mirror of https://github.com/AxioDL/metaforce.git
451 lines
14 KiB
C++
451 lines
14 KiB
C++
#pragma once
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#include <cstdio>
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#include "logvisor/logvisor.hpp"
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#include "athena/DNAYaml.hpp"
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#include "hecl/Database.hpp"
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#include "../SpecBase.hpp"
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#include "boo/ThreadLocalPtr.hpp"
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#include "zeus/CColor.hpp"
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namespace DataSpec {
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struct SpecBase;
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extern logvisor::Module LogDNACommon;
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extern ThreadLocalPtr<SpecBase> g_curSpec;
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extern ThreadLocalPtr<class PAKRouterBase> g_PakRouter;
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extern ThreadLocalPtr<hecl::blender::Token> g_ThreadBlenderToken;
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/* This comes up a great deal */
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using BigDNA = athena::io::DNA<athena::Endian::Big>;
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using BigDNAV = athena::io::DNAV<athena::Endian::Big>;
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using BigDNAVYaml = athena::io::DNAVYaml<athena::Endian::Big>;
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/** FourCC with DNA read/write */
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using DNAFourCC = hecl::DNAFourCC;
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class DNAColor final : public BigDNA, public zeus::CColor {
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public:
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DNAColor() = default;
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DNAColor(const zeus::CColor& color) : zeus::CColor(color) {}
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AT_DECL_EXPLICIT_DNA_YAML
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};
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template <>
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inline void DNAColor::Enumerate<BigDNA::Read>(typename Read::StreamT& _r) {
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zeus::CColor::readRGBABig(_r);
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}
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template <>
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inline void DNAColor::Enumerate<BigDNA::Write>(typename Write::StreamT& _w) {
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zeus::CColor::writeRGBABig(_w);
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}
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template <>
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inline void DNAColor::Enumerate<BigDNA::ReadYaml>(typename ReadYaml::StreamT& _r) {
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size_t count;
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if (auto v = _r.enterSubVector(nullptr, count)) {
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zeus::simd_floats f;
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f[0] = (count >= 1) ? _r.readFloat(nullptr) : 0.f;
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f[1] = (count >= 2) ? _r.readFloat(nullptr) : 0.f;
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f[2] = (count >= 3) ? _r.readFloat(nullptr) : 0.f;
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f[3] = (count >= 4) ? _r.readFloat(nullptr) : 0.f;
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mSimd.copy_from(f);
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}
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}
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template <>
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inline void DNAColor::Enumerate<BigDNA::WriteYaml>(typename WriteYaml::StreamT& _w) {
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if (auto v = _w.enterSubVector(nullptr)) {
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zeus::simd_floats f(mSimd);
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_w.writeFloat(nullptr, f[0]);
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_w.writeFloat(nullptr, f[1]);
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_w.writeFloat(nullptr, f[2]);
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_w.writeFloat(nullptr, f[3]);
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}
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}
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template <>
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inline void DNAColor::Enumerate<BigDNA::BinarySize>(typename BinarySize::StreamT& _s) {
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_s += 16;
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}
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using FourCC = hecl::FourCC;
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class UniqueID32;
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class UniqueID64;
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class UniqueID128;
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/** Common virtual interface for runtime ambiguity resolution */
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class PAKRouterBase {
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protected:
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const SpecBase& m_dataSpec;
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public:
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PAKRouterBase(const SpecBase& dataSpec) : m_dataSpec(dataSpec) {}
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hecl::Database::Project& getProject() const { return m_dataSpec.getProject(); }
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virtual hecl::ProjectPath getWorking(const UniqueID32&, bool silenceWarnings = false) const {
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LogDNACommon.report(logvisor::Fatal, fmt("PAKRouter IDType mismatch; expected UniqueID32 specialization"));
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return hecl::ProjectPath();
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}
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virtual hecl::ProjectPath getWorking(const UniqueID64&, bool silenceWarnings = false) const {
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LogDNACommon.report(logvisor::Fatal, fmt("PAKRouter IDType mismatch; expected UniqueID64 specialization"));
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return hecl::ProjectPath();
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}
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virtual hecl::ProjectPath getWorking(const UniqueID128&, bool silenceWarnings = false) const {
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LogDNACommon.report(logvisor::Fatal, fmt("PAKRouter IDType mismatch; expected UniqueID128 specialization"));
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return hecl::ProjectPath();
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}
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};
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/** Globally-accessed manager allowing UniqueID* classes to directly
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* lookup destination paths of resources */
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class UniqueIDBridge {
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friend class UniqueID32;
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friend class UniqueID64;
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static ThreadLocalPtr<hecl::Database::Project> s_Project;
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static ThreadLocalPtr<IDRestorer<UniqueID32>> s_restorer32;
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static ThreadLocalPtr<IDRestorer<UniqueID64>> s_restorer64;
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static ThreadLocalPtr<IDRestorer<UniqueID128>> s_restorer128;
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public:
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template <class IDType>
