//----------------------------------------------------------------------------------
// dump material textures
void DumpTexture(m_material *pMat, IGameMaterial *pGMaxMat)
{
std::vector<tex_channel> bk_tex_channel;
std::vector<unsigned int> bk_tex_idx;
std::vector<MatTextureInfo> TexInfos;
int texCount = pGMaxMat->GetNumberOfTextureMaps();
for (int i = 0; i < texCount; ++i)
{
IGameTextureMap * pGMaxTex = pGMaxMat->GetIGameTextureMap(i);
int tex_type = pGMaxTex->GetStdMapSlot();
if (pGMaxTex->IsEntitySupported() && tex_type >= 0) //its a bitmap texture
{
MatTextureInfo TexInfo;
tex_channel tc;
TexInfo.mat_id = pMat->id;
m_texture * pTex = new m_texture;
std::string pathname = pGMaxTex->GetBitmapFileName();
int idx = (int)pathname.rfind('\\');
if (idx == INDEX_NONE){
idx = (int)pathname.rfind('/');
}
std::string filename = pathname.substr(idx + 1, INDEX_NONE);
pTex->name = filename;
// set the texture xform...
IGameUVGen *pUVGen = pGMaxTex->GetIGameUVGen();
GMatrix UVMat = pUVGen->GetUVTransform();
TexInfo.tex_mat = pTex->tex_mat = (scalar*)UVMat.GetAddr(); // save mapping matrix
// get the uv channel to use...
Texmap *pTMap = pGMaxTex->GetMaxTexmap();
BitmapTex *pBTex = (BitmapTex*)pTMap;
StdUVGen *pStdUVGen = pBTex->GetUVGen();
if (pStdUVGen){
tc.channel = pStdUVGen->GetMapChannel() - 1;
}
IParamBlock2 *pUVWCropParam = (IParamBlock2*)(pBTex->GetReference(1));
if (pUVWCropParam)
{
pUVWCropParam->GetValue(0, ExporterMAX::GetExporter()->GetStaticFrame(), TexInfo.uv_offset.x, FOREVER);
pUVWCropParam->GetValue(1, ExporterMAX::GetExporter()->GetStaticFrame(), TexInfo.uv_offset.y, FOREVER);
pUVWCropParam->GetValue(2, ExporterMAX::GetExporter()->GetStaticFrame(), TexInfo.uv_scale.x, FOREVER);
pUVWCropParam->GetValue(3, ExporterMAX::GetExporter()->GetStaticFrame(), TexInfo.uv_scale.y, FOREVER);
}
// set the type of texture...
pTex->type = texture_type[tex_type];
// if we have a bump map, we create a normal map with the convention
// that the filename will be the same name as the bump map + "_normal"
// appended to it.
if (pTex->type == m_texture::BUMP)
{
std::string normal_map = pTex->name;
std::string::size_type pos = normal_map.rfind(".");
normal_map.insert(pos, "_normal");
m_texture *pTexNormal = new m_texture;
*pTexNormal = *pTex;
pTexNormal->name = normal_map;
pTexNormal->type = m_texture::NORMAL;
tc.pTex = pTexNormal;
bk_tex_channel.push_back(tc); // add the new texture to the local TOC
TexInfos.push_back(TexInfo);
}
tc.pTex = pTex;
bk_tex_channel.push_back(tc); // add the new texture to the local TOC
TexInfos.push_back(TexInfo);
}
}
// lets check if we don't have them already in our global TOC...
for (size_t index = 0; index < bk_tex_channel.size(); ++index)
{
m_texture * pTex = bk_tex_channel[index].pTex;
unsigned int idx = ExporterMAX::GetExporter()->FindTexture(pTex);
if (idx == INDEX_NONE){
idx = ExporterMAX::GetExporter()->AddTexture(pTex); // add the new texture to the TOC
}
bk_tex_idx.push_back(idx);
pMat->tex_channel.push_back(bk_tex_channel[index].channel);
TexInfos[index].base_channel = bk_tex_channel[index].channel;
bk_texs.insert(IdxBKTexMapPair(idx, TexInfos[index]));
}
// set the texture indices...
