664 lines
19 KiB
C++
664 lines
19 KiB
C++
#include "CKMesh.hpp"
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#include "../CKStateChunk.hpp"
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#include "../CKContext.hpp"
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#include "CKMaterial.hpp"
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namespace LibCmo::CK2::ObjImpls {
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CKMesh::CKMesh(CKContext* ctx, CK_ID ckid, CKSTRING name) :
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CKBeObject(ctx, ckid, name),
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// init vertex
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m_VertexCount(0),
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m_VertexPosition(), m_VertexNormal(), m_VertexUV(),
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m_VertexColor(), m_VertexSpecularColor(),
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// init mtl slots
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m_MtlSlotCount(0),
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m_MaterialSlot(),
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// init face data
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m_FaceCount(0),
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m_FaceIndices(), m_FaceMtlIndex(), m_FaceOthers(),
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// init line
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m_LineCount(0),
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m_LineIndices(),
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// init flags
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m_Flags(EnumsHelper::Merge({
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VxMath::VXMESH_FLAGS::VXMESH_FORCETRANSPARENCY,
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VxMath::VXMESH_FLAGS::VXMESH_HASTRANSPARENCY
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})) {
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// set visible in default
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EnumsHelper::Add(m_ObjectFlags, CK_OBJECT_FLAGS::CK_OBJECT_VISIBLE);
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}
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CKMesh::~CKMesh() {}
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void CKMesh::CheckPreDeletion() {
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CKBeObject::CheckPreDeletion();
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// check material slots
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for (auto& slot : m_MaterialSlot) {
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if (slot != nullptr && slot->IsToBeDeleted()) {
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slot = nullptr;
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}
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}
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}
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bool CKMesh::Save(CKStateChunk* chunk, CKFileVisitor* file, CKDWORD flags) {
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bool suc = CKBeObject::Save(chunk, file, flags);
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if (!suc) return false;
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// write mesh flags
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{
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chunk->WriteIdentifier(CK_STATESAVEFLAGS_MESH::CK_STATESAVE_MESHFLAGS);
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chunk->WriteStruct(m_Flags);
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}
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// write material slots
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if (GetMaterialSlotCount() != 0) {
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chunk->WriteIdentifier(CK_STATESAVEFLAGS_MESH::CK_STATESAVE_MESHMATERIALS);
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chunk->WriteStruct(GetMaterialSlotCount());
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for (auto& mtlSlot : m_MaterialSlot) {
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// write object id
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chunk->WriteObjectPointer(mtlSlot);
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// MARK: write a zero? idk what the fuck it is.
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chunk->WriteStruct(static_cast<CKDWORD>(0));
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}
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}
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// write face data
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if (GetFaceCount() != 0) {
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CKDWORD faceCount = GetFaceCount();
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chunk->WriteIdentifier(CK_STATESAVEFLAGS_MESH::CK_STATESAVE_MESHFACES);
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chunk->WriteStruct(faceCount);
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// write compressed data, see Read for more info about this struct
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// lock buffer first
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auto buf = chunk->LockWriteBufferWrapper(faceCount * CKSizeof(CKDWORD) * 2);
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CKWORD* rawbuf = static_cast<CKWORD*>(buf.get());
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// copy indice
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VxMath::VxCopyStructure(
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faceCount,
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rawbuf,
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2 * CKSizeof(CKDWORD),
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3 * CKSizeof(CKWORD),
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m_FaceIndices.data(),
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3 * CKSizeof(CKWORD)
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);
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// copy mtl index
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VxMath::VxCopyStructure(
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faceCount,
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rawbuf + 3,
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2 * CKSizeof(CKDWORD),
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CKSizeof(CKWORD),
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m_FaceMtlIndex.data(),
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CKSizeof(CKWORD)
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);
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// free buf
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buf.reset();
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}
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// write line data
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if (GetLineCount() != 0) {
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CKDWORD lineCount = GetLineCount();
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chunk->WriteIdentifier(CK_STATESAVEFLAGS_MESH::CK_STATESAVE_MESHLINES);
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chunk->WriteStruct(lineCount);
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chunk->WriteBuffer(m_LineIndices.data(), CKSizeof(CKWORD) * 2 * lineCount);
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}
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// write vertex data
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if (GetVertexCount() != 0) {
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CKDWORD vtxCount = GetVertexCount();
