List of usage examples for javax.media.j3d SharedGroup compile
public void compile()
From source file:ExHenge.java
public Group buildScene() { // Turn off the example headlight setHeadlightEnable(false);/* w w w . j a v a 2s. c om*/ // Default to walk navigation setNavigationType(Walk); // // Preload the texture images // if (debug) System.err.println(" textures..."); Texture groundTex = null; Texture spurTex = null; Texture domeTex = null; TextureLoader texLoader = null; ImageComponent image = null; texLoader = new TextureLoader("mud01.jpg", this); image = texLoader.getImage(); if (image == null) System.err.println("Cannot load mud01.jpg texture"); else { groundTex = texLoader.getTexture(); groundTex.setBoundaryModeS(Texture.WRAP); groundTex.setBoundaryModeT(Texture.WRAP); groundTex.setMinFilter(Texture.NICEST); groundTex.setMagFilter(Texture.NICEST); groundTex.setMipMapMode(Texture.BASE_LEVEL); groundTex.setEnable(true); } texLoader = new TextureLoader("stonebrk2.jpg", this); image = texLoader.getImage(); if (image == null) System.err.println("Cannot load stonebrk2.jpg texture"); else { spurTex = texLoader.getTexture(); spurTex.setBoundaryModeS(Texture.WRAP); spurTex.setBoundaryModeT(Texture.WRAP); spurTex.setMinFilter(Texture.NICEST); spurTex.setMagFilter(Texture.NICEST); spurTex.setMipMapMode(Texture.BASE_LEVEL); spurTex.setEnable(true); } texLoader = new TextureLoader("fire.jpg", this); image = texLoader.getImage(); if (image == null) System.err.println("Cannot load fire.jpg texture"); else { domeTex = texLoader.getTexture(); domeTex.setBoundaryModeS(Texture.WRAP); domeTex.setBoundaryModeT(Texture.WRAP); domeTex.setMinFilter(Texture.NICEST); domeTex.setMagFilter(Texture.NICEST); domeTex.setMipMapMode(Texture.BASE_LEVEL); domeTex.setEnable(true); } // // Build some shapes we'll need // if (debug) System.err.println(" flying buttresses..."); // Build three types of spurs (flying buttresses) Appearance spurApp = new Appearance(); Material spurMat = new Material(); spurMat.setAmbientColor(0.6f, 0.6f, 0.6f); spurMat.setDiffuseColor(1.0f, 1.0f, 1.0f); spurMat.setSpecularColor(0.0f, 0.0f, 0.0f); spurApp.setMaterial(spurMat); Transform3D tr = new Transform3D(); tr.setIdentity(); tr.setScale(new Vector3d(1.0, 4.0, 1.0)); TextureAttributes spurTexAtt = new TextureAttributes(); spurTexAtt.setTextureMode(TextureAttributes.MODULATE); spurTexAtt.setPerspectiveCorrectionMode(TextureAttributes.NICEST); spurTexAtt.setTextureTransform(tr); spurApp.setTextureAttributes(spurTexAtt); if (spurTex != null) spurApp.setTexture(spurTex); Arch spur1 = new Arch(0.0, // start Phi 1.571, // end Phi 9, // nPhi -0.0982, // start Theta 0.0982, // end Theta (11.25 degrees) 2, // nTheta 2.5, // start radius 1.0, // end radius 0.05, // start phi thickness 0.025, // end phi thickness spurApp); // appearance Arch spur2 = new Arch(0.0, // start Phi 1.571, // end Phi 9, // nPhi -0.0982, // start Theta 0.0982, // end Theta (11.25 degrees) 2, // nTheta 1.5, // start radius 2.0, // end radius 0.05, // start phi thickness 0.025, // end phi thickness spurApp); // appearance Arch spur3 = new Arch(0.0, // start Phi 1.571, // end Phi 9, // nPhi -0.0982, // start Theta 0.0982, // end Theta (11.25 degrees) 2, // nTheta 1.5, // start radius 1.0, // end radius 0.05, // start phi thickness 0.025, // end phi thickness spurApp); // appearance Arch spur4 = new Arch(0.0, // start Phi 1.178, // end Phi 9, // nPhi -0.0982, // start Theta 0.0982, // end Theta (11.25 degrees) 2, // nTheta 4.0, // start radius 4.0, // end radius 0.05, // start phi thickness 0.025, // end phi thickness spurApp); // appearance // Put each spur into a shared group so we can instance // the spurs multiple times SharedGroup spur1Group = new SharedGroup(); spur1Group.addChild(spur1); spur1Group.compile(); SharedGroup spur2Group = new SharedGroup(); spur2Group.addChild(spur2); spur2Group.compile(); SharedGroup spur3Group = new SharedGroup(); spur3Group.addChild(spur3); spur3Group.compile(); SharedGroup spur4Group = new SharedGroup(); spur4Group.addChild(spur4); spur4Group.compile(); // Build a central dome if (debug) System.err.println(" central dome..."); Appearance domeApp = new Appearance(); // No material needed - we want the dome to glow, // so use a REPLACE mode texture only TextureAttributes domeTexAtt = new TextureAttributes(); domeTexAtt.setTextureMode(TextureAttributes.REPLACE); domeTexAtt.setPerspectiveCorrectionMode(TextureAttributes.NICEST); domeApp.setTextureAttributes(domeTexAtt); if (domeTex != null) domeApp.setTexture(domeTex); Arch dome = new Arch(0.0, // start Phi 1.571, // end Phi 5, // nPhi 0.0, // start Theta 2.0 * Math.PI, // end Theta (360 degrees) 17, // nTheta 1.0, // start radius 1.0, // end radius 0.0, // start phi thickness 0.0, // end phi thickness domeApp); // appearance // Build the ground. Use a trick to get better lighting // effects by using an elevation grid. The idea is this: // for interactive graphics systems, such as those // controlled