示例#1
0
MaterialRecPtr VRMesure::setTransMat() {
    SimpleMaterialRecPtr mat = SimpleMaterial::create();
    mat->setDiffuse(Color3f(0.7,0.7,0.7));
    mat->setAmbient(Color3f(0.2, 0.2, 0.2));
    mat->setTransparency(0.7);
    return mat;
}
示例#2
0
文件: VRPLY.cpp 项目: uagmw/polyvr
VRGeometryPtr loadPly(string filename) {
    GeoUInt8PropertyRecPtr      Type = GeoUInt8Property::create();
    GeoUInt32PropertyRecPtr     Length = GeoUInt32Property::create();
    GeoPnt3fPropertyRecPtr      Pos = GeoPnt3fProperty::create();
    GeoVec3fPropertyRecPtr      Norms = GeoVec3fProperty::create();
    GeoVec3fPropertyRecPtr      Cols = GeoVec3fProperty::create();
    GeoUInt32PropertyRecPtr     Indices = GeoUInt32Property::create();
    SimpleMaterialRecPtr        Mat = SimpleMaterial::create();
    GeoVec2fPropertyRecPtr      Tex = GeoVec2fProperty::create();

    Mat->setLit(false);
    Mat->setDiffuse(Color3f(0.8,0.8,0.6));
    Mat->setAmbient(Color3f(0.4, 0.4, 0.2));
    Mat->setSpecular(Color3f(0.1, 0.1, 0.1));

    ifstream file(filename.c_str());
    string line;
    list<element> elements;
    while (getline(file, line)) {
        if (line == "end_header") break;
        auto data = splitString(line, ' ');
        if (data[0] == "element") elements.push_back( element(data[1], toInt(data[2]) ) );
        if (data[0] == "property") {
            if (data.size() == 3) elements.back().properties.push_back( property(data[1], data[2]) );
            else elements.back().properties.push_back( property(data[1], data[2]) );
        }
    }

    int N = 0;
    for (auto e : elements) N += e.N;
    VRProgress progress("load PLY " + filename, N);

    for (auto e : elements) {
        if (e.type == "vertex") {
            Vec3f p, n;
            Vec3i c;
            Vec2f t;
            bool doP = 0, doN = 0, doC = 0, doT = 0;
            for (int i=0; i<e.N; i++) {
                progress.update(1);
                getline(file, line);
                istringstream iss(line);
                for (auto prop : e.properties) {
                    if (prop.name == "x") { iss >> p[0]; doP = 1; }
                    if (prop.name == "y") { iss >> p[1]; doP = 1; }
                    if (prop.name == "z") { iss >> p[2]; doP = 1; }
                    if (prop.name == "nx") { iss >> n[0]; doN = 1; }
示例#3
0
/** Create a mesh using vectors with positions, normals, indices && optionaly texture coordinates **/
void VRGeometry::create(int type, vector<Vec3f> pos, vector<Vec3f> norms, vector<int> inds, vector<Vec2f> texs) {
    bool doTex = (texs.size() == pos.size());

    GeoUInt8PropertyRecPtr      Type = GeoUInt8Property::create();
    GeoUInt32PropertyRecPtr     Length = GeoUInt32Property::create();
    GeoPnt3fPropertyRecPtr      Pos = GeoPnt3fProperty::create();
    GeoVec3fPropertyRecPtr      Norms = GeoVec3fProperty::create();
    GeoUInt32PropertyRecPtr     Indices = GeoUInt32Property::create();
    SimpleMaterialRecPtr        Mat = SimpleMaterial::create();
    GeoVec2fPropertyRecPtr      Tex = 0;
    if (doTex) Tex = GeoVec2fProperty::create();


    Type->addValue(type);
    Length->addValue(inds.size());

    //positionen und Normalen
    for(uint i=0;i<pos.size();i++) {
            Pos->addValue(pos[i]);
            Norms->addValue(norms[i]);
            if (doTex) Tex->addValue(texs[i]);
    }

    for(uint i=0;i<inds.size();i++) {
            Indices->addValue(inds[i]);
    }

    Mat->setDiffuse(Color3f(0.8,0.8,0.6));
    Mat->setAmbient(Color3f(0.4, 0.4, 0.2));
    Mat->setSpecular(Color3f(0.1, 0.1, 0.1));

