Example #1
0
void Viewer::renderModel()
{

  // get the renderer of the model
  CalRenderer *pCalRenderer;
  pCalRenderer = m_calModel->getRenderer();

  // begin the rendering loop
  if(!pCalRenderer->beginRendering()) return;

  m_VBCursor=0;
  m_IBCursor=0;

  DWORD dwVBLockFlags=D3DLOCK_NOOVERWRITE;
  DWORD dwIBLockFlags=D3DLOCK_NOOVERWRITE;

  g_pD3DDevice->SetStreamSource( 0, m_pVB, 0,  sizeof(VERTEX) );
  g_pD3DDevice->SetFVF(D3DFVF_VERTEX);
  g_pD3DDevice->SetIndices(m_pIB);



  // get the number of meshes
  int meshCount;
  meshCount = pCalRenderer->getMeshCount();

  // render all meshes of the model
  int meshId;
  for(meshId = 0; meshId < meshCount; meshId++)
  {
    // get the number of submeshes
    int submeshCount;
    submeshCount = pCalRenderer->getSubmeshCount(meshId);

    // render all submeshes of the mesh
    int submeshId;
    for(submeshId = 0; submeshId < submeshCount; submeshId++)
    {
      // select mesh and submesh for further data access
      if(pCalRenderer->selectMeshSubmesh(meshId, submeshId))
      {

        D3DMATERIAL9 mat;
        unsigned char meshColor[4];
        pCalRenderer->getAmbientColor(&meshColor[0]);
        mat.Ambient.r=meshColor[0]/255.0f;mat.Ambient.g=meshColor[1]/255.0f;
        mat.Ambient.b=meshColor[2]/255.0f;mat.Ambient.a=meshColor[3]/255.0f;

        pCalRenderer->getDiffuseColor(&meshColor[0]);
        mat.Diffuse.r=meshColor[0]/255.0f;mat.Diffuse.g=meshColor[1]/255.0f;
        mat.Diffuse.b=meshColor[2]/255.0f;mat.Diffuse.a=meshColor[3]/255.0f;

        pCalRenderer->getSpecularColor(&meshColor[0]);
        mat.Specular.r=meshColor[0]/255.0f;mat.Specular.g=meshColor[1]/255.0f;
        mat.Specular.b=meshColor[2]/255.0f;mat.Specular.a=meshColor[3]/255.0f;

        mat.Power=0.0f;
        mat.Emissive.r=0.0f;mat.Emissive.g=0.0f;mat.Emissive.b=0.0f;mat.Emissive.a=0.0f;


        g_pD3DDevice->SetMaterial(&mat);

        if(m_VBCursor+ pCalRenderer->getVertexCount()>=30000)
        {
          m_VBCursor=0;
          dwVBLockFlags=D3DLOCK_DISCARD;
        }

        if(m_IBCursor + pCalRenderer->getFaceCount()>=50000)
        {
          m_IBCursor=0;
          dwIBLockFlags=D3DLOCK_DISCARD;

        }


        // Get vertexbuffer from the model		  		  
        VERTEX *pVertices;

        m_pVB->Lock(m_VBCursor*sizeof(VERTEX), pCalRenderer->getVertexCount()*sizeof(VERTEX), (void**)&pVertices, dwVBLockFlags);

        int vertexCount = pCalRenderer->getVerticesNormalsAndTexCoords(&pVertices->pos.x);
        m_pVB->Unlock();

        CalIndex *meshFaces;

        int faceCount;

        m_pIB->Lock(m_IBCursor* 3*sizeof(CalIndex), pCalRenderer->getFaceCount()*3* sizeof(CalIndex), (void**)&meshFaces,dwIBLockFlags);

        faceCount = pCalRenderer->getFaces(meshFaces);
        m_pIB->Unlock();


        g_pD3DDevice->SetRenderState(D3DRS_CULLMODE,D3DCULL_NONE);
        g_pD3DDevice->SetTexture(0,(LPDIRECT3DTEXTURE9)pCalRenderer->getMapUserData(0));

        g_pD3DDevice->DrawIndexedPrimitive(
          D3DPT_TRIANGLELIST,
          m_VBCursor,
          0,
          vertexCount,
          m_IBCursor*3,
          faceCount
          );

        m_VBCursor+=vertexCount;
        m_IBCursor+=faceCount;

        dwIBLockFlags=D3DLOCK_NOOVERWRITE;
        dwVBLockFlags=D3DLOCK_NOOVERWRITE;

      }
    }
  }


  // end the rendering
  pCalRenderer->endRendering();


}
Example #2
0
void Model::renderMesh(bool bWireframe, bool bLight)
{
  // get the renderer of the model
  CalRenderer *pCalRenderer;
  pCalRenderer = m_calModel->getRenderer();

  // begin the rendering loop
  if(!pCalRenderer->beginRendering()) return;

  // set wireframe mode if necessary
  if(bWireframe)
  {
    glPolygonMode(GL_FRONT_AND_BACK, GL_LINE);
  }

  // set the global OpenGL states
  glEnable(GL_DEPTH_TEST);
  glShadeModel(GL_SMOOTH);

  // set the lighting mode if necessary
  if(bLight)
  {
    glEnable(GL_LIGHTING);
    glEnable(GL_LIGHT0);
  }

  // we will use vertex arrays, so enable them
  glEnableClientState(GL_VERTEX_ARRAY);
  glEnableClientState(GL_NORMAL_ARRAY);

  // get the number of meshes
  int meshCount;
  meshCount = pCalRenderer->getMeshCount();

  // render all meshes of the model
  int meshId;
  for(meshId = 0; meshId < meshCount; meshId++)
  {
    // get the number of submeshes
    int submeshCount;
    submeshCount = pCalRenderer->getSubmeshCount(meshId);

    // render all submeshes of the mesh
    int submeshId;
    for(submeshId = 0; submeshId < submeshCount; submeshId++)
    {
      // select mesh and submesh for further data access
      if(pCalRenderer->selectMeshSubmesh(meshId, submeshId))
      {
        unsigned char meshColor[4];
        GLfloat materialColor[4];

        // set the material ambient color
        pCalRenderer->getAmbientColor(&meshColor[0]);
        materialColor[0] = meshColor[0] / 255.0f;  materialColor[1] = meshColor[1] / 255.0f; materialColor[2] = meshColor[2] / 255.0f; materialColor[3] = meshColor[3] / 255.0f;
        glMaterialfv(GL_FRONT, GL_AMBIENT, materialColor);

        // set the material diffuse color
        pCalRenderer->getDiffuseColor(&meshColor[0]);
        materialColor[0] = meshColor[0] / 255.0f;  materialColor[1] = meshColor[1] / 255.0f; materialColor[2] = meshColor[2] / 255.0f; materialColor[3] = meshColor[3] / 255.0f;
        glMaterialfv(GL_FRONT, GL_DIFFUSE, materialColor);

        // set the vertex color if we have no lights
        if(!bLight)
        {
          glColor4fv(materialColor);
        }

        // set the material specular color
        pCalRenderer->getSpecularColor(&meshColor[0]);
        materialColor[0] = meshColor[0] / 255.0f;  materialColor[1] = meshColor[1] / 255.0f; materialColor[2] = meshColor[2] / 255.0f; materialColor[3] = meshColor[3] / 255.0f;
        glMaterialfv(GL_FRONT, GL_SPECULAR, materialColor);

