package Sonnet; import java.awt.Dimension; import javafx.application.Application; import javafx.application.Platform; import javafx.scene.*; import javafx.scene.Scene; import javafx.stage.Stage; import javafx.fxml.FXMLLoader; import javafx.scene.web.WebEngine; import javafx.scene.web.WebView; import javafx.scene.SnapshotParameters; import java.awt.*; import java.awt.image.*; //import java.awt.event.ActionEvent; import java.awt.Dimension; import java.lang.Object; import java.io.InputStream; import java.io.File; import javax.imageio.ImageIO;//Keep For .png Image Creation import java.io.IOException; import java.nio.ByteBuffer; import javafx.scene.paint.Color; import javafx.geometry.Rectangle2D; import javafx.event.EventHandler; import javafx.scene.Scene; import javafx.scene.control.Button; import javafx.scene.input.KeyCode; import javafx.scene.input.KeyEvent; import javafx.scene.layout.StackPane; import javafx.scene.image.*; import javafx.scene.image.Image; import javafx.scene.image.ImageView; import javafx.scene.image.PixelReader; import javafx.scene.image.PixelWriter; import javafx.scene.image.WritableImage; import javafx.scene.image.WritableImage.*; import javafx.scene.input.KeyEvent; //import javafx.scene.layout.VBox; import javafx.scene.text.*; import javafx.stage.Screen; import javafx.stage.Stage; import javafx.scene.layout.*; //import javafx.scene.paint.Color; //import javafx.scene.shape.*; import javafx.beans.value.ChangeListener; import javafx.beans.value.ObservableValue; import javafx.concurrent.Worker; import javafx.concurrent.Worker.State; import javafx.application.Application; import javafx.beans.value.ChangeListener; import javafx.beans.value.ObservableValue; import javafx.concurrent.Worker; import javafx.concurrent.Worker.State; import javafx.event.ActionEvent; import javafx.event.EventHandler; import javafx.scene.Scene; import javafx.scene.control.Button; import javafx.scene.control.Label; import javafx.scene.control.ProgressBar; import javafx.scene.control.TextField; import javafx.scene.layout.VBox; import javafx.scene.paint.Color; import javafx.scene.web.WebEngine; import javafx.scene.web.WebView; import javafx.stage.Stage; //import java.util.Timer; //import java.util.TimerTask; import java.lang.Object.*; import org.apache.commons.io.*; import java.io.PrintWriter; import java.io.PrintStream; import javax.swing.JFileChooser; //import javafx.stage.DirectoryChooser; //import javafx.stage.FileChooser; import javafx.embed.swing.SwingFXUtils; //import org.openqa.selenium.By; //import org.openqa.selenium.WebDriver; //import org.openqa.selenium.firefox.FirefoxDriver; //import com.sun.tools.javac.api.JavacTaskPool.Worker; //import org.apache.commons.io.FileUtils; //import org.openqa.selenium.OutputType; //import org.openqa.selenium.TakesScreenshot; import org.jcodec.api.SequenceEncoder; import org.jcodec.api.awt.AWTSequenceEncoder; import org.jcodec.common.Codec; import org.jcodec.common.Format; import org.jcodec.common.io.NIOUtils; import org.jcodec.common.io.SeekableByteChannel; import org.jcodec.common.model.Rational; import org.jcodec.scale.AWTUtil; import org.jcodec.api.*; import java.nio.channels.*; //import java.nio.channels.SeekableByteChannel; import org.jcodec.*;//Keep For .mp4 Video Creation /*class ColorSlider { public double[] RGB;// = {0,0,0}; public ColorSlider(double[] RGB) { this.RGB = RGB; } public ColorSlider() { this.RGB = new double[]{0,0,0,0}; } public Object ColorSliderFunction(double ColorInterval, double Loc, ColorSlider ColorBefore, ColorSlider ColorAfter) { for (int z = 0; z <= 2; z++) RGB[z] = ( (ColorAfter.RGB[z] - ColorBefore.RGB[z]) * Loc/ColorInterval + ColorBefore.RGB[z] ); return new ColorSlider( RGB ); } public Object ColorSliderFunction(double ColorInterval, double Loc, double BrightnessMultiplyer, ColorSlider ColorBefore, ColorSlider ColorAfter) { if ( BrightnessMultiplyer < 1) for (int z = 0; z <= 2; z++) RGB[z] = ( ( (ColorAfter.RGB[z] - ColorBefore.RGB[z]) * Loc/ColorInterval + ColorBefore.RGB[z] ) * BrightnessMultiplyer); else for (int z = 0; z <= 2; z++) { RGB[z] = ( ( (ColorAfter.RGB[z] - ColorBefore.RGB[z]) * Loc/ColorInterval + ColorBefore.RGB[z] ) ); RGB[z] = ( (255 - RGB[z]) / BrightnessMultiplyer + RGB[z] ); } return new ColorSlider( RGB ); } public void set(double[] RGB) { this.RGB = RGB; } public Object get() { return RGB; } }//*/ public class Sonnet extends Application { @Override public void start(Stage stage) throws IOException { Thread thread = new Thread();//(() -> { try { Thread.sleep(400); } catch (InterruptedException exc) { throw new Error("Unexpected interruption", exc); } // Update text on FX Application Thread: Platform.runLater(new Runnable() { @Override public void run() { try { Setup(stage, thread ); } catch(IOException ie) { ie.printStackTrace(); } } }); //}); thread.setDaemon(true); thread.start(); } static void Setup( Stage primaryStage, Thread primaryThread ) throws IOException { primaryStage.setTitle("Sonnet"); // This is how you know how much screen you can write to. Screen primaryScreen = Screen.getPrimary(); Rectangle2D primaryBounds = primaryScreen.getVisualBounds(); System.out.println(primaryBounds); //primaryStage.setMaximized(true); primaryStage.setFullScreen(true); primaryStage.setWidth( primaryBounds.getWidth() ); primaryStage.setHeight( primaryBounds.getHeight() ); primaryStage.fullScreenProperty().addListener((observable, oldValue, newValue) -> { if ( newValue != primaryStage.isFullScreen() ) { primaryStage.setFullScreen(true); primaryStage.setWidth( primaryBounds.getWidth() ); primaryStage.setHeight( primaryBounds.getHeight() ); } else return; }); /*Dimension dimension = new Dimension( (int)bounds.getWidth(), (int)bounds.getHeight() ); dimension.width = (int)bounds.getWidth(); dimension.height = (int)bounds.getHeight() + 40; Dimension Dim = dimension;//*/ double fRateDivisor = 468;//Testing: 4;//10;//124;//2;//10;//22<- 444 468 HERE HERE HERE DETERMINES FRAME RATE AND RAINBOW MOVEMENT RATE For Rainbow Lights //FXMLLoader loader = new FXMLLoader(Sonnet.class.getResource("main.fxml")); StackPane stackPane[] = new StackPane[(int)(fRateDivisor + 1)]; stackPane[0] = new StackPane(); stackPane[0].setPrefSize( primaryBounds.getWidth(), primaryBounds.getHeight() + 40 );//stackPane.setPrefSize(1920, 1080);//stackPane.setPrefSize(960, 540); //Image image = new Image("http://www.nanofirm.org/scimagorder.com/Pictures/Pixies%20Text.png"); Scene primaryScene[] = new Scene[(int)(fRateDivisor + 1)]; ProgressBar progressBar = new ProgressBar(); Button goButton = new Button("Go!"); Label stateLabel = new Label(); TextField addressBar = new TextField(); //addressBar.setText("http://www.google.com"); //addressBar.setText("http://www.pixies.zone/PixiesTest.html"); WebView browser = new WebView(); browser.setPrefSize( primaryBounds.getWidth(), primaryBounds.getHeight() + 40 ); WebEngine webEngine = browser.getEngine(); //webEngine.load("https://news.google.com/news/?ned=us&hl=en&gl=US"); webEngine.load( "http://www.pixies.zone/BlankWebPage.html" ); //"http://www.pixies.zone/PixiesTest%20-%20Copy%20(4).html" PixiesTest%20-%20Copy%20(2).html");// PixiesTest%20-%20Copy.html"); // ASDF For Rainbow Browser /*try { webEngine.wait(1000); } catch (InterruptedException e) { System.out.println("Interrupted."); }*/ //while () /*try { primaryThread.sleep(10000); } catch (InterruptedException e) { System.out.println("Interrupted."); }// */ //webEngine.load("http://www.pixies.zone/PixiesTest.html"); //primaryStackPane[0].getChildren().add(origionalImageView); //stackPane[0].getChildren().add(browser); Image origionalBasisImage = new Image("http://www.pixies.zone/Pictures/BuddhismTemplateHD.png");//SciMagOrderMagiEliteFullHD.png //Image firstBackupWorkAroundImage = new Image("http://www.pixies.zone/Pictures/PixiesWillAlwaysGetReincarnatedText.png");//BuyHempStartImage.png JFileChooser jFileChooser = new JFileChooser(); String path = "C:\\TestVideo.mp4", text = "Sky.Netarianism";//"C:\\TestImage.png"//"C:\\TestVideo.mp4"//"C:\\TEMP_Sonnet.mp4"; File selectedFile = new File (path); File javaScriptFile = new File ("C:/Users/AllAV/Desktop/FWA Website/pixies.zone/scrollContinuously444.js"); File xSliderFile = new File ("C:/Users/AllAV/Desktop/FWA Website/pixies.zone/xSlider.dat"); jFileChooser.setSelectedFile(selectedFile); int returnValue = jFileChooser.showSaveDialog(null); if (returnValue == JFileChooser.APPROVE_OPTION) { selectedFile = jFileChooser.getSelectedFile(); System.out.println(selectedFile.getName()); System.out.println(selectedFile.getPath()); } //SequenceEncoder enc = new SequenceEncoder(selectedFile); //try { SequenceEncoder enc = new SequenceEncoder(secondFile); } //catch (IOException e) { throw new RuntimeException(e); }//*/ Boolean primaryFullScreened = true; Dimension firstDim = new Dimension( (int)primaryBounds.getWidth(), (int)primaryBounds.getHeight() ); WritableImage origionalTextPicture = new WritableImage( (int)primaryBounds.getWidth(), (int)primaryBounds.getHeight() ); //try { synchronized (webEngine) { // webEngine.wait(2000); //} } catch (InterruptedException e) { e.printStackTrace(); } if ( primaryStage.isFullScreen() == false ) { if ( primaryFullScreened != primaryStage.isFullScreen() ) { primaryStage.setFullScreen(true); firstDim.width = 600; firstDim.height = 400; } else { firstDim.width = (int)primaryStage.getWidth(); firstDim.height = (int)primaryStage.getHeight();// + 40; } //primaryScene[0].snapshot(origionalTextPicture); //sP.setViewport( new Rectangle2D( (double)Dim.width, (double)Dim.height, 0, 0 ) ); primaryStage.setScene(primaryScene[0]); primaryStage.setFullScreen(true); primaryStage.show();//*/ } else if ( primaryFullScreened != primaryStage.isFullScreen() ) { primaryScene[0].snapshot(origionalTextPicture); primaryStage.setFullScreen(true); primaryStage.setWidth(primaryScreen.getBounds().getWidth()); primaryStage.setHeight(primaryScreen.getBounds().getHeight()); firstDim.width = (int)primaryStage.getWidth(); firstDim.height = (int)primaryStage.getHeight();// + 40; //sP.setViewport( new Rectangle2D( (double)Dim.width, (double)Dim.height, 0, 0 ) ); primaryStage.setScene(primaryScene[0]); primaryStage.setFullScreen(true); primaryStage.show();//*/ } System.out.println("Got To Worker"); //Worker worker = webEngine.getLoadWorker(); //ASDF PROBLEM PROBLEM PROBLEM BEFORE System.out.println("Not At Problem"); //worker.stateProperty().addListener(new ChangeListener() { // @Override // public void changed(ObservableValue observable, State oldValue, State newValue) {//System.out.println("Got To Worker Test"); // stateLabel.setText("Loading state: " + newValue.toString()); // if (newValue == Worker.State.SUCCEEDED) {System.out.println("Not At Problem"); try { RainbowSystem(primaryStage, origionalBasisImage, /*firstBackupWorkAroundImage,*/webEngine, browser, stackPane, primaryScene, primaryScreen, fRateDivisor, stateLabel, jFileChooser.getSelectedFile(), javaScriptFile, xSliderFile, primaryThread); }//, enc catch (IndexOutOfBoundsException e) { System.err.println("IndexOutOfBoundsException: " + e.getMessage()); } //} //} /*scene[(int)fRateDivisor].setOnKeyReleased(new EventHandler() { @Override public void handle(KeyEvent event) { if ( event.isAltDown() == true) { switch (event.getCode()) { case ENTER: primaryStage.setFullScreen(!primaryStage.isFullScreen()); break; } } } });//*/ /*try { RainbowSystem(primaryStage, browser, stackPane, scene, screen, fRateDivisor, stateLabel, selectedFile); }//enc, catch (IOException e) { throw new RuntimeException(e); }//*/ //} //}); primaryStage.setScene(primaryScene[0]);// ??? primaryStage.setFullScreen(true); primaryStage.show(); //progressBar.progressProperty().bind(worker.progressProperty()); /*goButton.setOnAction(new EventHandler() { @Override public void handle(ActionEvent event) { String url = addressBar.getText(); // Load the page. webEngine.load(url); } });//*/ } public static void RainbowSystem (Stage secondaryStage, Image basisImage, /*Image secondBackupWorkAroundImage,*/ WebEngine secondBrowserEngine, WebView secondBrowser, StackPane secondStackPane[], Scene secondScene[], Screen secondScreen, double secondFRateDivisor, Label SecondStateLabel, File secondFile, File secondJavaScriptFile, File secondXSliderFile, Thread secondaryThread)//SequenceEncoder secondEnc, { try ( PrintWriter out = new PrintWriter(secondJavaScriptFile.getPath() ) ) { out.println("function scrollContinuously( timeInterval )\r\n" + "{\r\n" + " timeInterval = 444;\r\n" + " window.setInterval( scrollWin, timeInterval );\r\n" + "}\r\n" + "function scrollWin()\r\n" + "{\r\n" + " window.scrollBy( 0, 0 );\r\n" + "}"); out.close(); } catch(IOException ie) { ie.printStackTrace(); }// */ secondaryStage.fullScreenProperty().addListener((observable, oldValue, newValue) -> { if ( newValue != secondaryStage.isFullScreen() ) { secondaryStage.setFullScreen(true); //secondaryStage.setWidth( primaryBounds.getWidth() ); // secondaryStage.setHeight( secondaryBounds.getHeight() ); } else return; }); System.out.println("Got In Worker"); // This is how you know how much screen you can write to. Screen screen = Screen.getPrimary(); Rectangle2D bounds = screen.getVisualBounds(); System.out.println(bounds); //secondaryStage.setMaximized(true); secondaryStage.setFullScreen(true); Dimension dimension = new Dimension( (int)bounds.getWidth(), (int)bounds.getHeight() ); dimension.width = (int)bounds.getWidth(); dimension.height = (int)bounds.getHeight();// + 40; Dimension Dim = dimension;// */ //Dimension Dim = new Dimension(); Dim.width = (int)secondaryStage.getWidth(); Dim.height = (int)secondaryStage.getHeight();// + 40; secondaryStage.setTitle(secondBrowser.getEngine().getLocation()); SecondStateLabel.setText("Finish!"); //SequenceEncoder enc = new SequenceEncoder(secondFile); //try { SequenceEncoder enc = new SequenceEncoder(secondFile); } //catch (IOException e) { throw new RuntimeException(e); }//*/ WritableImage origionalTextPicture = new WritableImage( Dim.width, Dim.height ); WritableImage bufferPicure = new WritableImage( Dim.width, Dim.height ); //origionalTextPicture = secondBrowser.snapshot(null, bufferPicure); //WritableImage origionalTextPicture = new WritableImage( Dim.width, Dim.height ), bufferPicure = new WritableImage( Dim.width, Dim.height ); /*//Image origionalBrowserImage = new Image("http://www.nanofirm.org/scimagorder.com/Pictures/Pixies%20Text.png");//browser.snapshot(sP, origionalTextPicture);//new Image("http://www.nanofirm.org/scimagorder.com/Pictures/Pixies%20Text.png");// //Image origionalBrowserImage = new Image("http://www.nanofirm.org/scimagorder.com/Pictures/Test.png");//browser.snapshot(sP, origionalTextPicture);//new Image("http://www.nanofirm.org/scimagorder.com/Pictures/Pixies%20Text.png");// stackPane[0].getChildren().add(browser); scene[0] = new Scene(stackPane[0]); secondaryStage.setScene(scene[0]); secondaryStage.setFullScreen(true); secondaryStage.show(); //boolean encFinished = false; //while (encFinished = false) //if ( stateLabel.getText() == "Finish!")//secondaryStage.isShowing() && secondaryStage.isFullScreen() ) //{*/ //secondStackPane[0].getChildren().add(secondBrowser); SnapshotParameters sP = new SnapshotParameters(); Image origionalBrowserImage = secondBrowser.snapshot(sP, origionalTextPicture); /*sP.setViewport(secondScreen.getBounds()); secondStackPane[0] = new StackPane(); //while ( secondBrowser.isVisible() == false )//fdsa //try { secondaryThread.wait(); //} catch (InterruptedException e) { // System.out.println("Interrupted."); //} secondStackPane[0].getChildren().add(secondBrowser); secondScene[0] = secondStackPane[0].getScene(); secondScene[0] = new Scene(secondStackPane[0]);// */ //while ( secondBrowser.isVisible() && secondaryStage.isShowing() )//fdsa // try { //double xSlider = 0; //MUST START OUT AS 0 Or Else Video Won't Produce Or Potentially Scroll At All! secondBrowserEngine.getLoadWorker().stateProperty().addListener( new ChangeListener() { @Override public void changed(ObservableValue observable, Object oldValue, Object newValue) { System.out.println("oldValue: " + oldValue); System.out.println("newValue: " + newValue); if (newValue == Worker.State.SUCCEEDED) { //document finished loading sP.setViewport(secondScreen.getBounds()); secondStackPane[0] = new StackPane(); //while ( secondBrowser.isVisible() == false )//fdsa //try { secondaryThread.wait(); //} catch (InterruptedException e) { // System.out.println("Interrupted."); //} secondStackPane[0].getChildren().add(secondBrowser); secondScene[0] = secondStackPane[0].getScene(); secondScene[0] = new Scene(secondStackPane[0]); //secondaryStage.show(); Image origionalBrowserImage = secondBrowser.snapshot(sP, origionalTextPicture); //origionalBrowserImage = secondScene[0].snapshot(origionalTextPicture); //origionalBrowserImage = secondStackPane[0].getScene().snapshot(bufferPicure); secondaryStage.setScene(secondScene[0]); secondaryStage.setFullScreen(true); /*try { secondaryThread.sleep(4000); } catch (InterruptedException e) { System.out.println("Interrupted."); }// */ secondaryStage.show(); //origionalBrowserImage = secondBrowser.snapshot(sP, bufferPicure); System.out.println("Got Stopped Up Show Command In"); origionalBrowserImage = secondBrowser.snapshot(sP, bufferPicure);//new Image("http://www.nanofirm.org/scimagorder.com/Pictures/Pixies%20Text.png"); ///TEST //secondStackPane[0].getChildren().add(secondBrowser); PixelReader origionalpr = origionalBrowserImage.getPixelReader(); origionalpr = origionalBrowserImage.getPixelReader();//ASDF HERE HERE For Rainbow Browser //PixelReader origionalpr = secondBackupWorkAroundImage.getPixelReader(); //origionalpr = secondScene[0].snapshot(bufferPicure).getPixelReader();//ASDF HERE HERE For Rainbow Browser //bufferPicure = new WritableImage( Dim.width, Dim.height ); //origionalpr = secondStackPane[0].getScene().snapshot(bufferPicure).getPixelReader(); PixelWriter origionalpw = bufferPicure.getPixelWriter(); ImageView origionalImageView = new ImageView(); origionalImageView.setImage(origionalBrowserImage); //ASDF FOR RAINBOW BROWSER //origionalImageView.setImage(secondBackupWorkAroundImage); //secondScene[0].setRoot(secondBrowser); //secondStackPane[0].getChildren().add(origionalImageView); //secondStackPane[0].getChildren().add(secondBrowser); /*File tempFile; //WebDriver driver=new FirefoxDriver(); // Maximize the window driver.manage().window().maximize(); // Pass the url driver.get("http://www.pixies.zone/PixiesTest.html"); // Take screenshot and store as a file format File src= ((TakesScreenshot)driver).getScreenshotAs(OutputType.FILE); try {// now copy the screenshot to desired location using copyFile //method FileUtils.copyFile(src, new File("C:/TempImage.png")); } catch (IOException e) { System.out.println(e.getMessage()); }// */ PixelReader basispr = basisImage.getPixelReader(); WritableImage writableImage = origionalTextPicture; PixelReader pr = writableImage.getPixelReader(); PixelWriter pw = writableImage.getPixelWriter(); ImageView imageView = new ImageView(); imageView.setImage(writableImage); double numberOfScrollFrames = 9999;//Testing 2; Normally 11; ColorSlider black = new ColorSlider( new double[]{0,0,0} ); ColorSlider color = black; ColorSlider white = new ColorSlider( new double[]{255,255,255} ); ColorSlider skyblue = new ColorSlider( new double[]{134,206,249} ); ColorSlider oxylblue = new ColorSlider( new double[]{0,255,255} ); ColorSlider pink = new ColorSlider( new double[]{255,64,143} ); ColorSlider blue = new ColorSlider( new double[]{0,0,192} ); ColorSlider red = new ColorSlider( new double[]{193,0,0} ); ColorSlider purple = new ColorSlider( new double[]{122,0,178} ); ColorSlider orange = new ColorSlider( new double[]{255,134,0} ); ColorSlider green = new ColorSlider( new double[]{0,133,50} ); ColorSlider yellow = new ColorSlider( new double[]{246,252,15} ); ColorSlider teal = new ColorSlider( new double[]{3,224,149} ); ColorSlider bronze = new ColorSlider( new double[]{152,123,46} ); ColorSlider silver = new ColorSlider( new double[]{193,192,192} ); ColorSlider gold = new ColorSlider( new double[]{205,191,44} ); ColorSlider lime = new ColorSlider( new double[]{126,193,33} ); ColorSlider brown = new ColorSlider( new double[]{131,103,71} ); ColorSlider oxylBlue0FF = new ColorSlider( new double[]{0,255,255} ); ColorTooSimilar neonGreenCheck = new ColorTooSimilar(); int transparentNum = (int)(0 * 16777216) + (int)(0 * 65536) + (int)(0 * 256) + 0; int oxylBlueNum = (int)(255 * 16777216) + (int)(0 * 65536) + (int)(246 * 256) + 255; int oxylBlue0FFNum = (int)(255 * 16777216) + (int)(0 * 65536) + (int)(255 * 256) + 255; int skyBlueNum = (int)(255 * 16777216) + (int)(135 * 65536) + (int)(206 * 256) + 250; int magentaNum = (int)(255 * 16777216) + (int)(255 * 65536) + (int)(0 * 256) + 255; int halfGreyNum = (int)(255 * 16777216) + (int)(127 * 65536) + (int)(127 * 256) + 127; int pinkNum = (int)(255 * 16777216) + (int)(255 * 65536) + (int)(64 * 256) + 143; int maroonNum = (int)(255 * 16777216) + (int)(167 * 65536) + (int)(0 * 256) + 118; int shitBrownNum = (int)(255 * 16777216) + (int)(110 * 65536) + (int)(82 * 256) + 48; int simpleBlueNum = (int)(255 * 16777216) + (int)(0 * 65536) + (int)(0 * 256) + 255; int neonGreenNum = (int)(255 * 16777216) + (int)(0 * 65536) + (int)(255 * 256) + 0; int webBlackNum = (int)(255 * 16777216) + (int)(0 * 65536) + (int)(0 * 256) + 0; int whiteNum = (int)(255 * 16777216) + (int)(255 * 65536) + (int)(255 * 256) + 255; int redNum = (int)(255 * 16777216) + (int)(193 * 65536) + (int)(0 * 256) + 0; int orangeNum = (int)(255 * 16777216) + (int)(255 * 65536) + (int)(134 * 256) + 0; int yellowNum = (int)(255 * 16777216) + (int)(246 * 65536) + (int)(252 * 256) + 15; int tealNum = (int)(255 * 16777216) + (int)(3 * 65536) + (int)(224 * 256) + 149; int greenNum = (int)(255 * 16777216) + (int)(0 * 65536) + (int)(133 * 256) + 50; int blueNum = (int)(255 * 16777216) + (int)(0 * 65536) + (int)(0 * 256) + 192; int purpleNum = (int)(255 * 16777216) + (int)(122 * 65536) + (int)(0 * 256) + 178; int white1Num = (int)(255 * 16777216) + (int)(254 * 65536) + (int)(254 * 256) + 254; int white2Num = (int)(255 * 16777216) + (int)(253 * 65536) + (int)(253 * 256) + 253; int white3Num = (int)(255 * 16777216) + (int)(252 * 65536) + (int)(252 * 256) + 252; int white4Num = (int)(255 * 16777216) + (int)(251 * 65536) + (int)(251 * 256) + 251; int blackRedNumArray[] = new int[18]; for (int blackRedNum = 1; blackRedNum <= 18; blackRedNum++) blackRedNumArray[blackRedNum - 1] = (int)(255 * 16777216) + (int)(blackRedNum * 65536) + (int)(0 * 256) + 0; int blackBlueNumArray[] = new int[18]; for (int blackBlueNum = 1; blackBlueNum <= 18; blackBlueNum++) blackBlueNumArray[blackBlueNum - 1] = (int)(255 * 16777216) + (int)(0 * 65536) + (int)(0 * 256) + blackBlueNum; int blackGreenNumArray[] = new int[4]; for (int blackGreenNum = 1; blackGreenNum <= 4; blackGreenNum++) blackGreenNumArray[blackGreenNum - 1] = (int)(255 * 16777216) + (int)(0 * 65536) + (int)(blackGreenNum * 256) + 0; int blackPurpleNumArray[] = new int[4]; for (int blackPurpleNum = 1; blackPurpleNum <= 4; blackPurpleNum++) blackPurpleNumArray[blackPurpleNum - 1] = (int)(255 * 16777216) + (int)(blackPurpleNum * 65536) + (int)(0 * 256) + blackPurpleNum; int black6Num = (int)(255 * 16777216) + (int)(6 * 65536) + (int)(6 * 256) + 6; int wheelOuterRingNum = (int)(255 * 16777216) + (int)(255 * 65536) + (int)(204 * 256) + 3; int wheelMiddleRingNum = (int)(255 * 16777216) + (int)(255 * 65536) + (int)(204 * 256) + 1; int wheelInnerRingNum = (int)(255 * 16777216) + (int)(212 * 65536) + (int)(170 * 256) + 1; int wheelRodsNum = (int)(255 * 16777216) + (int)(255 * 65536) + (int)(204 * 256) + 2; int wheelEndsNum = (int)(255 * 16777216) + (int)(255 * 65536) + (int)(204 * 256) + 4; int wheelTipsNum = (int)(255 * 16777216) + (int)(255 * 65536) + (int)(204 * 256) + 5; int wheelDiamondsNum = (int)(255 * 16777216) + (int)(255 * 65536) + (int)(204 * 256) + 6; int wheelDiamondsArrayNum[] = { whiteNum, redNum, orangeNum, yellowNum, tealNum, greenNum, blueNum, purpleNum }; int numberOfColorsInTheRainbow = 7;//asdf Always Worry About This! //Dimension HalfedDim = new Dimension(); //HalfedDim.width = Math.round( ( Dim.width + 1 ) / 2 - 1 ); //HalfedDim.height = Math.round( ( Dim.height + 1 ) / 2 - 1 ); int x = 0, y = 0, xMinusxSlider = 0, yMinusxSlider = 0, ySlider = 0, yMinusySlider = 0, cyMy = 0, b = 0, xSliderFactor = 1, xSliderBackAndFourth = 1, fixedOfabcd = 4, numOfabcd = 4, colorIntervalDivisor = 1, aCounter = 0, bCounter = 0, cCounter = 0;//cxMx Corrected xMinusSlider for determining color double a = 0, colorIntervalForWholeScreen = Dim.width / ( numberOfColorsInTheRainbow - 1 ), numberOfClockHandsForRainbow = 7, numberOfColorsForOrderOfMagi = 3, numberOfClockHandsForOrderOfMagi = 16, abcd = 0, abc = 0, rCheck = 0, aAngle = 0, bAngle = 0, newx = 0, newy = 0, abc2 = 0, aIncrementAngle = 0, bIncrementAngle = 0, aTan = 0, cxMx = 0; boolean fullScreened = true, TrispectralRainbow = false, someTargetColorHit = false, greenBlueGreenUsed = false, someTargetColorInTheCenterHit = false, otherBrowserColorHit = false, makePixelTransparent = false, scrollHappened = false; if (TrispectralRainbow == true) colorIntervalForWholeScreen = colorIntervalForWholeScreen / 3;//For Trispectral Rainbow. double colorDisplacement = 0;//For Rainbow Disk And 0 Rainbow Clock //double radialDistance = Math.pow(Math.pow(HalfedDim.width + 1, 2) + Math.pow(HalfedDim.height + 1, 2), 0.5); double angle1 = 0, angle2 = 0, angle3 = 0, angle4 = 0, aAngleCheck = 0; double radius = 0; double angle = 0; double xSlider = 0; //MUST START OUT AS 0 Or Else Video Won't Produce Or Potentially Scroll At All! Dimension HalfedDim = new Dimension(); HalfedDim.width = Math.round( ( Dim.width + 1 ) / 2 - 1 ); HalfedDim.height = Math.round( ( Dim.height + 1 ) / 2 - 1 ); double radialDistance = Math.pow(Math.pow(HalfedDim.width + 1, 2) + Math.pow(HalfedDim.height + 1, 2), 0.5); double fullAngle = Math.PI * radialDistance; //double fullAngle = Math.PI * radialDistance; double sliderInterval = fullAngle / secondFRateDivisor;// / 10 For Rainbow Spotlight Last Division Determines The Frame Rate colorIntervalForWholeScreen = fullAngle / ( numberOfColorsInTheRainbow - 1 );//For Rainbow Clock And Spiral ///double interval = radialDistance * 2 * Math.PI / 1444;//1444 Instead Of 14 Gets The Frame Rate To Have Contiguous Motion For Rainbow Clock //double fullAngle = 2 * Math.PI * radialDistance;//For Rainbow Clock //colorIntervalForWholeScreen = fullAngle / ( numberOfColorsInTheRainbow - 1 ) / numberOfClockHands;//For Rainbow Clock //for (xSlider = (int)Math.round(colorDisplacement) + radialDistance * 2 * Math.PI / numberOfClockHands / 2; xSlider < 1.5 * ( radialDistance * 2 * Math.PI / numberOfClockHands ); xSlider++)// < For Rainbow Clock, xSlider = (int)Math.round(colorDisplacement); For Rings -144 Use cy And < HalfedDim.height Instead of Dim.height For Circular Rainbow Use Dim.width < For Rainbow Slider And Fractal //Start At -144 For Videos And Pictures System.out.println("Got To Main Program Loop. Dim = " + Dim); final double chrysanthemumRadius = 60; final double chrysanthemumInnerRadius = 9; final double chrysanthemumYDisplacement = 25; final double chrysanthemumNumberOfPedals = 16; double coreVariable = 0, angleVariable = 0, aVariable = 0, radiusVariable = 0, fullCycleVariable = 0, colorDisplacementVariable = 0, colorIntervalVariable = 0, speedIncreaseFactor = numberOfColorsInTheRainbow, speedDecreaseFactor = 1 / numberOfColorsInTheRainbow; double radialVariableDistance = 0;//Hypnosis Spiral double diskColorInterval = Dim.width / ( numberOfColorsInTheRainbow - 1 );//Rainbow Disk double ringColorInterval = diskColorInterval * 0.175979734764;//Rainbow Ring double ringcolorDisplacement = HalfedDim.height * (1 - 0.175979734764); double fullScrollCycle = sliderInterval * 11 * 1904;//1904 Scroll Height In Pixels try ( PrintWriter in = new PrintWriter(secondXSliderFile.getPath() ) ) { try{ xSlider = Double.parseDouble( in.toString() ); }catch(NumberFormatException ex){ // handle your exception ex.printStackTrace(); } //xSlider = Double.parseDouble( in.toString() ); in.close(); } catch(IOException ie) { ie.printStackTrace(); }// */ SeekableByteChannel videoOut = null; try { videoOut = NIOUtils.writableFileChannel( secondFile.getPath() ); // for Android use: AndroidSequenceEncoder //try { AWTSequenceEncoder encoder = new AWTSequenceEncoder(videoOut, Rational.R(25, 1)); //} //catch(IOException ie) { ie.printStackTrace(); } System.out.println("xSlider: " + xSlider); while ( xSlider < fullAngle)//fullScrollCycle / 4000 )// For Scrolling; xSlider < fullScrollCycle / 4000 . For MagiElite: fullAngle / 10)//for (xSlider = 0; xSlider <= 0.175979734764 * cy; xSlider++) {//0.175979734764 * try { secondaryThread.sleep(4000); } catch (InterruptedException e) { System.out.println("Interrupted."); } secondaryStage.setFullScreen(true); //dimension = new Dimension( (int)bounds.getWidth(), (int)bounds.getHeight() ); dimension.width = (int)bounds.getWidth(); dimension.height = (int)bounds.getHeight();// + 40; //Dim = dimension;// */ if ( secondaryStage.isFullScreen() == false ) { if ( fullScreened != secondaryStage.isFullScreen() ) { secondaryStage.setFullScreen(true); Dim.width = 600; Dim.height = 400; } else { Dim.width = (int)secondaryStage.getWidth(); Dim.height = (int)secondaryStage.getHeight();// + 40; } sP.setViewport( new Rectangle2D( (double)Dim.width, (double)Dim.height, 0, 0 ) ); origionalBrowserImage = secondBrowser.snapshot(sP, origionalTextPicture); //Image origionalBrowserImage = secondScene[(int)(secondFRateDivisor * xSlider/fullAngle)].snapshot(origionalTextPicture); origionalBrowserImage = secondScene[(int)(secondFRateDivisor * xSlider/fullAngle)].snapshot(origionalTextPicture); origionalBrowserImage = secondStackPane[(int)(secondFRateDivisor * xSlider/fullAngle)].getScene().snapshot(bufferPicure); secondaryStage.setScene(secondScene[(int)(secondFRateDivisor * xSlider/fullAngle)]); secondaryStage.setFullScreen(true); secondaryStage.show();//*/ basispr = basisImage.getPixelReader(); origionalpr = origionalBrowserImage.getPixelReader();//ASDF HERE HERE For Rainbow Browser //origionalpr = secondBackupWorkAroundImage.getPixelReader(); origionalpr = secondStackPane[(int)(secondFRateDivisor * xSlider/fullAngle)].getScene().snapshot(bufferPicure).getPixelReader();//ASDF HERE HERE For Rainbow Browser origionalpw = bufferPicure.getPixelWriter(); origionalImageView = new ImageView(); origionalImageView.setImage(origionalBrowserImage);//ASDF HERE HERE For Rainbow Browser //origionalImageView.setImage(secondBackupWorkAroundImage); } else if ( fullScreened != secondaryStage.isFullScreen() ) { secondaryStage.setFullScreen(true); secondaryStage.setWidth(secondScreen.getBounds().getWidth()); secondaryStage.setHeight(secondScreen.getBounds().getHeight()); Dim.width = (int)secondaryStage.getWidth(); Dim.height = (int)secondaryStage.getHeight();// + 40; sP.setViewport( new Rectangle2D( (double)Dim.width, (double)Dim.height, 0, 0 ) ); origionalBrowserImage = secondBrowser.snapshot(sP, origionalTextPicture); //Image origionalBrowserImage = secondScene[(int)(secondFRateDivisor * xSlider/fullAngle)].snapshot(origionalTextPicture); origionalBrowserImage = secondScene[(int)(secondFRateDivisor * xSlider/fullAngle)].snapshot(origionalTextPicture); origionalBrowserImage = secondStackPane[(int)(secondFRateDivisor * xSlider/fullAngle)].getScene().snapshot(bufferPicure); secondaryStage.setScene(secondScene[(int)(secondFRateDivisor * xSlider/fullAngle)]); secondaryStage.setFullScreen(true); secondaryStage.show();//*/ basispr = basisImage.getPixelReader(); origionalpr = origionalBrowserImage.getPixelReader();//ASDF HERE HERE For Rainbow Browser //origionalpr = secondBackupWorkAroundImage.getPixelReader(); origionalpr = secondStackPane[(int)(secondFRateDivisor * xSlider/fullAngle)].getScene().snapshot(bufferPicure).getPixelReader();//ASDF HERE HERE For Rainbow Browser origionalpw = bufferPicure.getPixelWriter(); origionalImageView = new ImageView(); origionalImageView.setImage(origionalBrowserImage);//ASDF HERE HERE For Rainbow Browser //origionalImageView.setImage(secondBackupWorkAroundImage); } int lengthOfColorBar = 0; y = HalfedDim.height; for (x = 0; x < Dim.width; x++) if ( basispr.getArgb( x, y ) == blackBlueNumArray[16] ) lengthOfColorBar++; int outerRingRadius = 293, outerRingThickness = 65; int middleRingRadius = 88, middleRingThickness = 20; int innerRingRadius = 66, innerRingThickness = 18; /*boolean ringRadiusFound = false; y = HalfedDim.height; for (x = 0; x < Dim.width; x++) if ( basispr.getArgb( x, y ) == wheelMiddleRingNum ) { if ( ringRadiusFound == false ) { middleRingRadius = HalfedDim.width - x + 1; ringRadiusFound = true; } middleRingThickness++; } middleRingThickness = middleRingThickness / 2; y = HalfedDim.height; ringRadiusFound = false; for (x = 0; x < Dim.width; x++) if ( basispr.getArgb( x, y ) == wheelInnerRingNum ) { if ( ringRadiusFound == false ) { innerRingRadius = HalfedDim.width - x + 1; ringRadiusFound = true; } innerRingThickness++; } innerRingThickness = innerRingThickness / 2;// */ //System.out.println("lengthOfColorBar = " + lengthOfColorBar); boolean aColorBarHit = false; int maxIndexOfHorizontalColorBars = 17, maxIndexOfVerticalColorBars = 3, colorBarIndex = 0, colorBarCheck = 0, colorBarDistance = 0; boolean aWheelDiamondHit = false; int eightColorDiamondsIndex = 0; boolean wheelTipsHit = false; /*Dim.width = (int)secondaryStage.getWidth(); Dim.height = (int)secondaryStage.getHeight() + 40; Dim = Dim;//*/ //secondStackPane[(int)(secondFRateDivisor * (xSlider - interval)/fullAngle) + 1].getChildren().add(browser); //origionalpr = secondStackPane[(int)(secondFRateDivisor * (xSlider - interval)/fullAngle) + 1].getScene().snapshot(bufferPicure).getPixelReader(); //Dim = f.getSize();//Dim = f.getContentPane().getSize(); HalfedDim.width = Math.round( ( Dim.width + 1 ) / 2 - 1 ); HalfedDim.height = Math.round( ( Dim.height + 1 ) / 2 - 1 ); radialDistance = Math.pow(Math.pow(HalfedDim.width + 1, 2) + Math.pow(HalfedDim.height + 1, 2), 0.5); rCheck = HalfedDim.height / fixedOfabcd; numOfabcd = (int)Math.ceil(radialDistance / HalfedDim.height); //double[] angle = new double[numOfabcd], abcdefg = new double[numOfabcd]; colorDisplacement = 0;//For Rainbow Disk for (x = 0; x < Dim.width; x++)//Comment Out Here For Circular Rainbow {//Comment Out Here For Circular Rainbow for (y = 0; y < Dim.height; y++) {// coreVariable // angleVariable // aVariable // radiusVariable // fullCycleVariable // colorDisplacementVariable // colorIntervalVariable XXXXXX // speedIncreaseFactor // speedDecreaseFactor someTargetColorHit = true; someTargetColorInTheCenterHit = false; greenBlueGreenUsed = false; otherBrowserColorHit = false; makePixelTransparent = false; aColorBarHit = false; aWheelDiamondHit = false; wheelTipsHit = false; for ( colorBarIndex = 0; colorBarIndex <= maxIndexOfHorizontalColorBars; colorBarIndex++) if ( basispr.getArgb( x, y ) == blackBlueNumArray[colorBarIndex] ) { colorBarDistance = 0; for ( colorBarCheck = x; colorBarCheck >= 0; colorBarCheck--) { if ( basispr.getArgb( colorBarCheck, y ) == blackBlueNumArray[colorBarIndex] ) colorBarDistance++; else break; } if ( colorBarIndex == 17 ) colorBarDistance = colorBarDistance + 8; coreVariable = colorBarDistance - Math.pow( xSlider / sliderInterval * ( colorBarIndex + 1 ) , 0.5 ); colorIntervalVariable = lengthOfColorBar / ( numberOfColorsInTheRainbow - 1 ); while ( coreVariable < 0 ) coreVariable = coreVariable + colorIntervalVariable * ( numberOfColorsInTheRainbow - 1 ) ; while ( coreVariable > colorIntervalVariable * ( numberOfColorsInTheRainbow - 1 ) ) coreVariable = coreVariable - colorIntervalVariable * ( numberOfColorsInTheRainbow - 1 ) ; aColorBarHit = true; //someTargetColorHit = true; } for ( colorBarIndex = 0; colorBarIndex <= maxIndexOfHorizontalColorBars; colorBarIndex++) if ( basispr.getArgb( x, y ) == blackRedNumArray[colorBarIndex] ) { colorBarDistance = 0; for ( colorBarCheck = x; colorBarCheck <= Dim.width; colorBarCheck++) { if ( basispr.getArgb( colorBarCheck, y ) == blackRedNumArray[colorBarIndex] ) colorBarDistance++; else break; } if ( colorBarIndex == 17 ) colorBarDistance = colorBarDistance + 8; coreVariable = colorBarDistance - Math.pow( xSlider / sliderInterval * ( colorBarIndex + 1 ) , 0.5 ); colorIntervalVariable = lengthOfColorBar / ( numberOfColorsInTheRainbow - 1 ); while ( coreVariable < 0 ) coreVariable = coreVariable + colorIntervalVariable * ( numberOfColorsInTheRainbow - 1 ) ; while ( coreVariable > colorIntervalVariable * ( numberOfColorsInTheRainbow - 1 ) ) coreVariable = coreVariable - colorIntervalVariable * ( numberOfColorsInTheRainbow - 1 ) ; aColorBarHit = true; //someTargetColorHit = true; } for ( colorBarIndex = 0; colorBarIndex <= maxIndexOfVerticalColorBars; colorBarIndex++) if ( basispr.getArgb( x, y ) == blackGreenNumArray[colorBarIndex] ) { colorBarDistance = 0; for ( colorBarCheck = y; colorBarCheck >= 0; colorBarCheck--) { if ( basispr.getArgb( x, colorBarCheck ) == blackGreenNumArray[colorBarIndex] ) colorBarDistance++; else break; } coreVariable = colorBarDistance - Math.pow( xSlider / sliderInterval * ( colorBarIndex + 1 ) , 0.5 ); colorIntervalVariable = lengthOfColorBar / ( numberOfColorsInTheRainbow - 1 ); while ( coreVariable < 0 ) coreVariable = coreVariable + colorIntervalVariable * ( numberOfColorsInTheRainbow - 1 ) ; while ( coreVariable > colorIntervalVariable * ( numberOfColorsInTheRainbow - 1 ) ) coreVariable = coreVariable - colorIntervalVariable * ( numberOfColorsInTheRainbow - 1 ) ; aColorBarHit = true; //someTargetColorHit = true; } for ( colorBarIndex = 0; colorBarIndex <= maxIndexOfVerticalColorBars; colorBarIndex++) if ( basispr.getArgb( x, y ) == blackPurpleNumArray[colorBarIndex] ) { colorBarDistance = 0; for ( colorBarCheck = y; colorBarCheck <= Dim.height; colorBarCheck++) { if ( basispr.getArgb( x, colorBarCheck ) == blackPurpleNumArray[colorBarIndex] ) colorBarDistance++; else break; } coreVariable = colorBarDistance - Math.pow( xSlider / sliderInterval * ( colorBarIndex + 1 ) , 0.5 ); colorIntervalVariable = lengthOfColorBar / ( numberOfColorsInTheRainbow - 1 ); while ( coreVariable < 0 ) coreVariable = coreVariable + colorIntervalVariable * ( numberOfColorsInTheRainbow - 1 ) ; while ( coreVariable > colorIntervalVariable * ( numberOfColorsInTheRainbow - 1 ) ) coreVariable = coreVariable - colorIntervalVariable * ( numberOfColorsInTheRainbow - 1 ) ; aColorBarHit = true; //someTargetColorHit = true; } if (aColorBarHit == false) if ( origionalpr.getArgb( x, y ) != magentaNum && origionalpr.getArgb( x, y ) != whiteNum && origionalpr.getArgb( x, y ) != transparentNum ) { otherBrowserColorHit = true; } else if ( basispr.getArgb( x, y ) == oxylBlueNum ) { coreVariable = ( ( Math.atan2( (x - HalfedDim.width + 1) , (y - HalfedDim.height + 1 ) ) + Math.PI ) * radialDistance ) / 2 + xSlider ; if (coreVariable < 0) coreVariable = coreVariable + fullAngle; else if (coreVariable > fullAngle) coreVariable = coreVariable - fullAngle; colorIntervalVariable = fullAngle / ( numberOfColorsInTheRainbow - 1 ); } else if ( basispr.getArgb( x, y ) == wheelDiamondsNum ) { if ( ( y - HalfedDim.height ) < - HalfedDim.height / 10) { if ( ( x - HalfedDim.width ) < HalfedDim.height / 10 && ( x - HalfedDim.width ) > - HalfedDim.height / 10) eightColorDiamondsIndex = 0; else if ( ( x - HalfedDim.width ) + ( y - HalfedDim.height ) < HalfedDim.height / 10 && ( x - HalfedDim.width ) + ( y - HalfedDim.height ) > - HalfedDim.height / 10 ) eightColorDiamondsIndex = 1; else if ( ( x - HalfedDim.width ) - ( y - HalfedDim.height ) < HalfedDim.height / 10 && ( x - HalfedDim.width ) - ( y - HalfedDim.height ) > - HalfedDim.height / 10 ) eightColorDiamondsIndex = 7; } else if ( ( y - HalfedDim.height ) > HalfedDim.height / 10) { if ( ( x - HalfedDim.width ) < HalfedDim.height / 10 && ( x - HalfedDim.width ) > - HalfedDim.height / 10) eightColorDiamondsIndex = 4; else if ( ( x - HalfedDim.width ) - ( y - HalfedDim.height ) < HalfedDim.height / 10 && ( x - HalfedDim.width ) - ( y - HalfedDim.height ) > - HalfedDim.height / 10 ) eightColorDiamondsIndex = 3; else if ( ( x - HalfedDim.width ) + ( y - HalfedDim.height ) < HalfedDim.height / 10 && ( x - HalfedDim.width ) + ( y - HalfedDim.height ) > - HalfedDim.height / 10 ) eightColorDiamondsIndex = 5; } else if ( x - HalfedDim.width > 0 ) eightColorDiamondsIndex = 2; else if ( x - HalfedDim.width < 0 ) eightColorDiamondsIndex = 6; eightColorDiamondsIndex = (int)Math.ceil( eightColorDiamondsIndex - 8 * xSlider / fullAngle ); while ( eightColorDiamondsIndex < 0 ) eightColorDiamondsIndex = eightColorDiamondsIndex + 8; while ( eightColorDiamondsIndex > 7 ) eightColorDiamondsIndex = eightColorDiamondsIndex - 8; aWheelDiamondHit = true; } else if ( basispr.getArgb( x, y ) == wheelRodsNum ) { coreVariable = ( Math.atan2( (x - HalfedDim.width + 1) , (y - HalfedDim.height + 1 ) ) * radialDistance ) + xSlider / 16 ; while ( coreVariable < 0 ) coreVariable = coreVariable + fullAngle / 8; while ( coreVariable > fullAngle / 8) coreVariable = coreVariable - fullAngle / 8; colorIntervalVariable = ( fullAngle / ( numberOfColorsInTheRainbow - 1 ) ) / 8; } else if ( basispr.getArgb( x, y ) == wheelEndsNum ) { coreVariable = ( Math.atan2( (x - HalfedDim.width + 1) , (y - HalfedDim.height + 1 ) ) * radialDistance ) - xSlider / 16 ; while ( coreVariable < 0 ) coreVariable = coreVariable + fullAngle / 8; while ( coreVariable > fullAngle / 8) coreVariable = coreVariable - fullAngle / 8; colorIntervalVariable = ( fullAngle / ( numberOfColorsInTheRainbow - 1 ) ) / 8; } else if ( basispr.getArgb( x, y ) == wheelOuterRingNum ) { coreVariable = outerRingRadius - Math.pow(Math.pow(x - HalfedDim.width + 1, 2) + Math.pow( y - HalfedDim.height + 1, 2), 0.5) + outerRingThickness * xSlider / fullAngle ; while ( coreVariable < outerRingThickness ) coreVariable = coreVariable + outerRingThickness; while ( coreVariable > outerRingThickness ) coreVariable = coreVariable - outerRingThickness; colorIntervalVariable = outerRingThickness / ( numberOfColorsInTheRainbow - 1 ); } else if ( basispr.getArgb( x, y ) == wheelMiddleRingNum ) { coreVariable = middleRingRadius - Math.pow(Math.pow(x - HalfedDim.width + 1, 2) + Math.pow( y - HalfedDim.height + 1, 2), 0.5) + 2 * middleRingThickness * xSlider / fullAngle ; while ( coreVariable < middleRingThickness ) coreVariable = coreVariable + middleRingThickness; while ( coreVariable > middleRingThickness ) coreVariable = coreVariable - middleRingThickness; colorIntervalVariable = middleRingThickness / ( numberOfColorsInTheRainbow - 1 ); } else if ( basispr.getArgb( x, y ) == wheelInnerRingNum ) { coreVariable = innerRingRadius - Math.pow(Math.pow(x - HalfedDim.width + 1, 2) + Math.pow( y - HalfedDim.height + 1, 2), 0.5) + 4 * innerRingThickness * xSlider / fullAngle ; while ( coreVariable < innerRingThickness ) coreVariable = coreVariable + innerRingThickness; while ( coreVariable > innerRingThickness ) coreVariable = coreVariable - innerRingThickness; colorIntervalVariable = innerRingThickness / ( numberOfColorsInTheRainbow - 1 ); } else if ( basispr.getArgb( x, y ) == wheelTipsNum ) wheelTipsHit = true; else if ( Math.pow(Math.pow(x - HalfedDim.width + 1, 2) + Math.pow( y - HalfedDim.height + 1, 2), 0.5) <= 47 ) { radialVariableDistance = Math.pow(Math.pow(x - HalfedDim.width + 1, 2) + Math.pow( y - HalfedDim.height + 1, 2), 0.5);//Comment Out For Ghetto Many Rainbow Clocks angleVariable = chrysanthemumRadius * ( ( - Math.atan2( (x - HalfedDim.width + 1) , (y - HalfedDim.height + 1) ) + Math.PI ) - 6 * Math.PI * xSlider / ( fullAngle / 10 ) );//Use For Rainbow Spiral Multiply radialDistance By 10 To Increase The Number Of Spirals radiusVariable = chrysanthemumRadius * ( radialVariableDistance * 24.6 + colorDisplacement + angleVariable);//radialVariableDistance + colorDisplacement + angle;//Remove + angle And Add xSlider To Make Rainbow Clock while ( radiusVariable < colorDisplacement)//For Rainbow Ring radiusVariable = radiusVariable + 2 * Math.PI * chrysanthemumRadius - colorDisplacement;//BAD COMMENT: For Rainbow Ring Take Out - 38 while ( radiusVariable > 2 * Math.PI * chrysanthemumRadius ) radiusVariable = radiusVariable - 2 * Math.PI * chrysanthemumRadius - colorDisplacement; colorIntervalVariable = 2 * Math.PI * chrysanthemumRadius / ( numberOfColorsInTheRainbow - 1 ); coreVariable = radiusVariable; } else someTargetColorHit = false; /*if ( Math.pow(Math.pow(x - HalfedDim.width + 1, 2) + Math.pow( y - HalfedDim.height + 1 + chrysanthemumYDisplacement, 2), 0.5) <= 64 ) {//902 //1019 someTargetColorInTheCenterHit = true; if ( basispr.getArgb( x, y ) == black6Num ) { coreVariable = chrysanthemumRadius - Math.pow(Math.pow(x - HalfedDim.width + 1, 2) + Math.pow( y - HalfedDim.height + 1 + chrysanthemumYDisplacement, 2), 0.5) + 6 * 0.175979734764 * chrysanthemumRadius * xSlider / ( fullAngle / 10 ) ; while ( coreVariable < 0.175979734764 * chrysanthemumRadius) coreVariable = coreVariable + 0.175979734764 * chrysanthemumRadius; while ( coreVariable > 0.175979734764 * chrysanthemumRadius) coreVariable = coreVariable - 0.175979734764 * chrysanthemumRadius; colorIntervalVariable = 0.175979734764 * chrysanthemumRadius / ( numberOfColorsInTheRainbow - 1 ); } else if ( basispr.getArgb( x, y ) == white1Num ) { radialVariableDistance = Math.pow(Math.pow(x - HalfedDim.width + 1, 2) + Math.pow( y - HalfedDim.height + 1 + chrysanthemumYDisplacement, 2), 0.5);//Comment Out For Ghetto Many Rainbow Clocks angleVariable = chrysanthemumRadius * ( ( - Math.atan2( (x - HalfedDim.width + 1) , (y - HalfedDim.height + 1 + chrysanthemumYDisplacement) ) + Math.PI ) - 6 * Math.PI * xSlider / ( fullAngle / 10 ) );//Use For Rainbow Spiral Multiply radialDistance By 10 To Increase The Number Of Spirals radiusVariable = chrysanthemumRadius * ( radialVariableDistance * 24.6 + colorDisplacement + angleVariable);//radialVariableDistance + colorDisplacement + angle;//Remove + angle And Add xSlider To Make Rainbow Clock while ( radiusVariable < colorDisplacement)//For Rainbow Ring radiusVariable = radiusVariable + 2 * Math.PI * chrysanthemumRadius - colorDisplacement;//BAD COMMENT: For Rainbow Ring Take Out - 38 while ( radiusVariable > 2 * Math.PI * chrysanthemumRadius ) radiusVariable = radiusVariable - 2 * Math.PI * chrysanthemumRadius - colorDisplacement; colorIntervalVariable = 2 * Math.PI * chrysanthemumRadius / ( numberOfColorsInTheRainbow - 1 ); coreVariable = radiusVariable; } else if ( basispr.getArgb( x, y ) == white2Num ) { coreVariable = x - 902 - chrysanthemumRadius * 2 * xSlider / ( fullAngle / 10 ); while (coreVariable < 0) coreVariable = coreVariable + chrysanthemumRadius * 2; while (coreVariable > chrysanthemumRadius * 2) coreVariable = coreVariable - chrysanthemumRadius * 2; colorIntervalVariable = chrysanthemumRadius * 2 / (numberOfColorsInTheRainbow - 1 ); } else if ( basispr.getArgb( x, y ) == white3Num ) { angleVariable = - chrysanthemumRadius * 2 * Math.PI * ( ( Math.atan2( (x - HalfedDim.width + 1) , ( y - HalfedDim.height + 1 + chrysanthemumYDisplacement ) ) + Math.PI ) + xSlider / ( ( chrysanthemumNumberOfPedals - 1 ) * fullAngle / 10 ) ) ; while (angleVariable < 0) angleVariable = angleVariable + chrysanthemumRadius / ( chrysanthemumNumberOfPedals - 1); while (angleVariable > chrysanthemumRadius / (chrysanthemumNumberOfPedals - 1) ) angleVariable = angleVariable - chrysanthemumRadius / ( chrysanthemumNumberOfPedals - 1); coreVariable = angleVariable; colorIntervalVariable = chrysanthemumRadius / ( ( numberOfClockHandsForRainbow - 1 ) * ( chrysanthemumNumberOfPedals - 1) ); } else if ( basispr.getArgb( x, y ) == white4Num ) { radialVariableDistance = Math.pow(Math.pow(x - HalfedDim.width + 1, 2) + Math.pow( y - HalfedDim.height + 1 + chrysanthemumYDisplacement, 2), 0.5);//Comment Out For Ghetto Many Rainbow Clocks angleVariable = ( ( - Math.atan2( (x - HalfedDim.width + 1) , (y - HalfedDim.height + 1 + chrysanthemumYDisplacement) ) + Math.PI ) - 6 * Math.PI * xSlider / ( fullAngle / 10 ) ) * 10 * chrysanthemumRadius;//Use For Rainbow Spiral Multiply radialDistance By 10 To Increase The Number Of Spirals radiusVariable = ( radialVariableDistance * 24.6 + colorDisplacement + angleVariable ) / ( 2 * chrysanthemumRadius);//radialVariableDistance + colorDisplacement + angle;//Remove + angle And Add xSlider To Make Rainbow Clock while ( radiusVariable < colorDisplacement)//For Rainbow Ring radiusVariable = radiusVariable + 2 * chrysanthemumRadius * Math.PI - colorDisplacement;//BAD COMMENT: For Rainbow Ring Take Out - 38 while ( radiusVariable > 2 * chrysanthemumRadius * Math.PI ) radiusVariable = 2 * chrysanthemumRadius * Math.PI - colorDisplacement; colorIntervalVariable = 2 * chrysanthemumRadius * Math.PI / ( numberOfColorsInTheRainbow - 1 ); coreVariable = radiusVariable;// / ( Dim.height / 64); } else if ( basispr.getArgb( x, y ) == simpleBlueNum ) {//951 To 969 coreVariable = chrysanthemumInnerRadius - Math.pow(Math.pow(x - HalfedDim.width, 2) + Math.pow( y - HalfedDim.height + chrysanthemumYDisplacement, 2), 0.5) + 88 * chrysanthemumInnerRadius * xSlider / ( fullAngle / 10 ) ; while ( coreVariable < chrysanthemumInnerRadius) coreVariable = coreVariable + chrysanthemumInnerRadius; while ( coreVariable > chrysanthemumInnerRadius) coreVariable = coreVariable - chrysanthemumInnerRadius; colorIntervalVariable = chrysanthemumInnerRadius / ( numberOfColorsInTheRainbow - 1 ); } else someTargetColorInTheCenterHit = false; } if (aColorBarHit == false) if ( someTargetColorInTheCenterHit == false ) if ( basispr.getArgb( x, y ) == oxylBlueNum) { //makePixelTransparent = true;//Comment This Line Out For Rainbow Strobe Effect angleVariable = Math.atan2( (x - HalfedDim.width + 1) , (y - Dim.height * 4 / 3 + 1 ) );// For Rising Sun + 1 aVariable = ( angleVariable * /*Math.cos( angle ) * Math.sin( angle ) * Math.pow(radialVariableDistance, 1)/ Math.tan( angleVariable ) /*+ Math.PI|STAR|/ ) * radialDistance / 4.46783504 + xSlider;// + Or - xSlider Determines Which Direction It Moves //For Infinite Number Theorem Good a = ( angle * /*Math.cos( angle ) * Math.sin( angle ) * Math.pow(radialVariableDistance, 1)|STAR|/ Math.tan( angle ) + Math.PI ) * radialDistance / 4.46783504 - xSlider; //a = ( angle /*Math.cos( angle ) * Math.sin( angle ) * Math.pow(radialVariableDistance, 1)|STAR|/ Math.tan( angle ) + Math.PI ) * radialDistance / 4.46783504 - xSlider;//Use For Rainbow Spiral Multiply radialDistance By 10 To Increase The Number Of Spirals //Use This: "a = ( - angle + Math.PI ) * radialDistance;" Line For Rainbow Clock //a = ( - angle * Math.tan( angle ) + Math.PI ) * radialDistance - xSlider; For Infinite Number Theorem //a = ( - angle * Math.cos( angle ) * Math.sin( angle ) * Math.pow(radialVariableDistance, 2) + Math.PI ) * radialDistance - xSlider; |STAR|/ radiusVariable = aVariable * 10; // |STAR|///For Old Infinite Number Theorem Use Above //radius = a * 10;//For Rainbow Spiral And Clock //} while ( radiusVariable < colorDisplacementVariable)//For Rainbow Ring radiusVariable = radiusVariable + fullAngle - colorDisplacementVariable;//BAD COMMENT: For Rainbow Ring Take Out - 38 while ( radiusVariable > fullAngle )//radius > fullAngle For Non Infinite Number Theorem radiusVariable = radiusVariable - fullAngle - colorDisplacementVariable; //radius = radius - fullAngle; For Non Infinite Number Theorem //For Rainbow Clock Comment Out To Here. Here -- |STAR|/ colorIntervalVariable = colorIntervalForWholeScreen; coreVariable = radiusVariable; } else if ( basispr.getArgb( x, y ) == skyBlueNum) { radialVariableDistance = Math.pow(Math.pow(x - HalfedDim.width + 1, 2) + Math.pow( y - HalfedDim.height + 1, 2), 0.5);//Comment Out For Ghetto Many Rainbow Clocks angleVariable = ( ( - Math.atan2( (x - HalfedDim.width + 1) , (y - HalfedDim.height + 1 ) ) + Math.PI ) - 6 * Math.PI * xSlider / ( fullAngle / 10 ) ) * radialDistance;//Use For Rainbow Spiral Multiply radialDistance By 10 To Increase The Number Of Spirals radiusVariable = radialVariableDistance * 24.6 + colorDisplacement + angleVariable;//radialVariableDistance + colorDisplacement + angle;//Remove + angle And Add xSlider To Make Rainbow Clock while ( radiusVariable < colorDisplacement)//For Rainbow