metaforce/DataSpec/DNACommon/DNACommon.hpp

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#ifndef __DNA_COMMON_HPP__
#define __DNA_COMMON_HPP__
#include <stdio.h>
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#include <Athena/DNAYaml.hpp>
#include <NOD/DiscBase.hpp>
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#include "HECL/HECL.hpp"
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#include "HECL/Database.hpp"
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#include "../SpecBase.hpp"
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namespace Retro
{
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extern LogVisor::LogModule LogDNACommon;
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/* This comes up a great deal */
typedef Athena::io::DNA<Athena::BigEndian> BigDNA;
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typedef Athena::io::DNAYaml<Athena::BigEndian> BigYAML;
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/* FourCC with DNA read/write */
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class DNAFourCC final : public BigYAML, public HECL::FourCC
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{
public:
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DNAFourCC() : HECL::FourCC() {}
DNAFourCC(const HECL::FourCC& other)
: HECL::FourCC() {num = other.toUint32();}
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DNAFourCC(const char* name)
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: HECL::FourCC(name) {}
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DNAFourCC(uint32_t n)
: HECL::FourCC(n) {}
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Delete expl;
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void read(Athena::io::IStreamReader& reader)
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{reader.readUBytesToBuf(fcc, 4);}
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void write(Athena::io::IStreamWriter& writer) const
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{writer.writeUBytes((atUint8*)fcc, 4);}
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void fromYAML(Athena::io::YAMLDocReader& reader)
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{std::string rs = reader.readString(nullptr); strncpy(fcc, rs.c_str(), 4);}
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void toYAML(Athena::io::YAMLDocWriter& writer) const
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{writer.writeString(nullptr, std::string(fcc, 4));}
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};
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using FourCC = HECL::FourCC;
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/* PAK 32-bit Unique ID */
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class UniqueID32 : public BigYAML
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{
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uint32_t m_id = 0xffffffff;
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public:
Delete expl;
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operator bool() const {return m_id != 0xffffffff;}
void read(Athena::io::IStreamReader& reader)
{m_id = reader.readUint32Big();}
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void write(Athena::io::IStreamWriter& writer) const
{writer.writeUint32Big(m_id);}
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void fromYAML(Athena::io::YAMLDocReader& reader)
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{m_id = reader.readUint32(nullptr);}
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void toYAML(Athena::io::YAMLDocWriter& writer) const
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{writer.writeUint32(nullptr, m_id);}
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bool operator!=(const UniqueID32& other) const {return m_id != other.m_id;}
bool operator==(const UniqueID32& other) const {return m_id == other.m_id;}
uint32_t toUint32() const {return m_id;}
std::string toString() const
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{
char buf[9];
snprintf(buf, 9, "%08X", m_id);
return std::string(buf);
}
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};
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/* PAK 64-bit Unique ID */
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class UniqueID64 : public BigYAML
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{
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uint64_t m_id = 0xffffffffffffffff;
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public:
Delete expl;
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operator bool() const {return m_id != 0xffffffffffffffff;}
void read(Athena::io::IStreamReader& reader)
{m_id = reader.readUint64Big();}
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void write(Athena::io::IStreamWriter& writer) const
{writer.writeUint64Big(m_id);}
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void fromYAML(Athena::io::YAMLDocReader& reader)
{m_id = reader.readUint64(nullptr);}
void toYAML(Athena::io::YAMLDocWriter& writer) const
{writer.writeUint64(nullptr, m_id);}
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bool operator!=(const UniqueID64& other) const {return m_id != other.m_id;}
bool operator==(const UniqueID64& other) const {return m_id == other.m_id;}
uint64_t toUint64() const {return m_id;}
std::string toString() const
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{
char buf[17];
snprintf(buf, 17, "%016" PRIX64, m_id);
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return std::string(buf);
}
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};
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/* PAK 128-bit Unique ID */
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class UniqueID128 : public BigYAML
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{
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union
{
uint64_t m_id[2];
#if __SSE__
__m128i m_id128;
#endif
};
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public:
Delete expl;
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UniqueID128() {m_id[0]=0xffffffffffffffff; m_id[1]=0xffffffffffffffff;}
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operator bool() const
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{return m_id[0] != 0xffffffffffffffff && m_id[1] != 0xffffffffffffffff;}
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void read(Athena::io::IStreamReader& reader)
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{
m_id[0] = reader.readUint64Big();
m_id[1] = reader.readUint64Big();
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}
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void write(Athena::io::IStreamWriter& writer) const
