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/*
 * $Id: Image.java 4065 2009-09-16 23:09:11Z psoares33 $
 *
 * Copyright 1999, 2000, 2001, 2002 by Bruno Lowagie.
 *
 * The contents of this file are subject to the Mozilla Public License Version 1.1
 * (the "License"); you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at http://www.mozilla.org/MPL/
 *
 * Software distributed under the License is distributed on an "AS IS" basis,
 * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
 * for the specific language governing rights and limitations under the License.
 *
 * The Original Code is 'iText, a free JAVA-PDF library'.
 *
 * The Initial Developer of the Original Code is Bruno Lowagie. Portions created by
 * the Initial Developer are Copyright (C) 1999, 2000, 2001, 2002 by Bruno Lowagie.
 * All Rights Reserved.
 * Co-Developer of the code is Paulo Soares. Portions created by the Co-Developer
 * are Copyright (C) 2000, 2001, 2002 by Paulo Soares. All Rights Reserved.
 *
 * Contributor(s): all the names of the contributors are added in the source code
 * where applicable.
 *
 * Alternatively, the contents of this file may be used under the terms of the
 * LGPL license (the "GNU LIBRARY GENERAL PUBLIC LICENSE"), in which case the
 * provisions of LGPL are applicable instead of those above.  If you wish to
 * allow use of your version of this file only under the terms of the LGPL
 * License and not to allow others to use your version of this file under
 * the MPL, indicate your decision by deleting the provisions above and
 * replace them with the notice and other provisions required by the LGPL.
 * If you do not delete the provisions above, a recipient may use your version
 * of this file under either the MPL or the GNU LIBRARY GENERAL PUBLIC LICENSE.
 *
 * This library is free software; you can redistribute it and/or modify it
 * under the terms of the MPL as stated above or under the terms of the GNU
 * Library General Public License as published by the Free Software Foundation;
 * either version 2 of the License, or any later version.
 *
 * This library is distributed in the hope that it will be useful, but WITHOUT
 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
 * FOR A PARTICULAR PURPOSE. See the GNU Library general Public License for more
 * details.
 *
 * If you didn't download this code from the following link, you should check if
 * you aren't using an obsolete version:
 * https://github.com/LibrePDF/OpenPDF
 */

package com.lowagie.text;

import java.awt.Graphics2D;
import java.awt.color.ICC_Profile;
import java.awt.image.BufferedImage;
import java.io.IOException;
import java.io.InputStream;
import java.lang.reflect.Constructor;
import java.net.MalformedURLException;
import java.net.URL;
import com.lowagie.text.error_messages.MessageLocalization;

import com.lowagie.text.ExceptionConverter;
import com.lowagie.text.pdf.PRIndirectReference;
import com.lowagie.text.pdf.PdfArray;
import com.lowagie.text.pdf.PdfContentByte;
import com.lowagie.text.pdf.PdfDictionary;
import com.lowagie.text.pdf.PdfIndirectReference;
import com.lowagie.text.pdf.PdfName;
import com.lowagie.text.pdf.PdfNumber;
import com.lowagie.text.pdf.PdfOCG;
import com.lowagie.text.pdf.PdfObject;
import com.lowagie.text.pdf.PdfReader;
import com.lowagie.text.pdf.PdfStream;
import com.lowagie.text.pdf.PdfTemplate;
import com.lowagie.text.pdf.PdfWriter;
import com.lowagie.text.pdf.codec.CCITTG4Encoder;


/**
 * An Image is the representation of a graphic element (JPEG, PNG
 * or GIF) that has to be inserted into the document
 *
 * @see Element
 * @see Rectangle
 */

public abstract class Image extends Rectangle {

    // static final membervariables

    /** this is a kind of image alignment. */
    public static final int DEFAULT = 0;

    /** this is a kind of image alignment. */
    public static final int RIGHT = 2;

    /** this is a kind of image alignment. */
    public static final int LEFT = 0;

    /** this is a kind of image alignment. */
    public static final int MIDDLE = 1;

    /** this is a kind of image alignment. */
    public static final int TEXTWRAP = 4;

    /** this is a kind of image alignment. */
    public static final int UNDERLYING = 8;

    /** This represents a coordinate in the transformation matrix. */
    public static final int AX = 0;

    /** This represents a coordinate in the transformation matrix. */
    public static final int AY = 1;

    /** This represents a coordinate in the transformation matrix. */
    public static final int BX = 2;

    /** This represents a coordinate in the transformation matrix. */
    public static final int BY = 3;

    /** This represents a coordinate in the transformation matrix. */
    public static final int CX = 4;

    /** This represents a coordinate in the transformation matrix. */
    public static final int CY = 5;

    /** This represents a coordinate in the transformation matrix. */
    public static final int DX = 6;

    /** This represents a coordinate in the transformation matrix. */
    public static final int DY = 7;

    /** type of image */
    public static final int ORIGINAL_NONE = 0;

    /** type of image */
    public static final int ORIGINAL_JPEG = 1;

    /** type of image */
    public static final int ORIGINAL_PNG = 2;

    /** type of image */
    public static final int ORIGINAL_GIF = 3;

    /** type of image */
    public static final int ORIGINAL_BMP = 4;

    /** type of image */
    public static final int ORIGINAL_TIFF = 5;

    /** type of image */
    public static final int ORIGINAL_WMF = 6;

    /** type of image */
    public static final int ORIGINAL_PS = 7;

    /** type of image */
    public static final int ORIGINAL_JPEG2000 = 8;

