Create Headless BufferedImage
/*
* Copyright (c) JForum Team
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* with or without modification, are permitted provided
* that the following conditions are met:
* 1) Redistributions of source code must retain the above
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* 2) Redistributions in binary form must reproduce the
* above copyright notice, this list of conditions and
* the following disclaimer in the documentation and/or
* other materials provided with the distribution.
* 3) Neither the name of "Rafael Steil" nor
* the names of its contributors may be used to endorse
* or promote products derived from this software without
* specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT
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* ADVISED OF THE POSSIBILITY OF SUCH DAMAGE
*
* This file creation date: 21/04/2004 - 19:54:16
* The JForum Project
* http://www.jforum.net
*/
import java.awt.Dimension;
import java.awt.Image;
import java.awt.image.BufferedImage;
import java.awt.image.PixelGrabber;
import java.io.File;
import java.io.IOException;
import java.util.Iterator;
import java.util.Locale;
import javax.imageio.IIOImage;
import javax.imageio.ImageIO;
import javax.imageio.ImageWriteParam;
import javax.imageio.ImageWriter;
import javax.imageio.plugins.jpeg.JPEGImageWriteParam;
import javax.imageio.stream.ImageOutputStream;
/**
* Utilities methods for image manipulation. It does not support writting of GIF images, but it can
* read from. GIF images will be saved as PNG.
*
* @author Rafael Steil
* @version $Id: ImageUtils.java,v 1.23 2007/09/09 01:05:22 rafaelsteil Exp $
*/
public class ImageUtils
{
public static final int IMAGE_UNKNOWN = -1;
public static final int IMAGE_JPEG = 0;
public static final int IMAGE_PNG = 1;
public static final int IMAGE_GIF = 2;
/**
* Resizes an image
*
* @param imgName The image name to resize. Must be the complet path to the file
* @param type int
* @param maxWidth The image's max width
* @param maxHeight The image's max height
* @return A resized <code>BufferedImage</code>
*/
public static BufferedImage resizeImage(String imgName, int type, int maxWidth, int maxHeight)
{
try {
return resizeImage(ImageIO.read(new File(imgName)), type, maxWidth, maxHeight);
}
catch (IOException e) {
e.printStackTrace();
}
}
/**
* Resizes an image.
*
* @param image
* The image to resize
* @param maxWidth
* The image's max width
* @param maxHeight
* The image's max height
* @return A resized <code>BufferedImage</code>
* @param type
* int
*/
public static BufferedImage resizeImage(BufferedImage image, int type, int maxWidth, int maxHeight)
{
Dimension largestDimension = new Dimension(maxWidth, maxHeight);
// Original size
int imageWidth = image.getWidth(null);
int imageHeight = image.getHeight(null);
float aspectRatio = (float) imageWidth / imageHeight;
if (imageWidth > maxWidth || imageHeight > maxHeight) {
if ((float) largestDimension.width / largestDimension.height > aspectRatio) {
largestDimension.width = (int) Math.ceil(largestDimension.height * aspectRatio);
}
else {
largestDimension.height = (int) Math.ceil(largestDimension.width / aspectRatio);
}
imageWidth = largestDimension.width;
imageHeight = largestDimension.height;
}
return createHeadlessSmoothBufferedImage(image, type, imageWidth, imageHeight);
}
/**
* Saves an image to the disk.
*
* @param image The image to save
* @param toFileName The filename to use
* @param type The image type. Use <code>ImageUtils.IMAGE_JPEG</code> to save as JPEG images,
* or <code>ImageUtils.IMAGE_PNG</code> to save as PNG.
* @return <code>false</code> if no appropriate writer is found
*/
public static boolean saveImage(BufferedImage image, String toFileName, int type)
{
try {
return ImageIO.write(image, type == IMAGE_JPEG ? "jpg" : "png", new File(toFileName));
}
catch (IOException e) {
e.printStackTrace();
}
}
/**
* Compress and save an image to the disk. Currently this method only supports JPEG images.
*
* @param image The image to save
* @param toFileName The filename to use
* @param type The image type. Use <code>ImageUtils.IMAGE_JPEG</code> to save as JPEG images,
* or <code>ImageUtils.IMAGE_PNG</code> to save as PNG.