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{
writer.writeUint64Big(m_id[0]);
writer.writeUint64Big(m_id[1]);
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}
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void fromYAML(Athena::io::YAMLDocReader& reader)
{
std::string str = reader.readString(nullptr);
while (str.size() < 32)
str += '0';
std::string hStr(str.begin(), str.begin() + 16);
std::string lStr(str.begin() + 16, str.begin() + 32);
m_id[0] = strtoull(hStr.c_str(), nullptr, 16);
m_id[1] = strtoull(lStr.c_str(), nullptr, 16);
}
void toYAML(Athena::io::YAMLDocWriter& writer) const
{
writer.writeString(nullptr, toString().c_str());
}
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bool operator!=(const UniqueID128& other) const
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{
#if __SSE__
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__m128i vcmp = _mm_cmpeq_epi32(m_id128, other.m_id128);
int vmask = _mm_movemask_epi8(vcmp);
return vmask != 0xffff;
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#else
return (m_id[0] != other.m_id[0]) || (m_id[1] != other.m_id[1]);
#endif
}
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bool operator==(const UniqueID128& other) const
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{
#if __SSE__
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__m128i vcmp = _mm_cmpeq_epi32(m_id128, other.m_id128);
int vmask = _mm_movemask_epi8(vcmp);
return vmask == 0xffff;
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#else
return (m_id[0] == other.m_id[0]) && (m_id[1] == other.m_id[1]);
#endif
}
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uint64_t toHighUint64() const {return m_id[0];}
uint64_t toLowUint64() const {return m_id[1];}
std::string toString() const
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{
char buf[33];
snprintf(buf, 33, "%016" PRIX64 "%016" PRIX64, m_id[0], m_id[1]);
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return std::string(buf);
}
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};
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/* Case-insensitive comparator for std::map sorting */
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struct CaseInsensitiveCompare
{
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bool operator()(const std::string& lhs, const std::string& rhs) const
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{
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#if _WIN32
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if (_stricmp(lhs.c_str(), rhs.c_str()) < 0)
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#else
if (strcasecmp(lhs.c_str(), rhs.c_str()) < 0)
#endif
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return true;
return false;
}
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#if _WIN32
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bool operator()(const std::wstring& lhs, const std::wstring& rhs) const
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{
if (_wcsicmp(lhs.c_str(), rhs.c_str()) < 0)
return true;
return false;
}
#endif
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};
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/* Word Bitmap reader/writer */
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class WordBitmap
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{
std::vector<atUint32> m_words;
size_t m_bitCount = 0;
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public:
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void read(Athena::io::IStreamReader& reader, size_t bitCount)
{
m_bitCount = bitCount;
size_t wordCount = (bitCount + 31) / 32;
m_words.clear();
m_words.reserve(wordCount);
for (size_t w=0 ; w<wordCount ; ++w)
m_words.push_back(reader.readUint32Big());
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}
void write(Athena::io::IStreamWriter& writer) const
{
for (atUint32 word : m_words)
writer.writeUint32(word);
}
size_t getBitCount() const {return m_bitCount;}
bool getBit(size_t idx) const
{
size_t wordIdx = idx / 32;
if (wordIdx >= m_words.size())
return false;
size_t wordCur = idx % 32;
return (m_words[wordIdx] >> wordCur) & 0x1;
}
void setBit(size_t idx)
{
size_t wordIdx = idx / 32;
while (wordIdx >= m_words.size())
m_words.push_back(0);
size_t wordCur = idx % 32;
m_words[wordIdx] |= (1 << wordCur);
}
void unsetBit(size_t idx)
{
size_t wordIdx = idx / 32;
while (wordIdx >= m_words.size())
m_words.push_back(0);
size_t wordCur = idx % 32;
m_words[wordIdx] &= ~(1 << wordCur);
}
void clear()
{
m_words.clear();
}
class Iterator : public std::iterator<std::forward_iterator_tag, bool>
{
friend class WordBitmap;
const WordBitmap& m_bmp;
size_t m_idx = 0;
Iterator(const WordBitmap& bmp, size_t idx) : m_bmp(bmp), m_idx(idx) {}
public:
Iterator& operator++() {++m_idx; return *this;}
bool operator*() {return m_bmp.getBit(m_idx);}
bool operator!=(const Iterator& other) const {return m_idx != other.m_idx;}
};
Iterator begin() const {return Iterator(*this, 0);}
Iterator end() const {return Iterator(*this, m_bitCount);}
};
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/* Resource cooker function */
typedef std::function<bool(const HECL::ProjectPath&, const HECL::ProjectPath&)> ResCooker;
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}
/* Hash template-specializations for UniqueID types */
namespace std
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{
template<>
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struct hash<Retro::DNAFourCC>
{
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size_t operator()(const Retro::DNAFourCC& fcc) const
{return fcc.toUint32();}
};
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template<>
struct hash<Retro::UniqueID32>
{
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size_t operator()(const Retro::UniqueID32& id) const
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{return id.toUint32();}
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};
template<>
struct hash<Retro::UniqueID64>
{
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size_t operator()(const Retro::UniqueID64& id) const
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{return id.toUint64();}
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};
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template<>
struct hash<Retro::UniqueID128>
{
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size_t operator()(const Retro::UniqueID128& id) const
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{return id.toHighUint64() ^ id.toLowUint64();}
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};
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}
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#endif // __DNA_COMMON_HPP__