void Spinner::ExportMesh(FILE *f)
{
char name[MAX_PATH];
char subObjName[MAX_PATH];
WideCharToMultiByte(CP_ACP, 0, m_wzName, -1, name, MAX_PATH, NULL, NULL);
std::vector<Vertex3D_NoTex2> transformedVertices;
vector<HitObject*> dummyHitObj;
const float height = m_ptable->GetSurfaceHeight(m_d.m_szSurface, m_d.m_vCenter.x, m_d.m_vCenter.y)*m_ptable->m_BG_scalez[m_ptable->m_BG_current_set];
m_posZ = height + m_d.m_height;
GetHitShapes(dummyHitObj);
if (m_d.m_fShowBracket)
{
strcpy_s(subObjName, name);
strcat_s(subObjName, "Bracket");
WaveFrontObj_WriteObjectName(f, subObjName);
fullMatrix.RotateZMatrix(ANGTORAD(m_d.m_rotation));
transformedVertices.resize(spinnerBracketNumVertices);
for (int i = 0; i < spinnerBracketNumVertices; i++)
{
Vertex3Ds vert(spinnerBracket[i].x, spinnerBracket[i].y, spinnerBracket[i].z);
vert = fullMatrix.MultiplyVector(vert);
transformedVertices[i].x = vert.x*m_d.m_length + m_d.m_vCenter.x;
transformedVertices[i].y = vert.y*m_d.m_length + m_d.m_vCenter.y;
transformedVertices[i].z = vert.z*m_d.m_length*m_ptable->m_BG_scalez[m_ptable->m_BG_current_set] + m_posZ;
vert = Vertex3Ds(spinnerBracket[i].nx, spinnerBracket[i].ny, spinnerBracket[i].nz);
vert = fullMatrix.MultiplyVectorNoTranslate(vert);
transformedVertices[i].nx = vert.x;
transformedVertices[i].ny = vert.y;
transformedVertices[i].nz = vert.z;
transformedVertices[i].tu = spinnerBracket[i].tu;
transformedVertices[i].tv = spinnerBracket[i].tv;
}
WaveFrontObj_WriteVertexInfo(f, transformedVertices.data(), spinnerBracketNumVertices);
const Material * mat = m_ptable->GetMaterial(m_d.m_szMaterial);
WaveFrontObj_WriteMaterial(m_d.m_szMaterial, NULL, mat);
WaveFrontObj_UseTexture(f, m_d.m_szMaterial);
WaveFrontObj_WriteFaceInfoList(f, spinnerBracketIndices, spinnerBracketNumFaces);
WaveFrontObj_UpdateFaceOffset(spinnerBracketNumVertices);
transformedVertices.clear();
}
transformedVertices.resize(spinnerPlateNumVertices);
vertexBuffer_spinneranimangle = -FLT_MAX;
UpdatePlate(transformedVertices.data());
strcpy_s(subObjName, name);
strcat_s(subObjName, "Plate");
WaveFrontObj_WriteObjectName(f, subObjName);
WaveFrontObj_WriteVertexInfo(f, transformedVertices.data(), spinnerPlateNumVertices);
WaveFrontObj_WriteFaceInfoList(f, spinnerPlateIndices, spinnerPlateNumFaces);
WaveFrontObj_UpdateFaceOffset(spinnerPlateNumVertices);
transformedVertices.clear();
}
void Bumper::ExportMesh(FILE *f)
{
char name[MAX_PATH];
char subObjName[MAX_PATH];
WideCharToMultiByte(CP_ACP, 0, m_wzName, -1, name, MAX_PATH, NULL, NULL);
m_baseHeight = m_ptable->GetSurfaceHeight(m_d.m_szSurface, m_d.m_vCenter.x, m_d.m_vCenter.y) * m_ptable->m_BG_scalez[m_ptable->m_BG_current_set];
m_fullMatrix.RotateZMatrix(ANGTORAD(m_d.m_orientation));
if (m_d.m_fBaseVisible)
{
Vertex3D_NoTex2 *base = new Vertex3D_NoTex2[bumperBaseNumVertices];
strcpy_s(subObjName, name);
strcat_s(subObjName, "Base");
WaveFrontObj_WriteObjectName(f, subObjName);
GenerateBaseMesh(base);
WaveFrontObj_WriteVertexInfo(f, base, bumperBaseNumVertices);
const Material * mat = m_ptable->GetMaterial(m_d.m_szBaseMaterial);
WaveFrontObj_WriteMaterial(m_d.m_szBaseMaterial, NULL, mat);
WaveFrontObj_UseTexture(f, m_d.m_szBaseMaterial);
WaveFrontObj_WriteFaceInfoList(f, bumperBaseIndices, bumperBaseNumFaces);
WaveFrontObj_UpdateFaceOffset(bumperBaseNumVertices);
delete[] base;
}
if (m_d.m_fRingVisible)
{
Vertex3D_NoTex2 *ring = new Vertex3D_NoTex2[bumperRingNumVertices];
strcpy_s(subObjName, name);
strcat_s(subObjName, "Ring");
WaveFrontObj_WriteObjectName(f, subObjName);
GenerateRingMesh(ring);
WaveFrontObj_WriteVertexInfo(f, ring, bumperRingNumVertices);
WaveFrontObj_WriteFaceInfoList(f, bumperRingIndices, bumperRingNumFaces);
WaveFrontObj_UpdateFaceOffset(bumperRingNumVertices);
delete[] ring;
}
if (m_d.m_fSkirtVisible)
{
Vertex3D_NoTex2 *socket = new Vertex3D_NoTex2[bumperSocketNumVertices];
strcpy_s(subObjName, name);
strcat_s(subObjName, "Socket");
WaveFrontObj_WriteObjectName(f, subObjName);
GenerateSocketMesh(socket);
WaveFrontObj_WriteVertexInfo(f, socket, bumperSocketNumVertices);
const Material * mat = m_ptable->GetMaterial(m_d.m_szSkirtMaterial);
WaveFrontObj_WriteMaterial(m_d.m_szSkirtMaterial, NULL, mat);
WaveFrontObj_UseTexture(f, m_d.m_szSkirtMaterial);
WaveFrontObj_WriteFaceInfoList(f, bumperSocketIndices, bumperSocketNumFaces);
WaveFrontObj_UpdateFaceOffset(bumperSocketNumVertices);
delete[] socket;
}
if (m_d.m_fCapVisible)
{
Vertex3D_NoTex2 *cap = new Vertex3D_NoTex2[bumperCapNumVertices];
strcpy_s(subObjName, name);
strcat_s(subObjName, "Cap");
WaveFrontObj_WriteObjectName(f, subObjName);
GenerateCapMesh(cap);
WaveFrontObj_WriteVertexInfo(f, cap, bumperCapNumVertices);
const Material * const mat = m_ptable->GetMaterial(m_d.m_szCapMaterial);
WaveFrontObj_WriteMaterial(m_d.m_szCapMaterial, NULL, mat);
WaveFrontObj_UseTexture(f, m_d.m_szCapMaterial);
WaveFrontObj_WriteFaceInfoList(f, bumperCapIndices, bumperCapNumFaces);
WaveFrontObj_UpdateFaceOffset(bumperCapNumVertices);
delete[] cap;
}
}
