Exemplo n.º 1
0
void OCC_Connect::MergeVertices(TopoDS_Shape &shape1,TopoDS_Shape &shape2) const
{
    TopTools_IndexedMapOfShape imap, omap;
    TopExp::MapShapes(shape1,TopAbs_VERTEX,imap);
    TopExp::MapShapes(shape2,TopAbs_VERTEX,imap);
    BRepTools_ReShape replacer;
    for(int i=0;i<imap.Extent();i++) {
        for(int j=0;j<omap.Extent();j++) {
            TopoDS_Vertex orig=TopoDS::Vertex(imap(i+1));
            TopoDS_Vertex repl=TopoDS::Vertex(omap(j+1));
            if(BRepTools::Compare(orig,repl)) {
                repl.Orientation(orig.Orientation());
                replacer.Replace(orig,repl);
                // FIXME, tolerance and point should be updated
                goto skip;
            }
        }
        omap.Add(imap(i+1));
    skip:;
    }
    TopoDS_Shape t=shape1;
    shape1=replacer.Apply(t);
    t=shape2;
    shape2=replacer.Apply(t);
}
Exemplo n.º 2
0
void Part::BRepBuilderAPI_RefineModel::Build()
{
    if (myShape.IsNull())
        Standard_Failure::Raise("Cannot remove splitter from empty shape");

    if (myShape.ShapeType() == TopAbs_SOLID) {
        const TopoDS_Solid &solid = TopoDS::Solid(myShape);
        BRepTools_ReShape reshape;
        TopExp_Explorer it;
        for (it.Init(solid, TopAbs_SHELL); it.More(); it.Next()) {
            const TopoDS_Shell &currentShell = TopoDS::Shell(it.Current());
            ModelRefine::FaceUniter uniter(currentShell);
            if (uniter.process()) {
                if (uniter.isModified()) {
                    const TopoDS_Shell &newShell = uniter.getShell();
                    reshape.Replace(currentShell, newShell);
                    LogModifications(uniter);
                }
            }
            else {
                Standard_Failure::Raise("Removing splitter failed");
            }
        }
        myShape = reshape.Apply(solid);
    }
    else if (myShape.ShapeType() == TopAbs_SHELL) {
        const TopoDS_Shell& shell = TopoDS::Shell(myShape);
        ModelRefine::FaceUniter uniter(shell);
        if (uniter.process()) {
            myShape = uniter.getShell();
            LogModifications(uniter);
        }
        else {
            Standard_Failure::Raise("Removing splitter failed");
        }
    }
    else if (myShape.ShapeType() == TopAbs_COMPOUND) {
        BRep_Builder builder;
        TopoDS_Compound comp;
        builder.MakeCompound(comp);

        TopExp_Explorer xp;
        // solids
        for (xp.Init(myShape, TopAbs_SOLID); xp.More(); xp.Next()) {
            const TopoDS_Solid &solid = TopoDS::Solid(xp.Current());
            BRepTools_ReShape reshape;
            TopExp_Explorer it;
            for (it.Init(solid, TopAbs_SHELL); it.More(); it.Next()) {
                const TopoDS_Shell &currentShell = TopoDS::Shell(it.Current());
                ModelRefine::FaceUniter uniter(currentShell);
                if (uniter.process()) {
                    if (uniter.isModified()) {
                        const TopoDS_Shell &newShell = uniter.getShell();
                        reshape.Replace(currentShell, newShell);
                        LogModifications(uniter);
                    }
                }
            }
            builder.Add(comp, reshape.Apply(solid));
        }
        // free shells
        for (xp.Init(myShape, TopAbs_SHELL, TopAbs_SOLID); xp.More(); xp.Next()) {
            const TopoDS_Shell& shell = TopoDS::Shell(xp.Current());
            ModelRefine::FaceUniter uniter(shell);
            if (uniter.process()) {
                builder.Add(comp, uniter.getShell());
                LogModifications(uniter);
            }
        }
        // the rest
        for (xp.Init(myShape, TopAbs_FACE, TopAbs_SHELL); xp.More(); xp.Next()) {
            if (!xp.Current().IsNull())
                builder.Add(comp, xp.Current());
        }
        for (xp.Init(myShape, TopAbs_WIRE, TopAbs_FACE); xp.More(); xp.Next()) {
            if (!xp.Current().IsNull())
                builder.Add(comp, xp.Current());
        }
        for (xp.Init(myShape, TopAbs_EDGE, TopAbs_WIRE); xp.More(); xp.Next()) {
            if (!xp.Current().IsNull())
                builder.Add(comp, xp.Current());
        }
        for (xp.Init(myShape, TopAbs_VERTEX, TopAbs_EDGE); xp.More(); xp.Next()) {
            if (!xp.Current().IsNull())
                builder.Add(comp, xp.Current());
        }

