Examples of com.jme3.shader.VariableMapping

• com.jme3.ui.Picture
  represents a mapping between 2 ShaderNodeVariables @author Nehon

     *
     * @param statement the statement to read
     * @return the read mapping
     */
    protected VariableMapping parseMapping(Statement statement, boolean[] hasNameSpace) throws IOException {
        VariableMapping mapping = new VariableMapping();
        String[] cond = statement.getLine().split(":");

        String[] vars = cond[0].split("=");
        checkMappingFormat(vars, statement);
        ShaderNodeVariable[] variables = new ShaderNodeVariable[2];
        String[] swizzle = new String[2];
        for (int i = 0; i < vars.length; i++) {
            String[] expression = vars[i].trim().split("\\.");
            if (hasNameSpace[i]) {
                if (expression.length <= 3) {
                    variables[i] = new ShaderNodeVariable("", expression[0].trim(), expression[1].trim());
                }
                if (expression.length == 3) {
                    swizzle[i] = expression[2].trim();
                }
            } else {
                if (expression.length <= 2) {
                    variables[i] = new ShaderNodeVariable("", expression[0].trim());
                }
                if (expression.length == 2) {
                    swizzle[i] = expression[1].trim();
                }
            }

        }

        mapping.setLeftVariable(variables[0]);
        mapping.setLeftSwizzling(swizzle[0] != null ? swizzle[0] : "");
        mapping.setRightVariable(variables[1]);
        mapping.setRightSwizzling(swizzle[1] != null ? swizzle[1] : "");

        if (cond.length > 1) {
            extractCondition(cond[1], statement);
            mapping.setCondition(conditionParser.getFormattedExpression());
        }

        return mapping;
    }

     * @param statement1 the statement being read
     * @return the mapping
     * @throws IOException
     */
    public VariableMapping readInputMapping(Statement statement1) throws IOException {
        VariableMapping mapping = null;
        try {
            mapping = parseMapping(statement1, new boolean[]{false, true});
        } catch (Exception e) {
            throw new MatParseException("Unexpected mapping format", statement1, e);
        }
        ShaderNodeVariable left = mapping.getLeftVariable();
        ShaderNodeVariable right = mapping.getRightVariable();
        if (!updateVariableFromList(left, shaderNode.getDefinition().getInputs())) {
            throw new MatParseException(left.getName() + " is not an input variable of " + shaderNode.getDefinition().getName(), statement1);
        }

        if (left.getType().startsWith("sampler") && !right.getNameSpace().equals("MatParam")) {
            throw new MatParseException("Samplers can only be assigned to MatParams", statement1);
        }

        if (right.getNameSpace().equals("Global")) {
            right.setType("vec4");//Globals are all vec4 for now (maybe forever...)
            //        updateCondition(right, mapping);
            storeGlobal(right, statement1);

        } else if (right.getNameSpace().equals("Attr")) {
            if (shaderNode.getDefinition().getType() == Shader.ShaderType.Fragment) {
                throw new MatParseException("Cannot have an attribute as input in a fragment shader" + right.getName(), statement1);
            }
            updateVarFromAttributes(mapping.getRightVariable(), mapping);
            //          updateCondition(mapping.getRightVariable(), mapping);
            storeAttribute(mapping.getRightVariable());
        } else if (right.getNameSpace().equals("MatParam")) {
            MatParam param = findMatParam(right.getName());
            if (param == null) {
                throw new MatParseException("Could not find a Material Parameter named " + right.getName(), statement1);
            }
            if (shaderNode.getDefinition().getType() == Shader.ShaderType.Vertex) {
                if (updateRightFromUniforms(param, mapping, vertexDeclaredUniforms, statement1)) {
                    storeVertexUniform(mapping.getRightVariable());
                }
            } else {
                if (updateRightFromUniforms(param, mapping, fragmentDeclaredUniforms, statement1)) {
                    if (mapping.getRightVariable().getType().contains("|")) {
                        String type = fixSamplerType(left.getType(), mapping.getRightVariable().getType());
                        if (type != null) {
                            mapping.getRightVariable().setType(type);
                        } else {
                            throw new MatParseException(param.getVarType().toString() + " can only be matched to one of " + param.getVarType().getGlslType().replaceAll("\\|", ",") + " found " + left.getType(), statement1);
                        }
                    }
                    storeFragmentUniform(mapping.getRightVariable());
                }
            }

        } else if (right.getNameSpace().equals("WorldParam")) {
            UniformBinding worldParam = findWorldParam(right.getName());
            if (worldParam == null) {
                throw new MatParseException("Could not find a World Parameter named " + right.getName(), statement1);
            }
            if (shaderNode.getDefinition().getType() == Shader.ShaderType.Vertex) {
                if (updateRightFromUniforms(worldParam, mapping, vertexDeclaredUniforms)) {
                    storeVertexUniform(mapping.getRightVariable());
                }
            } else {
                if (updateRightFromUniforms(worldParam, mapping, fragmentDeclaredUniforms)) {
                    storeFragmentUniform(mapping.getRightVariable());
                }
            }

