void convertHairSet(ISPCHairSet* hair, RTCScene scene_out) { unsigned int geomID = rtcNewHairGeometry (scene_out, RTC_GEOMETRY_STATIC, hair->numHairs, hair->numVertices, hair->v2 ? 2 : 1); rtcSetBuffer(scene_out,geomID,RTC_VERTEX_BUFFER,hair->v,0,sizeof(Vertex)); if (hair->v2) rtcSetBuffer(scene_out,geomID,RTC_VERTEX_BUFFER1,hair->v2,0,sizeof(Vertex)); rtcSetBuffer(scene_out,geomID,RTC_INDEX_BUFFER,hair->hairs,0,sizeof(ISPCHair)); rtcSetOcclusionFilterFunction(scene_out,geomID,(RTCFilterFunc)&filterDispatch); }
unsigned int convertHairSet(ISPCHairSet* hair, RTCScene scene_out) { unsigned int geomID = rtcNewHairGeometry (scene_out, RTC_GEOMETRY_STATIC, hair->numHairs, hair->numVertices, hair->v2 ? 2 : 1); rtcSetBuffer(scene_out,geomID,RTC_VERTEX_BUFFER,hair->v,0,sizeof(Vertex)); if (hair->v2) rtcSetBuffer(scene_out,geomID,RTC_VERTEX_BUFFER1,hair->v2,0,sizeof(Vertex)); rtcSetBuffer(scene_out,geomID,RTC_INDEX_BUFFER,hair->hairs,0,sizeof(ISPCHair)); return geomID; }
/* adds a hair to the scene */ unsigned int addHair(RTCScene scene_i) { unsigned int geomID = rtcNewHairGeometry (scene_i, RTC_GEOMETRY_STATIC, 1, 4, 1); float4* pos = (float4*) rtcMapBuffer(scene_i,geomID,RTC_VERTEX_BUFFER); pos[0] = float4(0.0f,0.0f,0.0f,0.1f); pos[1] = float4(0.0f,1.0f,0.0f,0.1f); pos[2] = float4(0.0f,2.0f,0.0f,0.1f); pos[3] = float4(0.0f,3.0f,0.0f,0.1f); rtcUnmapBuffer(scene_i,geomID,RTC_VERTEX_BUFFER); int* index = (int*) rtcMapBuffer(scene_i,geomID,RTC_INDEX_BUFFER); index[0] = 0; rtcUnmapBuffer(scene_i,geomID,RTC_INDEX_BUFFER); return geomID; }
RTCScene convertScene(ISPCScene* scene_in) { //scene_in->numHairSets = 0; //scene_in->numMeshes = 0; /* create scene */ RTCScene scene_out = rtcNewScene(RTC_SCENE_STATIC | RTC_SCENE_INCOHERENT, RTC_INTERSECT1); /* add all hair sets to the scene */ for (int i=0; i<scene_in->numHairSets; i++) { ISPCHairSet* hair = scene_in->hairs[i]; unsigned int geomID = rtcNewHairGeometry (scene_out, RTC_GEOMETRY_STATIC, hair->numHairs, hair->numVertices, hair->v2 ? 2 : 1); rtcSetBuffer(scene_out,geomID,RTC_VERTEX_BUFFER,hair->v,0,sizeof(Vertex)); if (hair->v2) rtcSetBuffer(scene_out,geomID,RTC_VERTEX_BUFFER1,hair->v2,0,sizeof(Vertex)); rtcSetBuffer(scene_out,geomID,RTC_INDEX_BUFFER,hair->hairs,0,sizeof(ISPCHair)); rtcSetOcclusionFilterFunction(scene_out,geomID,(RTCFilterFunc)&filterDispatch); } /* add all triangle meshes to the scene */ for (int i=0; i<scene_in->numMeshes; i++) { ISPCMesh* mesh = scene_in->meshes[i]; unsigned int geomID = rtcNewTriangleMesh (scene_out, RTC_GEOMETRY_STATIC, mesh->numTriangles, mesh->numVertices, mesh->positions2 ? 2 : 1); rtcSetBuffer(scene_out,geomID,RTC_VERTEX_BUFFER,mesh->positions,0,sizeof(Vertex)); if (mesh->positions2) rtcSetBuffer(scene_out,geomID,RTC_VERTEX_BUFFER1,mesh->positions2,0,sizeof(Vertex)); rtcSetBuffer(scene_out,geomID,RTC_INDEX_BUFFER,mesh->triangles,0,sizeof(ISPCTriangle)); rtcSetOcclusionFilterFunction(scene_out,geomID,(RTCFilterFunc)&filterDispatch); } /* commit changes to scene */ #if !defined(PARALLEL_COMMIT) rtcCommit (scene_out); #else launch[ getNumHWThreads() ] parallelCommit(scene_out); #endif return scene_out; }
