/****************************************************************************** * Compilation: javac Picture.java * Execution: java Picture filename.jpg * Dependencies: none * ******************************************************************************/ import java.awt.Color; import java.awt.FileDialog; import java.awt.Toolkit; import java.awt.event.ActionEvent; import java.awt.event.ActionListener; import java.awt.event.KeyEvent; import java.awt.event.WindowAdapter; import java.awt.event.WindowEvent; import java.awt.image.BufferedImage; import java.io.File; import java.io.IOException; import java.net.URL; import javax.imageio.ImageIO; import javax.swing.ImageIcon; import javax.swing.JFrame; import javax.swing.JLabel; import javax.swing.JMenu; import javax.swing.JMenuBar; import javax.swing.JMenuItem; import javax.swing.JPanel; import javax.swing.KeyStroke; /** * The {@code Picture} data type provides a basic capability for manipulating * the individual pixels of an image. * You can either create a blank image (of a given dimension) or read an * image in a supported file format (typically JPEG, PNG, GIF, TIFF, and BMP). * This class also includes methods for displaying the image in a window * and saving it to a file. * *

* Use in the curriculum. * The {@code Picture} class is intended for use in the * curriculum once objects are introduced. * The {@link StdPicture} class is intended for earlier use in * the curriculum, before objects (but it can support only one * picture at a time). * See {@link GrayscalePicture} for a version that supports * grayscale images. * *

* Getting started. * To use this class, you must have {@code Picture} in your Java classpath. * Here are three possible ways to do this: *

If you ran our autoinstaller, use the commands * {@code javac-introcs} and {@code java-introcs} (or {@code javac-algs4} * and {@code java-algs4}) when compiling and executing. These commands * add {@code stdlib.jar} (or {@code algs4.jar}) to the Java classpath, which * provides access to {@code Picture}. * *
Download stdlib.jar * (or algs4.jar) * and add it to the Java classpath. * *
Download StdPicture.java * and * Picture.java * and put them in the working directory. *

* *

* As a test, cut-and-paste the following short program into your editor: *

 *   public class TestPicture {
 *       public static void main(String[] args) {
 *           Picture picture = new Picture("https://introcs.cs.princeton.edu/java/stdlib/mandrill.jpg");
 *           picture.show();
 *       }
 *   }
 *

* If you compile and execute the program, you should see a picture of a mandrill * (a colorful monkey native to west-central Africa) in a window. * *

* Anatomy of an image. * An image is a width-by-height grid of pixels, with pixel (0, 0) * in the upper-left corner. * Each pixel has a color that is represented using the RGB color model, * which specifies the levels of red (R), green (G), and blue (B) * on an integer scale from 0 to 255. * *

* *

* *

* Creating pictures. * You can use the following constructors to create new {@code Picture} objects: *

{@link #Picture(String filename)} *
{@link #Picture(int width, int height)} *

* The first constructor read an image in a supported file format * (typically JPEG, PNG, GIF, TIFF, and BMP) * and initializes the picture to that image. * The second constructor creates a width-by-height picture, * with each pixel black. * *

* Getting and setting the colors of the individual pixels. * You can use the following methods to get and set the color of a * specified pixel: *

{@link #get(int col, int row)} *
{@link #set(int col, int row, Color color)} *

* The first method returns the color of pixel (col, row) * as a {@code Color} object. * The second method sets the color of pixel (col, row) to * the specified color. * *

Iterating over the pixels. * A common operation in image processing is to iterate over and process * all of the pixels in an image. * Here is a prototypical example that creates a grayscale version of a color image, * using the NTSC formula * Y = 0.299r + 0.587g + 0.114b. * Note that if the red, green, and blue components of an RGB color * are all equal, the color is a shade of gray. *

 *  Picture picture   = new Picture("https://introcs.cs.princeton.edu/java/stdlib/mandrill.jpg");
 *  Picture grayscale = new Picture(picture.width(), picture.height());
 *  for (int col = 0; col < picture.width(); col++) {
 *      for (int row = 0; row < picture.height(); row++) {
 *          Color color = picture.get(col, row);
 *          int r = color.getRed();
 *          int g = color.getGreen();
 *          int b = color.getBlue();
 *          int y = (int) (Math.round(0.299*r + 0.587*g + 0.114*b));
 *          Color gray = new Color(y, y, y);
 *          grayscale.set(col, row, gray);
 *      }
 *  }
 *  picture.show();
 *  grayscale.show();
 *

