Example #1
0
BaseMesh* BoolOp::Diff (BaseMesh* mesh1,  BaseMesh* mesh2)
{
	BaseMesh* result = NULL;
	if (mesh1 != NULL)
	{
		if (mesh2 == NULL || !(mesh1->AABB().Intersects(mesh2->AABB())))	
			result = mesh1->Clone();
		else{
            result = ComputeBoolean(mesh1, mesh2,eDiff);
			if (result && result->PrimitiveCount() ==0 )
			{
				delete result;
				result = NULL;
			}
		}
	}
	if (result != NULL)
	{
		result->GenID();
	//	result->GenSurface();
	//	result->GenAABB(true);
	}
	return result ; 

}
Example #2
0
BaseMesh* BoolOp::Union ( BaseMesh* mesh1,  BaseMesh* mesh2)
{
    tbb::tick_count t0 = tbb::tick_count::now();
  
	if (mesh1 == NULL && mesh2 == NULL)
		return NULL;
	if ( mesh1 == NULL)
		return mesh2->Clone();
	if (mesh2 == NULL)
		return mesh1->Clone();
	BaseMesh* result = NULL;
	if (mesh1->AABB().Intersects(mesh2->AABB()))
	{
        result = ComputeBoolean(mesh1, mesh2, eUnion);
		if (result && result->PrimitiveCount() ==0 )
		{
			delete result;
			result = NULL;
		}
	}
	else {
		result = mesh1->Clone();
		for (int i = 0; i < mesh2->PrimitiveCount(); i++) 
		{
			const TriInfo&  info= mesh2->TriangleInfo(i);
			result->Add(mesh2->Vertex(info.VertexId[0]) , mesh2->Vertex(info.VertexId[1]), mesh2->Vertex(info.VertexId[2]));
			        
		}
	}

    if (result != NULL)
    {
        result->GenID();
    //    result->GenSurface();
     //   result->GenAABB(true);
    }
   /*  tbb::tick_count t1 = tbb::tick_count::now();
     WCHAR buffer [100];
    ::swprintf_s(buffer, 100, L"Time %f mec", (t1-t0).seconds());
    ::MessageBox(NULL, buffer, L"Warning", MB_OK); */
	return result ; 
	 
}
Example #3
0
 BaseMesh* FixedPlaneMesh::ToBaseMesh() 
 {
     std::vector<Point3D> pts; 
     ListOfvertices results;
     BaseMesh* pMesh = new BaseMesh;
     pMesh->SetTransformedAABB(AABB());
	//auto center = AABB().Center();
	//auto scale = AABB().Diagonal();

     for (int i = 0 ; i < mPolygons.size(); i++)
     {
        for (int j = 0 ; j < mPolygons[i].bplanes.size(); j++)
        {
            int prevPtIdx = j == 0? mPolygons[i].bplanes.size() -1 : j -1;
			Point3D pt = InexactComputePoint(mPolygons[i].splane, mPolygons[i].bplanes[prevPtIdx], mPolygons[i].bplanes[j] );
			//pt = denormalize(pt, center, scale);
			if (!pts.size() || 
				!IsSimilar(pt, pts.back())) 
				pts.push_back(pt);
        }
        auto normal = normalize(mPolygons[i].splane.Normal());
		TrianglatePolygon(normal, pts, results);
		//catch (...){
		//	wchar_t ch[64];
		//	swprintf(ch, 64, L"Error, %u", i);
		//	OutputDebugString(ch);
		//	results.clear();
		//}

        for (int k = 0 ; k < results.size(); k+=3)
        {   
            pMesh->Add(results[k], results[k+1], results[k+2], normal);
        }
        pts.clear();
		results.clear();
     }
     pMesh->GenID();
     return pMesh;
 }
Example #4
0
BaseMesh* BoolOp::Intersect (BaseMesh* mesh1,  BaseMesh* mesh2)
{
	BaseMesh* result = NULL;
	if (mesh1 != NULL && mesh2 != NULL && (mesh1->AABB().Intersects(mesh2->AABB())))
	{
        result = ComputeBoolean(mesh1, mesh2, eIntersect);
		if (result && result->PrimitiveCount() ==0 )
		{
			delete result;
			result = NULL;
		}
	}
	if (result != NULL)
	{
		result->GenID();
	//	result->GenSurface();
	//	result->GenAABB(true);
	}
	return result ; 
 


}