        myShape = comp;
    }

    Done();
}
Exemplo n.º 3
0
void OCC_Connect::MergeFaces(TopoDS_Shape &shape) const
{
    /***************************************************************************
        We must find faces which are the same. Since all edges are already
        merged, we know that faces which can be merged have identical edges.
    ***************************************************************************/
    TopTools_IndexedMapOfShape faces, edges;
    TopExp::MapShapes(shape,TopAbs_FACE,faces);
    TopExp::MapShapes(shape,TopAbs_EDGE,edges);
    mapping_t mapping;
    for(int i=0;i<faces.Extent();i++) {
        std::set<int> face_edges;
        for(TopExp_Explorer p(faces(i+1),TopAbs_EDGE); p.More(); p.Next()) {
            int edge=edges.FindIndex(p.Current());
            if(BRep_Tool::Degenerated(TopoDS::Edge(edges(edge)))) {
                cout << "Degenerate edge " << edge << " inserted a 0\n";
                face_edges.insert(0);
            } else
                face_edges.insert(edge);
        }
        mapping[face_edges].insert(i+1);
    }

    if(verbose&Cutting) {
        for(mapping_t::iterator p=mapping.begin(); p!=mapping.end(); p++)
            cout << "edges [ " << p->first << "] in face"
                << (p->second.size()<2? " ":"s ") << "[ " << p->second << "]\n";
    }

    /***************************************************************************
        If two faces have an identical set of edges, they can be merged
        when the planes are never seperated by more than the tolerance.
    ***************************************************************************/
    BRepTools_ReShape replacer;
    for(mapping_t::iterator p=mapping.begin(); p!=mapping.end(); p++) {
        if(p->second.size()<2)
            continue;
        std::vector<int> uniq;
        for(std::set<int>::iterator q=p->second.begin();
            q!=p->second.end();
            q++
        ) {
            for(std::vector<int>::iterator r=uniq.begin(); r!=uniq.end(); r++) {
                TopoDS_Face orig=TopoDS::Face(faces(*q));
                TopoDS_Face repl=TopoDS::Face(faces(*r));
                if(verbose&Cutting)
                    cout << "Check face " << *q << " and " << *r << endl;
                if(CanMergeFace(orig,repl)) {
                    if(verbose&Cutting) {
                        cout << "replace face " << *q << " with " << *r << '\n';
                    }
                    repl.Orientation(orig.Orientation());
                    replacer.Replace(orig,repl);
                    // FIXME, tolerance should be updated
                    goto skip;
                }
            }
            uniq.push_back(*q);
        skip:;
        }
    }

    TopoDS_Shape t=shape;
    shape=replacer.Apply(t);
}
Exemplo n.º 4
0
void OCC_Connect::MergeEdges(TopoDS_Shape &shape1, TopoDS_Shape &shape2) const
{
    TopTools_IndexedMapOfShape imap, omap;
    TopExp::MapShapes(shape1,TopAbs_EDGE,imap);
    TopExp::MapShapes(shape2,TopAbs_EDGE,imap);
    BRepTools_ReShape replacer;
    for(int i=0;i<imap.Extent();i++) {
        for(int j=0;j<omap.Extent();j++) {
            TopoDS_Edge orig=TopoDS::Edge(imap(i+1));
            TopoDS_Edge repl=TopoDS::Edge(omap(j+1));

            TopoDS_Vertex o1, o2, r1, r2;
            TopExp::Vertices(orig,o1,o2,true);
            TopExp::Vertices(repl,r1,r2,true);

            if(o1.IsSame(o2)) {
                if(!BRep_Tool::Degenerated(orig)) {
                    if(verbose&Cutting) {
                        cout << "Same vertex in edge\n";
                        BRepTools::Dump(orig,cout);
                    }
                    replacer.Remove(orig);
                    goto skip;
                } else if(o1.IsSame(r1) && o1.IsSame(r2)
                    && CanMergeCurve(orig,repl)
                ) {
                    if(verbose&Cutting) {
                        cout << "Degenerated edge, replace " << i+1
                            << " with " << j+1 << '\n';
                        BRepTools::Dump(orig,cout);
                        BRepTools::Dump(repl,cout);
                    }
                    // FIXME, update tolerance
                    BRepTools::Dump(repl.Complemented(),cout);
                    replacer.Replace(orig,repl.Complemented());
                    goto skip;
                }
                cout << i+1 << " Degenerated\n";
            }
            if(o1.IsSame(r1) && o2.IsSame(r2) && CanMergeCurve(orig,repl))  {
                if(verbose&Cutting) {
                    cout << "Same order of vertices, replace " << i+1
                        << " with " << j+1 << '\n';
                    BRepTools::Dump(orig,cout);
                    BRepTools::Dump(repl,cout);
                }
                // FIXME, update tolerance
                replacer.Replace(orig,repl);
                goto skip;
            }
            if(o1.IsSame(r2) && o2.IsSame(r1) && CanMergeCurve(orig,repl)) {
                if(verbose&Cutting) {
                    cout << "Reversed order of vertices, replace " << i+1
                        << " with " << j+1 << '\n';
                    BRepTools::Dump(orig,cout);
                    BRepTools::Dump(repl,cout);
                }
                // FIXME, update tolerance
                replacer.Replace(orig,repl.Complemented());
                goto skip;
            }
        }
        if(verbose&Cutting)
            cout << "Adding " << i+1 << " as " << omap.Extent()+1<<" to keep map\n";
        omap.Add(imap(i+1));
    skip:;
    }
    TopoDS_Shape t=shape1;
    shape1=replacer.Apply(t);
    t=shape2;
    shape2=replacer.Apply(t);
}