for (size_t index = 0; index < bk_tex_idx.size(); ++index){
pMat->textures.push_back(bk_tex_idx[index]);
}
}
int MaxExporter::DoExport(const TCHAR *name,ExpInterface *ei,Interface *i, BOOL suppressPrompts, DWORD options)
{
/*if(!suppressPrompts)
DialogBoxParam(hInstance,
MAKEINTRESOURCE(IDD_PANEL),
GetActiveWindow(),
MaxExporterOptionsDlgProc, (LPARAM)this);*/
#pragma message(TODO("return TRUE If the file is exported properly"))
Node::s_nextID = 1;
ofstream myFile;
myFile.open("DebugExporter.txt");
wstring wFileName( name );
string fileName( wFileName.begin(), wFileName.end() );
//f= fopen( fileName.c_str(),"wb");
BinaryFile = loadSave( fileName.c_str() );
//BinaryFile.saveInt( 5 );
//BinaryFile.close();
myFile << "Start Export\n";
IGameScene* gameScene = GetIGameInterface();
gameScene->InitialiseIGame();
int nodeCount = gameScene->GetTopLevelNodeCount();
myFile << "Number of top level nodes: " << nodeCount << "\n";
//get all of the materials
for( int nodeNumber = 0; nodeNumber < nodeCount; ++nodeNumber)
{
IGameNode* gameNode = gameScene->GetTopLevelNode( nodeNumber );
Node* myNode = new Node( gameNode );
m_NodeList.push_back( myNode );
findFaces( myNode, myFile );
}
myFile << "Number of materials\n";
myFile << m_materialSet.size() << "\n";
int totalBatches = 0;
//myFile<< "Number of triangleBatchMaps: " << m_triangleBatchesPerNode.size() << "\n";
for( auto nodeIter = m_NodeList.begin(); nodeIter != m_NodeList.end(); ++nodeIter )
{
std::map< IGameMaterial*, TriangleBatch* > triangleBatches = (*nodeIter)->m_triangleBatchesPerMaterial;
myFile << "Invidiual triangleBatch size: " << triangleBatches.size() << "\n";
for( auto materialIter = m_materialSet.begin(); materialIter != m_materialSet.end(); ++materialIter )
{
auto found = triangleBatches.find( * materialIter );
if( found != triangleBatches.end() )
{
++totalBatches;
}
}
}
BinaryFile.saveInt( m_NodeList.size() );
myFile << "Number of Nodes: " << m_NodeList.size() << "\n";
for( auto nodeIter = m_NodeList.begin(); nodeIter != m_NodeList.end(); ++nodeIter )
{
std::map< IGameMaterial*, TriangleBatch* > triangleBatches = (*nodeIter)->m_triangleBatchesPerMaterial;
std::map<IGameMaterial*, std::vector< NodeFace > > facesPerMaterial = (*nodeIter)->m_facesPerMaterial;
IGameNode* currentNode = (*nodeIter)->m_gameNode;
IGameNode* parentNode;
GMatrix parentWTM;
GMatrix toParentMatrix;
GMatrix worldTM;
GMatrix localTM;
int time = gameScene->GetSceneStartTime();
for( ; time < gameScene->GetSceneEndTime(); time += 4800/30 )
{
if( (*nodeIter)->m_parentID != 0 )
{
myFile << "Trying to find parent... \n";
parentNode = (*nodeIter)->m_parent->m_gameNode;
if( parentNode != nullptr )
{
myFile << "Parent found \n";
parentWTM = parentNode->GetWorldTM( time );
toParentMatrix = parentWTM.Inverse();
worldTM = currentNode->GetWorldTM( time ) * toParentMatrix;
}
}
else
{
worldTM = currentNode->GetWorldTM( time );
}
(*nodeIter)->m_toParentMatrix.push_back( Matrix4x4( worldTM[0], worldTM[1], worldTM[2], worldTM[3] ) );
}
localTM = currentNode->GetWorldTM().Inverse();
(*nodeIter)->m_worldToLocal = Matrix4x4( localTM[0], localTM[1], localTM[2], localTM[3] );
//Save the node
BinaryFile.saveNode( *nodeIter, myFile );
BinaryFile.saveInt( (*nodeIter)->m_triangleBatchesPerMaterial.size() );
for( auto materialIter = m_materialSet.begin(); materialIter != m_materialSet.end(); ++materialIter )
{
//Set the current material's VBO and IBO
//
IGameMaterial* currentMaterial = *materialIter;
TriangleBatch* currentBatch = triangleBatches[ currentMaterial ];
GMatrix localTMNoTrans = localTM;
localTMNoTrans.SetRow( 3, Point4( 0,0,0,1) );
if( currentBatch != nullptr )
{
MaxMaterial* currentMaxMaterial = currentBatch->m_material;
VBO* currentVBO = currentBatch->m_vbo;
IBO* currentIBO = currentBatch->m_ibo;
vector< NodeFace >& faceVector = facesPerMaterial.find( currentMaterial )->second;