        // set the material shininess factor
        float shininess;
        shininess = 50.0f; //TODO: pCalRenderer->getShininess();
        glMaterialfv(GL_FRONT, GL_SHININESS, &shininess);

        // get the transformed vertices of the submesh
        static float meshVertices[30000][3];
        int vertexCount;
        vertexCount = pCalRenderer->getVertices(&meshVertices[0][0]);

        // get the transformed normals of the submesh
        static float meshNormals[30000][3];
        pCalRenderer->getNormals(&meshNormals[0][0]);

        // get the texture coordinates of the submesh
        static float meshTextureCoordinates[30000][2];
        int textureCoordinateCount;
        textureCoordinateCount = pCalRenderer->getTextureCoordinates(0, &meshTextureCoordinates[0][0]);

        // get the faces of the submesh
        static CalIndex meshFaces[50000][3];
        int faceCount;
        faceCount = pCalRenderer->getFaces(&meshFaces[0][0]);

        // set the vertex and normal buffers
        glVertexPointer(3, GL_FLOAT, 0, &meshVertices[0][0]);
        glNormalPointer(GL_FLOAT, 0, &meshNormals[0][0]);

        // set the texture coordinate buffer and state if necessary
        if((pCalRenderer->getMapCount() > 0) && (textureCoordinateCount > 0))
        {
          glEnable(GL_TEXTURE_2D);
          glEnableClientState(GL_TEXTURE_COORD_ARRAY);
          glEnable(GL_COLOR_MATERIAL);

          // set the texture id we stored in the map user data
          glBindTexture(GL_TEXTURE_2D, (GLuint)pCalRenderer->getMapUserData(0));

          // set the texture coordinate buffer
          glTexCoordPointer(2, GL_FLOAT, 0, &meshTextureCoordinates[0][0]);

          glColor4f(1.0f, 1.0f, 1.0f, 1.0f);
        }

        // draw the submesh
        
        if(sizeof(CalIndex)==2)
			  glDrawElements(GL_TRIANGLES, faceCount * 3, GL_UNSIGNED_SHORT, &meshFaces[0][0]);
		  else
			  glDrawElements(GL_TRIANGLES, faceCount * 3, GL_UNSIGNED_INT, &meshFaces[0][0]);

        // disable the texture coordinate state if necessary
        if((pCalRenderer->getMapCount() > 0) && (textureCoordinateCount > 0))
        {
          glDisable(GL_COLOR_MATERIAL);
          glDisableClientState(GL_TEXTURE_COORD_ARRAY);
          glDisable(GL_TEXTURE_2D);
        }

// DEBUG-CODE //////////////////////////////////////////////////////////////////
/*
glBegin(GL_LINES);
glColor3f(1.0f, 1.0f, 1.0f);
int vertexId;
for(vertexId = 0; vertexId < vertexCount; vertexId++)
{
const float scale = 0.3f;
  glVertex3f(meshVertices[vertexId][0], meshVertices[vertexId][1], meshVertices[vertexId][2]);
  glVertex3f(meshVertices[vertexId][0] + meshNormals[vertexId][0] * scale, meshVertices[vertexId][1] + meshNormals[vertexId][1] * scale, meshVertices[vertexId][2] + meshNormals[vertexId][2] * scale);
}
glEnd();
*/
////////////////////////////////////////////////////////////////////////////////
      }
    }
  }

  // clear vertex array state
  glDisableClientState(GL_NORMAL_ARRAY);
  glDisableClientState(GL_VERTEX_ARRAY);

  // reset the lighting mode
  if(bLight)
  {
    glDisable(GL_LIGHTING);
    glDisable(GL_LIGHT0);
  }

  // reset the global OpenGL states
  glDisable(GL_DEPTH_TEST);

  // reset wireframe mode if necessary
  if(bWireframe)
  {
    glPolygonMode(GL_FRONT_AND_BACK, GL_FILL);
  }

  // end the rendering
  pCalRenderer->endRendering();
}
Example #3
0
void Viewer::renderModel()
{
  	
  // get the renderer of the model
  CalRenderer *pCalRenderer;
  pCalRenderer = m_calModel->getRenderer();

  // begin the rendering loop
  if(!pCalRenderer->beginRendering()) return;

  m_VBCursor=0;
  m_IBCursor=0;
  m_TBCursor=0;
  m_TCBCursor=0;

  DWORD dwVBLockFlags=D3DLOCK_NOOVERWRITE;
  DWORD dwIBLockFlags=D3DLOCK_NOOVERWRITE;
  DWORD dwTBLockFlags=D3DLOCK_NOOVERWRITE;
  DWORD dwTCBLockFlags=D3DLOCK_NOOVERWRITE;

  g_pD3DDevice->SetStreamSource( 0, m_pVB, 0,  sizeof(VERTEX) );
  g_pD3DDevice->SetStreamSource( 1, NULL , 0,  0 );
  g_pD3DDevice->SetStreamSource( 2, NULL , 0,  0 );

  g_pD3DDevice->SetFVF(D3DFVF_VERTEX);
  
      
  // get the number of meshes
  int meshCount;
  meshCount = pCalRenderer->getMeshCount();

  // render all meshes of the model
  int meshId;
  for(meshId = 0; meshId < meshCount; meshId++)
  {
    // get the number of submeshes
    int submeshCount;
    submeshCount = pCalRenderer->getSubmeshCount(meshId);

    // render all submeshes of the mesh
    int submeshId;
    for(submeshId = 0; submeshId < submeshCount; submeshId++)
    {
      // select mesh and submesh for further data access
      if(pCalRenderer->selectMeshSubmesh(meshId, submeshId))
      {

		  D3DMATERIAL9 mat;
          unsigned char meshColor[4];
          pCalRenderer->getAmbientColor(&meshColor[0]);
          mat.Ambient.r=meshColor[0]/255.0f;mat.Ambient.g=meshColor[1]/255.0f;
          mat.Ambient.b=meshColor[2]/255.0f;mat.Ambient.a=meshColor[3]/255.0f;

          pCalRenderer->getDiffuseColor(&meshColor[0]);
          mat.Diffuse.r=meshColor[0]/255.0f;mat.Diffuse.g=meshColor[1]/255.0f;
          mat.Diffuse.b=meshColor[2]/255.0f;mat.Diffuse.a=meshColor[3]/255.0f;

          pCalRenderer->getSpecularColor(&meshColor[0]);
          mat.Specular.r=meshColor[0]/255.0f;mat.Specular.g=meshColor[1]/255.0f;
          mat.Specular.b=meshColor[2]/255.0f;mat.Specular.a=meshColor[3]/255.0f;

		  mat.Power=0.0f;
          mat.Emissive.r=0.0f;mat.Emissive.g=0.0f;mat.Emissive.b=0.0f;mat.Emissive.a=0.0f;
				
          g_pD3DDevice->SetMaterial(&mat);


		  if(m_VBCursor+ pCalRenderer->getVertexCount()>=30000)
		  {
		  	  m_VBCursor=0;
			  dwVBLockFlags=D3DLOCK_DISCARD;
		  }

		  if(m_TBCursor+ pCalRenderer->getVertexCount()>=30000)
		  {
		  	  m_TBCursor=0;
			  dwTBLockFlags=D3DLOCK_DISCARD;
		  }

		  if(m_TCBCursor+ pCalRenderer->getVertexCount()>=30000)
		  {
		  	  m_TCBCursor=0;
			  dwTCBLockFlags=D3DLOCK_DISCARD;
		  }

		  if(m_IBCursor + pCalRenderer->getFaceCount()>=50000)
		  {
		  	  m_IBCursor=0;
			  dwIBLockFlags=D3DLOCK_DISCARD;