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static hecl::ProjectPath TranslatePakIdToPath(const IDType& id, bool silenceWarnings = false);
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template <class IDType>
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static hecl::ProjectPath MakePathFromString(std::string_view str);
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template <class IDType>
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static void TransformOldHashToNewHash(IDType& id);
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static void SetThreadProject(hecl::Database::Project& project);
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template <class IDType>
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static IDRestorer<IDType>* GetIDRestorer();
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template <class IDType>
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static void SetIDRestorer(IDRestorer<IDType>* restorer);
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};
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template <>
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inline IDRestorer<UniqueID32>* UniqueIDBridge::GetIDRestorer<UniqueID32>() {
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return s_restorer32.get();
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}
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template <>
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inline void UniqueIDBridge::SetIDRestorer<UniqueID32>(IDRestorer<UniqueID32>* restorer) {
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s_restorer32.reset(restorer);
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}
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template <>
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inline IDRestorer<UniqueID64>* UniqueIDBridge::GetIDRestorer<UniqueID64>() {
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return s_restorer64.get();
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}
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template <>
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inline void UniqueIDBridge::SetIDRestorer<UniqueID64>(IDRestorer<UniqueID64>* restorer) {
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s_restorer64.reset(restorer);
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}
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template <>
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inline IDRestorer<UniqueID128>* UniqueIDBridge::GetIDRestorer<UniqueID128>() {
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return s_restorer128.get();
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}
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template <>
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inline void UniqueIDBridge::SetIDRestorer<UniqueID128>(IDRestorer<UniqueID128>* restorer) {
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s_restorer128.reset(restorer);
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}
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/** PAK 32-bit Unique ID */
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class UniqueID32 : public BigDNA {
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protected:
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uint32_t m_id = 0xffffffff;
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public:
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using value_type = uint32_t;
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static UniqueID32 kInvalidId;
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AT_DECL_EXPLICIT_DNA_YAML
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bool isValid() const { return m_id != 0xffffffff && m_id != 0; }
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void assign(uint32_t id, bool noOriginal = false);
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UniqueID32& operator=(const hecl::ProjectPath& path) {
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assign(path.hash().val32());
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return *this;
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}
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bool operator!=(const UniqueID32& other) const { return m_id != other.m_id; }
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bool operator==(const UniqueID32& other) const { return m_id == other.m_id; }
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bool operator<(const UniqueID32& other) const { return m_id < other.m_id; }
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uint32_t toUint32() const { return m_id; }
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uint64_t toUint64() const { return m_id; }
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std::string toString() const;
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void clear() { m_id = 0xffffffff; }
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UniqueID32() = default;
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UniqueID32(uint32_t idin, bool noOriginal = false) { assign(idin, noOriginal); }
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UniqueID32(athena::io::IStreamReader& reader) { read(reader); }
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UniqueID32(const hecl::ProjectPath& path) { *this = path; }
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UniqueID32(const char* hexStr) {
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char copy[9];
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strncpy(copy, hexStr, 8);
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copy[8] = '\0';
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assign(strtoul(copy, nullptr, 16));
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}
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UniqueID32(const wchar_t* hexStr) {
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wchar_t copy[9];
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wcsncpy(copy, hexStr, 8);
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copy[8] = L'\0';
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assign(wcstoul(copy, nullptr, 16));
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}
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static constexpr size_t BinarySize() { return 4; }
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};
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/** PAK 32-bit Unique ID - writes zero when invalid */
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class UniqueID32Zero : public UniqueID32 {
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public:
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AT_DECL_DNA_YAML
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Delete __d2;
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using UniqueID32::UniqueID32;
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};
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class AuxiliaryID32 : public UniqueID32 {
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const hecl::SystemChar* m_auxStr;
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const hecl::SystemChar* m_addExtension;
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UniqueID32 m_baseId;
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public:
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AT_DECL_DNA
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Delete __d2;
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AuxiliaryID32(const hecl::SystemChar* auxStr, const hecl::SystemChar* addExtension = nullptr)
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: m_auxStr(auxStr), m_addExtension(addExtension) {}
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AuxiliaryID32& operator=(const hecl::ProjectPath& path);
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AuxiliaryID32& operator=(const UniqueID32& id);
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const UniqueID32& getBaseId() const { return m_baseId; }
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};
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/** PAK 64-bit Unique ID */
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class UniqueID64 : public BigDNA {
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uint64_t m_id = 0xffffffffffffffff;
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public:
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using value_type = uint64_t;