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chunk->WriteIdentifier(CK_STATESAVEFLAGS_MESH::CK_STATESAVE_MESHVERTICES);
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chunk->WriteStruct(vtxCount);
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// construct vertex save flags
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// and save it
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VertexSaveFlags saveflags = GenerateSaveFlags();
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chunk->WriteStruct(saveflags);
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// reserve enough space for full data written, but we can specify the real consumed size later
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// we also need calc the consumed size when writing file
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auto buf = chunk->LockWriteBufferWrapper((
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CKSizeof(VxMath::VxVector3) + // vertex position
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CKSizeof(CKDWORD) + CKSizeof(CKDWORD) + // color and specular color
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CKSizeof(VxMath::VxVector3) + // vertex normal
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CKSizeof(VxMath::VxVector2) // vertex uv
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) * vtxCount); // mul vertex count
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CKBYTE* rawbuf = static_cast<CKBYTE*>(buf.get());
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// reserve length data
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CKDWORD* reservedBufDwordSize = reinterpret_cast<CKDWORD*>(rawbuf);
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rawbuf += CKSizeof(CKDWORD);
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// write vertex position
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if (!EnumsHelper::Has(saveflags, VertexSaveFlags::NoPos)) {
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CKDWORD consumed = CKSizeof(VxMath::VxVector3) * vtxCount;
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std::memcpy(rawbuf, m_VertexPosition.data(), consumed);
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rawbuf += consumed;
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}
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// write color and specular color
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{
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CKDWORD consumed = 0;
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if (!EnumsHelper::Has(saveflags, VertexSaveFlags::SingleColor)) {
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consumed = CKSizeof(CKDWORD) * vtxCount;
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} else {
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consumed = CKSizeof(CKDWORD);
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}
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std::memcpy(rawbuf, m_VertexColor.data(), consumed);
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rawbuf += consumed;
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}
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{
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CKDWORD consumed = 0;
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if (!EnumsHelper::Has(saveflags, VertexSaveFlags::SingleSpecularColor)) {
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consumed = CKSizeof(CKDWORD) * vtxCount;
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} else {
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consumed = CKSizeof(CKDWORD);
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}
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std::memcpy(rawbuf, m_VertexSpecularColor.data(), consumed);
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rawbuf += consumed;
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}
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// write normal
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if (!EnumsHelper::Has(saveflags, VertexSaveFlags::NoNormal)) {
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CKDWORD consumed = CKSizeof(VxMath::VxVector3) * vtxCount;
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std::memcpy(rawbuf, m_VertexNormal.data(), consumed);
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rawbuf += consumed;
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}
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// write uv
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{
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CKDWORD consumed = 0;
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if (!EnumsHelper::Has(saveflags, VertexSaveFlags::SingleUV)) {
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consumed = CKSizeof(VxMath::VxVector2) * vtxCount;
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} else {
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consumed = CKSizeof(VxMath::VxVector2);
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}
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std::memcpy(rawbuf, m_VertexUV.data(), consumed);
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rawbuf += consumed;
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}
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// calc real consumed size
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CKDWORD realConsumedSize = rawbuf - static_cast<CKBYTE*>(buf.get());
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// assign to reserved length field
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// length also include length indicator it self
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*reservedBufDwordSize = realConsumedSize / CKSizeof(CKDWORD);
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// notify buffer real consumed size
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buf.get_deleter().SetConsumedSize(realConsumedSize);
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// free buffer
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buf.reset();
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}
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chunk->SetClassId(CK_CLASSID::CKCID_MESH);
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return true;
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}
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bool CKMesh::Load(CKStateChunk* chunk, CKFileVisitor* file) {
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bool suc = CKBeObject::Load(chunk, file);
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if (!suc) return false;
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// clear all data
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CleanMesh();
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// check data version.
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// MARK: too low data is not supported.
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// because my work are not related to them
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if (chunk->GetDataVersion() < CK_STATECHUNK_DATAVERSION::CHUNK_MESHCHANGE_VERSION) {
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return false;
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}
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// read flag
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if (chunk->SeekIdentifier(CK_STATESAVEFLAGS_MESH::CK_STATESAVE_MESHFLAGS)) {
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chunk->ReadStruct(m_Flags);
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EnumsHelper::Mask(m_Flags, VxMath::VXMESH_FLAGS::VXMESH_ALLFLAGS);
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// I don't know why, just interpter the IDA code.