		  }
		  

		  // Get vertexbuffer from the model		  		  
		  VERTEX *pVertices;

		  m_pVB->Lock(m_VBCursor*sizeof(VERTEX), pCalRenderer->getVertexCount()*sizeof(VERTEX), (void**)&pVertices, dwVBLockFlags);
		  int vertexCount = pCalRenderer->getVerticesNormalsAndTexCoords(&pVertices->pos.x);
		  m_pVB->Unlock();
		  
		  CalIndex *meshFaces;

		  m_pIB->Lock(m_IBCursor* 3*sizeof(CalIndex), pCalRenderer->getFaceCount()*3* sizeof(CalIndex), (void**)&meshFaces,dwIBLockFlags);
		  int faceCount = pCalRenderer->getFaces(meshFaces);
		  m_pIB->Unlock();

		  
  		  if(pCalRenderer->getMapCount()==2 && m_bBump  && pCalRenderer->isTangentsEnabled(1))
		  {
  			  D3DXVECTOR4 *pTangents;
		      m_pTB->Lock(m_TBCursor*sizeof(D3DXVECTOR4), pCalRenderer->getVertexCount()*sizeof(D3DXVECTOR4), (void**)&pTangents, dwTBLockFlags);
	    	  pCalRenderer->getTangentSpaces(1,(float*)pTangents);
			  m_pTB->Unlock();

			  D3DXVECTOR2 *pTexCoords;
			  m_pTCB->Lock(m_TCBCursor*sizeof(D3DXVECTOR2), pCalRenderer->getVertexCount()*sizeof(D3DXVECTOR2), (void**)&pTexCoords, dwTCBLockFlags);
	    	  pCalRenderer->getTextureCoordinates(1,(float*)pTexCoords);
			  m_pTCB->Unlock();

			  // Rem:
			  // We need to swap the map, texture coord are also swapped in the vertex shader
              
  			  g_pD3DDevice->SetTexture(0,(LPDIRECT3DTEXTURE9)pCalRenderer->getMapUserData(1));
			  g_pD3DDevice->SetTexture(1,(LPDIRECT3DTEXTURE9)pCalRenderer->getMapUserData(0));

			  			  
			  g_pD3DDevice->SetTextureStageState(0,D3DTSS_COLORARG1 ,D3DTA_TEXTURE);
		      g_pD3DDevice->SetTextureStageState(0,D3DTSS_COLOROP,D3DTOP_DOTPRODUCT3);
		      g_pD3DDevice->SetTextureStageState(0,D3DTSS_COLORARG2 ,D3DTA_DIFFUSE);
			  
			  g_pD3DDevice->SetTextureStageState(1,D3DTSS_COLORARG1 ,D3DTA_TEXTURE);
		      g_pD3DDevice->SetTextureStageState(1,D3DTSS_COLOROP,D3DTOP_MODULATE);
		      g_pD3DDevice->SetTextureStageState(1,D3DTSS_COLORARG2 ,D3DTA_CURRENT);	

			  // Uncomment this if you want to use the diffuse color of
			  // The material, but I will not work on a geforce-class hardware

			  /*		      
			  g_pD3DDevice->SetTextureStageState(2,D3DTSS_COLORARG1 ,D3DTA_CURRENT);
    	      g_pD3DDevice->SetTextureStageState(2,D3DTSS_COLOROP,D3DTOP_MODULATE);
			  g_pD3DDevice->SetTextureStageState(2,D3DTSS_COLORARG2 ,D3DTA_SPECULAR);
			  */

              g_pD3DDevice->SetStreamSource( 0, m_pVB, 0,  sizeof(VERTEX) );
	  		  g_pD3DDevice->SetStreamSource( 1, m_pTB,0, sizeof(D3DXVECTOR4) );
			  g_pD3DDevice->SetStreamSource( 2, m_pTCB,0, sizeof(D3DXVECTOR2) );

              g_pD3DDevice->SetVertexShader(m_pVS);
			  g_pD3DDevice->SetVertexDeclaration(m_pVertexDeclaration);
			  g_pD3DDevice->SetRenderState( D3DRS_LIGHTING, FALSE );
			
			  g_pD3DDevice->SetVertexShaderConstantF(9, (float*)&mat.Diffuse, 1 );
    	      g_pD3DDevice->SetVertexShaderConstantF(10, (float*)&mat.Specular, 1 );
	    	  g_pD3DDevice->SetVertexShaderConstantF(11, (float*)&mat.Ambient, 1 );
		  }
  		  
		  if(pCalRenderer->getMapCount()==1 || ( (!m_bBump || !pCalRenderer->isTangentsEnabled(1))  && pCalRenderer->getMapCount()==2))
		  {
  			  g_pD3DDevice->SetTexture(0,(LPDIRECT3DTEXTURE9)pCalRenderer->getMapUserData(0));
			  g_pD3DDevice->SetTexture(1,NULL);

			  g_pD3DDevice->SetTextureStageState(0,D3DTSS_COLORARG1 ,D3DTA_CURRENT);
		      g_pD3DDevice->SetTextureStageState(0,D3DTSS_COLOROP,D3DTOP_MODULATE);
		      g_pD3DDevice->SetTextureStageState(0,D3DTSS_COLORARG2 ,D3DTA_TEXTURE);			  
			  g_pD3DDevice->SetTextureStageState(1,D3DTSS_COLOROP,D3DTOP_DISABLE);          

              g_pD3DDevice->SetStreamSource( 0, m_pVB, 0,  sizeof(VERTEX) );
			  g_pD3DDevice->SetStreamSource( 1, NULL,0, 0 );
			  g_pD3DDevice->SetStreamSource( 2, NULL,0, 0 );

			  g_pD3DDevice->SetVertexShader(NULL);
			  g_pD3DDevice->SetVertexDeclaration(NULL);
  			  g_pD3DDevice->SetFVF(D3DFVF_VERTEX);

  			  g_pD3DDevice->SetRenderState( D3DRS_LIGHTING, TRUE );


		  }
		  if(pCalRenderer->getMapCount()==0)
		  {
  			  g_pD3DDevice->SetTexture(0,NULL);			  
  			  g_pD3DDevice->SetTexture(1,NULL);

			  g_pD3DDevice->SetTextureStageState(0,D3DTSS_COLORARG1 ,D3DTA_CURRENT);
		      g_pD3DDevice->SetTextureStageState(0,D3DTSS_COLOROP,D3DTOP_SELECTARG1);		      
			  g_pD3DDevice->SetTextureStageState(1,D3DTSS_COLOROP,D3DTOP_DISABLE);

  			  g_pD3DDevice->SetStreamSource( 1, NULL,0, 0 );
			  g_pD3DDevice->SetStreamSource( 2, NULL,0, 0 );

              g_pD3DDevice->SetStreamSource( 0, m_pVB, 0,  sizeof(VERTEX) );
			  g_pD3DDevice->SetVertexShader(NULL);
			  g_pD3DDevice->SetVertexDeclaration(NULL);
  			  g_pD3DDevice->SetFVF(D3DFVF_VERTEX);

  			  g_pD3DDevice->SetRenderState( D3DRS_LIGHTING, TRUE );
		  }

          g_pD3DDevice->SetIndices(m_pIB);
          g_pD3DDevice->SetRenderState(D3DRS_CULLMODE,D3DCULL_NONE);
          
		  
		  g_pD3DDevice->DrawIndexedPrimitive(
			  D3DPT_TRIANGLELIST,
			  m_VBCursor,
			  0,
			  vertexCount,
			  m_IBCursor*3,
			  faceCount
			);


		  m_VBCursor+=vertexCount;
		  m_TBCursor+=vertexCount;
		  m_TCBCursor+=vertexCount;
		  m_IBCursor+=faceCount;		  

		  dwIBLockFlags=D3DLOCK_NOOVERWRITE;
		  dwTBLockFlags=D3DLOCK_NOOVERWRITE;
		  dwTCBLockFlags=D3DLOCK_NOOVERWRITE;
		  dwVBLockFlags=D3DLOCK_NOOVERWRITE;