    /**
     * type of image
     * @since    2.1.5
     */
    public static final int ORIGINAL_JBIG2 = 9;

    // member variables

    /** The image type. */
    protected int type;

    /** The URL of the image. */
    protected URL url;

    /**
     * The raw data of the image.
     */
    protected byte[] rawData;

    /** The bits per component of the raw image. It also flags a CCITT image. */
    protected int bpc = 1;

    /**
     * The template to be treated as an image.
     */
    protected PdfTemplate[] template = new PdfTemplate[1];

    /** The alignment of the Image. */
    protected int alignment;

    /** Text that can be shown instead of the image. */
    protected String alt;

    /** This is the absolute X-position of the image. */
    protected float absoluteX = Float.NaN;

    /** This is the absolute Y-position of the image. */
    protected float absoluteY = Float.NaN;

    /** This is the width of the image without rotation. */
    protected float plainWidth;

    /** This is the width of the image without rotation. */
    protected float plainHeight;

    /** This is the scaled width of the image taking rotation into account. */
    protected float scaledWidth;

    /** This is the original height of the image taking rotation into account. */
    protected float scaledHeight;

    /**
     * The compression level of the content streams.
     * @since    2.1.3
     */
    protected int compressionLevel = PdfStream.DEFAULT_COMPRESSION;

    /** an iText attributed unique id for this image. */
    protected Long mySerialId = getSerialId();

    public static final int[] PNGID = {137, 80, 78, 71, 13, 10, 26, 10};


    // image from file or URL

    /**
     * Constructs an Image -object, using an url .
     *
     * @param url
     *            the URL where the image can be found.
     */
    public Image(URL url) {
        super(0, 0);
        this.url = url;
        this.alignment = DEFAULT;
        rotationRadians = 0;
    }

    /**
     * Gets an instance of an Image.
     *
     * @param url an URL
     * @return an Image
     * @throws BadElementException   if error in creating {@link ImgWMF#ImgWMF(byte[]) ImgWMF}
     * @throws MalformedURLException if bad url
     * @throws IOException           if image is not recognized
     */
    public static Image getInstance(URL url) throws BadElementException,
            IOException {
        InputStream is = null;
        Image img = null;
        try {
            is = url.openStream();
            int c1 = is.read();
            int c2 = is.read();
            int c3 = is.read();
            int c4 = is.read();
            // jbig2
            int c5 = is.read();
            int c6 = is.read();
            int c7 = is.read();
            int c8 = is.read();
            is.close();

            is = null;
            if (c1 == 'G' && c2 == 'I' && c3 == 'F') {
                img = ImageLoader.getGifImage(url);
                return img;
            }
            if (c1 == 0xFF && c2 == 0xD8) {
                img = ImageLoader.getJpegImage(url);
                return img;
            }
            if (c1 == 0x00 && c2 == 0x00 && c3 == 0x00 && c4 == 0x0c) {
                img = ImageLoader.getJpeg2000Image(url);
                return img;
            }
            if (c1 == 0xff && c2 == 0x4f && c3 == 0xff && c4 == 0x51) {
                img = ImageLoader.getJpeg2000Image(url);
                return img;
            }
            if (c1 == PNGID[0] && c2 == PNGID[1]
                    && c3 == PNGID[2] && c4 == PNGID[3]) {
                img = ImageLoader.getPngImage(url);
                return img;
            }
            if (c1 == 0xD7 && c2 == 0xCD) {
                img = new ImgWMF(url);
                return img;
            }
            if (c1 == 'B' && c2 == 'M') {
                img = ImageLoader.getBmpImage(url);
                return img;
            }
            if ((c1 == 'M' && c2 == 'M' && c3 == 0 && c4 == 42)
                    || (c1 == 'I' && c2 == 'I' && c3 == 42 && c4 == 0)) {
                img = ImageLoader.getTiffImage(url);
                return img;
            }
            if ( c1 == 0x97 && c2 == 'J' && c3 == 'B' && c4 == '2' &&
                    c5 == '\r' && c6 == '\n' && c7 == 0x1a && c8 == '\n' ) {
                throw new IOException(url.toString()
                        + " is not a recognized imageformat. JBIG2 support has been removed.");
            }
            throw new IOException(url.toString()
                    + " is not a recognized imageformat.");
        } finally {
            if (is != null) {
                is.close();
            }
            if (img != null) {
                // Make sure the URL is always set
                img.setUrl(url);
            }
        }
    }

    /**
     * Gets an instance of an Image.
     *
     * @param filename a filename
     * @return an object of type Gif,Jpeg or
     *         Png
     * @throws BadElementException   if error in creating {@link ImgWMF#ImgWMF(byte[]) ImgWMF}
     * @throws IOException           if image is not recognized
     */
    public static Image getInstance(String filename)
            throws BadElementException, IOException {
        return getInstance(Utilities.toURL(filename));
    }