    GeometryRecPtr geo = Geometry::create();
    geo->setTypes(Type);
    geo->setLengths(Length);
    geo->setIndices(Indices);
    geo->setPositions(Pos);
    geo->setNormals(Norms);
    if (doTex) geo->setTexCoords(Tex);
    geo->setMaterial(Mat);

    setMesh(geo);
}
示例#4
0
void VRMaterial::setMaterial(MaterialRecPtr m) {
    if ( dynamic_pointer_cast<MultiPassMaterial>(m) ) {
        MultiPassMaterialRecPtr mm = dynamic_pointer_cast<MultiPassMaterial>(m);
        for (unsigned int i=0; i<mm->getNPasses(); i++) {
            if (i > 0) addPass();
            setMaterial(mm->getMaterials(i));
        }
        setActivePass(0);
        return;
    }

    if ( isSMat(m) ) {
        SimpleMaterialRecPtr sm = dynamic_pointer_cast<SimpleMaterial>(m);
        setDiffuse(sm->getDiffuse());
        setAmbient(sm->getAmbient());
        setSpecular(sm->getSpecular());

        if ( isSTMat(m) ) {
            SimpleTexturedMaterialRecPtr stm = dynamic_pointer_cast<SimpleTexturedMaterial>(m);
            setTexture( VRTexture::create(stm->getImage()), true);
        }

        return;
    }
    if ( isCMat(m) ) {
        MaterialChunkRecPtr mc = 0;
        BlendChunkRecPtr bc = 0;
        TextureEnvChunkRecPtr ec = 0;
        TextureObjChunkRecPtr tc = 0;

        ChunkMaterialRecPtr cmat = dynamic_pointer_cast<ChunkMaterial>(m);
        for (uint i=0; i<cmat->getMFChunks()->size(); i++) {
            StateChunkRecPtr chunk = cmat->getChunk(i);
            if (mc == 0) mc = dynamic_pointer_cast<MaterialChunk>(chunk);
            if (bc == 0) bc = dynamic_pointer_cast<BlendChunk>(chunk);
            if (ec == 0) ec = dynamic_pointer_cast<TextureEnvChunk>(chunk);
            if (tc == 0) tc = dynamic_pointer_cast<TextureObjChunk>(chunk);
        }

        auto md = mats[activePass];
        if (mc) mc->setBackMaterial(false);
        if (mc) {
            if (md->colChunk) md->mat->subChunk(md->colChunk);
            md->colChunk = mc;
            md->mat->addChunk(mc);
        }
        if (bc) {
            if (md->blendChunk) md->mat->subChunk(md->blendChunk);
            md->blendChunk = bc;
            md->mat->addChunk(bc);
        }
        if (ec) {
            if (md->envChunk) md->mat->subChunk(md->envChunk);
            md->envChunk = ec;
            md->mat->addChunk(ec);
        }
        if (tc) {
            if (md->texChunk) md->mat->subChunk(md->texChunk);
            md->texChunk = tc;
            md->mat->addChunk(tc);
        }
        return;
    }

    cout << "Warning: unhandled material type\n";
    if (dynamic_pointer_cast<Material>(m)) cout << " Material" << endl;
    if (dynamic_pointer_cast<PrimeMaterial>(m)) cout << "  PrimeMaterial" << endl;
    if (dynamic_pointer_cast<SimpleMaterial>(m)) cout << "   SimpleMaterial" << endl;
    if (dynamic_pointer_cast<SimpleTexturedMaterial>(m)) cout << "   SimpleTexturedMaterial" << endl;
    if (dynamic_pointer_cast<VariantMaterial>(m)) cout << "   VariantMaterial" << endl;
    if (dynamic_pointer_cast<ChunkMaterial>(m)) cout << "  ChunkMaterial" << endl;
    if (dynamic_pointer_cast<MultiPassMaterial>(m)) cout << "   MultiPassMaterial" << endl;
    if (dynamic_pointer_cast<CompositeMaterial>(m)) cout << "   CompositeMaterial" << endl;
    if (dynamic_pointer_cast<SwitchMaterial>(m)) cout << "   SwitchMaterial" << endl;
}
示例#5
0
void VRBlinds::create() {
    vector<Vec3f> norms;
    vector<int> inds;
    vector<Vec2f> texs;

    for (int i=0;i<20;i++) {//20 blend elements
        bl_pos_closed.push_back(Vec3f(0.55, -0.07*i, 0));
        bl_pos_closed.push_back(Vec3f(0.55, -0.07*(i+0.3), -0.04));
        bl_pos_closed.push_back(Vec3f(0.55, -0.07*(i+0.9), -0.08));

        bl_pos_closed.push_back(Vec3f(-0.55, -0.07*(i+0.9), -0.08));
        bl_pos_closed.push_back(Vec3f(-0.55, -0.07*(i+0.3), -0.04));
        bl_pos_closed.push_back(Vec3f(-0.55, -0.07*i, 0));

        bl_pos_open.push_back(Vec3f(0.55, -0.01*i, 0));
        bl_pos_open.push_back(Vec3f(0.55, -0.01*(i-0.7), -0.05));
        bl_pos_open.push_back(Vec3f(0.55, -0.01*i, -0.1));

        bl_pos_open.push_back(Vec3f(-0.55, -0.01*i, -0.1));
        bl_pos_open.push_back(Vec3f(-0.55, -0.01*(i-0.7), -0.05));
        bl_pos_open.push_back(Vec3f(-0.55, -0.01*i, 0));

        inds.push_back(i*6+0);//quad1
        inds.push_back(i*6+1);//quad1
        inds.push_back(i*6+4);//quad1
        inds.push_back(i*6+5);//quad1

        for (int j=1;j<5;j++) inds.push_back(i*6+j);//quad2

        for (int j=0;j<6;j++) norms.push_back(Vec3f(0,1,0));

        texs.push_back(Vec2f(1,0));
        texs.push_back(Vec2f(1,0.5));
        texs.push_back(Vec2f(1,1));

        texs.push_back(Vec2f(0,1));
        texs.push_back(Vec2f(0,0.5));
        texs.push_back(Vec2f(0,0));
    }


    blend_geo = new VRGeometry("blend");
    blend_geo->create(GL_QUADS, bl_pos_open, norms, inds, texs);