      }
    }
  }
  // end the rendering
  pCalRenderer->endRendering();
  

}
Example #4
0
void CCal3DSceneNode::render()
{
    //----------------------------------------------------------//
    if ( calModel == 0 )
        return;                              // Make sure there is a model to render
        
    //----------------------------------------------------------//
    video::IVideoDriver* driver = SceneManager->getVideoDriver(); // Get the video driver
    CalRenderer* renderer = calModel->getRenderer();            // Get the CalRenderer

    
    
    //----------------------------------------------------------//
    // All we're doing here is form a bridge between the CalRenderer and the IVideoDriver
    // The CalRenderer gives us data (doesn't draw anything) and IVideoDriver needs that data
    // Only problem is that we need to convert it to Irrlicht Compatible data
    // To explain what's going on, this simple diagram should help:
    //  CalRenderer >--GET--> Data >--CONVERT--> Irrlicht Format >--SEND--> IVideoDriver >--DRAW--> ..
    
    //----------------------------------------------------------//
    calModel->getSkeleton()->calculateBoundingBoxes();        // Calculate the bounding box of the skeleton
    
    //----------------------------------------------------------//
    if ( renderer == 0  )
        return;                               // Bail out if no renderer was received
    if ( !renderer->beginRendering() )
        return;                  // Bail out if renderer encountered an error
        
    //----------------------------------------------------------// Move to our position (and rotate/scale)
    driver->setTransform( video::ETS_WORLD, AbsoluteTransformation );
    
    
    //----------------------------------------------------------//
    s32 numMeshes = renderer->getMeshCount();                   // Get the number of meshes we need to draw
    for ( s32 meshId = 0; meshId < numMeshes; meshId++ )        // Loop for every mesh
    {
        //--------------------------------------------------------//
        s32 numSubMeshes = renderer->getSubmeshCount(meshId);     // Get the number of submeshes
        for ( s32 subId = 0; subId < numSubMeshes; subId++ )      // Loop for every submesh
        {
            if ( !renderer->selectMeshSubmesh(meshId, subId) )      // Select the current mesh and submesh
            {
                continue;                                             // Skip this submesh if it failed
            }
            
            //------------------------------------------------------//
            if ( !OverrideMaterial )                              // Should we use Cal3D's material?
            {
                u8 meshColor [4];                                     // Color stored in RGBA format
                // Irrlicht wants it in ARGB format
                renderer->getAmbientColor( meshColor );               // Get the ambient color
                Material.AmbientColor.setRed( meshColor[0] );       // Set the red component
                Material.AmbientColor.setGreen( meshColor[1] );     // Set the green component
                Material.AmbientColor.setBlue( meshColor[2] );      // Set the blue component
                Material.AmbientColor.setAlpha( meshColor[3] );     // Set the alpha component
                
                renderer->getDiffuseColor( meshColor );               // Get the diffuse color
                Material.DiffuseColor.setRed( meshColor[0] );       // Set the red component
                Material.DiffuseColor.setGreen( meshColor[1] );     // Set the green component
                Material.DiffuseColor.setBlue( meshColor[2] );      // Set the blue component
                Material.DiffuseColor.setAlpha( meshColor[3] );     // Set the alpha component
                
                renderer->getSpecularColor( meshColor );              // Get the specular color
                Material.SpecularColor.setRed( meshColor[0] );      // Set the red component
                Material.SpecularColor.setGreen( meshColor[1] );    // Set the green component
                Material.SpecularColor.setBlue( meshColor[2] );     // Set the blue component
                Material.SpecularColor.setAlpha( meshColor[3] );    // Set the alpha component
                
                Material.Shininess = renderer->getShininess();      // Set the shininess factor
                
                if ( renderer->getMapCount() >= 1 )
                {                                                     // Get the irrlicht texture from user data
                    Material.setTexture(0, (video::ITexture*)renderer->getMapUserData(0));
                }
            }
            
            //------------------------------------------------------//
            s32 vertexCount = renderer->getVertexCount();           // Get the number of vertices
            if (vertexCount == 0)
                continue;                         // Skip if the mesh is empty
                
            static core::array<core::vector3df> vertexBuffer;    // Use a core::array to support msvc
            vertexBuffer.set_used( vertexCount );          // Make room for the vertex coordinates
            renderer->getVertices( &vertexBuffer[0].X );              // Copy the vertices into the buffer
            
            //------------------------------------------------------//
            static core::array<core::vector3df> normalBuffer;
            normalBuffer.set_used( vertexCount );       // Buffer for the vertex normals
            renderer->getNormals( &normalBuffer[0].X );               // Copy the normals to the buffer
            
            //------------------------------------------------------//
            static core::array<core::vector2df> texCoordBuffer;
            texCoordBuffer.set_used( vertexCount );                 // Buffer for the vertex texture coordinates
            renderer->getTextureCoordinates( 0, &texCoordBuffer[0].X );// Copy the texture coordinates to the buffer
            
            //------------------------------------------------------//
            s32 faceCount = renderer->getFaceCount();               // Get the number of faces
            static CalIndex cal_indices[30000000];
            renderer->getFaces(  cal_indices );                   // Copy the face indices to the buffer
            static core::array<u16> faceBuffer;
            faceBuffer.set_used( faceCount * 3 );                   // Buffer for the face v1,v2,v3 indices
            for(int i = 0; i < faceCount * 3; ++i)
            {
              faceBuffer[i] = cal_indices[i];
            }
            
            //------------------------------------------------------//
            static core::array<video::S3DVertex> irrVertexBuffer;
            irrVertexBuffer.set_used( vertexCount );                // Buffer for the irrlicht vertices
            for (s32 vert=0; vert<vertexCount; vert++)              // Convert all vertices to irrlicht format
            { // Irrlicht and Cal3D uses different coordinates. Irrlicht's Y points up, where Cal3D's Z points up
                irrVertexBuffer[vert].Pos.X = vertexBuffer[vert].X;  // Set the X coordinate
                irrVertexBuffer[vert].Pos.Y = vertexBuffer[vert].Y;  // Set the Y coordinate (Cal3D's Z coord)
                irrVertexBuffer[vert].Pos.Z = vertexBuffer[vert].Z;  // Set the Z coordinate (Cal3D's Y coord)
                
                irrVertexBuffer[vert].Color.set(255,128,128,128);     // Vertex colors aren't supported by Cal3D
                
                irrVertexBuffer[vert].Normal.X = normalBuffer[vert].X;// Set the X coordinate
                irrVertexBuffer[vert].Normal.Y = normalBuffer[vert].Y;// Set the Y coordinate (Cal3D's Z coord)
                irrVertexBuffer[vert].Normal.Z = normalBuffer[vert].Z;// Set the Z coordinate (Cal3D's Y coord)
                
                irrVertexBuffer[vert].TCoords.X = texCoordBuffer[vert].X;// Set the X texture coordinate (U)
                irrVertexBuffer[vert].TCoords.Y = texCoordBuffer[vert].Y;// Set the Y texture coordinate (V)
            }
            