    /**
     * gets an instance of an Image
     *
     * @param imgb raw image date
     * @return an Image object
     * @throws BadElementException   if error in creating {@link ImgWMF#ImgWMF(byte[]) ImgWMF}
     * @throws IOException           if image is not recognized
     */
    public static Image getInstance(byte[] imgb) throws BadElementException,
            IOException {
        InputStream is = null;
        try {
            is = new java.io.ByteArrayInputStream(imgb);
            int c1 = is.read();
            int c2 = is.read();
            int c3 = is.read();
            int c4 = is.read();
            is.close();

            is = null;
            if (c1 == 'G' && c2 == 'I' && c3 == 'F') {
                return ImageLoader.getGifImage(imgb);
            }
            if (c1 == 0xFF && c2 == 0xD8) {
                return ImageLoader.getJpegImage(imgb);
            }
            if (c1 == 0x00 && c2 == 0x00 && c3 == 0x00 && c4 == 0x0c) {
                return ImageLoader.getJpeg2000Image(imgb);
            }
            if (c1 == 0xff && c2 == 0x4f && c3 == 0xff && c4 == 0x51) {
                return ImageLoader.getJpeg2000Image(imgb);
            }
            if (c1 == PNGID[0] && c2 == PNGID[1]
                    && c3 == PNGID[2] && c4 == PNGID[3]) {
                return ImageLoader.getPngImage(imgb);
            }
            if (c1 == 0xD7 && c2 == 0xCD) {
                return new ImgWMF(imgb);
            }
            if (c1 == 'B' && c2 == 'M') {
                return ImageLoader.getBmpImage(imgb);
            }
            if ((c1 == 'M' && c2 == 'M' && c3 == 0 && c4 == 42)
                    || (c1 == 'I' && c2 == 'I' && c3 == 42 && c4 == 0)) {
                return ImageLoader.getTiffImage(imgb);
            }
            if ( c1 == 0x97 && c2 == 'J' && c3 == 'B' && c4 == '2' ) {
                is = new java.io.ByteArrayInputStream(imgb);
                is.skip(4);
                int c5 = is.read();
                int c6 = is.read();
                int c7 = is.read();
                int c8 = is.read();
                if ( c5 == '\r' && c6 == '\n' && c7 == 0x1a && c8 == '\n' ) {
                    throw new IOException(MessageLocalization.getComposedMessage("the.byte.array.is.not.a.recognized.imageformat"));
                }
            }
            throw new IOException(MessageLocalization.getComposedMessage("the.byte.array.is.not.a.recognized.imageformat"));
        } finally {
            if (is != null) {
                is.close();
            }
        }
    }

    /**
     * Gets an instance of an Image in raw mode.
     *
     * @param width
     *            the width of the image in pixels
     * @param height
     *            the height of the image in pixels
     * @param components
     *            1,3 or 4 for GrayScale, RGB and CMYK
     * @param data
     *            the image data
     * @param bpc
     *            bits per component
     * @return an object of type ImgRaw
     * @throws BadElementException
     *             on error
     */
    public static Image getInstance(int width, int height, int components,
                                    int bpc, byte[] data) throws BadElementException {
        return Image.getInstance(width, height, components, bpc, data, null);
    }

    /**
     * Creates a JBIG2 Image.
     *
     * @param width   the width of the image
     * @param height  the height of the image
     * @param data    the raw image data
     * @param globals JBIG2 globals
     * @return an Image Object
     * @since 2.1.5
     */
    public static Image getInstance(int width, int height, byte[] data, byte[] globals) {
        Image img = new ImgJBIG2(width, height, data, globals);
        return img;
    }

    /**
     * Creates an Image with CCITT G3 or G4 compression. It assumes that the
     * data bytes are already compressed.
     *
     * @param width
     *            the exact width of the image
     * @param height
     *            the exact height of the image
     * @param reverseBits
     *            reverses the bits in data. Bit 0 is swapped
     *            with bit 7 and so on
     * @param typeCCITT
     *            the type of compression in data. It can be
     *            CCITTG4, CCITTG31D, CCITTG32D
     * @param parameters
     *            parameters associated with this stream. Possible values are
     *            CCITT_BLACKIS1, CCITT_ENCODEDBYTEALIGN, CCITT_ENDOFLINE and
     *            CCITT_ENDOFBLOCK or a combination of them
     * @param data
     *            the image data
     * @return an Image object
     * @throws BadElementException
     *             on error
     */
    public static Image getInstance(int width, int height, boolean reverseBits,
            int typeCCITT, int parameters, byte[] data)
            throws BadElementException {
        return Image.getInstance(width, height, reverseBits, typeCCITT,
                parameters, data, null);
    }

    /**
     * Creates an Image with CCITT G3 or G4 compression. It assumes that the
     * data bytes are already compressed.
     *
     * @param width
     *            the exact width of the image
     * @param height
     *            the exact height of the image
     * @param reverseBits
     *            reverses the bits in data. Bit 0 is swapped
     *            with bit 7 and so on
     * @param typeCCITT
     *            the type of compression in data. It can be
     *            CCITTG4, CCITTG31D, CCITTG32D
     * @param parameters
     *            parameters associated with this stream. Possible values are
     *            CCITT_BLACKIS1, CCITT_ENCODEDBYTEALIGN, CCITT_ENDOFLINE and
     *            CCITT_ENDOFBLOCK or a combination of them
     * @param data
     *            the image data
     * @param transparency
     *            transparency information in the Mask format of the image
     *            dictionary
     * @return an Image object
     * @throws BadElementException
     *             on error
     */
    public static Image getInstance(int width, int height, boolean reverseBits,
                                    int typeCCITT, int parameters, byte[] data, int[] transparency)
            throws BadElementException {
        if (transparency != null && transparency.length != 2)
            throw new BadElementException(MessageLocalization.getComposedMessage("transparency.length.must.be.equal.to.2.with.ccitt.images"));
        Image img = new ImgCCITT(width, height, reverseBits, typeCCITT,
                parameters, data);
        img.transparency = transparency;
        return img;
    }

