Exemplo n.º 1
0
GeometryTransitPtr createPathGeometry(const std::vector<Pnt3f>& Path)
{

    //*******************Create the Geometry for the box
    GeoUInt8PropertyRecPtr type = GeoUInt8Property::create();
    //Volume bound box
    type->push_back(GL_LINE_STRIP);

    GeoUInt32PropertyRefPtr lens = GeoUInt32Property::create();
    //Volume bound box
    lens->push_back(Path.size());

    Color3f CoolColor(0.0f,0.0f,1.0f),
            HotColor(1.0f,0.0f,0.0f);

    GeoUInt32PropertyRefPtr index = GeoUInt32Property::create();
    GeoPnt3fPropertyRefPtr points = GeoPnt3fProperty::create();
    GeoVec3fPropertyRefPtr colors = GeoVec3fProperty::create();

    //Volume bound box
    Color3f Color;
    Real32 t;
    for(UInt32 i(0) ; i<Path.size() ; ++i)
    {
        t = static_cast<Real32>(i)/static_cast<Real32>(Path.size());
        Color = (t*CoolColor) + ((1.0f-t)*HotColor);
        index->push_back(i);
        points->push_back(Path[i]);
        colors->push_back(Color);
    }

    GeometryRecPtr PathGeo = Geometry::create();
    PathGeo->setTypes     (type);
    PathGeo->setLengths   (lens);
    PathGeo->setIndices   (index);
    PathGeo->setPositions (points);
    PathGeo->setColors    (colors);

    //Create the material for the line
    LineChunkRecPtr DefaultLineChunk = LineChunk::create();
    DefaultLineChunk->setWidth(2.0f);

    MaterialChunkRecPtr DefaultMaterialChunk = MaterialChunk::create();
    DefaultMaterialChunk->setLit(false);

    ChunkMaterialRecPtr DefaultChunkMaterial = ChunkMaterial::create();
    DefaultChunkMaterial->addChunk(DefaultMaterialChunk);
    DefaultChunkMaterial->addChunk(DefaultLineChunk);

    PathGeo->setMaterial(DefaultChunkMaterial);

    return GeometryTransitPtr(PathGeo);
}
Exemplo n.º 2
0
void VRGeometry::setPositionalTexCoords(float scale) {
    GeoVectorPropertyRefPtr pos = mesh->getPositions();
    if (scale == 1.0) setTexCoords(pos, 0, 1);
    else {
        GeoVec3fPropertyRefPtr tex = GeoVec3fProperty::create();
        for (int i=0; i<pos->size(); i++) {
            Pnt3f p = pos->getValue<Pnt3f>(i);
            p[0] *= scale; p[1] *= scale; p[2] *= scale;
            tex->addValue(Vec3f(p));
        }
        setTexCoords(tex, 0, 1);
    }
}
Exemplo n.º 3
0
GeometryRefPtr buildTerrain(Vec2f Dimensions, UInt32 XSubdivisions, UInt32 YSubdivisions)
{
    GeoUInt8PropertyRefPtr type = GeoUInt8Property::create();        
    type->addValue(GL_TRIANGLES);

    GeoPnt3fPropertyRefPtr  pnts  = GeoPnt3fProperty ::create();
    GeoVec3fPropertyRefPtr  norms = GeoVec3fProperty ::create();
    Real32 ZScale(8.0);
    for(UInt32 i(0) ; i<XSubdivisions ; ++i)
    {
        for(UInt32 j(0) ; j<YSubdivisions ; ++j)
        {
            Real32 Theta(5*3.14159*(static_cast<Real32>(i)/static_cast<Real32>(XSubdivisions))),
                   ThetaNext(5*3.14159*(static_cast<Real32>(i+1)/static_cast<Real32>(XSubdivisions)));
            // the points of the Tris
            pnts->addValue(Pnt3f(-Dimensions.x()/2.0+i*(Dimensions.x()/static_cast<Real32>(XSubdivisions)),  Dimensions.y()/2.0-j*(Dimensions.y()/static_cast<Real32>(YSubdivisions)),  ZScale*osgCos(Theta)));
            norms->addValue(Vec3f( 0.0,0.0,1.0));
            pnts->addValue(Pnt3f(-Dimensions.x()/2.0+i*(Dimensions.x()/static_cast<Real32>(XSubdivisions)),  Dimensions.y()/2.0-(j+1)*(Dimensions.y()/static_cast<Real32>(YSubdivisions)),  ZScale*osgCos(Theta)));
            norms->addValue(Vec3f( 0.0,0.0,1.0));
            pnts->addValue(Pnt3f(-Dimensions.x()/2.0+(i+1)*(Dimensions.x()/static_cast<Real32>(XSubdivisions)),  Dimensions.y()/2.0-j*(Dimensions.y()/static_cast<Real32>(YSubdivisions)),  ZScale*osgCos(ThetaNext)));
            norms->addValue(Vec3f( 0.0,0.0,1.0));