* *

Transparency. * Both the {@link Color} and {@code Picture} classes support * transparency, using the alpha channel. * The alpha value defines the transparency of a color, with 0 corresponding to * completely transparent and 255 to completely opaque. If transparency is not * explicitly used, the alpha values is 255. * *

32-bit color. * Sometimes it is more convenient (or efficient) to manipulate the * color of a pixel as a single 32-bit integers instead of four 8-bit components. * The following methods support this: *

{@link #getRGB(int col, int row)} *
{@link #setRGB(int col, int row, int rgb)} *

* The red (R), green (G), and blue (B) components * are encoded using the least significant 24 bits. * Given a 32-bit {@code int} encoding the color, the following code extracts * the ARGB components: *

 *  int a = (rgb >> 24) & 0xFF;
 *  int r = (rgb >> 16) & 0xFF;
 *  int g = (rgb >>  8) & 0xFF;
 *  int b = (rgb >>  0) & 0xFF;
 *

* Given the ARGB components (8-bits each) of a color, * the following statement packs it into a 32-bit {@code int}: *

 *  int argb = (a << 24) | (r << 16) | (g << 8) | (b << 0);
 *

* *

Coordinates. * Pixel (col, row) is column col and row row. * By default, the origin (0, 0) is the pixel in the upper-left corner. * These are common conventions in image processing and consistent with Java's * {@link java.awt.image.BufferedImage} data type. The following * two methods allow you to change this convention: *

{@link #setOriginLowerLeft()} *
{@link #setOriginUpperLeft()} *

* *

Saving files. * The {@code Picture} class supports writing images to a supported * file format (typically JPEG, PNG, GIF, TIFF, and BMP). * You can save the picture to a file using these two methods: *

{@link #save(String filename)} *
{@link #save(File file)} *

* *

Alternatively, you can save the picture interactively * by using the menu option File → Save from the picture window. * *

File formats. * The {@code Picture} class supports reading and writing images to any of the * file formats supported by {@link javax.imageio} (typically JPEG, PNG, * GIF, TIFF, and BMP). * The file extensions corresponding to JPEG, PNG, GIF, TIFF, and BMP, * are {@code .jpg}, {@code .png}, {@code .gif}, {@code .tif}, * and {@code .bmp}, respectively. * The file formats JPEG and BMP do not support transparency. * *

Memory usage. * A W-by-H picture uses ~ 4 W H bytes of memory, * since the color of each pixel is encoded as a 32-bit int. * *