    /**
     * Gets an instance of an Image in raw mode.
     *
     * @param width
     *            the width of the image in pixels
     * @param height
     *            the height of the image in pixels
     * @param components
     *            1,3 or 4 for GrayScale, RGB and CMYK
     * @param data
     *            the image data
     * @param bpc
     *            bits per component
     * @param transparency
     *            transparency information in the Mask format of the image
     *            dictionary
     * @return an object of type ImgRaw
     * @throws BadElementException
     *             on error
     */
    public static Image getInstance(int width, int height, int components,
                                    int bpc, byte[] data, int[] transparency)
            throws BadElementException {
        if (transparency != null && transparency.length != components * 2)
            throw new BadElementException(MessageLocalization.getComposedMessage("transparency.length.must.be.equal.to.componentes.2"));
        if (components == 1 && bpc == 1) {
            byte[] g4 = CCITTG4Encoder.compress(data, width, height);
            return Image.getInstance(width, height, false, Image.CCITTG4,
                    Image.CCITT_BLACKIS1, g4, transparency);
        }
        Image img = new ImgRaw(width, height, components, bpc, data);
        img.transparency = transparency;
        return img;
    }

    // images from a PdfTemplate

    /**
     * gets an instance of an Image
     *
     * @param template a PdfTemplate that has to be wrapped in an Image object
     * @return an Image object
     * @throws BadElementException on error
     */
    public static Image getInstance(PdfTemplate template)
            throws BadElementException {
        return new ImgTemplate(template);
    }

    // images from a java.awt.Image

    /**
     * Gets an instance of an Image from a java.awt.Image.
     *
     * @param image
     *            the java.awt.Image to convert
     * @param color
     *            if different from null the transparency pixels
     *            are replaced by this color
     * @param forceBW
     *            if true the image is treated as black and white
     * @return an object of type ImgRaw
     * @throws BadElementException
     *             on error
     * @throws IOException
     *             on error
     */
    public static Image getInstance(java.awt.Image image, java.awt.Color color,
            boolean forceBW) throws BadElementException, IOException {

        if(image instanceof BufferedImage){
            BufferedImage bi = (BufferedImage) image;
            if(bi.getType() == BufferedImage.TYPE_BYTE_BINARY && bi.getColorModel().getNumColorComponents() <= 2) {
                forceBW=true;
            }
        }

        java.awt.image.PixelGrabber pg = new java.awt.image.PixelGrabber(image,
                0, 0, -1, -1, true);
        try {
            pg.grabPixels();
        } catch (InterruptedException e) {
            throw new IOException(MessageLocalization.getComposedMessage("java.awt.image.interrupted.waiting.for.pixels"));
        }
        if ((pg.getStatus() & java.awt.image.ImageObserver.ABORT) != 0) {
            throw new IOException(MessageLocalization.getComposedMessage("java.awt.image.fetch.aborted.or.errored"));
        }
        int w = pg.getWidth();
        int h = pg.getHeight();
        int[] pixels = (int[]) pg.getPixels();
        if (forceBW) {
            int byteWidth = (w / 8) + ((w & 7) != 0 ? 1 : 0);
            byte[] pixelsByte = new byte[byteWidth * h];

            int index = 0;
            int size = h * w;
            int transColor = 1;
            if (color != null) {
                transColor = (color.getRed() + color.getGreen()
                        + color.getBlue() < 384) ? 0 : 1;
            }
            int[] transparency = null;
            int cbyte = 0x80;
            int wMarker = 0;
            int currByte = 0;
            if (color != null) {
                for (int j = 0; j < size; j++) {
                    int alpha = (pixels[j] >> 24) & 0xff;
                    if (alpha < 250) {
                        if (transColor == 1)
                            currByte |= cbyte;
                    } else {
                        if ((pixels[j] & 0x888) != 0)
                            currByte |= cbyte;
                    }
                    cbyte >>= 1;
                    if (cbyte == 0 || wMarker + 1 >= w) {
                        pixelsByte[index++] = (byte) currByte;
                        cbyte = 0x80;
                        currByte = 0;
                    }
                    ++wMarker;
                    if (wMarker >= w)
                        wMarker = 0;
                }
            } else {
                for (int j = 0; j < size; j++) {
                    if (transparency == null) {
                        int alpha = (pixels[j] >> 24) & 0xff;
                        if (alpha == 0) {
                            transparency = new int[2];
                            /* bugfix by M.P. Liston, ASC, was: ... ? 1: 0; */
                            transparency[0] = transparency[1] = ((pixels[j] & 0x888) != 0) ? 0xff : 0;
                        }
                    }
                    if ((pixels[j] & 0x888) != 0)
                        currByte |= cbyte;
                    cbyte >>= 1;
                    if (cbyte == 0 || wMarker + 1 >= w) {
                        pixelsByte[index++] = (byte) currByte;
                        cbyte = 0x80;
                        currByte = 0;
                    }
                    ++wMarker;
                    if (wMarker >= w)
                        wMarker = 0;
                }
            }
            return Image.getInstance(w, h, 1, 1, pixelsByte, transparency);
        } else {
            byte[] pixelsByte = new byte[w * h * 3];
            byte[] smask = null;