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AT_DECL_EXPLICIT_DNA_YAML
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bool isValid() const { return m_id != 0xffffffffffffffff && m_id != 0; }
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void assign(uint64_t id, bool noOriginal = false);
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UniqueID64& operator=(const hecl::ProjectPath& path) {
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assign(path.hash().val64());
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return *this;
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}
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bool operator!=(const UniqueID64& other) const { return m_id != other.m_id; }
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bool operator==(const UniqueID64& other) const { return m_id == other.m_id; }
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bool operator<(const UniqueID64& other) const { return m_id < other.m_id; }
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uint64_t toUint64() const { return m_id; }
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std::string toString() const;
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void clear() { m_id = 0xffffffffffffffff; }
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UniqueID64() = default;
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UniqueID64(uint64_t idin, bool noOriginal = false) { assign(idin, noOriginal); }
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UniqueID64(athena::io::IStreamReader& reader) { read(reader); }
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UniqueID64(const hecl::ProjectPath& path) { *this = path; }
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UniqueID64(const char* hexStr) {
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char copy[17];
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std::strncpy(copy, hexStr, 16);
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copy[16] = '\0';
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assign(std::strtoull(copy, nullptr, 16));
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}
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UniqueID64(const wchar_t* hexStr) {
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wchar_t copy[17];
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std::wcsncpy(copy, hexStr, 16);
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copy[16] = L'\0';
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assign(std::wcstoull(copy, nullptr, 16));
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}
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static constexpr size_t BinarySize() { return 8; }
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};
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/** PAK 128-bit Unique ID */
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class UniqueID128 : public BigDNA {
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public:
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union Value {
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uint64_t id[2];
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#if __SSE__
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__m128i id128;
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#endif
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};
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private:
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Value m_id;
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public:
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using value_type = uint64_t;
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AT_DECL_EXPLICIT_DNA_YAML
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UniqueID128() {
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m_id.id[0] = 0xffffffffffffffff;
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m_id.id[1] = 0xffffffffffffffff;
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}
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UniqueID128(uint64_t idin, bool noOriginal = false) {
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m_id.id[0] = idin;
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m_id.id[1] = 0;
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}
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bool isValid() const {
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return m_id.id[0] != 0xffffffffffffffff && m_id.id[0] != 0 && m_id.id[1] != 0xffffffffffffffff && m_id.id[1] != 0;
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}
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UniqueID128& operator=(const hecl::ProjectPath& path) {
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m_id.id[0] = path.hash().val64();
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m_id.id[1] = 0;
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return *this;
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}
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UniqueID128(const hecl::ProjectPath& path) { *this = path; }
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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_id.id128, other.m_id.id128);
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int vmask = _mm_movemask_epi8(vcmp);
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return vmask != 0xffff;
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#else
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return (m_id.id[0] != other.m_id.id[0]) || (m_id.id[1] != other.m_id.id[1]);
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#endif
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}
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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_id.id128, other.m_id.id128);
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int vmask = _mm_movemask_epi8(vcmp);
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return vmask == 0xffff;
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#else
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return (m_id.id[0] == other.m_id.id[0]) && (m_id.id[1] == other.m_id.id[1]);
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#endif
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}
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bool operator<(const UniqueID128& other) const {
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return m_id.id[0] < other.m_id.id[0] || (m_id.id[0] == other.m_id.id[0] && m_id.id[1] < other.m_id.id[1]);
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}
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void clear() {
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m_id.id[0] = 0xffffffffffffffff;
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m_id.id[1] = 0xffffffffffffffff;
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}
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uint64_t toUint64() const { return m_id.id[0]; }
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uint64_t toHighUint64() const { return m_id.id[0]; }
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uint64_t toLowUint64() const { return m_id.id[1]; }
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std::string toString() const;
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static constexpr size_t BinarySize() { return 16; }
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};
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/** Casts ID type to its null-zero equivalent */
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template <class T>
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using CastIDToZero = typename std::conditional_t<std::is_same_v<T, UniqueID32>, UniqueID32Zero, T>;
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/** Word Bitmap reader/writer */
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class WordBitmap {
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std::vector<atUint32> m_words;
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size_t m_bitCount = 0;
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public:
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void read(athena::io::IStreamReader& reader, size_t bitCount);
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void write(athena::io::IStreamWriter& writer) const;
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void reserve(size_t bitCount) { m_words.reserve((bitCount + 31) / 32); }
