mirror of https://github.com/AxioDL/metaforce.git
546 lines
13 KiB
C++
546 lines
13 KiB
C++
#include "ANCS.hpp"
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namespace DataSpec::DNAMP2 {
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template <>
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void ANCS::CharacterSet::CharacterInfo::Enumerate<BigDNA::Read>(typename Read::StreamT& reader) {
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idx = reader.readUint32Big();
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atUint16 sectionCount = reader.readUint16Big();
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name = reader.readString();
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cmdl.read(reader);
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cskr.read(reader);
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cinf.read(reader);
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atUint32 animationCount = reader.readUint32Big();
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reader.enumerate(animations, animationCount);
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pasDatabase.read(reader);
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atUint32 partCount = reader.readUint32Big();
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reader.enumerate(partResData.part, partCount);
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atUint32 swhcCount = reader.readUint32Big();
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reader.enumerate(partResData.swhc, swhcCount);
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atUint32 unkCount = reader.readUint32Big();
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reader.enumerate(partResData.unk, unkCount);
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atUint32 elscCount = reader.readUint32Big();
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reader.enumerate(partResData.elsc, elscCount);
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atUint32 spscCount = reader.readUint32Big();
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reader.enumerate(partResData.spsc, spscCount);
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atUint32 unkCount2 = reader.readUint32Big();
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if (unkCount2)
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abort();
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reader.enumerate(partResData.unk2, unkCount2);
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unk1 = reader.readUint32Big();
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animAABBs.clear();
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if (sectionCount > 1) {
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atUint32 aabbCount = reader.readUint32Big();
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reader.enumerate(animAABBs, aabbCount);
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}
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effects.clear();
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if (sectionCount > 2) {
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atUint32 effectCount = reader.readUint32Big();
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reader.enumerate(effects, effectCount);
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}
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if (sectionCount > 3) {
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cmdlIce.read(reader);
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cskrIce.read(reader);
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}
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animIdxs.clear();
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if (sectionCount > 4) {
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atUint32 aidxCount = reader.readUint32Big();
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reader.enumerateBig(animIdxs, aidxCount);
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}
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extents.clear();
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if (sectionCount > 9) {
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unk4 = reader.readUint32Big();
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unk5 = reader.readUByte();
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atUint32 extentsCount = reader.readUint32Big();
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reader.enumerate(extents, extentsCount);
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}
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}
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template <>
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void ANCS::CharacterSet::CharacterInfo::Enumerate<BigDNA::Write>(typename Write::StreamT& writer) {
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writer.writeUint32Big(idx);
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atUint16 sectionCount;
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if (unk4 || unk5 || extents.size())
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sectionCount = 10;
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else if (partResData.elsc.size())
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sectionCount = 6;
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else if (animIdxs.size())
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sectionCount = 5;
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else if (cmdlIce)
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sectionCount = 4;
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else if (effects.size())
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sectionCount = 3;
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else if (animAABBs.size())
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sectionCount = 2;
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else
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sectionCount = 1;
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writer.writeUint16Big(sectionCount);
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writer.writeString(name);
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cmdl.write(writer);
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cskr.write(writer);
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cinf.write(writer);
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writer.writeUint32Big(animations.size());
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writer.enumerate(animations);
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pasDatabase.write(writer);
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writer.writeUint32Big(partResData.part.size());
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writer.enumerate(partResData.part);
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writer.writeUint32Big(partResData.swhc.size());
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writer.enumerate(partResData.swhc);
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writer.writeUint32Big(partResData.unk.size());
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writer.enumerate(partResData.unk);
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writer.writeUint32Big(partResData.elsc.size());
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writer.enumerate(partResData.elsc);
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writer.writeUint32Big(partResData.spsc.size());
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writer.enumerate(partResData.spsc);
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writer.writeUint32Big(partResData.unk2.size());
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writer.enumerate(partResData.unk2);
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writer.writeUint32Big(unk1);
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if (sectionCount > 1) {
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writer.writeUint32Big(animAABBs.size());
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writer.enumerate(animAABBs);
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}
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if (sectionCount > 2) {
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writer.writeUint32Big(effects.size());
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writer.enumerate(effects);
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}
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if (sectionCount > 3) {
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cmdlIce.write(writer);
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cskrIce.write(writer);