            //------------------------------------------------------// Invert triangle direction
            for (s32 face=0; face<faceCount; face++)                // Irrlicht wants indices in the opposite order
            {
                u16 faceA = faceBuffer[face*3];                      // Swap first and last vertex index
                faceBuffer[face*3]   = faceBuffer[face*3+2];         // Set the first to the last
                faceBuffer[face*3+2] = faceA;                        // And the last to the first
            }
            
            //------------------------------------------------------// Finally! Time to draw everthing

           Material.BackfaceCulling = false;

           float k;

           if(draw_mode != DM_DEFAULT)
           {
               video::SMaterial debug_material;
               debug_material.Wireframe = true;
               debug_material.BackfaceCulling = false;
               debug_material.Lighting = false;
               driver->setMaterial(debug_material);
              
               /* so that debug looks good for all sizes of models*/
               k = EXTENT_K * BoundingBox.getExtent().getLength();
           }
           else
           {
               driver->setMaterial( Material );
           }

           if(draw_mode == DM_DEFAULT)
           {
               driver->drawIndexedTriangleList(irrVertexBuffer.const_pointer(),
                                               vertexCount,
                                               faceBuffer.const_pointer(),
                                               faceCount);
           }
           else if(draw_mode == DM_WIREFRAME || 
                   draw_mode == DM_WIREFRAME_AND_SKELETON)
           {
               /* draw faces */
               for (s32 face=0; face<faceCount; ++face)
               {
                 u16 i1, i2, i3;
                 i1 = faceBuffer[face*3+0];
                 i2 = faceBuffer[face*3+1];
                 i3 = faceBuffer[face*3+2];

                 driver->draw3DLine(core::vector3df(vertexBuffer[i1].X,
                                                    vertexBuffer[i1].Y,
                                                    vertexBuffer[i1].Z),
                                    core::vector3df(vertexBuffer[i2].X,
                                                    vertexBuffer[i2].Y,
                                                    vertexBuffer[i2].Z),
                                    video::SColor(255,0,0,255));
                 driver->draw3DLine(core::vector3df(vertexBuffer[i2].X,
                                                    vertexBuffer[i2].Y,
                                                    vertexBuffer[i2].Z),
                                    core::vector3df(vertexBuffer[i3].X,
                                                    vertexBuffer[i3].Y,
                                                    vertexBuffer[i3].Z),
                                    video::SColor(255,0,0,255));
                 driver->draw3DLine(core::vector3df(vertexBuffer[i3].X,
                                                    vertexBuffer[i3].Y,
                                                    vertexBuffer[i3].Z),
                                    core::vector3df(vertexBuffer[i1].X,
                                                    vertexBuffer[i1].Y,
                                                    vertexBuffer[i1].Z),
                                    video::SColor(255,0,0,255));
               }

           }

           if(draw_mode == DM_SKELETON || 
              draw_mode == DM_WIREFRAME_AND_SKELETON)
           {
              float lines[1024][2][3];
              int num_lines;
              num_lines =  calModel->getSkeleton()->getBoneLines(&lines[0][0][0]);
              video::S3DVertex vertex;

              for(int line = 0; line < num_lines; ++line)
              {
                  driver->draw3DLine(core::vector3df(lines[line][0][0], 
                                                     lines[line][0][1],
                                                     lines[line][0][2]),
                                     core::vector3df(lines[line][1][0], 
                                                     lines[line][1][1],
                                                     lines[line][1][2]),
                                     video::SColor(255,255,0,0));
                 
                  core::aabbox3df box1(lines[line][0][0]-SKELETON_K*k,
                                       lines[line][0][1]-SKELETON_K*k, 
                                       lines[line][0][2]-SKELETON_K*k,

                                       lines[line][0][0]+SKELETON_K*k, 
                                       lines[line][0][1]+SKELETON_K*k, 
                                       lines[line][0][2]+SKELETON_K*k);

                  core::aabbox3df box2(lines[line][1][0]-SKELETON_K*k,
                                       lines[line][1][1]-SKELETON_K*k, 
                                       lines[line][1][2]-SKELETON_K*k,

                                       lines[line][1][0]+SKELETON_K*k, 
                                       lines[line][1][1]+SKELETON_K*k, 
                                       lines[line][1][2]+SKELETON_K*k);
                 
                  driver->draw3DBox(box1, video::SColor(255,0,255,0));
                  driver->draw3DBox(box2, video::SColor(255,0,255,0));
              }
           }

           if(draw_bbox)
           {
             video::SMaterial debug_material;
             debug_material.Wireframe = true;
             debug_material.BackfaceCulling = false;
             debug_material.Lighting = false;
             driver->setMaterial(debug_material);

             driver->draw3DBox(BoundingBox, video::SColor(255,255,0,255));
           }

           if(draw_normals)
           {
             k = EXTENT_K * BoundingBox.getExtent().getLength();

             video::SMaterial debug_material;
             debug_material.Wireframe = true;
             debug_material.BackfaceCulling = false;
             debug_material.Lighting = false;
             driver->setMaterial(debug_material);

             /* draw normals */
             for (s32 vert=0; vert<vertexCount; ++vert)
             {
                 driver->draw3DLine(core::vector3df(vertexBuffer[vert].X, 
                                                    vertexBuffer[vert].Y,
                                                    vertexBuffer[vert].Z),
                                    core::vector3df(vertexBuffer[vert].X + NORMAL_K*k*normalBuffer[vert].X,
                                                    vertexBuffer[vert].Y + NORMAL_K*k*normalBuffer[vert].Y,
                                                    vertexBuffer[vert].Z + NORMAL_K*k*normalBuffer[vert].Z),
                                    video::SColor(255,0,255,0));
             }
           }
        } // for subId
        
    } // for meshId
    
    //----------------------------------------------------------//
    renderer->endRendering();                                   // Tell the renderer we are finished now
}
///<summary>
/// CAnimatedInstanceModel:: RenderModelBySoftware : Render del modelo en el software 
///</summary>
///<param name="RM"></param>
void CAnimatedInstanceModel::RenderModelBySoftware(CRenderManager *RM)
{
  //leer renderModel
  LPDIRECT3DDEVICE9 l_pDevice = RM->GetDevice();
  
  // get the renderer of the model
  CalRenderer * pCalRenderer;
  pCalRenderer = m_CalModel->getRenderer();

  // begin the rendering loop
  if(!pCalRenderer->beginRendering()) return;

  int l_iVBCursor=0;
  int l_iIBCursor=0;

  DWORD dwVBLockFlags=D3DLOCK_NOOVERWRITE;
  DWORD dwIBLockFlags=D3DLOCK_NOOVERWRITE;

  l_pDevice->SetStreamSource( 0, m_pVB, 0,  sizeof(TNORMAL_TEXTURE1_VERTEX) );
  l_pDevice->SetFVF(TNORMAL_TEXTURE1_VERTEX::GetFVF());
  l_pDevice->SetIndices(m_pIB);
  
  // get the number of meshes
  int l_iMeshCount;
  l_iMeshCount = pCalRenderer->getMeshCount();