Additional documentation. * For additional documentation, see * Section 3.1 of * Computer Science: An Interdisciplinary Approach * by Robert Sedgewick and Kevin Wayne. * * @author Robert Sedgewick * @author Kevin Wayne */ public final class Picture implements ActionListener { private BufferedImage image; // the rasterized image private JFrame jframe; // on-screen view private String title; // window title (typically the name of the file) private boolean isOriginUpperLeft = true; // location of origin private boolean isVisible = false; // is the frame visible? private boolean isDisposed = false; // has the window been disposed? private final int width, height; // width and height /** * Creates a {@code width}-by-{@code height} picture, with {@code width} columns * and {@code height} rows, where each pixel is black. * * @param width the width of the picture * @param height the height of the picture * @throws IllegalArgumentException if {@code width} is negative or zero * @throws IllegalArgumentException if {@code height} is negative or zero */ public Picture(int width, int height) { if (width <= 0) throw new IllegalArgumentException("width must be positive"); if (height <= 0) throw new IllegalArgumentException("height must be positive"); this.width = width; this.height = height; this.title = width + "-by-" + height; image = new BufferedImage(width, height, BufferedImage.TYPE_INT_ARGB); } /** * Creates a new picture that is a deep copy of the argument picture. * * @param picture the picture to copy * @throws IllegalArgumentException if {@code picture} is {@code null} */ public Picture(Picture picture) { if (picture == null) throw new IllegalArgumentException("constructor argument is null"); width = picture.width(); height = picture.height(); image = new BufferedImage(width, height, BufferedImage.TYPE_INT_ARGB); title = picture.title; isOriginUpperLeft = picture.isOriginUpperLeft; for (int col = 0; col < width(); col++) for (int row = 0; row < height(); row++) image.setRGB(col, row, picture.image.getRGB(col, row)); } /** * Creates a picture by reading a JPEG, PNG, GIF , BMP, or TIFF image * from a file or URL. * The filetype extension must be {@code .jpg}, {@code .png}, {@code .gif}, * {@code .bmp}, or {@code .tif}. * * @param filename the name of the file or URL * @throws IllegalArgumentException if cannot read image * @throws IllegalArgumentException if {@code name} is {@code null} */ public Picture(String filename) { if (filename == null) throw new IllegalArgumentException("constructor argument is null"); if (filename.length() == 0) throw new IllegalArgumentException("constructor argument is the empty string"); title = filename; try { // try to read from file in working directory File file = new File(filename); if (file.isFile()) { title = file.getName(); image = ImageIO.read(file); } else { // resource relative to .class file URL url = getClass().getResource(filename); // resource relative to classloader root if (url == null) { url = getClass().getClassLoader().getResource(filename); } // or URL from web or jar if (url == null) { url = new URL(filename); } image = ImageIO.read(url); } if (image == null) { throw new IllegalArgumentException("could not read image: " + filename); } width = image.getWidth(null); height = image.getHeight(null); // convert to ARGB if necessary if (image.getType() != BufferedImage.TYPE_INT_ARGB) { BufferedImage imageARGB = new BufferedImage(width, height, BufferedImage.TYPE_INT_ARGB); imageARGB.createGraphics().drawImage(image, 0, 0, null); image = imageARGB; } } catch (IOException ioe) { throw new IllegalArgumentException("could not open image: " + filename, ioe); } } /** * Creates a picture by reading the image from a JPEG, PNG, GIF, BMP, or TIFF file. * The filetype extension must be {@code .jpg}, {@code .png}, {@code .gif}, * {@code .bmp}, or {@code .tif}. * * @param file the file * @throws IllegalArgumentException if cannot read image * @throws IllegalArgumentException if {@code file} is {@code null} */ public Picture(File file) { if (file == null) throw new IllegalArgumentException("constructor argument is null"); try { BufferedImage image = ImageIO.read(file); width = image.getWidth(null); height = image.getHeight(null); title = file.getName(); // convert to ARGB if (image.getType() != BufferedImage.TYPE_INT_RGB) { BufferedImage imageARGB = new BufferedImage(width, height, BufferedImage.TYPE_INT_ARGB); imageARGB.createGraphics().drawImage(image, 0, 0, null); image = imageARGB; } } catch (IOException ioe) { throw new IllegalArgumentException("could not open file: " + file, ioe); } } // create the GUI for viewing the image if needed @SuppressWarnings("deprecation") private JFrame createGUI() { JFrame frame = new JFrame(); JMenuBar menuBar = new JMenuBar(); JMenu menu = new JMenu("File"); menuBar.add(menu); JMenuItem menuItem1 = new JMenuItem(" Save... "); menuItem1.addActionListener(this); // Java 11: use getMenuShortcutKeyMaskEx() // Java 8: use