void DumpFaceInfo(const Ptex::FaceInfo& f) { Ptex::Res res = f.res; std::cout << " res: " << int(res.ulog2) << ' ' << int(res.vlog2) << " (" << res.u() << " x " << res.v() << ")" << " adjface: " << f.adjfaces[0] << ' ' << f.adjfaces[1] << ' ' << f.adjfaces[2] << ' ' << f.adjfaces[3] << " adjedge: " << f.adjedge(0) << ' ' << f.adjedge(1) << ' ' << f.adjedge(2) << ' ' << f.adjedge(3) << " flags:"; // output flag names if (f.flags == 0) std::cout << " (none)"; else { if (f.isSubface()) std::cout << " subface"; if (f.isConstant()) std::cout << " constant"; if (f.isNeighborhoodConstant()) std::cout << " nbconstant"; if (f.hasEdits()) std::cout << " hasedits"; } std::cout << std::endl; }
void PtexTriangleFilter::applyAcrossEdge(PtexTriangleKernel& k, const Ptex::FaceInfo& f, int eid) { int afid = f.adjface(eid), aeid = f.adjedge(eid); const Ptex::FaceInfo& af = _tx->getFaceInfo(afid); k.reorient(eid, aeid); splitAndApply(k, afid, af); }
void PtexSeparableFilter::applyAcrossEdge(PtexSeparableKernel& k, int faceid, const Ptex::FaceInfo& f, int eid) { int afid = f.adjface(eid), aeid = f.adjedge(eid); const Ptex::FaceInfo* af = &_tx->getFaceInfo(afid); int rot = eid - aeid + 2; // adjust uv coord and res for face/subface boundary bool fIsSubface = f.isSubface(), afIsSubface = af->isSubface(); if (fIsSubface != afIsSubface) { if (afIsSubface) { // main face to subface transition // adjust res and offset uv coord for primary subface bool primary = k.adjustMainToSubface(eid); if (!primary) { // advance ajacent face and edge id to secondary subface int neid = (aeid + 3) % 4; afid = af->adjface(neid); aeid = af->adjedge(neid); af = &_tx->getFaceInfo(afid); rot += neid - aeid + 2; } } else { // subface to main face transition // Note: the transform depends on which subface the kernel is // coming from. The "primary" subface is the one the main // face is pointing at. The secondary subface adjustment // happens to be the same as for the primary subface for the // next edge, so the cases can be combined. bool primary = (af->adjface(aeid) == faceid); k.adjustSubfaceToMain(eid - primary); } } // rotate and apply (resplit if going to a subface) k.rotate(rot); if (afIsSubface) splitAndApply(k, afid, *af); else apply(k, afid, *af); }