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package demos.es2;
import java.nio.*;
import java.util.*;
import javax.media.opengl.*;
import javax.media.opengl.glu.*;
import javax.media.nativewindow.*;
import com.sun.opengl.util.*;
import com.sun.opengl.util.glsl.*;
import com.sun.javafx.newt.*;
import com.sun.javafx.newt.opengl.*;
public class RedSquare extends Thread implements WindowListener, KeyListener, MouseListener, GLEventListener {
private GLWindow window;
private GLProfile glp;
private GLU glu;
private boolean quit = false;
private long startTime;
private long curTime;
private String glprofile;
private int type;
public RedSquare(String glprofile, int type) {
super();
this.glprofile=glprofile;
this.type=type;
}
public void windowResized(WindowEvent e) { }
public void windowMoved(WindowEvent e) { }
public void windowGainedFocus(WindowEvent e) { }
public void windowLostFocus(WindowEvent e) { }
public void windowDestroyNotify(WindowEvent e) {
quit = true;
}
public void keyPressed(KeyEvent e) {
System.out.println(glp+" "+e);
if(e.getKeyChar()=='f') {
window.setFullscreen(!window.isFullscreen());
} else if(e.getKeyChar()=='q') {
quit = true;
}
}
public void keyReleased(KeyEvent e) {
System.out.println(glp+" "+e);
}
public void keyTyped(KeyEvent e) {
System.out.println(glp+" "+e);
}
public void mouseClicked(MouseEvent e) {
System.out.println(glp+" mouseevent: "+e);
switch(e.getClickCount()) {
case 1:
if(e.getButton()>MouseEvent.BUTTON1) {
window.setFullscreen(!window.isFullscreen());
}
break;
default:
quit=true;
break;
}
}
public void mouseEntered(MouseEvent e) {
}
public void mouseExited(MouseEvent e) {
}
public void mousePressed(MouseEvent e) {
}
public void mouseReleased(MouseEvent e) {
}
public void mouseMoved(MouseEvent e) {
}
public void mouseDragged(MouseEvent e) {
}
public void mouseWheelMoved(MouseEvent e) {
}
public void run() {
System.err.println(glp+" RedSquare.run()");
int width = 800;
int height = 480;
glp = GLProfile.get(glprofile);
try {
GLCapabilities caps = new GLCapabilities(glp);
Window nWindow = null;
if(0!=(type&USE_AWT)) {
Display nDisplay = NewtFactory.createDisplay(NativeWindowFactory.TYPE_AWT, null); // local display
Screen nScreen = NewtFactory.createScreen(NativeWindowFactory.TYPE_AWT, nDisplay, 0); // screen 0
nWindow = NewtFactory.createWindow(NativeWindowFactory.TYPE_AWT, nScreen, caps);
}
window = GLWindow.create(nWindow, caps);
window.addWindowListener(this);
window.addMouseListener(this);
window.addKeyListener(this);
window.addGLEventListener(this);
// window.setEventHandlerMode(GLWindow.EVENT_HANDLER_GL_CURRENT); // default
// window.setEventHandlerMode(GLWindow.EVENT_HANDLER_GL_NONE); // no current ..
// Size OpenGL to Video Surface
window.setSize(width, height);
// window.setFullscreen(true);
window.setVisible(true);
window.enablePerfLog(true);
startTime = System.currentTimeMillis();
while (!quit && ((curTime = System.currentTimeMillis()) - startTime) < 20000) {
window.display();
}
// Shut things down cooperatively
window.destroy();
window.getFactory().shutdown();
System.out.println(glp+" RedSquare shut down cleanly.");
} catch (Throwable t) {
t.printStackTrace();
}
}
ShaderState st;
PMVMatrix pmvMatrix;
private void initShader(GL2ES2 gl) {
int tmpI;
// Create & Compile the shader objects
ShaderCode rsVp = ShaderCode.create(gl, gl.GL_VERTEX_SHADER, 1, RedSquare.class,
"shader", "shader/bin", "redsquare");
ShaderCode rsFp = ShaderCode.create(gl, gl.GL_FRAGMENT_SHADER, 1, RedSquare.class,
"shader", "shader/bin", "redsquare");
// Create & Link the shader program
ShaderProgram sp = new ShaderProgram();
sp.add(rsVp);
sp.add(rsFp);
if(!sp.link(gl, System.err)) {
throw new GLException("Couldn't link program: "+sp);
}
// Let's manage all our states using ShaderState.