            int index = 0;
            int size = h * w;
            int red = 255;
            int green = 255;
            int blue = 255;
            if (color != null) {
                red = color.getRed();
                green = color.getGreen();
                blue = color.getBlue();
            }
            int[] transparency = null;
            if (color != null) {
                for (int j = 0; j < size; j++) {
                    int alpha = (pixels[j] >> 24) & 0xff;
                    if (alpha < 250) {
                        pixelsByte[index++] = (byte) red;
                        pixelsByte[index++] = (byte) green;
                        pixelsByte[index++] = (byte) blue;
                    } else {
                        pixelsByte[index++] = (byte) ((pixels[j] >> 16) & 0xff);
                        pixelsByte[index++] = (byte) ((pixels[j] >> 8) & 0xff);
                        pixelsByte[index++] = (byte) ((pixels[j]) & 0xff);
                    }
                }
            } else {
                int transparentPixel = 0;
                smask = new byte[w * h];
                boolean shades = false;
                for (int j = 0; j < size; j++) {
                    byte alpha = smask[j] = (byte) ((pixels[j] >> 24) & 0xff);
                    /* bugfix by Chris Nokleberg */
                    if (!shades) {
                        if (alpha != 0 && alpha != -1) {
                            shades = true;
                        } else if (transparency == null) {
                            if (alpha == 0) {
                                transparentPixel = pixels[j] & 0xffffff;
                                transparency = new int[6];
                                transparency[0] = transparency[1] = (transparentPixel >> 16) & 0xff;
                                transparency[2] = transparency[3] = (transparentPixel >> 8) & 0xff;
                                transparency[4] = transparency[5] = transparentPixel & 0xff;
                                for (int prevPixel = 0; prevPixel < j; prevPixel++) {
                                    if ((pixels[prevPixel] & 0xffffff) == transparentPixel) {
                                        shades = true;
                                        break;
                                    }
                                }
                            }
                        } else if ((pixels[j] & 0xffffff) != transparentPixel && alpha == 0
                                || (pixels[j] & 0xffffff) == transparentPixel && alpha != 0) {
                            shades = true;
                        }
                    }
                    pixelsByte[index++] = (byte) ((pixels[j] >> 16) & 0xff);
                    pixelsByte[index++] = (byte) ((pixels[j] >> 8) & 0xff);
                    pixelsByte[index++] = (byte) ((pixels[j]) & 0xff);
                }
                if (shades)
                    transparency = null;
                else
                    smask = null;
            }
            Image img = Image.getInstance(w, h, 3, 8, pixelsByte, transparency);
            if (smask != null) {
                Image sm = Image.getInstance(w, h, 1, 8, smask);
                try {
                    sm.makeMask();
                    img.setImageMask(sm);
                } catch (DocumentException de) {
                    throw new ExceptionConverter(de);
                }
            }
            return img;
        }
    }

    /**
     * Gets an instance of an Image from a java.awt.Image.
     *
     * @param image
     *            the java.awt.Image to convert
     * @param color
     *            if different from null the transparency pixels
     *            are replaced by this color
     * @return an object of type ImgRaw
     * @throws BadElementException
     *             on error
     * @throws IOException
     *             on error
     */
    public static Image getInstance(java.awt.Image image, java.awt.Color color)
            throws BadElementException, IOException {
        return Image.getInstance(image, color, false);
    }

    /**
     * Gets an instance of a Image from a java.awt.Image.
     * The image is added as a JPEG with a user defined quality.
     *
     * @param writer   the PdfWriter object to which the image will be added
     * @param awtImage the java.awt.Image to convert
     * @param quality  a float value between 0 and 1
     * @return an object of type PdfTemplate
     * @throws BadElementException on error
     * @throws IOException         on error
     */
    public static Image getInstance(PdfWriter writer, java.awt.Image awtImage, float quality) throws BadElementException, IOException {
        return getInstance(new PdfContentByte(writer), awtImage, quality);
    }

    /**
     * Gets an instance of a Image from a java.awt.Image.
     * The image is added as a JPEG with a user defined quality.
     *
     * @param cb       the PdfContentByte object to which the image will be added
     * @param awtImage the java.awt.Image to convert
     * @param quality  a float value between 0 and 1
     * @return an object of type PdfTemplate
     * @throws BadElementException on error
     * @throws IOException         on error
     */
    public static Image getInstance(PdfContentByte cb, java.awt.Image awtImage, float quality) throws BadElementException, IOException {
        java.awt.image.PixelGrabber pg = new java.awt.image.PixelGrabber(awtImage,
                0, 0, -1, -1, true);
        try {
            pg.grabPixels();
        } catch (InterruptedException e) {
            throw new IOException(MessageLocalization.getComposedMessage("java.awt.image.interrupted.waiting.for.pixels"));
        }
        if ((pg.getStatus() & java.awt.image.ImageObserver.ABORT) != 0) {
            throw new IOException(MessageLocalization.getComposedMessage("java.awt.image.fetch.aborted.or.errored"));
        }
        int w = pg.getWidth();
        int h = pg.getHeight();
        PdfTemplate tp = cb.createTemplate(w, h);
        Graphics2D g2d = tp.createGraphics(w, h, true, quality);
        g2d.drawImage(awtImage, 0, 0, null);
        g2d.dispose();
        return getInstance(tp);
    }

    // image from indirect reference

    /**
     * Holds value of property directReference.
     * An image is embedded into a PDF as an Image XObject.
     * This object is referenced by a PdfIndirectReference object.
     */
    private PdfIndirectReference directReference;

    /**
     * Getter for property directReference.
     * @return Value of property directReference.
     */
    public PdfIndirectReference getDirectReference() {
        return this.directReference;
    }

    /**
     * Setter for property directReference.
     * @param directReference New value of property directReference.
     */
    public void setDirectReference(PdfIndirectReference directReference) {
        this.directReference = directReference;
    }