*/
public static void saveCompressedImage(BufferedImage image, String toFileName, int type)
{
try {
if (type == IMAGE_PNG) {
throw new UnsupportedOperationException("PNG compression not implemented");
}
Iterator iter = ImageIO.getImageWritersByFormatName("jpg");
ImageWriter writer;
writer = (ImageWriter) iter.next();
ImageOutputStream ios = ImageIO.createImageOutputStream(new File(toFileName));
writer.setOutput(ios);
ImageWriteParam iwparam = new JPEGImageWriteParam(Locale.getDefault());
iwparam.setCompressionMode(ImageWriteParam.MODE_EXPLICIT);
iwparam.setCompressionQuality(0.7F);
writer.write(null, new IIOImage(image, null, null), iwparam);
ios.flush();
writer.dispose();
ios.close();
}
catch (IOException e) {
e.printStackTrace();
}
}
/**
* Creates a <code>BufferedImage</code> from an <code>Image</code>. This method can
* function on a completely headless system. This especially includes Linux and Unix systems
* that do not have the X11 libraries installed, which are required for the AWT subsystem to
* operate. This method uses nearest neighbor approximation, so it's quite fast. Unfortunately,
* the result is nowhere near as nice looking as the createHeadlessSmoothBufferedImage method.
*
* @param image The image to convert
* @param w The desired image width
* @param h The desired image height
* @return The converted image
* @param type int
*/
public static BufferedImage createHeadlessBufferedImage(BufferedImage image, int type, int width, int height)
{
if (type == ImageUtils.IMAGE_PNG && hasAlpha(image)) {
type = BufferedImage.TYPE_INT_ARGB;
}
else {
type = BufferedImage.TYPE_INT_RGB;
}
BufferedImage bi = new BufferedImage(width, height, type);
for (int y = 0; y < height; y++) {
for (int x = 0; x < width; x++) {
bi.setRGB(x, y, image.getRGB(x * image.getWidth() / width, y * image.getHeight() / height));
}
}
return bi;
}
/**
* Creates a <code>BufferedImage</code> from an <code>Image</code>. This method can
* function on a completely headless system. This especially includes Linux and Unix systems
* that do not have the X11 libraries installed, which are required for the AWT subsystem to
* operate. The resulting image will be smoothly scaled using bilinear filtering.
*
* @param source The image to convert
* @param w The desired image width
* @param h The desired image height
* @return The converted image
* @param type int
*/
public static BufferedImage createHeadlessSmoothBufferedImage(BufferedImage source, int type, int width, int height)
{
if (type == ImageUtils.IMAGE_PNG && hasAlpha(source)) {
type = BufferedImage.TYPE_INT_ARGB;
}
else {
type = BufferedImage.TYPE_INT_RGB;
}
BufferedImage dest = new BufferedImage(width, height, type);
int sourcex;
int sourcey;
double scalex = (double) width / source.getWidth();
double scaley = (double) height / source.getHeight();
int x1;
int y1;
double xdiff;
double ydiff;
int rgb;
int rgb1;
int rgb2;
for (int y = 0; y < height; y++) {
sourcey = y * source.getHeight() / dest.getHeight();
ydiff = scale(y, scaley) - sourcey;
for (int x = 0; x < width; x++) {
sourcex = x * source.getWidth() / dest.getWidth();
xdiff = scale(x, scalex) - sourcex;
x1 = Math.min(source.getWidth() - 1, sourcex + 1);
y1 = Math.min(source.getHeight() - 1, sourcey + 1);
rgb1 = getRGBInterpolation(source.getRGB(sourcex, sourcey), source.getRGB(x1, sourcey), xdiff);
rgb2 = getRGBInterpolation(source.getRGB(sourcex, y1), source.getRGB(x1, y1), xdiff);
rgb = getRGBInterpolation(rgb1, rgb2, ydiff);
dest.setRGB(x, y, rgb);
}
}
return dest;
}
private static double scale(int point, double scale)
{
return point / scale;
}
private static int getRGBInterpolation(int value1, int value2, double distance)
{
int alpha1 = (value1 & 0xFF000000) >>> 24;
int red1 = (value1 & 0x00FF0000) >> 16;
int green1 = (value1 & 0x0000FF00) >> 8;
int blue1 = (value1 & 0x000000FF);
int alpha2 = (value2 & 0xFF000000) >>> 24;
int red2 = (value2 & 0x00FF0000) >> 16;
int green2 = (value2 & 0x0000FF00) >> 8;
int blue2 = (value2 & 0x000000FF);
int rgb = ((int) (alpha1 * (1.0 - distance) + alpha2 * distance) << 24)
| ((int) (red1 * (1.0 - distance) + red2 * distance) << 16)
| ((int) (green1 * (1.0 - distance) + green2 * distance) << 8)
| (int) (blue1 * (1.0 - distance) + blue2 * distance);
return rgb;
}
/**
* Determines if the image has transparent pixels.
*
* @param image The image to check for transparent pixel.s
* @return <code>true</code> of <code>false</code>, according to the result
*/
public static boolean hasAlpha(Image image)
{
try {
PixelGrabber pg = new PixelGrabber(image, 0, 0, 1, 1, false);
pg.grabPixels();
return pg.getColorModel().hasAlpha();
}
catch (InterruptedException e) {
return false;
}
}
}
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