//Get texture materials and export them
//
if( currentMaterial != nullptr )
{
int numOfTexMaps = currentMaterial->GetNumberOfTextureMaps();
myFile << "Number of texture maps: " << numOfTexMaps << "\n";
for( int i = 0; i < numOfTexMaps; ++i )
{
IGameTextureMap* gameTextureMap = currentMaterial->GetIGameTextureMap( i );
if( gameTextureMap != nullptr && gameTextureMap->IsEntitySupported() )
{
int stdMapSlot = gameTextureMap->GetStdMapSlot();
if( stdMapSlot == ID_DI )
{
wstring wBitmapFileName;
wBitmapFileName = gameTextureMap->GetBitmapFileName();
if( wBitmapFileName.size() > 0 )
{
BitmapInfo bi( gameTextureMap->GetBitmapFileName() );
BMMGetFullFilename( &bi );
wBitmapFileName = bi.Name();
std::string fullBitmapFileName( wBitmapFileName.begin(), wBitmapFileName.end() );
if( fullBitmapFileName.size() > 0 )
{
int lastSlash = fullBitmapFileName.find_last_of('\\') + 1;
if( lastSlash != string::npos )
{
const std::string bitmapFileName = fullBitmapFileName.substr( lastSlash );
wstring nameAsWString( name );
std::string nameAsString( nameAsWString.begin(), nameAsWString.end() );
const std::string extension = nameAsString.substr( 0, nameAsString.find_last_of('\\') + 1 );
std::string newFileName = extension;
newFileName.append( bitmapFileName );
wstring wNewFileName(newFileName.begin(), newFileName.end());
if( CopyFile( wBitmapFileName.c_str(), wNewFileName.c_str(), false ) )
{
if( stdMapSlot == ID_DI )
{
currentMaxMaterial->m_diffuseTexture = bitmapFileName;
currentMaxMaterial->bHasDiffuseTexture = true;
}
//BinaryFile.saveString( bitmapFileName );
}
else
{
myFile << GetLastError() << "\n";
myFile << "copying the file FAILED.\n";
}
}
}
}
}
}
}
}
myFile<< "Number of faces for this material: " << faceVector.size() << "\n";
for( int face = 0; face < faceVector.size(); ++face )
{
FaceEx* meshFace = faceVector[face].m_face;
IGameMesh* gameMesh = faceVector[face].m_mesh;
IGameSkin* gameSkin = gameMesh->GetIGameSkin();
int position, normal, color, texCoordinate, maxPosition;
for( int i = 0; i < 3; ++i)
{
maxPosition = (int)meshFace->vert[i];
Point3 tempPos = gameMesh->GetVertex( maxPosition );
tempPos = tempPos * localTM;
Vector3D positionVec3( tempPos.x, tempPos.y, tempPos.z );
position = currentVBO->insertPosition(positionVec3);
normal = (int)meshFace->norm[i];
Point3 tempNormal = gameMesh->GetNormal( normal );
tempNormal = tempNormal * localTMNoTrans;
tempNormal = tempNormal.Normalize();
Vector3D normalVec3( tempNormal.x, tempNormal.y, tempNormal.z );
normal = currentVBO->insertNormal(normalVec3);
//IBO
texCoordinate = (int)meshFace->texCoord[i];
Point2 tempTexCoord = gameMesh->GetTexVertex( texCoordinate );
Vector2 texCoordVec2( tempTexCoord.x, tempTexCoord.y );
texCoordinate = currentVBO->insertTexCoord(texCoordVec2);
VertexIndex VI( position, normal, texCoordinate );
if( gameSkin != nullptr )
{
int numberOfBones = gameSkin->GetNumberOfBones( maxPosition );
for( int boneIndex = 0; boneIndex < numberOfBones; ++boneIndex )
{
float boneWeight = gameSkin->GetWeight( maxPosition, boneIndex );
IGameNode* bone = gameSkin->GetIGameBone( maxPosition, boneIndex );
myFile << "Bone node ID: " << bone->GetNodeID() << "\n";
int nodeIDForBone = m_boneIDToNodeID[ bone->GetNodeID() ];
myFile << "Node ID: " << nodeIDForBone << "\n";
VI.addBoneWeight( nodeIDForBone, boneWeight );
/*for( auto boneIter = m_NodeList.begin(); boneIter != m_NodeList.end(); ++boneIter )
{
if( (*boneIter)->m_gameNode == bone )
{
myFile << "Found the bone!\n";
}
}*/
}
VI.topBoneWeights();
}
int vertIndex = currentVBO->insertVertex( VI );
currentIBO->addIndex( vertIndex );
}
}
BinaryFile.saveTriangleMesh( currentBatch, myFile );
}
}
}
myFile.close();
for( int nodeNumber = 0; nodeNumber < nodeCount; ++nodeNumber)
{
IGameNode* gameNode = gameScene->GetTopLevelNode( nodeNumber );
if( gameNode != nullptr )
{
tearDown( gameNode );
}
}
BinaryFile.close();
return TRUE;
//return FALSE;
}