Ring radiusVariable = radiusVariable + fullAngle - colorDisplacement;//BAD COMMENT: For Rainbow Ring Take Out - 38 while ( radiusVariable > fullAngle ) radiusVariable = radiusVariable - fullAngle - colorDisplacement; colorIntervalVariable = fullAngle / ( numberOfColorsInTheRainbow - 1 ); coreVariable = radiusVariable; } else if ( basispr.getArgb( x, y ) == magentaNum) { coreVariable = HalfedDim.height - Math.pow(Math.pow(x - HalfedDim.width + 1, 2) + Math.pow( y - HalfedDim.height + 1, 2), 0.5) + 6 * 0.175979734764 * xSlider * HalfedDim.height / ( fullAngle / 10 ) ; while ( coreVariable < 0.175979734764 * HalfedDim.height) coreVariable = coreVariable + 0.175979734764 * HalfedDim.height; while ( coreVariable > 0.175979734764 * HalfedDim.height) coreVariable = coreVariable - 0.175979734764 * HalfedDim.height; colorIntervalVariable = 0.175979734764 * HalfedDim.height / ( numberOfColorsInTheRainbow - 1 ); } else if ( basispr.getArgb( x, y ) == neonGreenNum ) { angleVariable = radialDistance * ( ( Math.atan2( (x - HalfedDim.width + 1) , (y - HalfedDim.height + 1 ) ) + Math.PI ) + 2 * Math.PI * xSlider / ( fullAngle / 10 ) ); while (angleVariable < 0) angleVariable = angleVariable + fullAngle * 2; while (angleVariable > fullAngle * 2) angleVariable = angleVariable - fullAngle * 2; coreVariable = angleVariable; colorIntervalVariable = ( 2 * fullAngle ) / ( numberOfClockHandsForRainbow - 1 ); //angle = 0;//Testing Purposes Only. } else if ( basispr.getArgb( x, y ) == halfGreyNum ) { angleVariable = - radialDistance * ( ( Math.atan2( (x - HalfedDim.width + 1) , (y - HalfedDim.height + 1 ) ) + Math.PI ) - 2 * Math.PI * xSlider / ( fullAngle / 10 ) ); while (angleVariable < 0) angleVariable = angleVariable + fullAngle * 2; while (angleVariable > fullAngle * 2) angleVariable = angleVariable - fullAngle * 2; coreVariable = angleVariable; colorIntervalVariable = ( 2 * fullAngle ) / ( numberOfClockHandsForRainbow - 1 ); //angle = 0;//Testing Purposes Only. } else if ( basispr.getArgb( x, y ) == maroonNum )//neonGreenNum) { angleVariable = - radialDistance * ( ( Math.atan2( (x - HalfedDim.width + 1) , (y - HalfedDim.height + 1 ) ) + Math.PI ) + 2 * Math.PI * xSlider / ( (numberOfClockHandsForOrderOfMagi - 1) * fullAngle / 10 ) ); while (angleVariable < 0) angleVariable = angleVariable + fullAngle * 2 / ( numberOfClockHandsForOrderOfMagi - 1); while (angleVariable > fullAngle * 2 / ( numberOfClockHandsForOrderOfMagi - 1) ) angleVariable = angleVariable - fullAngle * 2 / ( numberOfClockHandsForOrderOfMagi - 1); coreVariable = angleVariable; colorIntervalVariable = ( 2 * fullAngle ) / ( ( numberOfColorsForOrderOfMagi - 1 ) * ( numberOfClockHandsForOrderOfMagi - 1) ); //angle = 0;//Testing Purposes Only. if ( origionalpr.getArgb( x, y ) == magentaNum )//shitBrownNum )//origionalpr.getArgb(x, y) == magentaNum )// == magecoreVariable// == webBlackNum if ( coreVariable < colorIntervalVariable + colorDisplacement)//For Normal Rainbow Use This Instead Of The Others color.ColorSliderFunction(colorIntervalVariable, coreVariable - colorDisplacement, blue, green); else color.ColorSliderFunction(colorIntervalVariable, coreVariable - colorIntervalVariable - colorDisplacement, green, blue); else//|STAR|/ if ( coreVariable < colorIntervalVariable + colorDisplacement)//For Normal Rainbow Use This Instead Of The Others color.ColorSliderFunction(colorIntervalVariable, coreVariable - colorDisplacement, green, blue); else color.ColorSliderFunction(colorIntervalVariable, coreVariable - colorIntervalVariable - colorDisplacement, blue, green);//* pw.setArgb( x, y, (int)(255 * 16777216 + (int)color.RGB[0] * 65536 + (int)color.RGB[1] * 256 + (int)color.RGB[2]));//setArgb greenBlueGreenUsed = true; } else if ( basispr.getArgb( x, y ) == pinkNum ) {//304 + 244 = 548 // 656 //Need Correction For Screen Size !! coreVariable = x - 656 - 628 * xSlider / ( fullAngle / 10 ); while (coreVariable < 0) coreVariable = coreVariable + 628; while (coreVariable > 628) coreVariable = coreVariable - 628; colorIntervalVariable = 628 / (numberOfColorsInTheRainbow - 1 ); } else someTargetColorHit = false;//*/ //End Of Basis Image Switch System if ( origionalpr.getArgb( x, y ) == oxylBlue0FFNum) /*if ( basispr.getArgb( x, y ) != neonGreenNum && neonGreenCheck.ColorTooSimilarFunction( oxylBlue0FFNum, basispr.getArgb( x, y ) ) )//origionalpr.getArgb( x, y ) , pw.setArgb( x, y, neonGreenNum);//shitBrownNum);//pr.getArgb( x, y ) ); else//*/ pw.setArgb( x, y, oxylBlue0FFNum); else/* if (otherBrowserColorHit == true) pw.setArgb( x, y, origionalpr.getArgb( x, y ) ); else if (makePixelTransparent == true) pw.setArgb( x, y, transparentNum ); else if ( greenBlueGreenUsed == false )// */ if ( aWheelDiamondHit == true) if ( origionalpr.getArgb( x, y ) == magentaNum )//shitBrownNum ) pw.setArgb( x, y, magentaNum ); else pw.setArgb( x, y, wheelDiamondsArrayNum[eightColorDiamondsIndex] ); else if ( wheelTipsHit == true) if (xSlider <= fullAngle - 8.468 * sliderInterval ) pw.setArgb( x, y, greenNum ); else pw.setArgb( x, y, redNum ); else if ( someTargetColorHit == true)//numberOfClockHandsForOrderOfMagi //greenBlueGreenUsed { // if ( coreVariable >= colorDisplacementVariable && coreVariable < (numberOfColorsInTheRainbow - 1) * colorIntervalVariable + colorDisplacement)//For Purple Outside Ring //{//Retain Below If Else And Use New Variable Names And Equate Them With If Switch Below New Variable Name Comment Above // Make html Text Flip shitBrownNum Color! if ( origionalpr.getArgb( x, y ) == magentaNum )//shitBrownNum )//origionalpr.getArgb(x, y) == magentaNum )// == magecoreVariable// == webBlackNum if ( coreVariable < colorIntervalVariable + colorDisplacement)//For Normal Rainbow Use This Instead Of The Others color.ColorSliderFunction(colorIntervalVariable, coreVariable - colorDisplacement, purple, blue); else if ( coreVariable < ( 2 * colorIntervalVariable + colorDisplacement) ) color.ColorSliderFunction(colorIntervalVariable, coreVariable - colorIntervalVariable - colorDisplacement, blue, teal); else if ( coreVariable < ( 3 * colorIntervalVariable + colorDisplacement) ) color.ColorSliderFunction(colorIntervalVariable, coreVariable - 2 * colorIntervalVariable - colorDisplacement, teal, pink); else if ( coreVariable < ( 4 * colorIntervalVariable + colorDisplacement) ) color.ColorSliderFunction(colorIntervalVariable, coreVariable - 3 * colorIntervalVariable - colorDisplacement, pink, yellow); else if ( coreVariable < ( 5 * colorIntervalVariable + colorDisplacement) ) color.ColorSliderFunction(colorIntervalVariable, coreVariable - 4 * colorIntervalVariable - colorDisplacement, yellow, orange); else color.ColorSliderFunction(colorIntervalVariable, coreVariable - 5 * colorIntervalVariable - colorDisplacement, orange, red); else//*/ if ( coreVariable < colorIntervalVariable + colorDisplacement)//For Normal Rainbow Use This Instead Of The Others color.ColorSliderFunction(colorIntervalVariable, coreVariable - colorDisplacement, red, orange); else if ( coreVariable < ( 2 * colorIntervalVariable + colorDisplacement) ) color.ColorSliderFunction(colorIntervalVariable, coreVariable - colorIntervalVariable - colorDisplacement, orange, yellow); else if ( coreVariable < ( 3 * colorIntervalVariable + colorDisplacement) ) color.ColorSliderFunction(colorIntervalVariable, coreVariable - 2 * colorIntervalVariable - colorDisplacement, yellow, green); else if ( coreVariable < ( 4 * colorIntervalVariable + colorDisplacement) ) color.ColorSliderFunction(colorIntervalVariable, coreVariable - 3 * colorIntervalVariable - colorDisplacement, green, teal); else if ( coreVariable < ( 5 * colorIntervalVariable + colorDisplacement) ) color.ColorSliderFunction(colorIntervalVariable, coreVariable - 4 * colorIntervalVariable - colorDisplacement, teal, blue); else color.ColorSliderFunction(colorIntervalVariable, coreVariable - 5 * colorIntervalVariable - colorDisplacement, blue, purple);// */ pw.setArgb( x, y, (int)(255 * 16777216 + (int)color.RGB[0] * 65536 + (int)color.RGB[1] * 256 + (int)color.RGB[2]));//setArgb } else if ( origionalpr.getArgb( x, y ) != magentaNum )//shitBrownNum ) pw.setArgb( x, y, basispr.getArgb( x, y ) ); /*else if ( origionalpr.getArgb( x, y ) == oxylBlue0FFNum) if ( basispr.getArgb( x, y ) != neonGreenNum && neonGreenCheck.ColorTooSimilarFunction( oxylBlue0FFNum, basispr.getArgb( x, y ) ) )//origionalpr.getArgb( x, y ) , pw.setArgb( x, y, neonGreenNum);//shitBrownNum);//pr.getArgb( x, y ) ); else pw.setArgb( x, y, oxylBlue0FFNum);//*/ else //System.out.println( neonGreenCheck.ColorTooSimilarFunction( origionalpr.getArgb( x, y ), basispr.getArgb( x, y ) ) ); if ( neonGreenCheck.ColorTooSimilarFunction( neonGreenNum, basispr.getArgb( x, y ) ) )//origionalpr.getArgb( x, y ) , pw.setArgb( x, y, skyBlueNum);//shitBrownNum);//pr.getArgb( x, y ) ); else pw.setArgb( x, y, neonGreenNum); } } imageView.setImage(writableImage); secondStackPane[(int)(secondFRateDivisor * xSlider/fullAngle) + 1] = new StackPane(); System.out.println((int)(secondFRateDivisor * xSlider/fullAngle) + 1); //secondStackPane[(int)(secondFRateDivisor * xSlider/fullAngle) + 1].getChildren().add(browser); //secondStackPane[(int)(secondFRateDivisor * xSlider/fullAngle) + 1].getChildren().remove(0); secondStackPane[(int)(secondFRateDivisor * xSlider/fullAngle) + 1].getChildren().add(imageView); //End Of xSlider Loop For .3db Video Production .3da Should Be For Abstract 3-D Video Compression .3dc Should For Degraded 3-D Video Compression .3dm Should Be For Standard 3D Videos //.3dv Should Be For 3-D Virtual Environment Integration And Interoperability With 2-D Pictures And Video And Interactive Audio Management. secondScene[(int)(secondFRateDivisor * xSlider/fullAngle) + 1] = new Scene(secondStackPane[(int)(secondFRateDivisor * xSlider/fullAngle) + 1]);//Each A 3D Image //origionalBrowserImage = secondStackPane[(int)(secondFRateDivisor * xSlider/fullAngle) + 1].getScene().snapshot(bufferPicure); //secondaryStage.setFullScreen(true); //secondaryStage.show(); secondaryStage.setScene(secondScene[(int)(secondFRateDivisor * xSlider/fullAngle) + 1]); System.out.println(Dim); secondaryStage.setFullScreen(true); secondaryStage.show(); BufferedImage bImage = SwingFXUtils.fromFXImage(secondScene[(int)(secondFRateDivisor * xSlider/fullAngle) + 1].snapshot(null), null); if ( xSlider == 0 )//(int)Math.round(colorDisplacement) + radialDistance * 2 * Math.PI / numberOfClockHandsForRainbow / 2) { try { File outputFile = new File("C:/TestImage.png"); ImageIO.write(bImage, "png", outputFile); } catch (IOException e) { throw new RuntimeException(e); } } // Generate the image, for Android use Bitmap //BufferedImage bImage = SwingFXUtils.fromFXImage(secondScene[(int)(secondFRateDivisor * xSlider/fullAngle) + 1].snapshot(null), null); // Encode the image OLD: try { try { encoder.encodeImage(bImage); } catch(IOException ie) { ie.printStackTrace(); } /*try { secondEnc.encodeImage( SwingFXUtils.fromFXImage(secondScene[(int)(secondFRateDivisor * xSlider/fullAngle) + 1].snapshot(null), null ) ); } catch(IOException ie) { ie.printStackTrace(); }//*/ //enc.encodeImage( SwingFXUtils.fromFXImage( imageView.getImage(), null ) ); //Save JavaScript With JavaScript Scroll Changes /*try ( PrintWriter out = new PrintWriter(secondJavaScriptFile.getPath() ) ) { out.println("Is Writing"); out.close(); } catch(IOException ie) { ie.printStackTrace(); }// */ if ( xSlider != 0 && xSlider / ( sliderInterval * numberOfScrollFrames ) - Math.floor( xSlider / ( sliderInterval * numberOfScrollFrames ) ) < .0001)//interval * 11->Twice + (int)(xSlider / ( interval * 11 )) + " );\r\n" + { try ( PrintWriter printWriterOut = new PrintWriter(secondXSliderFile.getPath() ) ) { printWriterOut.println("+" + xSlider + "d"); printWriterOut.close(); } catch(IOException ie) { ie.printStackTrace(); }// */ try ( PrintWriter printWriterOut = new PrintWriter(secondJavaScriptFile.getPath() ) ) { printWriterOut.println("function scrollContinuously( timeInterval )\r\n" + "{\r\n" + " timeInterval = 444;\r\n" + " window.setInterval( scrollWin, timeInterval );\r\n" + "}\r\n" + "function scrollWin()\r\n" + "{\r\n" + " window.scrollBy( 0, 100 )\\r\\n" + "}"); printWriterOut.close(); } catch(IOException ie) { ie.printStackTrace(); }// */ scrollHappened = true; } if (scrollHappened) { scrollHappened = false; //secondBrowserEngine.executeScript(script); secondBrowserEngine.load( "http://www.pixies.zone/PixiesTest%20-%20Copy%20(3).html" ); secondBrowserEngine.reload(); return; }//System.out.println(secondJavaScriptFile.toString()); //secondBrowser.getEngine().load("file:///C:/Users/AllAV/Desktop/FWA%20Website/pixies.zone/PixiesTest%20-%20Copy%20(2).html"); fullScreened = secondaryStage.isFullScreen(); /*secondScene[(int)(secondFRateDivisor * xSlider/fullAngle) + 1].setOnKeyReleased(new EventHandler() { @Override public void handle(KeyEvent event) { if ( event.isAltDown() == true) { switch (event.getCode()) { case ENTER: secondaryStage.setFullScreen(!secondaryStage.isFullScreen()); break; } } } });// */ System.out.println(xSlider); xSlider = xSlider + sliderInterval; //System.out.println(Dim); //} //Thread.sleep(2000);} //catch (Exception ex) {ex.printStackTrace();} } System.out.println("Main Program Loop Over"); // Finalize the encoding, i.e. clear the buffers, write the header, etc. try { encoder.finish(); } catch(IOException ie) { ie.printStackTrace(); } } catch(IOException ie) { ie.printStackTrace(); } finally { NIOUtils.closeQuietly(videoOut); } System.exit(0); //return; } //return; } } ); /*synchronized ( secondaryThread ) { System.out.println("Before Wait"); secondaryThread.wait(10000); System.out.println("Past Wait"); }//secondaryThread.wait(1000); } catch (InterruptedException ex) { System.err.println("An InterruptedException was caught: " + ex.getMessage()); ex.printStackTrace(); }*/ //secondaryStage.show(); //origionalBrowserImage = secondBrowser.snapshot(sP, origionalTextPicture); //Image origionalBrowserImage = secondBrowser.snapshot(sP, origionalTextPicture); //origionalTextPicture = secondBrowser.snapshot(sP, origionalTextPicture); //Image origionalBrowserImage = secondScene[0].snapshot(origionalTextPicture); /*origionalBrowserImage = secondScene[0].snapshot(origionalTextPicture); origionalBrowserImage = secondStackPane[0].getScene().snapshot(bufferPicure); secondaryStage.setScene(secondScene[0]); secondaryStage.setFullScreen(true); try { secondaryThread.sleep(4000); } catch (InterruptedException e) { System.out.println("Interrupted."); } secondaryStage.show();// */ /*secondScene[(int)(secondFRateDivisor * xSlider/fullAngle)].setOnKeyReleased(new EventHandler() { @Override public void handle(KeyEvent event) { if ( event.isAltDown() == true) { switch (event.getCode()) { case ENTER: secondaryStage.setFullScreen(!secondaryStage.isFullScreen()); break; } } } });//*/ //VBox root = new VBox(); //root.getChildren().addAll(addressBar, goButton, stateLabel, progressBar, browser); //secondScene[0] = new Scene(secondStackPane[0]); //secondaryStage.setScene(secondScene[0]); //secondaryStage.setFullScreen(true); //secondaryStage.show(); //WritableImage origionalTextPicture = new WritableImage( Dim.width, Dim.height ); //Image origionalBrowserImage = new Image("http://www.nanofirm.org/scimagorder.com/Pictures/Pixies%20Text.png");//browser.snapshot(sP, origionalTextPicture);//new Image("http://www.nanofirm.org/scimagorder.com/Pictures/Pixies%20Text.png");// //Image origionalBrowserImage = new Image("http://www.nanofirm.org/scimagorder.com/Pictures/Test.png");//browser.snapshot(sP, origionalTextPicture);//new Image("http://www.nanofirm.org/scimagorder.com/Pictures/Pixies%20Text.png");// //secondStackPane[0].getChildren().add(browser); //secondScene[0] = new Scene(secondStackPane[0]); //secondaryStage.setScene(secondScene[0]); //secondaryStage.setFullScreen(true); //secondaryStage.show(); //JUST THIS DISPLAYS BROWSER!!!!! //origionalTextPicture = secondScene[0].snapshot(null); //Image origionalBrowserImage = secondScene[0].snapshot(null);//browser.snapshot(sP, origionalTextPicture); //Image origionalBrowserImage = new Image("http://www.nanofirm.org/scimagorder.com/Pictures/FatLevels.png"); ///TEST /*try { secondEnc.finish(); } catch(IOException ie) { ie.printStackTrace(); }//*/ //encFinished = true; //} /*webEngine.getLoadWorker().stateProperty().addListener( new ChangeListener() { public void changed(ObservableValue ov, State oldState, State newState) { if (newState == State.SUCCEEDED) { secondaryStage.setTitle(webEngine.getLocation()); } } });*/ /*browser.getEngine().getLoadWorker().stateProperty().addListener( (ObservableValue observable, worker.State oldValue, worker.State newValue) -> { if( newValue != worker.State.SUCCEEDED ) { return; } // Your logic here } );*/ //if (worker.State.SUCCEEDED == true) //{ //} /*secondScene.setOnKeyReleased(new EventHandler() { @Override public void handle(KeyEvent event) { if ( event.isAltDown() == true) { switch (event.getCode()) { case ENTER: secondaryStage.setFullScreen(!secondaryStage.isFullScreen()); break; } } } });//* secondScene[(int)secondFRateDivisor].setOnKeyReleased(new EventHandler() { @Override public void handle(KeyEvent event) { if ( event.isAltDown() == true) { switch (event.getCode()) { case ENTER: secondaryStage.setFullScreen(!secondaryStage.isFullScreen()); break; } } } }); //*/ //browser.snapshot(sP, origionalTextPicture); } public static void main(String[] args) throws IOException { launch(args); } }