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EnumsHelper::Rm(m_Flags, EnumsHelper::Merge({
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VxMath::VXMESH_FLAGS::VXMESH_BOUNDINGUPTODATE,
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VxMath::VXMESH_FLAGS::VXMESH_OPTIMIZED
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}));
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}
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// read material slots
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if (chunk->SeekIdentifier(CK_STATESAVEFLAGS_MESH::CK_STATESAVE_MESHMATERIALS)) {
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// get and set material count
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CKDWORD mtlCount;
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chunk->ReadStruct(mtlCount);
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SetMaterialSlotCount(mtlCount);
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// read slot
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CKDWORD ph;
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CKObject* objptr = nullptr;
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for (auto& mtlSlot : m_MaterialSlot) {
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// read id
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chunk->ReadObjectPointer(objptr);
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// and read a place holder idk what the fuck it is.
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chunk->ReadStruct(ph);
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// try to assign
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if (objptr != nullptr && objptr->GetClassID() == CK_CLASSID::CKCID_MATERIAL) {
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mtlSlot = static_cast<CKMaterial*>(objptr);
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} else {
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mtlSlot = nullptr;
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}
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}
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}
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// read vertex data
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VertexSaveFlags saveflags = VertexSaveFlags::None;
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if (chunk->SeekIdentifier(CK_STATESAVEFLAGS_MESH::CK_STATESAVE_MESHVERTICES)) {
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// read and set vertex count
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CKDWORD vertexCount;
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chunk->ReadStruct(vertexCount);
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SetVertexCount(vertexCount);
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if (vertexCount != 0) {
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// read save flags
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chunk->ReadStruct(saveflags);
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// read size in dword (including it self)
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CKDWORD sizeInDword;
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chunk->ReadStruct(sizeInDword);
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--sizeInDword; // remove self.
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// lock read buffer
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auto buf = chunk->LockReadBufferWrapper(sizeInDword * CKSizeof(CKDWORD));
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const CKBYTE* rawbuf = static_cast<const CKBYTE*>(buf.get());
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// copy position if it have
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if (!EnumsHelper::Has(saveflags, VertexSaveFlags::NoPos)) {
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CKDWORD consumed = CKSizeof(VxMath::VxVector3) * vertexCount;
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std::memcpy(m_VertexPosition.data(), rawbuf, consumed);
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rawbuf += consumed;
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}
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// copy color or apply single color
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if (!EnumsHelper::Has(saveflags, VertexSaveFlags::SingleColor)) {
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CKDWORD consumed = CKSizeof(CKDWORD) * vertexCount;
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std::memcpy(m_VertexColor.data(), rawbuf, consumed);
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rawbuf += consumed;
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} else {
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VxMath::VxCopyStructure(
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vertexCount,
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m_VertexColor.data(),
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CKSizeof(CKDWORD),
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CKSizeof(CKDWORD),
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rawbuf,
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0 // InStride = 0 to make sure copy this single value to every elements.
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);
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rawbuf += CKSizeof(CKDWORD);
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}
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// copy specular color or apply a single color
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if (!EnumsHelper::Has(saveflags, VertexSaveFlags::SingleSpecularColor)) {
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CKDWORD consumed = CKSizeof(CKDWORD) * vertexCount;
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std::memcpy(m_VertexSpecularColor.data(), rawbuf, consumed);
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rawbuf += consumed;
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} else {
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VxMath::VxCopyStructure(
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vertexCount,
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m_VertexSpecularColor.data(),
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CKSizeof(CKDWORD),
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CKSizeof(CKDWORD),
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rawbuf,
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0 // InStride = 0 to make sure copy this single value to every elements.
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);
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rawbuf += CKSizeof(CKDWORD);
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}
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// copy normals if it has
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if (!EnumsHelper::Has(saveflags, VertexSaveFlags::NoNormal)) {
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CKDWORD consumed = CKSizeof(VxMath::VxVector3) * vertexCount;
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std::memcpy(m_VertexNormal.data(), rawbuf, consumed);
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rawbuf += consumed;
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}
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// copy uv or apply single uv
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if (!EnumsHelper::Has(saveflags, VertexSaveFlags::SingleUV)) {
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CKDWORD consumed = CKSizeof(VxMath::VxVector2) * vertexCount;
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std::memcpy(m_VertexUV.data(), rawbuf, consumed);
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rawbuf += consumed;
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} else {
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VxMath::VxCopyStructure(
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vertexCount,
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m_VertexUV.data(),
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CKSizeof(VxMath::VxVector2),
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CKSizeof(VxMath::VxVector2),
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rawbuf,
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0 // InStride = 0 to make sure copy this single value to every elements.