st = new ShaderState();
st.attachShaderProgram(gl, sp);
}
public void init(GLAutoDrawable drawable) {
GL2ES2 gl = drawable.getGL().getGL2ES2();
glu = GLU.createGLU();
System.err.println(glp+" Entering initialization");
System.err.println(glp+" GL_VERSION=" + gl.glGetString(gl.GL_VERSION));
System.err.println(glp+" GL_EXTENSIONS:");
System.err.println(glp+" " + gl.glGetString(gl.GL_EXTENSIONS));
pmvMatrix = new PMVMatrix();
initShader(gl);
// Push the 1st uniform down the path
st.glUseProgram(gl, true);
pmvMatrix.glMatrixMode(pmvMatrix.GL_PROJECTION);
pmvMatrix.glLoadIdentity();
pmvMatrix.glMatrixMode(pmvMatrix.GL_MODELVIEW);
pmvMatrix.glLoadIdentity();
if(!st.glUniform(gl, new GLUniformData("mgl_PMVMatrix", 4, 4, pmvMatrix.glGetPMvMatrixf()))) {
throw new GLException("Error setting PMVMatrix in shader: "+st);
}
// Allocate vertex arrays
GLArrayDataClient vertices = GLArrayDataClient.createGLSL(gl, "mgl_Vertex", 3, gl.GL_FLOAT, false, 4);
{
// Fill them up
FloatBuffer verticeb = (FloatBuffer)vertices.getBuffer();
verticeb.put(-2); verticeb.put( 2); verticeb.put( 0);
verticeb.put( 2); verticeb.put( 2); verticeb.put( 0);
verticeb.put(-2); verticeb.put( -2); verticeb.put( 0);
verticeb.put( 2); verticeb.put( -2); verticeb.put( 0);
}
vertices.seal(gl, true);
GLArrayDataClient colors = GLArrayDataClient.createGLSL(gl, "mgl_Color", 4, gl.GL_FLOAT, false, 4);
{
// Fill them up
FloatBuffer colorb = (FloatBuffer)colors.getBuffer();
colorb.put( 1); colorb.put( 0); colorb.put( 0); colorb.put( 1);
colorb.put( 0); colorb.put( 0); colorb.put( 1); colorb.put( 1);
colorb.put( 1); colorb.put( 0); colorb.put( 0); colorb.put( 1);
colorb.put( 1); colorb.put( 0); colorb.put( 0); colorb.put( 1);
}
colors.seal(gl, true);
// OpenGL Render Settings
gl.glClearColor(0, 0, 0, 1);
gl.glEnable(GL2ES2.GL_DEPTH_TEST);
st.glUseProgram(gl, false);
// Let's show the completed shader state ..
System.out.println(glp+" "+st);
}
public void reshape(GLAutoDrawable drawable, int x, int y, int width, int height) {
GL2ES2 gl = drawable.getGL().getGL2ES2();
st.glUseProgram(gl, true);
// Set location in front of camera
pmvMatrix.glMatrixMode(pmvMatrix.GL_PROJECTION);
pmvMatrix.glLoadIdentity();
pmvMatrix.gluPerspective(45.0f, (float)width / (float)height, 1.0f, 100.0f);
//pmvMatrix.glOrthof(-4.0f, 4.0f, -4.0f, 4.0f, 1.0f, 100.0f);
GLUniformData ud = st.getUniform("mgl_PMVMatrix");
if(null!=ud) {
// same data object
st.glUniform(gl, ud);
}
st.glUseProgram(gl, false);
}
public void dispose(GLAutoDrawable drawable) {
GL2ES2 gl = drawable.getGL().getGL2ES2();
System.out.println(glp+" RedSquare.dispose: "+gl.getContext());
st.destroy(gl);
st=null;
pmvMatrix.destroy();
pmvMatrix=null;
System.out.println(glp+" RedSquare.dispose: fin");
}
public void display(GLAutoDrawable drawable) {
GL2ES2 gl = drawable.getGL().getGL2ES2();
st.glUseProgram(gl, true);
gl.glClear(gl.GL_COLOR_BUFFER_BIT | gl.GL_DEPTH_BUFFER_BIT);
// One rotation every four seconds
pmvMatrix.glMatrixMode(pmvMatrix.GL_MODELVIEW);
pmvMatrix.glLoadIdentity();
pmvMatrix.glTranslatef(0, 0, -10);
float ang = ((float) (curTime - startTime) * 360.0f) / 4000.0f;
pmvMatrix.glRotatef(ang, 0, 0, 1);
pmvMatrix.glRotatef(ang, 0, 1, 0);
GLUniformData ud = st.getUniform("mgl_PMVMatrix");
if(null!=ud) {
// same data object
st.glUniform(gl, ud);
}
// Draw a square
gl.glDrawArrays(gl.GL_TRIANGLE_STRIP, 0, 4);
st.glUseProgram(gl, false);
}
public void displayChanged(GLAutoDrawable drawable, boolean modeChanged, boolean deviceChanged) {
}
public static int USE_NEWT = 0;
public static int USE_AWT = 1 << 0;
public static void main(String[] args) {
int type = USE_NEWT ;
List threads = new ArrayList();
for(int i=0; i<args.length; i++) {
if(args[i].equals("-awt")) {
type |= USE_AWT;
}
if(args[i].startsWith("-GL")) {
threads.add(new RedSquare(args[i].substring(1), type));
}
}
if(threads.size()==0) {
threads.add(new RedSquare(null, type));
}
Thread firstT = (Thread) threads.remove(0);
for(Iterator i = threads.iterator(); i.hasNext(); ) {
((Thread)i.next()).start();
}
// always run the first on main ..
firstT.run();
boolean done = false;
while(!done) {
int aliveCount = 0;
for(Iterator i = threads.iterator(); i.hasNext(); ) {
if ( ((Thread)i.next()).isAlive() ) {
try {
Thread.sleep(100);
} catch (InterruptedException ie) {}
aliveCount++;
}
}
done = 0==aliveCount ;
}
}
}
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