    /**
     * Reuses an existing image.
     * @param ref the reference to the image dictionary
     * @throws BadElementException on error
     * @return the image
     */
    public static Image getInstance(PRIndirectReference ref) throws BadElementException {
        PdfDictionary dic = (PdfDictionary)PdfReader.getPdfObjectRelease(ref);
        int width = ((PdfNumber)PdfReader.getPdfObjectRelease(dic.get(PdfName.WIDTH))).intValue();
        int height = ((PdfNumber)PdfReader.getPdfObjectRelease(dic.get(PdfName.HEIGHT))).intValue();
        Image imask = null;
        PdfObject obj = dic.get(PdfName.SMASK);
        if (obj != null && obj.isIndirect()) {
            imask = getInstance((PRIndirectReference)obj);
        }
        else {
            obj = dic.get(PdfName.MASK);
            if (obj != null && obj.isIndirect()) {
                PdfObject obj2 = PdfReader.getPdfObjectRelease(obj);
                if (obj2 instanceof PdfDictionary)
                    imask = getInstance((PRIndirectReference)obj);
            }
        }
        Image img = new ImgRaw(width, height, 1, 1, null);
        img.imageMask = imask;
        img.directReference = ref;
        return img;
    }

    // copy constructor

    /**
     * Constructs an Image -object, using an url .
     *
     * @param image
     *            another Image object.
     */
    protected Image(Image image) {
        super(image);
        this.type = image.type;
        this.url = image.url;
        this.rawData = image.rawData;
        this.bpc = image.bpc;
        this.template = image.template;
        this.alignment = image.alignment;
        this.alt = image.alt;
        this.absoluteX = image.absoluteX;
        this.absoluteY = image.absoluteY;
        this.plainWidth = image.plainWidth;
        this.plainHeight = image.plainHeight;
        this.scaledWidth = image.scaledWidth;
        this.scaledHeight = image.scaledHeight;
        this.mySerialId = image.mySerialId;

        this.directReference = image.directReference;

        this.rotationRadians = image.rotationRadians;
        this.initialRotation = image.initialRotation;
        this.indentationLeft = image.indentationLeft;
        this.indentationRight = image.indentationRight;
        this.spacingBefore = image.spacingBefore;
        this.spacingAfter = image.spacingAfter;

        this.widthPercentage = image.widthPercentage;
        this.annotation = image.annotation;
        this.layer = image.layer;
        this.interpolation = image.interpolation;
        this.originalType = image.originalType;
        this.originalData = image.originalData;
        this.deflated = image.deflated;
        this.dpiX = image.dpiX;
        this.dpiY = image.dpiY;
        this.XYRatio = image.XYRatio;

        this.colorspace = image.colorspace;
        this.invert = image.invert;
        this.profile = image.profile;
        this.additional = image.additional;
        this.mask = image.mask;
        this.imageMask = image.imageMask;
        this.smask = image.smask;
        this.transparency = image.transparency;
    }

    /**
     * gets an instance of an Image
     *
     * @param image
     *            an Image object
     * @return a new Image object
     */
    public static Image getInstance(Image image) {
        if (image == null)
            return null;
        try {
            Class cs = image.getClass();
            Constructor constructor = cs.getDeclaredConstructor(Image.class);
            return constructor.newInstance(image);
        } catch (Exception e) {
            throw new ExceptionConverter(e);
        }
    }

    // implementation of the Element interface

    /**
     * Returns the type.
     *
     * @return a type
     */

    public int type() {
        return type;
    }

    /**
     * @see com.lowagie.text.Element#isNestable()
     * @since    iText 2.0.8
     */
    public boolean isNestable() {
        return true;
    }

    // checking the type of Image

    /**
     * Returns true if the image is a Jpeg
     * -object.
     *
     * @return a boolean
     */

    public boolean isJpeg() {
        return type == JPEG;
    }

    /**
     * Returns true if the image is a ImgRaw
     * -object.
     *
     * @return a boolean
     */

    public boolean isImgRaw() {
        return type == IMGRAW;
    }

    /**
     * Returns true if the image is an ImgTemplate
     * -object.
     *
     * @return a boolean
     */

    public boolean isImgTemplate() {
        return type == IMGTEMPLATE;
    }

    // getters and setters

    /**
     * Gets the String -representation of the reference to the
     * image.
     *
     * @return a String
     */

    public URL getUrl() {
        return url;
    }

    /**
     * Sets the url of the image
     *
     * @param url
     *            the url of the image
     */
    public void setUrl(URL url) {
        this.url = url;
    }

    /**
     * Gets the raw data for the image.
     * 

* Remark: this only makes sense for Images of the type RawImage * . * * @return the raw data */ public byte[] getRawData() { return rawData; } /** * Gets the bpc for the image. *

* Remark: this only makes sense for Images of the type RawImage * . * * @return a bpc value */ public int getBpc() { return bpc; } /** * Gets the template to be used as an image. *