  // render all meshes of the model
  int l_iMeshId;
  for(l_iMeshId = 0; l_iMeshId < l_iMeshCount; l_iMeshId++)
  {
    // get the number of submeshes
    int l_iSubmeshCount;
    l_iSubmeshCount = pCalRenderer->getSubmeshCount(l_iMeshId);

    // render all submeshes of the mesh
    int l_iSubmeshId;
    for(l_iSubmeshId = 0; l_iSubmeshId < l_iSubmeshCount; l_iSubmeshId++)
    {
      // select mesh and submesh for further data access
      if(pCalRenderer->selectMeshSubmesh(l_iMeshId, l_iSubmeshId))
      {
		   
		    // Get vertexbuffer from the model		  		  
		    TNORMAL_TEXTURE1_VERTEX* l_pVertices;

		    m_pVB->Lock(l_iVBCursor*sizeof(TNORMAL_TEXTURE1_VERTEX), pCalRenderer->getVertexCount()*sizeof(TNORMAL_TEXTURE1_VERTEX), (void**)&l_pVertices, dwVBLockFlags);

        int l_iVertexCount = pCalRenderer->getVerticesNormalsAndTexCoords((float*)l_pVertices);
		    m_pVB->Unlock();
		  
		    CalIndex *meshFaces;

        int l_iFaceCount;

		    m_pIB->Lock(l_iIBCursor* 3*sizeof(CalIndex), pCalRenderer->getFaceCount()*3* sizeof(CalIndex), (void**)&meshFaces,dwIBLockFlags);

		    l_iFaceCount = pCalRenderer->getFaces(meshFaces);
		    m_pIB->Unlock();


        l_pDevice->SetRenderState(D3DRS_CULLMODE,D3DCULL_NONE);
        l_pDevice->SetTexture(0,(LPDIRECT3DTEXTURE9)m_TextureList[0]);

		    l_pDevice->DrawIndexedPrimitive(
			    D3DPT_TRIANGLELIST,
			    l_iVBCursor,
			    0,
			    l_iVertexCount,
			    l_iIBCursor*3,
			    l_iFaceCount
			  );

		    l_iVBCursor+=l_iVertexCount;
		    l_iIBCursor+=l_iFaceCount;

		    dwIBLockFlags=D3DLOCK_NOOVERWRITE;
		    dwVBLockFlags=D3DLOCK_NOOVERWRITE;

      }
    }
  }
  // end the rendering
  pCalRenderer->endRendering();
}
Example #6
0
void Cal3dModel::renderMesh(bool useTextures, bool useLighting, bool select_mode) {
  // get the renderer of the model
  CalRenderer *pCalRenderer = m_calModel->getRenderer();
  assert(pCalRenderer !=  NULL);

  // We let open gl do this, so no need to do it twice
  pCalRenderer->setNormalization(false);

  // begin the rendering loop
  if (!pCalRenderer->beginRendering()) {
    // Some kind of error here!
    return;
  }

  // get the number of meshes
  int meshCount = pCalRenderer->getMeshCount();
  int numSubMeshes = 0;
  for (int i = 0; i < meshCount; ++i) {
    numSubMeshes += pCalRenderer->getSubmeshCount(i);
  }
  m_dos.resize(numSubMeshes);

  int counter = -1;
  // render all meshes of the model
  for(int meshId = 0; meshId < meshCount; ++meshId)  {
    // get the number of submeshes
    int submeshCount = pCalRenderer->getSubmeshCount(meshId);

    // render all submeshes of the mesh
    for(int submeshId = 0; submeshId < submeshCount; ++submeshId) {
      // select mesh and submesh for further data access
      if(pCalRenderer->selectMeshSubmesh(meshId, submeshId)) {

        DynamicObject* dyno = m_dos[++counter];
        if (!dyno) {
          dyno = new DynamicObject();
          dyno->init();
          dyno->contextCreated();
          m_dos[counter] = dyno;

          // Lets assume this doesn't change
          static unsigned char meshColor[4];
          static float ambient[4];
          static float diffuse[4];
          static float specular[4];
          static float shininess;

          pCalRenderer->getAmbientColor(&meshColor[0]);
          ambient[0] = meshColor[0] / 255.0f;
          ambient[1] = meshColor[1] / 255.0f;
          ambient[2] = meshColor[2] / 255.0f;
          ambient[3] = meshColor[3] / 255.0f;
          dyno->setAmbient(ambient);

          // set the material diffuse color
          pCalRenderer->getDiffuseColor(&meshColor[0]);
          diffuse[0] = meshColor[0] / 255.0f;
          diffuse[1] = meshColor[1] / 255.0f;
          diffuse[2] = meshColor[2] / 255.0f;
          diffuse[3] = 1.0f;//meshColor[3] / 255.0f;
          dyno->setDiffuse(diffuse);

          // set the material specular color
          pCalRenderer->getSpecularColor(&meshColor[0]);
          specular[0] = meshColor[0] / 255.0f;
          specular[1] = meshColor[1] / 255.0f;
          specular[2] = meshColor[2] / 255.0f;
          specular[3] = meshColor[3] / 255.0f;
          dyno->setSpecular(specular);

          dyno->setEmission(0.0f, 0.0f, 0.0f,0.0f);

          shininess = pCalRenderer->getShininess();
          dyno->setShininess(shininess);

          dyno->getMatrix().rotateZ(-m_rotate / 180.0 * WFMath::Pi);

          dyno->setState(m_state);
          dyno->setSelectState(m_select_state);
          dyno->setUseStencil(m_use_stencil);

        }

        // get the transformed vertices of the submesh
        int vertexCount = pCalRenderer->getVertexCount();
        bool realloc = false;
        float *vertex_ptr, *normal_ptr, *texture_ptr;
        int textureCoordinateCount = 0;

        if (vertexCount > dyno->getNumPoints()) {
          realloc = true;
          vertex_ptr = dyno->createVertexData(vertexCount * 3);  
          pCalRenderer->getVertices(vertex_ptr);
          dyno->releaseVertexDataPtr();

          normal_ptr = dyno->createNormalData(vertexCount * 3);  
          pCalRenderer->getNormals(normal_ptr);
          dyno->releaseNormalDataPtr();
        } else {
          vertex_ptr = dyno->getVertexDataPtr();
          pCalRenderer->getVertices(vertex_ptr);
          dyno->releaseVertexDataPtr();

          normal_ptr = dyno->getNormalDataPtr();
          pCalRenderer->getNormals(normal_ptr);
          dyno->releaseNormalDataPtr();
        }

        int faceCount = pCalRenderer->getFaceCount();

        if (faceCount > 0) {
          int *face_ptr;
          if (faceCount > dyno->getNumFaces()) {
            face_ptr = dyno->createIndices(faceCount * 3);
          } else {
            face_ptr = dyno->getIndicesPtr();
          }
          pCalRenderer->getFaces(face_ptr);
          dyno->releaseIndicesPtr();

          dyno->setNumFaces(faceCount);
        }

        dyno->setNumPoints(vertexCount);

        // There are several situations that can happen here. 
        // Model with/without texture coordinates
        // Model with/without texture maps
        // Model with/without texture mas name defined
        // Each model can be a mixture of the above. We want objects with
        // textures and texture coords.
        bool mapDataFound = false;


        std::vector<std::vector<CalCoreSubmesh::TextureCoordinate> > & vectorvectorTextureCoordinate =
            m_calModel->getVectorMesh()[meshId]->getSubmesh(submeshId)->getCoreSubmesh()->getVectorVectorTextureCoordinate();