getMenuShortcutKeyMask() menuItem1.setAccelerator(KeyStroke.getKeyStroke(KeyEvent.VK_S, Toolkit.getDefaultToolkit().getMenuShortcutKeyMaskEx())); menu.add(menuItem1); frame.setJMenuBar(menuBar); frame.setContentPane(getJLabel()); // f.setDefaultCloseOperation(JFrame.EXIT_ON_CLOSE); frame.setDefaultCloseOperation(JFrame.DISPOSE_ON_CLOSE); frame.setTitle(title); frame.setResizable(false); frame.pack(); frame.addWindowListener(new WindowAdapter() { public void windowClosing(WindowEvent e){ isVisible = false; isDisposed = true; super.windowClosing(e); } }); return frame; } /** * Returns a {@link JLabel} containing this picture, for embedding in a {@link JPanel}, * {@link JFrame} or other GUI widget. * * @return the {@code JLabel} */ public JLabel getJLabel() { if (image == null) return null; // no image available ImageIcon icon = new ImageIcon(image); return new JLabel(icon); } /** * Sets the origin to be the upper left pixel. This is the default. */ public void setOriginUpperLeft() { isOriginUpperLeft = true; } /** * Sets the origin to be the lower left pixel. */ public void setOriginLowerLeft() { isOriginUpperLeft = false; } /** * Displays the picture in a window on the screen. */ // getMenuShortcutKeyMask() deprecated in Java 10 but its replacement // getMenuShortcutKeyMaskEx() is not available in Java 8 @SuppressWarnings("deprecation") /** * Displays the picture in a window on the screen. */ public void show() { if (jframe == null && !isDisposed) { jframe = createGUI(); isVisible = true; jframe.setVisible(true); jframe.repaint(); } if (jframe != null && !isDisposed) { isVisible = true; jframe.setVisible(true); jframe.repaint(); } } /** * Hides the window on the screen. */ public void hide() { if (jframe != null) { isVisible = false; jframe.setVisible(false); } } /** * Is the window containing the picture visible? * @return {@code true} if the picture is visible, and {@code false} otherwise */ public boolean isVisible() { return isVisible; } /** * Returns the height of the picture. * * @return the height of the picture (in pixels) */ public int height() { return height; } /** * Returns the width of the picture. * * @return the width of the picture (in pixels) */ public int width() { return width; } private void validateRowIndex(int row) { if (row < 0 || row >= height()) throw new IndexOutOfBoundsException("row index must be between 0 and " + (height() - 1) + ": " + row); } private void validateColumnIndex(int col) { if (col < 0 || col >= width()) throw new IndexOutOfBoundsException("column index must be between 0 and " + (width() - 1) + ": " + col); } /** * Returns the color of pixel ({@code col}, {@code row}) as a {@link java.awt.Color}. * * @param col the column index * @param row the row index * @return the color of pixel ({@code col}, {@code row}) * @throws IndexOutOfBoundsException unless both {@code 0 <= col < width} and {@code 0 <= row < height} */ public Color get(int col, int row) { validateColumnIndex(col); validateRowIndex(row); int argb = getRGB(col, row); return new Color(argb, true); } /** * Returns the color of pixel ({@code col}, {@code row}) as an {@code int}. * Using this method can be more efficient than {@link #get(int, int)} because * it does not create a {@code Color} object. * * @param col the column index * @param row the row index * @return the integer representation of the color of pixel ({@code col}, {@code row}) * @throws IndexOutOfBoundsException unless both {@code 0 <= col < width} and {@code 0 <= row < height} */ public int getRGB(int col, int row) { validateColumnIndex(col); validateRowIndex(row); if (isOriginUpperLeft) return image.getRGB(col, row); else return image.getRGB(col, height - row - 1); } /** * Sets the color of pixel ({@code col}, {@code row}) to given color. * * @param col the column index * @param row the row index * @param color the color * @throws IndexOutOfBoundsException unless both {@code 0 <= col < width} and {@code 0 <= row < height} * @throws IllegalArgumentException if {@code color} is {@code null} */ public void set(int col, int row, Color color) { validateColumnIndex(col); validateRowIndex(row); if (color == null) throw new IllegalArgumentException("color argument is null"); int rgb = color.getRGB(); setRGB(col, row, rgb); } /** * Sets the color of pixel ({@code col}, {@code row}) to given color. * * @param col the column index * @param row the row index * @param rgb the integer representation of the color * @throws IndexOutOfBoundsException unless both {@code 0 <= col < width} and {@code 0 <= row < height} */ public void setRGB(int col, int row, int rgb) { validateColumnIndex(col); validateRowIndex(row); if (isOriginUpperLeft) image.setRGB(col, row, rgb); else image.setRGB(col, height - row - 1, rgb); } /** * Returns true if this picture is equal to the argument picture. * * @param other the other picture * @return {@code true} if this picture is the same dimension as {@code other} * and if all pixels have the same color; {@code false} otherwise */ public boolean equals(Object other) { if (other == this) return true; if (other == null) return false; if (other.getClass() != this.getClass()) return false; Picture that = (Picture) other; if (this.width() != that.width()) return false; if (this.height() != that.height()) return false; for (int col = 0; col < width(); col++) for (int row = 0; row < height(); row++) if (this.getRGB(col, row) != that.getRGB(col, row)) return false; return true; } /** * Returns a string representation of this picture. * The result is a width-by-height matrix of pixels, * where the color of a pixel is represented using 6 hex digits to encode * the red, green, and blue components. * * @return a string representation of this picture */ public String toString() { StringBuilder sb = new StringBuilder(); sb.append(width +"-by-" + height + " picture (RGB values given in hex)\n"); for (int row = 0; row < height; row++) { for (int col = 0; col < width; col++) { int rgb; if (isOriginUpperLeft) rgb = image.getRGB(col, row); else rgb = image.getRGB(col, height - row - 1); sb.append(String.format("#%06X ", rgb & 0xFFFFFF)); } sb.append("\n"); } return sb.toString().trim(); } /** * This operation is not supported because pictures are mutable. * * @return does not return a value * @throws UnsupportedOperationException if called */ public int hashCode() { throw new UnsupportedOperationException("hashCode() is not supported because pictures are mutable"); } /** * Sets the title of this picture. * @param title the title * @throws IllegalArgumentException if {@code title} is {@code null} */ public void setTitle(String title) { if (title == null) throw new IllegalArgumentException("title is null"); this.title = title; } // does this picture use transparency (i.e., alpha < 255 for some pixel)? private boolean hasAlpha() { for (int col = 0; col < width; col++) { for (int row = 0; row < height; row++) { int argb = image.getRGB(col, row); int alpha = (argb >> 24) & 0xFF; if (alpha != 255) return true; } } return false; } /** * Saves the picture to a file in a supported file format * (typically JPEG, PNG, GIF, TIFF, and BMP). * The filetype extension must be {@code .jpg}, {@code .png}, {@code .gif}, * {@code .bmp}, or {@code .tif}. * If the file format does not support transparency (such as JPEG * or BMP), it will be converted to be opaque (with purely * transparent pixels converted to black). * * @param filename the name of the file * @throws IllegalArgumentException if {@code filename} is {@code null} * @throws IllegalArgumentException if {@code filename} is the empty string */ public void save(String filename) { if (filename == null) throw new IllegalArgumentException("argument to save() is null"); if (filename.length() == 0) throw new IllegalArgumentException("argument to save() is the empty string"); File file = new File(filename); save(file); } /** * Saves the picture to a file in a supported file format * (typically JPEG, PNG, GIF, TIFF, and BMP). * The filetype extension must be {@code .jpg}, {@code .png}, {@code .gif}, * {@code .bmp}, or {@code .tif}. * If the file format does not support transparency (such as JPEG * or BMP), it will be converted to be opaque (with purely * transparent pixels converted to black). * * @param file the file * @throws IllegalArgumentException if {@code file} is {@code null} */ public void save(File file) { if (file == null) throw new IllegalArgumentException("argument to save() is null"); title = file.getName(); String suffix = title.substring(title.lastIndexOf('.') + 1); if (!title.contains(".") || suffix.length() == 0) { System.out.printf("Error: the filename '%s' has no file extension, such as .jpg or .png\n", title); return; } try { // for formats that support transparency (e.g., PNG and GIF) if (ImageIO.write(image, suffix, file)) return; // for formats that don't support transparency (e.g., JPG and BMP) // create BufferedImage in RGB format and use white background BufferedImage imageRGB = new BufferedImage(width, height, BufferedImage.TYPE_INT_RGB); imageRGB.createGraphics().drawImage(image, 0, 0, Color.WHITE, null); if (ImageIO.write(imageRGB, suffix, file)) return; System.out.printf("Error: the filetype '%s' is not supported\n", suffix); } catch (IOException e) { e.printStackTrace(); } } /** * Opens a save dialog box when the user selects "Save As" from the menu. */ @Override public void actionPerformed(ActionEvent e) { FileDialog chooser = new FileDialog(jframe, "The filetype extension must be either .jpg or .png", FileDialog.SAVE); chooser.setVisible(true); String selectedDirectory = chooser.getDirectory(); String selectedFilename = chooser.getFile(); if (selectedDirectory != null && selectedFilename != null) { save(selectedDirectory + selectedFilename); } } /** * Unit tests this {@code Picture} data type. * Reads a picture specified by the command-line argument, * and shows it in a window on the screen. * * @param args the command-line arguments */ public static void main(String[] args) { Picture picture = new Picture(args[0]); System.out.printf("%d-by-%d\n", picture.width(), picture.height()); picture.show(); } }