by Java3D, lighting effects are computed only // at triangle vertexes. Imagine a big rectangular ground // underneath a PointLight (added below). If the // PointLight is above the center of the square, in the real // world we'd expect a bright spot below it, fading to // darkness at the edges of the square. Not so in // interactive graphics. Since lighting is only computed // at vertexes, and the square's vertexes are each // equidistant from a centered PointLight, all four square // coordinates get the same brightness. That brightness // is interpolated across the square, giving a *constant* // brightness for the entire square! There is no bright // spot under the PointLight. So, here's the trick: use // more triangles. Pretty simple. Split the ground under // the PointLight into a grid of smaller squares. Each // smaller square is shaded using light brightness computed // at the square's vertexes. Squares directly under the // PointLight get brighter lighting at their vertexes, and // thus they are bright. This gives the desired bright // spot under the PointLight. The more squares we use // (a denser grid), the more accurate the bright spot and // the smoother the lighting gradation from bright directly // under the PointLight, to dark at the distant edges. Of // course, with more squares, we also get more polygons to // draw and a performance slow-down. So there is a // tradeoff between lighting quality and drawing speed. // For this example, we'll use a coarse mesh of triangles // created using an ElevationGrid shape. if (debug) System.err.println(" ground..."); Appearance groundApp = new Appearance(); Material groundMat = new Material(); groundMat.setAmbientColor(0.3f, 0.3f, 0.3f); groundMat.setDiffuseColor(0.7f, 0.7f, 0.7f); groundMat.setSpecularColor(0.0f, 0.0f, 0.0f); groundApp.setMaterial(groundMat); tr = new Transform3D(); tr.setScale(new Vector3d(8.0, 8.0, 1.0)); TextureAttributes groundTexAtt = new TextureAttributes(); groundTexAtt.setTextureMode(TextureAttributes.MODULATE); groundTexAtt.setPerspectiveCorrectionMode(TextureAttributes.NICEST); groundTexAtt.setTextureTransform(tr); groundApp.setTextureAttributes(groundTexAtt); if (groundTex != null) groundApp.setTexture(groundTex); ElevationGrid ground = new ElevationGrid(11, // X dimension 11, // Z dimension 2.0f, // X spacing 2.0f, // Z spacing // Automatically use zero heights groundApp); // Appearance // // Build the scene using the shapes above. Place everything // withing a TransformGroup. // // Build the scene root TransformGroup scene = new TransformGroup(); tr = new Transform3D(); tr.setTranslation(new Vector3f(0.0f, -1.6f, 0.0f)); scene.setTransform(tr); // Create influencing bounds BoundingSphere worldBounds = new BoundingSphere(new Point3d(0.0, 0.0, 0.0), // Center 1000.0); // Extent // General Ambient light ambient = new AmbientLight(); ambient.setEnable(ambientOnOff); ambient.setColor(new Color3f(0.3f, 0.3f, 0.3f)); ambient.setCapability(AmbientLight.ALLOW_STATE_WRITE); ambient.setInfluencingBounds(worldBounds); scene.addChild(ambient); // Bright Ambient light brightAmbient = new AmbientLight(); brightAmbient.setEnable(brightAmbientOnOff); brightAmbient.setColor(new Color3f(1.0f, 1.0f, 1.0f)); brightAmbient.setCapability(AmbientLight.ALLOW_STATE_WRITE); brightAmbient.setInfluencingBounds(worldBounds); scene.addChild(brightAmbient); // Red directional light redDirectional = new DirectionalLight(); redDirectional.setEnable(redDirectionalOnOff); redDirectional.setColor(new Color3f(1.0f, 0.0f, 0.0f)); redDirectional.setDirection(new Vector3f(1.0f, -0.5f, -0.5f)); redDirectional.setCapability(AmbientLight.ALLOW_STATE_WRITE); redDirectional.setInfluencingBounds(worldBounds); scene.addChild(redDirectional); // Yellow directional light yellowDirectional = new DirectionalLight(); yellowDirectional.setEnable(yellowDirectionalOnOff); yellowDirectional.setColor(new Color3f(1.0f, 0.8f, 0.0f)); yellowDirectional.setDirection(new Vector3f(-1.0f, 0.5f, 1.0f)); yellowDirectional.setCapability(AmbientLight.ALLOW_STATE_WRITE); yellowDirectional.setInfluencingBounds(worldBounds); scene.addChild(yellowDirectional); // Orange point light orangePoint = new PointLight(); orangePoint.setEnable(orangePointOnOff); orangePoint.setColor(new Color3f(1.0f, 0.5f, 0.0f)); orangePoint.setPosition(new Point3f(0.0f, 0.5f, 0.0f)); orangePoint.setCapability(AmbientLight.ALLOW_STATE_WRITE); orangePoint.setInfluencingBounds(worldBounds); scene.addChild(orangePoint); // Ground scene.addChild(ground); // Dome scene.addChild(dome); // Spur 1's Group g = buildRing(spur1Group); scene.addChild(g); // Spur 2's TransformGroup tg = new TransformGroup(); tr = new Transform3D(); tr.rotY(0.3927); tg.setTransform(tr); g = buildRing(spur2Group); tg.addChild(g); scene.addChild(tg); // Spur 3's g = buildRing(spur3Group); scene.addChild(g); // Spur 4's tg = new TransformGroup(); tg.setTransform(tr); g = buildRing(spur4Group); tg.addChild(g); scene.addChild(tg); return scene; }