Exemplos de GEO_Primitive::getVertexElement em C++ (Cpp)

Exemplo n.º 1

Arquivo: VRAY_clusterThisInstance.C Projeto: bxyldy/clusterThis

/* ******************************************************************************
*  Function Name : instanceCube()
*
*  Description :
*
*  Input Arguments : GU_Detail *inst_gdp, GU_Detail *mb_gdp
*
*  Return Value : int
*
***************************************************************************** */
int VRAY_clusterThis::instanceCube(GU_Detail * inst_gdp, GU_Detail * mb_gdp)
{
#ifdef DEBUG
   std::cout << "VRAY_clusterThis::instanceCube()" << std::endl;
#endif

   GEO_Primitive * myCube;
   GEO_Point * ppt;
   UT_Matrix4 xform(1.0);
//   UT_XformOrder xformOrder(UT_XformOrder::TRS,  UT_XformOrder::XYZ);
   UT_Matrix3 rot_xform(1.0);
//   UT_Vector3 myDir = myPointAttributes.N;
   UT_Vector3 myUp = UT_Vector3(0,1,0);
   rot_xform.orient(myPointAttributes.N, myUp);
   xform = rot_xform;

   myCube = (GEO_Primitive *) inst_gdp->cube(
               myPointAttributes.myNewPos[0] - ((mySize[0] * myPointAttributes.pscale) / 2),
               myPointAttributes.myNewPos[0] + ((mySize[0] * myPointAttributes.pscale) / 2),
               myPointAttributes.myNewPos[1] - ((mySize[1] * myPointAttributes.pscale) / 2),
               myPointAttributes.myNewPos[1] + ((mySize[1] * myPointAttributes.pscale) / 2),
               myPointAttributes.myNewPos[2] - ((mySize[2] * myPointAttributes.pscale) / 2),
               myPointAttributes.myNewPos[2] + ((mySize[2] * myPointAttributes.pscale) / 2));

   for(int i=0; i < myCube->getVertexCount(); i++) {
         ppt = myCube->getVertexElement(i).getPt();
         UT_Vector4  P = ppt->getPos();
         P *= xform;
         ppt->setPos(P);
      }

   VRAY_clusterThis::setInstanceAttributes(myCube);

   if(myDoMotionBlur == CLUSTER_MB_DEFORMATION) {

         myCube = (GEO_Primitive *) mb_gdp->cube(myPointAttributes.myMBPos[0] - ((mySize[0] * myPointAttributes.pscale) / 2),
                                                 myPointAttributes.myMBPos[0] + ((mySize[0] * myPointAttributes.pscale) / 2),
                                                 myPointAttributes.myMBPos[1] - ((mySize[1] * myPointAttributes.pscale) / 2),
                                                 myPointAttributes.myMBPos[1] + ((mySize[1] * myPointAttributes.pscale) / 2),
                                                 myPointAttributes.myMBPos[2] - ((mySize[2] * myPointAttributes.pscale) / 2),
                                                 myPointAttributes.myMBPos[2] + ((mySize[2] * myPointAttributes.pscale) / 2));

         for(int i=0; i < myCube->getVertexCount(); i++) {
               ppt = myCube->getVertexElement(i).getPt();
               UT_Vector4  P = ppt->getPos();
               P *= xform;
               ppt->setPos(P);
            }

         VRAY_clusterThis::setInstanceAttributes(myCube);
      }

   if(myCVEX_Exec)
      VRAY_clusterThis::runCVEX(inst_gdp, mb_gdp, myCVEXFname, CLUSTER_CVEX_POINT);

   if(myCVEX_Exec_prim)
      VRAY_clusterThis::runCVEX(inst_gdp, mb_gdp, myCVEXFname_prim, CLUSTER_CVEX_PRIM);

   return 0;
}

Exemplo n.º 2

Arquivo: VRAY_clusterThisInstance.cpp Projeto: dperi/clusterThis

/* ******************************************************************************
*  Function Name : instanceGrid()
*
*  Description : Instance a grid
*
*  Input Arguments : GU_Detail *inst_gdp, GU_Detail *mb_gdp
*
*  Return Value : int
*
***************************************************************************** */
int VRAY_clusterThis::instanceGrid(GU_Detail * inst_gdp, GU_Detail * mb_gdp)
{
#ifdef DEBUG
   std::cout << "VRAY_clusterThis::instanceGrid()" << std::endl;
#endif

   GEO_Primitive * myGrid;
   GU_GridParms grid_parms;
   UT_XformOrder xformOrder(UT_XformOrder::TRS,  UT_XformOrder::XYZ);
   UT_Matrix4 xform(1.0);

   xform.rotate(myPointAttributes.N[0], myPointAttributes.N[1], myPointAttributes.N[2], xformOrder);

   grid_parms.rows = 2;
   grid_parms.cols = 2;
   grid_parms.xsize = mySize[0] * myPointAttributes.pscale;
   grid_parms.ysize = mySize[1] * myPointAttributes.pscale;
   grid_parms.xcenter = myPointAttributes.myNewPos[0];
   grid_parms.ycenter = myPointAttributes.myNewPos[1];
   grid_parms.zcenter = myPointAttributes.myNewPos[2];
   grid_parms.plane = GU_PLANE_XY;
   myGrid = inst_gdp->buildGrid(grid_parms, GU_GRID_POLY);

   for(int i = 0; i < myGrid->getVertexCount(); i++) {
         GEO_Point * ppt = myGrid->getVertexElement(i).getPt();
         UT_Vector4  P = ppt->getPos();
         P *= xform;
         ppt->setPos(P);
      }

   VRAY_clusterThis::setInstanceAttributes(myGrid);

   if(myDoMotionBlur == CLUSTER_MB_DEFORMATION) {

         grid_parms.xcenter = myPointAttributes.myMBPos[0];
         grid_parms.ycenter = myPointAttributes.myMBPos[1];
         grid_parms.zcenter = myPointAttributes.myMBPos[2];
         myGrid = mb_gdp->buildGrid(grid_parms, GU_GRID_POLY);

         for(int i = 0; i < myGrid->getVertexCount(); i++) {
               GEO_Point * ppt = myGrid->getVertexElement(i).getPt();
               UT_Vector4  P = ppt->getPos();
               P *= xform;
               ppt->setPos(P);
            }

         VRAY_clusterThis::setInstanceAttributes(myGrid);
      }

   if(myCVEX_Exec)
      VRAY_clusterThis::runCVEX(inst_gdp, mb_gdp, myCVEXFname, CLUSTER_CVEX_POINT);

   if(myCVEX_Exec_prim)
      VRAY_clusterThis::runCVEX(inst_gdp, mb_gdp, myCVEXFname_prim, CLUSTER_CVEX_PRIM);

   return 0;
}