            pnts->addValue(Pnt3f(-Dimensions.x()/2.0+i*(Dimensions.x()/static_cast<Real32>(XSubdivisions)),  Dimensions.y()/2.0-(j+1)*(Dimensions.y()/static_cast<Real32>(YSubdivisions)),  ZScale*osgCos(Theta)));
            norms->addValue(Vec3f( 0.0,0.0,1.0));
            pnts->addValue(Pnt3f(-Dimensions.x()/2.0+(i+1)*(Dimensions.x()/static_cast<Real32>(XSubdivisions)),  Dimensions.y()/2.0-(j+1)*(Dimensions.y()/static_cast<Real32>(YSubdivisions)),  ZScale*osgCos(ThetaNext)));
            norms->addValue(Vec3f( 0.0,0.0,1.0));
            pnts->addValue(Pnt3f(-Dimensions.x()/2.0+(i+1)*(Dimensions.x()/static_cast<Real32>(XSubdivisions)),  Dimensions.y()/2.0-j*(Dimensions.y()/static_cast<Real32>(YSubdivisions)),  ZScale*osgCos(ThetaNext)));
            norms->addValue(Vec3f( 0.0,0.0,1.0));
        }
    }


    GeoUInt32PropertyUnrecPtr lens = GeoUInt32Property::create();    
    lens->addValue(pnts->size());

    GeometryRefPtr Terrain = Geometry::create();
    Terrain->setTypes    (type);
    Terrain->setLengths  (lens);
    Terrain->setPositions(pnts);
    Terrain->setNormals(norms);

    calcVertexNormals(Terrain);

    return Terrain;
}
Exemplo n.º 4
0
void VRStroke::strokeProfile(vector<Vec3f> profile, bool closed, bool lit) {
    mode = 0;
    this->profile = profile;
    this->closed = closed;
    this->lit = lit;

    GeoUInt8PropertyRecPtr      Type = GeoUInt8Property::create();
    GeoUInt32PropertyRefPtr     Length = GeoUInt32Property::create();
    GeoPnt3fPropertyRecPtr      Pos = GeoPnt3fProperty::create();
    GeoVec3fPropertyRefPtr      Norms = GeoVec3fProperty::create();
    GeoVec3fPropertyRefPtr      Colors = GeoVec3fProperty::create();
    GeoUInt32PropertyRefPtr     Indices = GeoUInt32Property::create();

    Vec3f z = Vec3f(0,0,1);
    if (profile.size() == 1) Type->addValue(GL_LINES);
    else Type->addValue(GL_QUADS);

    clearChildren();
    for (uint i=0; i<paths.size(); i++) {
        vector<Vec3f> pnts = paths[i]->get();
        vector<Vec3f> norms = paths[i]->getNormals();
        vector<Vec3f> cols = paths[i]->getColors();

        Vec3f _p;
        for (uint j=0; j<pnts.size(); j++) {
            Vec3f p = pnts[j];
            Vec3f n = norms[j];
            Vec3f c = cols[j];

            //float ca = n.dot(z);
            Matrix m;
            //MatrixLookAt(m, Vec3f(0,0,0), n, z.cross(n));
            MatrixLookAt(m, Vec3f(0,0,0), n, Vec3f(0,1,0));

            // add new profile points and normals
            for (uint k=0; k<profile.size(); k++) {
                Vec3f tmp = profile[k];
                m.mult(tmp, tmp);

                Pos->addValue(p+tmp);
                tmp.normalize();
                Norms->addValue(tmp);
                Colors->addValue(c);
            }

            if (j==0 and profile.size() > 1) continue;

            // add line
            if (profile.size() == 1) {
                int N = Pos->size();
                Indices->addValue(N-2);
                Indices->addValue(N-1);
            } else {
                // add quad
                for (uint k=0; k<profile.size()-1; k++) {
                    int N1 = Pos->size() - 2*profile.size() + k;
                    int N2 = Pos->size() -   profile.size() + k;
                    Indices->addValue(N1);
                    Indices->addValue(N2);
                    Indices->addValue(N2+1);
                    Indices->addValue(N1+1);

                    //cout << "\nN1N2 " << N1 << " " << N2 << " " << N2+1 << " " << N1+1 << flush;
                }

                if (closed) {
                    int N0 = Pos->size() - 2*profile.size();
                    int N1 = Pos->size() - profile.size() - 1;
                    int N2 = Pos->size() - 1;
                    Indices->addValue(N1);
                    Indices->addValue(N2);
                    Indices->addValue(N1+1);
                    Indices->addValue(N0);

                    //cout << "\nN1N2 " << N1 << " " << N2 << " " << N1+1 << " " << N0 << flush;
                }
            }
        }
    }

    Length->addValue(Indices->size());


    SimpleMaterialRecPtr Mat = SimpleMaterial::create();
    GeometryRecPtr g = Geometry::create();
    g->setTypes(Type);
    g->setLengths(Length);
    g->setPositions(Pos);

    g->setNormals(Norms);
    g->setColors(Colors);
    g->setIndices(Indices);

    g->setMaterial(Mat);
    Mat->setLit(lit);

    VRGeometry* geo = new VRGeometry("stroke");
    geo->setMesh(g);
    addChild(geo);
}