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);
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rawbuf += CKSizeof(VxMath::VxVector2);
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}
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// free buf
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buf.reset();
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}
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}
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// read face data
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if (chunk->SeekIdentifier(CK_STATESAVEFLAGS_MESH::CK_STATESAVE_MESHFACES)) {
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// read face count and set
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CKDWORD faceCount;
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chunk->ReadStruct(faceCount);
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SetFaceCount(faceCount);
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// lock buffer
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auto buf = chunk->LockReadBufferWrapper(faceCount * CKSizeof(CKDWORD) * 2);
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const CKWORD* rawbuf = static_cast<const CKWORD*>(buf.get());
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// each face use 2 CKDWORD to describe
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// first CKDWORD describe first 2 face vertex indices
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// HIGH >>> 0xFFFF(indice 1) 0xFFFF(indice 0) <<< LOW
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// second CKDWORD describe the third indices and used material slot index
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// HIGH >>> 0xFFFF(mtl slot index) 0xFFFF(indice 2) <<< LOW
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// due to little endian, the data listed before are placed in memory like this:
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// (indice 0) (indice 1) (indice 2) (mtl idx)
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// copy indice
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VxMath::VxCopyStructure(
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faceCount,
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m_FaceIndices.data(),
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3 * CKSizeof(CKWORD),
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3 * CKSizeof(CKWORD),
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rawbuf,
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2 * CKSizeof(CKDWORD)
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);
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// copy mtl index
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VxMath::VxCopyStructure(
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faceCount,
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m_FaceMtlIndex.data(),
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CKSizeof(CKWORD),
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CKSizeof(CKWORD),
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rawbuf + 3,
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2 * CKSizeof(CKDWORD)
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);
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// free buf
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buf.reset();
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}
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// read line data
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if (chunk->SeekIdentifier(CK_STATESAVEFLAGS_MESH::CK_STATESAVE_MESHLINES)) {
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// read and set line count;
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CKDWORD lineCount;
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chunk->ReadStruct(lineCount);
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SetLineCount(lineCount);
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chunk->ReadAndFillBuffer(m_LineIndices.data());
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}
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// build normals
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if (EnumsHelper::Has(saveflags, VertexSaveFlags::NoNormal)) {
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BuildNormals();
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} else {
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BuildFaceNormals();
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}
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// MARK: material channels, vertex weight, face mask added originally
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// but removed at Oct 1st, 2023 because I will not use them and I couldn't test them.
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// MARK: progressive mesh data is dropper.
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return true;
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}
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void CKMesh::Show(CK_OBJECT_SHOWOPTION show) {
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CKObject::Show(show);
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if (show == CK_OBJECT_SHOWOPTION::CKSHOW) {
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EnumsHelper::Add(m_Flags, VxMath::VXMESH_FLAGS::VXMESH_VISIBLE);
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} else {
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EnumsHelper::Rm(m_Flags, VxMath::VXMESH_FLAGS::VXMESH_VISIBLE);
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}
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}
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#pragma region Misc Section
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void CKMesh::CleanMesh() {
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SetVertexCount(0);
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SetMaterialSlotCount(0);
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SetFaceCount(0);
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SetLineCount(0);
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}
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VxMath::VXMESH_FLAGS CKMesh::GetMeshFlags() const {
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return m_Flags;
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}
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CKMesh::VertexSaveFlags CKMesh::GenerateSaveFlags() {
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// set to initial status
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VertexSaveFlags saveflags = EnumsHelper::Merge({
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VertexSaveFlags::SingleColor,
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VertexSaveFlags::SingleSpecularColor,
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VertexSaveFlags::NoNormal,
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VertexSaveFlags::SingleUV
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});
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// check no pos
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// if position is generated, skip saving position
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if (EnumsHelper::Has(m_Flags, VxMath::VXMESH_FLAGS::VXMESH_PROCEDURALPOS)) {
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EnumsHelper::Add(saveflags, VertexSaveFlags::NoPos);
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}
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// check uv
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// if uv is not generated and all uv are not the same value, remove single uv
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if (!EnumsHelper::Has(m_Flags, VxMath::VXMESH_FLAGS::VXMESH_PROCEDURALUV)) {
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for (const auto& uv : m_VertexUV) {
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if (uv != m_VertexUV.front()) {
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EnumsHelper::Rm(saveflags, VertexSaveFlags::SingleUV);
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break;
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}
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}
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}
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// check color and specular color
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// if all color are not the same value, remove single color
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for (const auto& col : m_VertexColor) {
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if (col != m_VertexColor.front()) {
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EnumsHelper::Rm(saveflags, VertexSaveFlags::SingleColor);
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break;
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}
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}
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for (const auto& col : m_VertexSpecularColor) {
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if (col != m_VertexSpecularColor.front()) {
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EnumsHelper::Rm(saveflags, VertexSaveFlags::SingleSpecularColor);
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break;
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}
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}
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// if normal not changed, and position is not generated, we should consider whether we need save normal (step into if)
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if (!EnumsHelper::Has(m_Flags, EnumsHelper::Merge({ VxMath::VXMESH_FLAGS::VXMESH_NORMAL_CHANGED, VxMath::VXMESH_FLAGS::VXMESH_PROCEDURALPOS }))) {
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// MARK: we should build face normal first
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// then we build vertex normal like BuildNormals.