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}
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if (sectionCount > 4) {
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writer.writeUint32Big(animIdxs.size());
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for (atUint32 idx : animIdxs)
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writer.writeUint32Big(idx);
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}
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if (sectionCount > 9) {
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writer.writeUint32Big(unk4);
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writer.writeUByte(unk5);
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writer.writeUint32Big(extents.size());
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writer.enumerate(extents);
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}
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}
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template <>
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void ANCS::CharacterSet::CharacterInfo::Enumerate<BigDNA::BinarySize>(typename BinarySize::StreamT& s) {
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atUint16 sectionCount;
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if (unk4 || unk5 || extents.size())
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sectionCount = 10;
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else if (partResData.elsc.size())
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sectionCount = 6;
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else if (animIdxs.size())
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sectionCount = 5;
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else if (cmdlIce)
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sectionCount = 4;
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else if (effects.size())
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sectionCount = 3;
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else if (animAABBs.size())
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sectionCount = 2;
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else
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sectionCount = 1;
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s += 6;
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s += name.size() + 1;
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s += 12;
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s += 4;
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for (const Animation& anim : animations)
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anim.binarySize(s);
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pasDatabase.binarySize(s);
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s += 4;
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for (const UniqueID32& id : partResData.part)
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id.binarySize(s);
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s += 4;
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for (const UniqueID32& id : partResData.swhc)
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id.binarySize(s);
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s += 4;
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for (const UniqueID32& id : partResData.unk)
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id.binarySize(s);
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s += 4;
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for (const UniqueID32& id : partResData.elsc)
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id.binarySize(s);
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s += 4;
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for (const UniqueID32& id : partResData.spsc)
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id.binarySize(s);
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s += 4;
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for (const UniqueID32& id : partResData.unk2)
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id.binarySize(s);
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s += 4;
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if (sectionCount > 1) {
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s += 4;
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for (const MP1CharacterInfo::ActionAABB& aabb : animAABBs)
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aabb.binarySize(s);
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}
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if (sectionCount > 2) {
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s += 4;
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for (const Effect& e : effects)
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e.binarySize(s);
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}
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if (sectionCount > 3)
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s += 8;
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if (sectionCount > 4)
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s += 4 + animIdxs.size() * 4;
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if (sectionCount > 9) {
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s += 9;
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for (const Extents& e : extents)
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e.binarySize(s);
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}
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}
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template <>
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void ANCS::CharacterSet::CharacterInfo::Enumerate<BigDNA::ReadYaml>(typename ReadYaml::StreamT& reader) {
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idx = reader.readUint32("idx");
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atUint16 sectionCount = reader.readUint16("sectionCount");
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name = reader.readString("name");
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reader.enumerate("animations", animations);
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reader.enumerate("pasDatabase", pasDatabase);
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reader.enumerate("part", partResData.part);
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reader.enumerate("swhc", partResData.swhc);
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reader.enumerate("unk", partResData.unk);
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reader.enumerate("elsc", partResData.elsc);
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reader.enumerate("spsc", partResData.spsc);
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reader.enumerate("unk2", partResData.unk2);
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unk1 = reader.readUint32("unk1");
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animAABBs.clear();
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if (sectionCount > 1) {
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reader.enumerate("part", animAABBs);
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}
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effects.clear();
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if (sectionCount > 2) {
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reader.enumerate("effects", effects);
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}
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if (sectionCount > 3) {
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reader.enumerate("cmdlIce", cmdlIce);
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}
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animIdxs.clear();
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if (sectionCount > 4) {
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reader.enumerate("animIdxs", animIdxs);
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}
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extents.clear();
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if (sectionCount > 9) {
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unk4 = reader.readUint32("unk4");
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unk5 = reader.readUByte("unk5");
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reader.enumerate("extents", extents);
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}
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}
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template <>