extern "C" unsigned ispcNewBezierCurves (RTCScene scene, RTCGeometryFlags flags, size_t numCurves, size_t numVertices, size_t numTimeSteps) { return rtcNewHairGeometry(scene,flags,numCurves,numVertices,numTimeSteps); }
RTCScene convertScene(ISPCScene* scene_in) { //scene_in->numHairSets = 0; //scene_in->numMeshes = 0; /* create scene */ RTCScene scene_out = rtcNewScene(RTC_SCENE_STATIC | RTC_SCENE_INCOHERENT, RTC_INTERSECT1); /* add all hair sets to the scene */ for (int i=0; i<scene_in->numHairSets; i++) { ISPCHairSet* hair = scene_in->hairs[i]; unsigned int geomID = rtcNewHairGeometry (scene_out, RTC_GEOMETRY_STATIC, hair->numHairs, hair->numVertices, hair->v2 ? 2 : 1); rtcSetBuffer(scene_out,geomID,RTC_VERTEX_BUFFER,hair->v,0,sizeof(Vertex)); if (hair->v2) rtcSetBuffer(scene_out,geomID,RTC_VERTEX_BUFFER1,hair->v2,0,sizeof(Vertex)); rtcSetBuffer(scene_out,geomID,RTC_INDEX_BUFFER,hair->hairs,0,sizeof(ISPCHair)); rtcSetOcclusionFilterFunction(scene_out,geomID,(RTCFilterFunc)&filterDispatch); } /* add all triangle meshes to the scene */ for (int i=0; i<scene_in->numMeshes; i++) { ISPCMesh* mesh = scene_in->meshes[i]; if (mesh->numQuads) { g_subdiv_mode = true; size_t numPrimitives = mesh->numQuads; size_t numEdges = mesh->numQuads*4; mesh->edge_level = new float[numEdges]; int *index_buffer = new int[numEdges]; for (size_t i=0; i<numEdges; i++) mesh->edge_level[i] = FIXED_EDGE_TESSELLATION_VALUE; /* create a triangle mesh */ unsigned int geomID = rtcNewSubdivisionMesh (scene_out, RTC_GEOMETRY_STATIC, numPrimitives, numEdges, mesh->numVertices, 0, 0, 0); mesh->geomID = geomID; unsigned int* faces = (unsigned int*) rtcMapBuffer(scene_out, geomID, RTC_FACE_BUFFER); for (size_t i=0; i<mesh->numQuads ; i++) faces[i] = 4; rtcUnmapBuffer(scene_out,geomID,RTC_FACE_BUFFER); for (size_t i=0; i<mesh->numQuads; i++) { index_buffer[4*i+0] = mesh->quads[i].v0; index_buffer[4*i+1] = mesh->quads[i].v1; index_buffer[4*i+2] = mesh->quads[i].v2; index_buffer[4*i+3] = mesh->quads[i].v3; } rtcSetBuffer(scene_out, geomID, RTC_VERTEX_BUFFER, mesh->positions , 0, sizeof(Vec3fa )); rtcSetBuffer(scene_out, geomID, RTC_INDEX_BUFFER, index_buffer , 0, sizeof(unsigned int)); rtcSetBuffer(scene_out, geomID, RTC_LEVEL_BUFFER, mesh->edge_level, 0, sizeof(float)); #if ENABLE_DISPLACEMENTS == 1 rtcSetDisplacementFunction(scene_out,geomID,(RTCDisplacementFunc)&displacementFunction,NULL); #endif } else if (mesh->numTriangles) { unsigned int geomID = rtcNewTriangleMesh (scene_out, RTC_GEOMETRY_STATIC, mesh->numTriangles, mesh->numVertices, mesh->positions2 ? 2 : 1); rtcSetBuffer(scene_out,geomID,RTC_VERTEX_BUFFER,mesh->positions,0,sizeof(Vertex)); if (mesh->positions2) rtcSetBuffer(scene_out,geomID,RTC_VERTEX_BUFFER1,mesh->positions2,0,sizeof(Vertex)); rtcSetBuffer(scene_out,geomID,RTC_INDEX_BUFFER,mesh->triangles,0,sizeof(ISPCTriangle)); rtcSetOcclusionFilterFunction(scene_out,geomID,(RTCFilterFunc)&filterDispatch); } } /* commit changes to scene */ rtcCommit (scene_out); return scene_out; }