    Vec3f pos = window->getGeometricCenter();
    Vec3f norm = window->getAverageNormal();
    norm.normalize();
    pos[2] = window->getMax(2);

    Matrix m = window->getWorldMatrix();
    m.mult(pos, pos);
    m.mult(norm, norm);

    blend_geo->setPose(pos, pos + norm, Vec3f(0,1,0));
    scene->add(blend_geo);

    SimpleMaterialRecPtr mat = SimpleMaterial::create();
    mat->setDiffuse(Color3f(0.5,0.5,0.5));
    mat->setAmbient(Color3f(0.2, 0.2, 0.2));
    mat->setSpecular(Color3f(0.1, 0.1, 0.1));

    blend_geo->setMaterial(mat);
}
示例#6
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();
    GeoUInt32PropertyRecPtr     Length = GeoUInt32Property::create();
    GeoPnt3fPropertyRecPtr      Pos = GeoPnt3fProperty::create();
    GeoVec3fPropertyRecPtr      Norms = GeoVec3fProperty::create();
    GeoVec3fPropertyRecPtr      Colors = GeoVec3fProperty::create();
    GeoUInt32PropertyRecPtr     Indices = GeoUInt32Property::create();

    bool doCaps = closed && profile.size() > 1;

    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]->getPositions();
        vector<Vec3f> directions = paths[i]->getDirections();
        vector<Vec3f> up_vectors = paths[i]->getUpvectors();
        vector<Vec3f> cols = paths[i]->getColors();

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

            Matrix m;
            MatrixLookAt(m, Vec3f(0,0,0), n, u);

            // add new profile points && 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 && 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());

    // caps
    if (doCaps) {
        int Nt = 0;
        for (uint i=0; i<paths.size(); i++) {
            vector<Vec3f> pnts = paths[i]->getPositions();
            vector<Vec3f> directions = paths[i]->getDirections();
            vector<Vec3f> up_vectors = paths[i]->getUpvectors();
            vector<Vec3f> cols = paths[i]->getColors();

            Matrix m;

             // first cap
            Vec3f p = pnts[0];
            Vec3f n = directions[0];
            Vec3f u = up_vectors[0];
            Vec3f c = cols[0];

            int Ni = Pos->size();
            Pos->addValue(p);
            Norms->addValue(-n);
            Colors->addValue(c);

            MatrixLookAt(m, Vec3f(0,0,0), n, u);

            for (uint k=0; k<profile.size(); k++) {
                Vec3f tmp = profile[k];
                m.mult(tmp, tmp);

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

            for (uint k=1; k<=profile.size(); k++) {
                int j = k+1;
                if (k == profile.size()) j = 1;
                Indices->addValue(Ni);
                Indices->addValue(Ni+k);
                Indices->addValue(Ni+j);
                Nt+=3;
            }

             // last cap
            int N = pnts.size()-1;
            Ni = Pos->size();
            p = pnts[N];
            n = directions[N];
            u = up_vectors[N];
            c = cols[N];

            Pos->addValue(p);
            Norms->addValue(n);
            Colors->addValue(c);

            MatrixLookAt(m, Vec3f(0,0,0), n, u);

            for (uint k=0; k<profile.size(); k++) {
                Vec3f tmp = profile[k];
                m.mult(tmp, tmp);

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

            for (uint k=1; k<=profile.size(); k++) {
                int j = k+1;
                if (k == profile.size()) j = 1;
                Indices->addValue(Ni);
                Indices->addValue(Ni+j);
                Indices->addValue(Ni+k);
                Nt+=3;
            }
        }

        Type->addValue(GL_TRIANGLES);
        Length->addValue(Nt); // caps triangles
    }

    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);

    setMesh(g);


    // test for ccw faces
    /*TriangleIterator it(getMesh());
	while (!it.isAtEnd()) {
        Vec3f p0 = Vec3f(it.getPosition(0));
        Vec3f p1 = Vec3f(it.getPosition(1));
        Vec3f p2 = Vec3f(it.getPosition(2));

        Vec3f n0 = it.getNormal(0);
        Vec3f n1 = it.getNormal(1);
        Vec3f n2 = it.getNormal(2);

        Vec3f np1 = (p1-p0).cross(p2-p0);
        Vec3f np2 = n0+n1+n2; np2.normalize();
        cout << " face orientation " << np1.dot(np2) << endl;

		++it;
	}*/
}
示例#7
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);
}