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// then, we compare the difference between the generated normals and user specified normals, by simply using operator- (userNml - generatedNml) and abs the result.
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// then we accumulate these difference, by simply adding them together.
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// then we div the accumulation by the count of vertex, we got a normalized accumulated difference.
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// we compare its length with 0.001. if is length is lower than 0.001, it prove that the difference is enough small and we can skip normal save.
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// othersize we should save normal one by one.
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BuildFaceNormals();
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// init generated nml list first
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XContainer::XArray<VxMath::VxVector3> generated(m_VertexCount, VxMath::VxVector3());
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// and accumulated for each normal
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for (CKDWORD fid = 0; fid < m_FaceCount; ++fid) {
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generated[m_FaceIndices[fid * 3]] += m_FaceOthers[fid].m_Normal;
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generated[m_FaceIndices[fid * 3 + 1]] += m_FaceOthers[fid].m_Normal;
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generated[m_FaceIndices[fid * 3 + 2]] += m_FaceOthers[fid].m_Normal;
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}
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// init accumulated difference vector first
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VxMath::VxVector3 accnml;
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// accumulate difference
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for (CKDWORD vid = 0; vid < m_VertexCount; ++vid) {
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// normalize generated normal first
|
|
generated[vid].Normalized();
|
|
// get diff by distance
|
|
VxMath::VxVector3 diff = m_VertexNormal[vid] - generated[vid];
|
|
// abs the diff and add into accumulated diff
|
|
VxMath::NSVxVector::Abs(diff);
|
|
accnml += diff;
|
|
}
|
|
|
|
// div by vertex count and compare its length
|
|
accnml /= static_cast<CKFLOAT>(m_VertexCount);
|
|
if (accnml.Length() > 0.001f) {
|
|
// too large difference, we need save normal
|
|
EnumsHelper::Rm(saveflags, VertexSaveFlags::NoNormal);
|
|
}
|
|
|
|
}
|
|
|
|
return saveflags;
|
|
}
|
|
|
|
void CKMesh::BuildNormals() {
|
|
if (m_FaceCount == 0 || m_VertexCount == 0) return;
|
|
|
|
// build face normal first
|
|
BuildFaceNormals();
|
|
|
|
// iterate all face and add face normal to each point's normal
|
|
for (CKDWORD fid = 0; fid < m_FaceCount; ++fid) {
|
|
m_VertexNormal[m_FaceIndices[fid * 3]] += m_FaceOthers[fid].m_Normal;
|
|
m_VertexNormal[m_FaceIndices[fid * 3 + 1]] += m_FaceOthers[fid].m_Normal;
|
|
m_VertexNormal[m_FaceIndices[fid * 3 + 2]] += m_FaceOthers[fid].m_Normal;