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void binarySize(size_t& __isz) const;
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size_t getBitCount() const { return m_bitCount; }
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bool getBit(size_t idx) const {
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size_t wordIdx = idx / 32;
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if (wordIdx >= m_words.size())
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return false;
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size_t wordCur = idx % 32;
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return (m_words[wordIdx] >> wordCur) & 0x1;
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}
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void setBit(size_t idx) {
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size_t wordIdx = idx / 32;
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while (wordIdx >= m_words.size())
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m_words.push_back(0);
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size_t wordCur = idx % 32;
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m_words[wordIdx] |= (1 << wordCur);
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m_bitCount = std::max(m_bitCount, idx + 1);
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}
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void unsetBit(size_t idx) {
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size_t wordIdx = idx / 32;
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while (wordIdx >= m_words.size())
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m_words.push_back(0);
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size_t wordCur = idx % 32;
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m_words[wordIdx] &= ~(1 << wordCur);
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m_bitCount = std::max(m_bitCount, idx + 1);
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}
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void clear() {
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m_words.clear();
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m_bitCount = 0;
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}
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class Iterator {
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friend class WordBitmap;
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const WordBitmap& m_bmp;
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size_t m_idx = 0;
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Iterator(const WordBitmap& bmp, size_t idx) : m_bmp(bmp), m_idx(idx) {}
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public:
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using iterator_category = std::forward_iterator_tag;
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using value_type = bool;
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using difference_type = std::ptrdiff_t;
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using pointer = bool*;
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using reference = bool&;
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Iterator& operator++() {
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++m_idx;
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return *this;
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}
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bool operator*() const { return m_bmp.getBit(m_idx); }
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bool operator!=(const Iterator& other) const { return m_idx != other.m_idx; }
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};
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Iterator begin() const { return Iterator(*this, 0); }
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Iterator end() const { return Iterator(*this, m_bitCount); }
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};
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/** Resource cooker function */
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typedef std::function<bool(const hecl::ProjectPath&, const hecl::ProjectPath&)> ResCooker;
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/** Mappings of resources involved in extracting characters */
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template <class IDType>
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struct CharacterAssociations {
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using RigPair = std::pair<IDType, IDType>;
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/* CMDL -> (CSKR, CINF) */
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std::unordered_map<IDType, RigPair> m_cmdlRigs;
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/* (CSKR, CINF) -> ANCS */
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std::unordered_map<IDType, std::pair<IDType, std::string>> m_cskrCinfToCharacter;
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/* ANCS -> (CINF, CMDL) */
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std::unordered_multimap<IDType, std::pair<RigPair, std::string>> m_characterToAttachmentRigs;
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using MultimapIteratorPair =
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std::pair<typename std::unordered_multimap<IDType, std::pair<RigPair, std::string>>::const_iterator,
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typename std::unordered_multimap<IDType, std::pair<RigPair, std::string>>::const_iterator>;
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void addAttachmentRig(IDType character, IDType cinf, IDType cmdl, const char* name) {
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auto range = m_characterToAttachmentRigs.equal_range(character);
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for (auto it = range.first; it != range.second; ++it)
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if (it->second.second == name)
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return;
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m_characterToAttachmentRigs.insert(std::make_pair(character, std::make_pair(std::make_pair(cinf, cmdl), name)));
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}
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};
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} // namespace DataSpec
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/* Hash template-specializations for UniqueID types */
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namespace std {
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template <>
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struct hash<DataSpec::DNAFourCC> {
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size_t operator()(const DataSpec::DNAFourCC& fcc) const { return fcc.toUint32(); }
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};
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template <>
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struct hash<DataSpec::UniqueID32> {
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size_t operator()(const DataSpec::UniqueID32& id) const { return id.toUint32(); }
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};
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template <>
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struct hash<DataSpec::UniqueID64> {
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size_t operator()(const DataSpec::UniqueID64& id) const { return id.toUint64(); }
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};
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template <>
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struct hash<DataSpec::UniqueID128> {
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size_t operator()(const DataSpec::UniqueID128& id) const { return id.toHighUint64() ^ id.toLowUint64(); }
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};
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} // namespace std
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FMT_CUSTOM_FORMATTER(DataSpec::UniqueID32, "{:08X}", obj.toUint32())
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FMT_CUSTOM_FORMATTER(DataSpec::UniqueID64, "{:016X}", obj.toUint64())
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FMT_CUSTOM_FORMATTER(DataSpec::UniqueID128, "{:016X}{:016X}", obj.toHighUint64(), obj.toLowUint64())
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