        // check if the map id is valid
        if ( vectorvectorTextureCoordinate.size() > 0) {
          textureCoordinateCount = vectorvectorTextureCoordinate[0].size();
        }


        if((pCalRenderer->getMapCount() > 0) && (textureCoordinateCount > 0)) {
          for (int i = 0; i < pCalRenderer->getMapCount(); ++i) {
            MapData *md = reinterpret_cast<MapData*>
                                          (pCalRenderer->getMapUserData(i));
            if (md) {
              dyno->setTexture(i, md->textureID, md->textureMaskID);
              mapDataFound = true;
            } else {
              // Can't have a missing texture map between units.
              break; 
            }
          }
        }

        if (mapDataFound){
          if (realloc) {
            texture_ptr = dyno->createTextureData(vertexCount * 2);
            textureCoordinateCount = pCalRenderer->getTextureCoordinates(0, texture_ptr);
            dyno->releaseTextureDataPtr();
          } else {
            texture_ptr = dyno->getTextureDataPtr();
            textureCoordinateCount = pCalRenderer->getTextureCoordinates(0, texture_ptr);
            dyno->releaseTextureDataPtr();
          }
          if (textureCoordinateCount == -1) {
            // Need to ignore the texture buffer
          }
//          assert(textureCoordinateCount == vertexCount);
        }
      }
    }
  }
  pCalRenderer->endRendering();
}
Example #7
0
	void RenderModelSkinned(CModelSkinned* pModelSkinned)
	{
		glPushMatrix();

		glTranslatef(Vec3Expand(pModelSkinned->GetPosition()));
		glRotatef(pModelSkinned->GetRotation().q[0], 0, 1, 0);
//		glRotatef(-90, 1, 0, 0);
//		glScalef(Vec3Expand(pModelSkinned->GetModel()->GetScale()));

/*		glDisable(GL_TEXTURE_2D);
		glBegin(GL_LINES);
			glVertex3f(-pModelSkinned->GetDims().x/2,0,-pModelSkinned->GetDims().z/2);
			glVertex3f(-pModelSkinned->GetDims().x/2,pModelSkinned->GetDims().y,-pModelSkinned->GetDims().z/2);
			glVertex3f(-pModelSkinned->GetDims().x/2,0,-pModelSkinned->GetDims().z/2);
			glVertex3f(-pModelSkinned->GetDims().x/2,0,pModelSkinned->GetDims().z/2);
			glVertex3f(-pModelSkinned->GetDims().x/2,0,-pModelSkinned->GetDims().z/2);
			glVertex3f(pModelSkinned->GetDims().x/2,0,-pModelSkinned->GetDims().z/2);

			glVertex3f(+pModelSkinned->GetDims().x/2,0,+pModelSkinned->GetDims().z/2);
			glVertex3f(+pModelSkinned->GetDims().x/2,pModelSkinned->GetDims().y,+pModelSkinned->GetDims().z/2);
			glVertex3f(+pModelSkinned->GetDims().x/2,0,+pModelSkinned->GetDims().z/2);
			glVertex3f(+pModelSkinned->GetDims().x/2,0,-pModelSkinned->GetDims().z/2);
			glVertex3f(+pModelSkinned->GetDims().x/2,0,+pModelSkinned->GetDims().z/2);
			glVertex3f(-pModelSkinned->GetDims().x/2,0,+pModelSkinned->GetDims().z/2);

			glVertex3f(+pModelSkinned->GetDims().x/2,pModelSkinned->GetDims().y,-pModelSkinned->GetDims().z/2);
			glVertex3f(+pModelSkinned->GetDims().x/2,0,-pModelSkinned->GetDims().z/2);
			glVertex3f(-pModelSkinned->GetDims().x/2,pModelSkinned->GetDims().y,-pModelSkinned->GetDims().z/2);
			glVertex3f(-pModelSkinned->GetDims().x/2,pModelSkinned->GetDims().y,pModelSkinned->GetDims().z/2);
			glVertex3f(-pModelSkinned->GetDims().x/2,pModelSkinned->GetDims().y,-pModelSkinned->GetDims().z/2);
			glVertex3f(pModelSkinned->GetDims().x/2,pModelSkinned->GetDims().y,-pModelSkinned->GetDims().z/2);

			glVertex3f(-pModelSkinned->GetDims().x/2,pModelSkinned->GetDims().y,+pModelSkinned->GetDims().z/2);
			glVertex3f(-pModelSkinned->GetDims().x/2,0,+pModelSkinned->GetDims().z/2);
			glVertex3f(+pModelSkinned->GetDims().x/2,pModelSkinned->GetDims().y,+pModelSkinned->GetDims().z/2);
			glVertex3f(+pModelSkinned->GetDims().x/2,pModelSkinned->GetDims().y,-pModelSkinned->GetDims().z/2);
			glVertex3f(+pModelSkinned->GetDims().x/2,pModelSkinned->GetDims().y,+pModelSkinned->GetDims().z/2);
			glVertex3f(-pModelSkinned->GetDims().x/2,pModelSkinned->GetDims().y,+pModelSkinned->GetDims().z/2);

		glEnd();
		glEnable(GL_TEXTURE_2D);
*/
		GL::SetColor(CRGBA(255,255,255,255));
		glEnableClientState(GL_VERTEX_ARRAY);
		glEnableClientState(GL_NORMAL_ARRAY);

		CalModel* pCalModel = (CalModel*)pModelSkinned->GetCalModel();
//		pCalModel->update(GetTime()->GetTimeDelta());

		// get the renderer of the model
		CalRenderer *pCalRenderer = pCalModel->getRenderer();

		// begin the rendering loop
		if(!pCalRenderer->beginRendering())
		{
			// error handling ...
		}

		int	meshCount = pCalRenderer->getMeshCount();
		for(int meshId = 0; meshId < meshCount; meshId++)
		{
			ModelSkinnedMesh msm;
			msm.pModelSkinned = pModelSkinned;
			msm.nMeshId = meshId;

			RenderShader(pModelSkinned->GetModel()->GetShader(meshId), pModelSkinned->GetTint(), CRender::RenderFacesModelSkinned, &msm);
		}

		// end the rendering of the model
		pCalRenderer->endRendering();

		glDisableClientState(GL_NORMAL_ARRAY);
		glDisableClientState(GL_VERTEX_ARRAY);

		glPopMatrix();
	}
void CCal3DSceneNode::render()
{
    if ( bInitialized )
    {
      irr::video::IVideoDriver* driver = SceneManager->getVideoDriver(); 


      driver->setTransform( irr::video::ETS_WORLD, AbsoluteTransformation ); 


      irr::video::S3DVertex tmp; 
      irr::scene::SMeshBuffer mb; 

      unsigned char meshColor[4]; // r g b a 


      // get the renderer of the model 
      CalRenderer* pCalRenderer; 
      pCalRenderer = m_calModel->getRenderer(); 
      pCalRenderer->setNormalization( true ); 

      if ( this->DebugDataVisible )
      {
        irr::video::SMaterial mat; 
        mat.Wireframe = false; 
        mat.Lighting = false; 
        driver->setMaterial( mat ); 
        driver->draw3DBox( Box ); 