|
|
}
|
|
|
|
// then normalize all vertex normal
|
|
for (auto& nml : m_VertexNormal) {
|
|
nml.Normalized();
|
|
}
|
|
}
|
|
|
|
void CKMesh::BuildFaceNormals() {
|
|
if (m_FaceCount == 0 || m_VertexCount == 0) return;
|
|
|
|
// iertate all face to build face normal according to position data
|
|
for (CKDWORD fid = 0; fid < m_FaceCount; ++fid) {
|
|
VxMath::VxVector3 *p0 = &m_VertexPosition[m_FaceIndices[fid * 3]];
|
|
|
|
VxMath::VxVector3 p0_p1 = m_VertexPosition[m_FaceIndices[fid * 3 + 1]] - *p0,
|
|
p0_p2 = m_VertexPosition[m_FaceIndices[fid * 3 + 2]] - *p0;
|
|
|
|
// cross product to get normal
|
|
// and normalize it
|
|
VxMath::VxVector3 nml = VxMath::NSVxVector::CrossProduct(p0_p1, p0_p2);
|
|
nml.Normalized();
|
|
|
|
// assign it
|
|
m_FaceOthers[fid].m_Normal = nml;
|
|
}
|
|
}
|
|
|
|
#pragma endregion
|
|
|
|
#pragma region Vertex Section
|
|
|
|
CKDWORD CKMesh::GetVertexCount() const {
|
|
return m_VertexCount;
|
|
}
|
|
|
|
void CKMesh::SetVertexCount(CKDWORD count) {
|
|
m_VertexCount = count;
|
|
m_VertexPosition.resize(count);
|
|
m_VertexNormal.resize(count);
|
|
m_VertexUV.resize(count);
|
|
m_VertexColor.resize(count, 0xFFFFFFFF);
|
|
m_VertexSpecularColor.resize(count, 0x00000000);
|
|
}
|
|
|
|
VxMath::VxVector3* CKMesh::GetVertexPositions() {
|
|
return m_VertexPosition.data();
|
|
}
|
|
|
|
VxMath::VxVector3* CKMesh::GetVertexNormals() {
|
|
return m_VertexNormal.data();
|
|
}
|
|
|
|
VxMath::VxVector2* CKMesh::GetVertexUVs() {
|
|
return m_VertexUV.data();
|
|
}
|
|
|
|
CKDWORD* CKMesh::GetVertexColors() {
|
|
return m_VertexColor.data();
|
|
}
|
|
|
|
CKDWORD* CKMesh::GetVertexSpecularColors() {
|
|
return m_VertexSpecularColor.data();
|
|
}
|
|
|
|
#pragma endregion
|
|
|
|
#pragma region Material Slot Section
|
|
|
|
CKDWORD CKMesh::GetMaterialSlotCount() const {
|
|
return m_MtlSlotCount;
|
|
}
|
|
|
|
void CKMesh::SetMaterialSlotCount(CKDWORD count) {
|
|
m_MtlSlotCount = count;
|
|
m_MaterialSlot.resize(count, nullptr);
|
|
}
|
|
|
|
CKMaterial** CKMesh::GetMaterialSlots() {
|
|
return m_MaterialSlot.data();
|
|
}
|
|
|
|
#pragma endregion
|
|
|
|
#pragma region Face Section
|
|
|
|
CKDWORD CKMesh::GetFaceCount() const {
|
|
return m_FaceCount;
|
|
}
|
|
|
|
void CKMesh::SetFaceCount(CKDWORD count) {
|
|
m_FaceCount = count;
|
|
m_FaceIndices.resize(count * 3, 0);
|
|
m_FaceMtlIndex.resize(count, 0);
|
|
m_FaceOthers.resize(count);
|
|
}
|
|
|
|
CKWORD* CKMesh::GetFaceIndices() {
|
|
return m_FaceIndices.data();
|
|
}
|
|
|
|
CKWORD* CKMesh::GetFaceMaterialSlotIndexs() {
|
|
return m_FaceIndices.data();
|
|
}
|
|
|
|
VxMath::VxVector3* CKMesh::GetFaceNormals(CKDWORD& stride) {
|
|
stride = CKSizeof(FaceData_t);
|
|
return &m_FaceOthers.data()->m_Normal;
|
|
}
|
|
|
|
#pragma endregion
|
|
|
|
#pragma region Line Section
|
|
|
|
CKDWORD CKMesh::GetLineCount() const {
|
|
return m_LineCount;
|
|
}
|
|
|
|
void CKMesh::SetLineCount(CKDWORD count) {
|
|
m_LineCount = count;
|
|
m_LineIndices.resize(count * 2, 0);
|
|
}
|
|
|
|
CKWORD* CKMesh::GetLineIndices() {
|
|
return m_LineIndices.data();
|
|
}
|
|
|
|
#pragma endregion
|
|
|
|
}
|