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void ANCS::CharacterSet::CharacterInfo::Enumerate<BigDNA::WriteYaml>(typename WriteYaml::StreamT& writer) {
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writer.writeUint32("idx", idx);
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atUint16 sectionCount;
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if (unk4 || unk5 || extents.size())
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sectionCount = 10;
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else if (partResData.elsc.size())
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sectionCount = 6;
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else if (animIdxs.size())
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sectionCount = 5;
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else if (cmdlIce)
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sectionCount = 4;
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else if (effects.size())
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sectionCount = 3;
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else if (animAABBs.size())
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sectionCount = 2;
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else
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sectionCount = 1;
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writer.writeUint16("sectionCount", sectionCount);
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writer.writeString("name", name);
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writer.enumerate("cmdl", cmdl);
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writer.enumerate("animations", animations);
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writer.enumerate("pasDatabase", pasDatabase);
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writer.enumerate("part", partResData.part);
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writer.enumerate("swhc", partResData.swhc);
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writer.enumerate("unk", partResData.unk);
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writer.enumerate("elsc", partResData.elsc);
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writer.enumerate("spsc", partResData.spsc);
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writer.enumerate("unk2", partResData.unk2);
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writer.writeUint32("unk1", unk1);
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if (sectionCount > 1) {
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writer.enumerate("animAABBs", animAABBs);
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}
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if (sectionCount > 2) {
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writer.enumerate("effects", effects);
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}
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if (sectionCount > 3) {
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writer.enumerate("cmdlIce", cmdlIce);
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}
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if (sectionCount > 4) {
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writer.enumerate("animIdxs", animIdxs);
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}
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if (sectionCount > 9) {
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writer.writeUint32("unk4", unk4);
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writer.writeUByte("unk5", unk5);
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writer.enumerate("extents", extents);
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}
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}
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const char* ANCS::CharacterSet::CharacterInfo::DNAType() { return "urde::DNAMP2::ANCS::CharacterSet::CharacterInfo"; }
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template <>
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void ANCS::AnimationSet::Enumerate<BigDNA::Read>(typename Read::StreamT& reader) {
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atUint16 sectionCount = reader.readUint16Big();
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atUint32 animationCount = reader.readUint32Big();
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reader.enumerate(animations, animationCount);
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atUint32 transitionCount = reader.readUint32Big();
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reader.enumerate(transitions, transitionCount);
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defaultTransition.read(reader);
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additiveAnims.clear();
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if (sectionCount > 1) {
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atUint32 additiveAnimCount = reader.readUint32Big();
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reader.enumerate(additiveAnims, additiveAnimCount);
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additiveDefaultFadeInDur = reader.readFloatBig();
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additiveDefaultFadeOutDur = reader.readFloatBig();
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}
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halfTransitions.clear();
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if (sectionCount > 2) {
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atUint32 halfTransitionCount = reader.readUint32Big();
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reader.enumerate(halfTransitions, halfTransitionCount);
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}
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evnts.clear();
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if (sectionCount > 3) {
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atUint32 evntsCount = reader.readUint32Big();
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reader.enumerate(evnts, evntsCount);
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}
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}
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template <>
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void ANCS::AnimationSet::Enumerate<BigDNA::Write>(typename Write::StreamT& writer) {
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atUint16 sectionCount;
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if (evnts.size())
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sectionCount = 4;
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else if (halfTransitions.size())
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sectionCount = 3;
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else if (additiveAnims.size())
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sectionCount = 2;
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else
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sectionCount = 1;
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writer.writeUint16Big(sectionCount);
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writer.writeUint32Big(animations.size());
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writer.enumerate(animations);
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writer.writeUint32Big(transitions.size());
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writer.enumerate(transitions);
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defaultTransition.write(writer);
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if (sectionCount > 1) {
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writer.writeUint32Big(additiveAnims.size());
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writer.enumerate(additiveAnims);
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writer.writeFloatBig(additiveDefaultFadeInDur);
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writer.writeFloatBig(additiveDefaultFadeOutDur);
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}
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if (sectionCount > 2) {
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writer.writeUint32Big(halfTransitions.size());
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writer.enumerate(halfTransitions);
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}
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if (sectionCount > 3) {
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writer.writeUint32Big(evnts.size());
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writer.enumerate(evnts);