        CalSkeleton* pCalSkeleton = m_calModel->getSkeleton(); 
        pCalSkeleton->calculateBoundingBoxes(); 
        std::vector<CalBone*>& vectorCoreBone = pCalSkeleton->getVectorBone(); 
        irr::core::aabbox3df b; 
        CalVector p[8]; 
        Vector3 v[8]; 


        for ( size_t boneId = 0; boneId < vectorCoreBone.size(); ++boneId )
        {
          CalBone* bone = vectorCoreBone[boneId]; 
          CalBoundingBox& calBoundingBox = bone->getBoundingBox(); 
          calBoundingBox.computePoints( p ); 

          for ( int i = 0; i < 8; ++i )
          {
            v[i].set( p[i].x, p[i].y, p[i].z );
          } 

          driver->setMaterial( mat ); 
          // draw the box 
          driver->draw3DLine( v[0], v[1], irr::video::SColor( 255, 0, 0, 255 ) ); 
          driver->draw3DLine( v[0], v[2], irr::video::SColor( 255, 0, 0, 255 ) ); 
          driver->draw3DLine( v[1], v[3], irr::video::SColor( 255, 0, 0, 255 ) ); 
          driver->draw3DLine( v[2], v[3], irr::video::SColor( 255, 0, 0, 255 ) ); 
          driver->draw3DLine( v[4], v[5], irr::video::SColor( 255, 0, 0, 255 ) ); 
          driver->draw3DLine( v[4], v[6], irr::video::SColor( 255, 0, 0, 255 ) ); 
          driver->draw3DLine( v[5], v[7], irr::video::SColor( 255, 0, 0, 255 ) ); 
          driver->draw3DLine( v[6], v[7], irr::video::SColor( 255, 0, 0, 255 ) ); 
          driver->draw3DLine( v[0], v[4], irr::video::SColor( 255, 0, 0, 255 ) ); 
          driver->draw3DLine( v[1], v[5], irr::video::SColor( 255, 0, 0, 255 ) ); 
          driver->draw3DLine( v[2], v[6], irr::video::SColor( 255, 0, 0, 255 ) ); 
          driver->draw3DLine( v[3], v[7], irr::video::SColor( 255, 0, 0, 255 ) ); 
          //printf("F: %f\n", v[0].X);
        }
      } 


      // begin the rendering loop 
      if ( pCalRenderer->beginRendering() )
      {
        // get the number of meshes 
        int meshCount; 
        meshCount = pCalRenderer->getMeshCount(); 

        // render all meshes of the model 
        int meshId; 
        for ( meshId = 0; meshId < meshCount; meshId++ )
        {
          // get the number of submeshes 
          int submeshCount; 
          submeshCount = pCalRenderer->getSubmeshCount( meshId ); 

          // render all submeshes of the mesh 
          int submeshId; 
          for ( submeshId = 0; submeshId < submeshCount; submeshId++ )
          {
            // select mesh and submesh for further data access 
            if ( pCalRenderer->selectMeshSubmesh( meshId, submeshId ) )
            {
              // set the material ambient color 
              pCalRenderer->getAmbientColor( &meshColor[0] ); 
              material.AmbientColor.set( meshColor[3], meshColor[0], meshColor[1], meshColor[2] ); 

              // set the material diffuse color 
              pCalRenderer->getDiffuseColor( &meshColor[0] ); 
              material.DiffuseColor.set( meshColor[3], meshColor[0], meshColor[1], meshColor[2] ); 

              // set the material specular color 
              pCalRenderer->getSpecularColor( &meshColor[0] ); 
              material.SpecularColor.set( meshColor[3], meshColor[0], meshColor[1], meshColor[2] ); 

              // set the material shininess factor 
              material.Shininess = pCalRenderer->getShininess(); 

              // get the transformed vertices of the submesh 
              static float meshVertices[3000][3]; 
              int vertexCount = 0; 
              // TODO:
              //if (KERNEL.GetTicks() % 3 == 0) //- make lod dependent?
              vertexCount = pCalRenderer->getVertices( &meshVertices[0][0] ); 

              // get the transformed normals of the submesh 
              static float meshNormals[3000][3]; 
              int normalsCount = 0;
              //    if (KERNEL.GetTicks() % 3 == 0)
              normalsCount = pCalRenderer->getNormals( &meshNormals[0][0] ); 

              // get the texture coordinates of the submesh 
              static float meshTextureCoordinates[3000][2]; 
              int textureCoordinateCount = 0; 
              textureCoordinateCount = pCalRenderer->getTextureCoordinates( 0, &meshTextureCoordinates[0][0] ); 

              // get the faces of the submesh 
              static CalIndex meshFaces[5000][3]; 
              int faceCount = 0;
              //if (KERNEL.GetTicks() % 12 == 0)
              faceCount = pCalRenderer->getFaces( &meshFaces[0][0] ); 

              if ( ( pCalRenderer->getMapCount() > 0 ) && ( textureCoordinateCount > 0 ) )
              {
                irr::video::ITexture* t = static_cast<irr::video::ITexture*>( pCalRenderer->getMapUserData( 0 ) ); 
                material.Texture1 = t;
              } 

              static S3DVertex vs[5000];
              for ( int i = 0; i < vertexCount; i++ )
              {
                vs[i].Pos.set( meshVertices[i][0], meshVertices[i][1], meshVertices[i][2] ); 
                vs[i].Normal.set( meshNormals[i][0], meshNormals[i][1], meshNormals[i][2] ); 
                vs[i].TCoords.set( meshTextureCoordinates[i][0], meshTextureCoordinates[i][1] ); 
                vs[i].Color = irr::video::SColor( 255, 255, 255, 255 );
              } 

              static u16 is[5000];
              for ( int i = 0; i < faceCount; i += 1 )
              {
                is[i * 3 + 0] = meshFaces[i][0]; 
                is[i * 3 + 1] = meshFaces[i][1]; 
                is[i * 3 + 2] = meshFaces[i][2];
              } 

              //mb.Vertices.clear(); 
              //mb.Vertices.reallocate(vertexCount);
              //for(int i=0;i<vertexCount;i++) 
              //{ 
              //    tmp.Pos.set(meshVertices[i][0],meshVertices[i][1],meshVertices[i][2]); 
              //    tmp.Normal.set(meshNormals[i][0],meshNormals[i][1],meshNormals[i][2]); 
              //    tmp.TCoords.set(meshTextureCoordinates[i][0],meshTextureCoordinates[i][1]); 
              //    tmp.Color=irr::video::SColor(255,255,255,255); 
              //    mb.Vertices.push_back(tmp); 
              //} 

              //mb.Indices.clear(); 
              //mb.Indices.reallocate(faceCount);
              //for(int i=0; i<faceCount; ++i)
              //{ 
              //    mb.Indices.push_back(meshFaces[i][0]); 
              //    mb.Indices.push_back(meshFaces[i][1]); 
              //    mb.Indices.push_back(meshFaces[i][2]); 
              //} 

              // draw 

              driver->setMaterial( material ); 
              //driver->drawIndexedTriangleList(mb.Vertices.const_pointer(),mb.Vertices.size(),mb.Indices.const_pointer(),faceCount); 
              driver->drawIndexedTriangleList( vs, vertexCount, is, faceCount ); 
              //driver->drawMeshBuffer(&mb); 

              //CONSOLE.addx("#Verts %d #Norm %d #Tex %d #Faces %d #Map %d", 
              //       vertexCount,normalsCount,textureCoordinateCount,faceCount, pCalRenderer->getMapCount()); 
            }
          }
        } 

        // end the rendering 
        pCalRenderer->endRendering();
      }
    }
}