struct NameIdxEntry {
atUint32 nameOff;
atUint32 strIdx;
}* nameIndex = (NameIdxEntry*)nameTableBuf.get();
for (atUint32 n = 0; n < nameCount; ++n) {
const char* name = (char*)(nameTableBuf.get() + hecl::SBig(nameIndex[n].nameOff));
names[name] = hecl::SBig(nameIndex[n].strIdx);
}
langs.clear();
langs.reserve(langCount);
for (FourCC& lang : readLangs) {
std::vector<std::u16string> strs;
reader.seek(strCount * 4);
for (atUint32 s = 0; s < strCount; ++s)
strs.emplace_back(reader.readU16StringBig());
langs.emplace_back(lang, strs);
}
langMap.clear();
langMap.reserve(langCount);
for (std::pair<FourCC, std::vector<std::u16string>>& item : langs)
langMap.emplace(item.first, &item.second);
}
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template <>
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void STRG::Enumerate<BigDNA::Read>(athena::io::IStreamReader& reader) {
atUint32 magic = reader.readUint32Big();
if (magic != 0x87654321)
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Log.report(logvisor::Error, fmt("invalid STRG magic"));
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atUint32 version = reader.readUint32Big();
if (version != 1)
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Log.report(logvisor::Error, fmt("invalid STRG version"));
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_read(reader);
}
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template <>
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void STRG::Enumerate<BigDNA::Write>(athena::io::IStreamWriter& writer) {
writer.writeUint32Big(0x87654321);
writer.writeUint32Big(1);
writer.writeUint32Big(langs.size());
atUint32 strCount = STRG::count();
writer.writeUint32Big(strCount);
atUint32 offset = 0;
for (const std::pair<DNAFourCC, std::vector<std::u16string>>& lang : langs) {
lang.first.write(writer);
writer.writeUint32Big(offset);
offset += strCount * 4 + 4;
atUint32 langStrCount = lang.second.size();
atUint32 tableSz = strCount * 4;
for (atUint32 s = 0; s < strCount; ++s) {
atUint32 chCount = lang.second[s].size();
if (s < langStrCount) {
offset += chCount * 2 + 1;
tableSz += chCount * 2 + 1;
} else {
offset += 1;
tableSz += 1;
}
}
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writer.writeUint32Big(tableSz);
}
atUint32 nameTableSz = names.size() * 8;
for (const std::pair<std::string, int32_t>& name : names)
nameTableSz += name.first.size() + 1;
writer.writeUint32Big(names.size());
writer.writeUint32Big(nameTableSz);
offset = names.size() * 8;
for (const std::pair<std::string, int32_t>& name : names) {
writer.writeUint32Big(offset);
writer.writeInt32Big(name.second);
offset += name.first.size() + 1;
}
for (const std::pair<std::string, int32_t>& name : names)
writer.writeString(name.first);
for (const std::pair<DNAFourCC, std::vector<std::u16string>>& lang : langs) {
offset = strCount * 4;
atUint32 langStrCount = lang.second.size();
for (atUint32 s = 0; s < strCount; ++s) {
writer.writeUint32Big(offset);
if (s < langStrCount)
offset += lang.second[s].size() * 2 + 1;
else
offset += 1;
}
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for (atUint32 s = 0; s < strCount; ++s) {
if (s < langStrCount)
writer.writeU16StringBig(lang.second[s]);
else
writer.writeUByte(0);
}
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}
}
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template <>
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void STRG::Enumerate<BigDNA::BinarySize>(size_t& __isz) {
__isz += 16;
__isz += langs.size() * 12;
__isz += 8;
__isz += names.size() * 8;
for (const std::pair<std::string, int32_t>& name : names)
__isz += name.first.size() + 1;
size_t strCount = STRG::count();
for (const std::pair<DNAFourCC, std::vector<std::u16string>>& lang : langs) {
atUint32 langStrCount = lang.second.size();
__isz += strCount * 4;
for (atUint32 s = 0; s < strCount; ++s) {
if (s < langStrCount)
__isz += (lang.second[s].size() + 1) * 2;
else
__isz += 1;
}
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}
}
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template <>
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void STRG::Enumerate<BigDNA::ReadYaml>(athena::io::YAMLDocReader& reader) {
const athena::io::YAMLNode* root = reader.getRootNode();
/* Validate Pass */
if (root->m_type == YAML_MAPPING_NODE) {
for (const auto& lang : root->m_mapChildren) {
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if (lang.first == "names")
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continue;
if (lang.first.size() != 4) {
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Log.report(logvisor::Warning, fmt("STRG language string '{}' must be exactly 4 characters; skipping"), lang.first);
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return;
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}
if (lang.second->m_type != YAML_SEQUENCE_NODE) {
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Log.report(logvisor::Warning, fmt("STRG language string '{}' must contain a sequence; skipping"), lang.first);
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return;
}
for (const auto& str : lang.second->m_seqChildren) {
if (str->m_type != YAML_SCALAR_NODE) {
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Log.report(logvisor::Warning, fmt("STRG language '{}' must contain all scalars; skipping"), lang.first);
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return;
}
}
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}
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} else {
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Log.report(logvisor::Warning, fmt("STRG must have a mapping root node; skipping"));
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return;
}
/* Read Pass */
langs.clear();
for (const auto& lang : root->m_mapChildren) {
std::vector<std::u16string> strs;
for (const auto& str : lang.second->m_seqChildren)
strs.emplace_back(hecl::UTF8ToChar16(str->m_scalarString));
langs.emplace_back(FourCC(lang.first.c_str()), strs);
}
names.clear();
const athena::io::YAMLNode* namesNode = root->findMapChild("names");
if (namesNode)
for (const auto& item : namesNode->m_mapChildren)
names[item.first] = athena::io::NodeToVal<atInt32>(item.second.get());
langMap.clear();
langMap.reserve(langs.size());
for (std::pair<FourCC, std::vector<std::u16string>>& item : langs)
langMap.emplace(item.first, &item.second);
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}
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template <>
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void STRG::Enumerate<BigDNA::WriteYaml>(athena::io::YAMLDocWriter& writer) {
for (const auto& lang : langs) {
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if (auto v = writer.enterSubVector(lang.first.toString()))
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for (const std::u16string& str : lang.second)
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writer.writeU16String(str);
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}
if (names.size()) {
if (auto rec = writer.enterSubRecord("names"))
for (const auto& name : names)
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if (auto rec = writer.enterSubRecord(name.first))
writer.writeInt32(name.second);
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}
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}
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std::string_view STRG::DNAType() { return "urde::DNAMP2::STRG"sv; }
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} // namespace DataSpec::DNAMP2