        } else {
            ShaderNode node = nodes.get(right.getNameSpace());
            if (node == null) {
                throw new MatParseException("Undeclared node" + right.getNameSpace() + ". Make sure this node is declared before the current node", statement1);
            }
            ShaderNodeVariable var = findNodeOutput(node.getDefinition().getOutputs(), right.getName());
            if (var == null) {
                throw new MatParseException("Cannot find output variable" + right.getName() + " form ShaderNode " + node.getName(), statement1);
            }
            right.setNameSpace(node.getName());
            right.setType(var.getType());
            mapping.setRightVariable(right);
            storeVaryings(node, mapping.getRightVariable());

        }

        checkTypes(mapping, statement1);

     * @param statement1 the staement being read
     * @return the mapping
     * @throws IOException
     */
    public VariableMapping readOutputMapping(Statement statement1) throws IOException {
        VariableMapping mapping = null;
        try {
            mapping = parseMapping(statement1, new boolean[]{true, false});
        } catch (Exception e) {
            throw new MatParseException("Unexpected mapping format", statement1, e);
        }
        ShaderNodeVariable left = mapping.getLeftVariable();
        ShaderNodeVariable right = mapping.getRightVariable();


        if (left.getType().startsWith("sampler") || right.getType().startsWith("sampler")) {
            throw new MatParseException("Samplers can only be inputs", statement1);
        }

     * Starts the application. Creating a display and running the main loop.
     */
    public void start(){

        if (settings == null){
            settings = new AppSettings(true);
        }

        context = JmeSystem.newContext(settings, JmeContext.Type.OffscreenSurface);
        context.setSystemListener(this);
        context.create(false);

      new ModelInfo(activeModel, app.getAssetLogger().getKeys(activeModel.getRelPath(workspace)));
    } catch (Exception e) {}
  }

  public static void createCanvas(){
    AppSettings settings = new AppSettings(true);
    settings.setWidth( Math.max(640, frame.getContentPane().getWidth()) );
    settings.setHeight( Math.max(480, frame.getContentPane().getHeight()) );

    app = new EditorApp();

    app.setPauseOnLostFocus(false);
    app.setSettings(settings);
    app.createCanvas();

    context = (JmeCanvasContext) app.getContext();
    canvas = context.getCanvas();
    canvas.setSize(settings.getWidth(), settings.getHeight());
  }

   * main for testing
   *
   * @param args
   */
  public static void main(String[] args) {
        AppSettings settings = new AppSettings(true);
        PolluxSettingsDialog.show(settings);
        System.out.println(settings.toString());
        System.exit(0);
  }

    }

    @Override
    public void start() {

        setSettings(new AppSettings(true));
        PolluxSettingsDialog.show(settings);

        super.start();
    }

    */
    Geometry g = new Geometry("Bubble", b);
    g.rotate(FastMath.HALF_PI, 0, FastMath.HALF_PI);
    //g.scale(1, 1, -1);
    Material mat = new Material(assetManager, "Common/MatDefs/Misc/Unshaded.j3md");
    Texture tex = assetManager.loadTexture("Textures/test3.png");
    mat.setTexture("ColorMap", tex);
    //mat.setColor("Color", ColorRGBA.Blue);
    //mat.getAdditionalRenderState().setFaceCullMode(FaceCullMode.Off);
    g.setMaterial(mat);

    sphere.setQueueBucket(Bucket.Sky);
    Material sky = new Material(assetManager, "Common/MatDefs/Misc/Sky.j3md");
    TextureKey key = new TextureKey("Textures/Sky/Stars.dds", true);
    key.setGenerateMips(true);
    key.setAsCube(true);
    Texture tex = assetManager.loadTexture(key);
    sky.setTexture("m_Texture", tex);
    sky.setVector3("m_NormalScale", Vector3f.UNIT_XYZ);
    sphere.setMaterial(sky);
    sphere.setCullHint(Spatial.CullHint.Never);
    bgNode.attachChild(sphere);

  public void initialize(AppStateManager stateManager, Application app){
    super.initialize(stateManager, app);
    assetManager = app.getAssetManager();
    settings = app.getContext().getSettings();

    Picture pic = new Picture("HUD Picture");
    pic.setImage(assetManager, "Hud/InfoBox2.png", true);
    pic.setHeight(settings.getHeight());
    pic.setWidth(settings.getHeight()/2);
    pic.setPosition(settings.getWidth()-settings.getHeight()/2, 0);
    menuNode.attachChild(pic);


    /*Quad q = new Quad(6, 3);
        Geometry g = new Geometry("quad", q);