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}
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}
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template <>
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void ANCS::AnimationSet::Enumerate<BigDNA::BinarySize>(typename BinarySize::StreamT& s) {
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atUint16 sectionCount;
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if (evnts.size())
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sectionCount = 4;
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else if (halfTransitions.size())
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sectionCount = 3;
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else if (additiveAnims.size())
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sectionCount = 2;
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else
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sectionCount = 1;
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s += 6;
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for (const MP1AnimationSet::Animation& anim : animations)
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anim.binarySize(s);
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s += 4;
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for (const MP1AnimationSet::Transition& trans : transitions)
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trans.binarySize(s);
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defaultTransition.binarySize(s);
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if (sectionCount > 1) {
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s += 4;
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for (const MP1AnimationSet::AdditiveAnimationInfo& aaInfo : additiveAnims)
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aaInfo.binarySize(s);
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s += 8;
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}
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if (sectionCount > 2) {
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s += 4;
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for (const MP1AnimationSet::HalfTransition& ht : halfTransitions)
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ht.binarySize(s);
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}
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if (sectionCount > 3) {
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s += 4;
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for (const EVNT& evnt : evnts)
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evnt.binarySize(s);
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}
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}
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template <>
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void ANCS::AnimationSet::Enumerate<BigDNA::ReadYaml>(typename ReadYaml::StreamT& reader) {
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atUint16 sectionCount = reader.readUint16("sectionCount");
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reader.enumerate("animations", animations);
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reader.enumerate("transitions", transitions);
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reader.enumerate("defaultTransition", defaultTransition);
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additiveAnims.clear();
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if (sectionCount > 1) {
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reader.enumerate("additiveAnims", additiveAnims);
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additiveDefaultFadeInDur = reader.readFloat("additiveDefaultFadeInDur");
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additiveDefaultFadeOutDur = reader.readFloat("additiveDefaultFadeOutDur");
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}
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halfTransitions.clear();
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if (sectionCount > 2) {
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reader.enumerate("halfTransitions", halfTransitions);
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}
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evnts.clear();
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if (sectionCount > 3) {
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reader.enumerate("evnts", evnts);
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}
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}
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template <>
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void ANCS::AnimationSet::Enumerate<BigDNA::WriteYaml>(typename WriteYaml::StreamT& writer) {
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atUint16 sectionCount;
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if (evnts.size())
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sectionCount = 4;
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else if (halfTransitions.size())
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sectionCount = 3;
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else if (additiveAnims.size())
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sectionCount = 2;
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else
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sectionCount = 1;
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writer.writeUint16("sectionCount", sectionCount);
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writer.enumerate("animations", animations);
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writer.enumerate("transitions", transitions);
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writer.enumerate("defaultTransition", defaultTransition);
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if (sectionCount > 1) {
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writer.enumerate("additiveAnims", additiveAnims);
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writer.writeFloat("additiveDefaultFadeInDur", additiveDefaultFadeInDur);
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writer.writeFloat("additiveDefaultFadeOutDur", additiveDefaultFadeOutDur);
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}
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if (sectionCount > 2) {
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writer.enumerate("halfTransitions", halfTransitions);
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}
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if (sectionCount > 3) {
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writer.enumerate("evnts", evnts);
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}
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}
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const char* ANCS::AnimationSet::DNAType() { return "urde::DNAMP2::ANCS::AnimationSet"; }
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template <class Op>
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void ANCS::AnimationSet::EVNT::Enumerate(typename Op::StreamT& s) {
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Do<Op>({"version"}, version, s);
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DoSize<Op>({"loopEventCount"}, loopEventCount, s);
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Do<Op>({"loopEvents"}, loopEvents, loopEventCount, s);
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if (version == 2) {
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DoSize<Op>({"uevtEventCount"}, uevtEventCount, s);
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Do<Op>({"uevtEvents"}, uevtEvents, uevtEventCount, s);
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}
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DoSize<Op>({"effectEventCount"}, effectEventCount, s);
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Do<Op>({"effectEvents"}, effectEvents, effectEventCount, s);
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DoSize<Op>({"sfxEventCount"}, sfxEventCount, s);
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Do<Op>({"sfxEvents"}, sfxEvents, sfxEventCount, s);
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}
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AT_SPECIALIZE_DNA(ANCS::AnimationSet::EVNT)
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const char* ANCS::AnimationSet::EVNT::DNAType() { return "urde::DNAMP2::ANCS::AnimationSet::EVNT"; }
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} // namespace DataSpec::DNAMP2
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