* Remark: this only makes sense for Images of the type ImgTemplate * . * * @return the template */ public PdfTemplate getTemplateData() { return template[0]; } /** * Sets data from a PdfTemplate * * @param template * the template with the content */ public void setTemplateData(PdfTemplate template) { this.template[0] = template; } /** * Gets the alignment for the image. * * @return a value */ public int getAlignment() { return alignment; } /** * Sets the alignment for the image. * * @param alignment * the alignment */ public void setAlignment(int alignment) { this.alignment = alignment; } /** * Gets the alternative text for the image. * * @return a String */ public String getAlt() { return alt; } /** * Sets the alternative information for the image. * * @param alt * the alternative information */ public void setAlt(String alt) { this.alt = alt; } /** * Sets the absolute position of the Image. * * @param absoluteX absolute x position * @param absoluteY absolute y position */ public void setAbsolutePosition(float absoluteX, float absoluteY) { this.absoluteX = absoluteX; this.absoluteY = absoluteY; } /** * Checks if the Images has to be added at an absolute X * position. * * @return a boolean */ public boolean hasAbsoluteX() { return !Float.isNaN(absoluteX); } /** * Returns the absolute X position. * * @return a position */ public float getAbsoluteX() { return absoluteX; } /** * Checks if the Images has to be added at an absolute * position. * * @return a boolean */ public boolean hasAbsoluteY() { return !Float.isNaN(absoluteY); } /** * Returns the absolute Y position. * * @return a position */ public float getAbsoluteY() { return absoluteY; } // width and height /** * Gets the scaled width of the image. * * @return a value */ public float getScaledWidth() { return scaledWidth; } /** * Gets the scaled height of the image. * * @return a value */ public float getScaledHeight() { return scaledHeight; } /** * Gets the plain width of the image. * * @return a value */ public float getPlainWidth() { return plainWidth; } /** * Gets the plain height of the image. * * @return a value */ public float getPlainHeight() { return plainHeight; } /** * Scale the image to an absolute width and an absolute height. * * @param newWidth * the new width * @param newHeight * the new height */ public void scaleAbsolute(float newWidth, float newHeight) { plainWidth = newWidth; plainHeight = newHeight; float[] matrix = matrix(); scaledWidth = matrix[DX] - matrix[CX]; scaledHeight = matrix[DY] - matrix[CY]; setWidthPercentage(0); } /** * Scale the image to an absolute width. * * @param newWidth * the new width */ public void scaleAbsoluteWidth(float newWidth) { plainWidth = newWidth; float[] matrix = matrix(); scaledWidth = matrix[DX] - matrix[CX]; scaledHeight = matrix[DY] - matrix[CY]; setWidthPercentage(0); } /** * Scale the image to an absolute height. * * @param newHeight * the new height */ public void scaleAbsoluteHeight(float newHeight) { plainHeight = newHeight; float[] matrix = matrix(); scaledWidth = matrix[DX] - matrix[CX]; scaledHeight = matrix[DY] - matrix[CY]; setWidthPercentage(0); } /** * Scale the image to a certain percentage. * * @param percent * the scaling percentage */ public void scalePercent(float percent) { scalePercent(percent, percent); } /** * Scale the width and height of an image to a certain percentage. * * @param percentX * the scaling percentage of the width * @param percentY * the scaling percentage of the height */ public void scalePercent(float percentX, float percentY) { plainWidth = (getWidth() * percentX) / 100f; plainHeight = (getHeight() * percentY) / 100f; float[] matrix = matrix(); scaledWidth = matrix[DX] - matrix[CX]; scaledHeight = matrix[DY] - matrix[CY]; setWidthPercentage(0); } /** * Scales the image so that it fits a certain width and height. * * @param fitWidth * the width to fit * @param fitHeight * the height to fit */ public void scaleToFit(float fitWidth, float fitHeight) { scalePercent(100); float percentX = (fitWidth * 100) / getScaledWidth(); float percentY = (fitHeight * 100) / getScaledHeight(); scalePercent(percentX < percentY ? percentX : percentY); setWidthPercentage(0); } /** * Returns the transformation matrix of the image. * * @return an array [AX, AY, BX, BY, CX, CY, DX, DY] */ public float[] matrix() { float[] matrix = new float[8]; float cosX = (float) Math.cos(rotationRadians); float sinX = (float) Math.sin(rotationRadians); matrix[AX] = plainWidth * cosX; matrix[AY] = plainWidth * sinX; matrix[BX] = (-plainHeight) * sinX; matrix[BY] = plainHeight * cosX; if (rotationRadians < Math.PI / 2f) { matrix[CX] = matrix[BX]; matrix[CY] = 0; matrix[DX] = matrix[AX]; matrix[DY] = matrix[AY] + matrix[BY]; } else if (rotationRadians < Math.PI) { matrix[CX] = matrix[AX] + matrix[BX]; matrix[CY] = matrix[BY]; matrix[DX] = 0; matrix[DY] = matrix[AY]; } else if (rotationRadians < Math.PI * 1.5f) { matrix[CX] = matrix[AX]; matrix[CY] = matrix[AY] + matrix[BY]; matrix[DX] = matrix[BX]; matrix[DY] = 0; } else { matrix[CX] = 0; matrix[CY] = matrix[AY]; matrix[DX] = matrix[AX] + matrix[BX]; matrix[DY] = matrix[BY]; } return matrix; } // serial stamping /** a static that is used for attributing a unique id to each image. */ static long serialId = 0; /** * Creates a new serial id. * * @return a new serial id */ static protected synchronized Long getSerialId() { ++serialId; return serialId; } /** * Returns a serial id for the Image (reuse the same image more than once) * * @return a serialId */ public Long getMySerialId() { return mySerialId; } // rotation, note that the superclass also has a rotation value. /** This is the rotation of the image in radians. */ protected float rotationRadians; /** Holds value of property initialRotation. */ private float initialRotation; /** * Gets the current image rotation in radians. * @return the current image rotation in radians */ public float getImageRotation() { float d = 2.0F * (float) Math.PI; float rot = ((rotationRadians - initialRotation) % d); if (rot < 0) { rot += d; } return rot; } /** * Sets the rotation of the image in radians. * * @param r * rotation in radians */ public void setRotation(float r) { float d = 2.0F * (float) Math.PI; rotationRadians = ((r + initialRotation) % d); if (rotationRadians < 0) { rotationRadians += d; } float[] matrix = matrix(); scaledWidth = matrix[DX] - matrix[CX]; scaledHeight = matrix[DY] - matrix[CY]; } /** * Sets the rotation of the image in degrees. * * @param deg * rotation in degrees */ public void setRotationDegrees(float deg) { float d = (float) Math.PI; setRotation(deg / 180 * d); } /** * Getter for property initialRotation. * @return Value of property initialRotation. */ public float getInitialRotation() { return this.initialRotation; } /** * Some image formats, like TIFF may present the images rotated that have * to be compensated. * @param initialRotation New value of property initialRotation. */ public void setInitialRotation(float initialRotation) { float old_rot = rotationRadians - this.initialRotation; this.initialRotation = initialRotation; setRotation(old_rot); } // indentations /** the indentation to the left. */ protected float indentationLeft = 0; /** the indentation to the right. */ protected float indentationRight = 0; /** The spacing before the image. */ protected float spacingBefore; /** The spacing after the image. */ protected float spacingAfter; /** * Gets the left indentation. * * @return the left indentation */ public float getIndentationLeft() { return indentationLeft; } /** * Sets the left indentation. * * @param f left indentation */ public void setIndentationLeft(float f) { indentationLeft = f; } /** * Gets the right indentation. * * @return the right indentation */ public float getIndentationRight() { return indentationRight; } /** * Sets the right indentation. * * @param f right indentation */ public void setIndentationRight(float f) { indentationRight = f; } /** * Gets the spacing before this image. * * @return the spacing */ public float getSpacingBefore() { return spacingBefore; } /** * Sets the spacing before this image. * * @param spacing * the new spacing */ public void setSpacingBefore(float spacing) { this.spacingBefore = spacing; } /** * Gets the spacing before this image. * * @return the spacing */ public float getSpacingAfter() { return spacingAfter; } /** * Sets the spacing after this image. * * @param spacing * the new spacing */ public void setSpacingAfter(float spacing) { this.spacingAfter = spacing; } // widthpercentage (for the moment only used in ColumnText) /** * Holds value of property widthPercentage. */ private float widthPercentage = 100; /** * Getter for property widthPercentage. * * @return Value of property widthPercentage. */ public float getWidthPercentage() { return this.widthPercentage; } /** * Setter for property widthPercentage. * * @param widthPercentage * New value of property widthPercentage. */ public void setWidthPercentage(float widthPercentage) { this.widthPercentage = widthPercentage; } // annotation /** if the annotation is not null the image will be clickable. */ protected Annotation annotation = null; /** * Sets the annotation of this Image. * * @param annotation * the annotation */ public void setAnnotation(Annotation annotation) { this.annotation = annotation; } /** * Gets the annotation. * * @return the annotation that is linked to this image */ public Annotation getAnnotation() { return annotation; } // Optional Content /** Optional Content layer to which we want this Image to belong. */ protected PdfOCG layer; /** * Gets the layer this image belongs to. * * @return the layer this image belongs to or null for no * layer defined */ public PdfOCG getLayer() { return layer; } /** * Sets the layer this image belongs to. * * @param layer * the layer this image belongs to */ public void setLayer(PdfOCG layer) { this.layer = layer; } // interpolation /** Holds value of property interpolation. */ protected boolean interpolation; /** * Getter for property interpolation. * * @return Value of property interpolation. */ public boolean isInterpolation() { return interpolation; } /** * Sets the image interpolation. Image interpolation attempts to produce a * smooth transition between adjacent sample values. * * @param interpolation * New value of property interpolation. */ public void setInterpolation(boolean interpolation) { this.interpolation = interpolation; } // original type and data /** Holds value of property originalType. */ protected int originalType = ORIGINAL_NONE; /** Holds value of property originalData. */ protected byte[] originalData; /** * Getter for property originalType. * * @return Value of property originalType. * */ public int getOriginalType() { return this.originalType; } /** * Setter for property originalType. * * @param originalType * New value of property originalType. * */ public void setOriginalType(int originalType) { this.originalType = originalType; } /** * Getter for property originalData. * * @return Value of property originalData. * */ public byte[] getOriginalData() { return this.originalData; } /** * Setter for property originalData. * * @param originalData * New value of property originalData. * */ public void setOriginalData(byte[] originalData) { this.originalData = originalData; } // the following values are only set for specific types of images. /** Holds value of property deflated. */ protected boolean deflated = false; /** * Getter for property deflated. * * @return Value of property deflated. * */ public boolean isDeflated() { return this.deflated; } /** * Setter for property deflated. * * @param deflated * New value of property deflated. */ public void setDeflated(boolean deflated) { this.deflated = deflated; } // DPI info /** Holds value of property dpiX. */ protected int dpiX = 0; /** Holds value of property dpiY. */ protected int dpiY = 0; /** * Gets the dots-per-inch in the X direction. Returns 0 if not available. * * @return the dots-per-inch in the X direction */ public int getDpiX() { return dpiX; } /** * Gets the dots-per-inch in the Y direction. Returns 0 if not available. * * @return the dots-per-inch in the Y direction */ public int getDpiY() { return dpiY; } /** * Sets the dots per inch value * * @param dpiX * dpi for x coordinates * @param dpiY * dpi for y coordinates */ public void setDpi(int dpiX, int dpiY) { this.dpiX = dpiX; this.dpiY = dpiY; } // XY Ratio /** Holds value of property XYRatio. */ private float XYRatio = 0; /** * Gets the X/Y pixel dimensionless aspect ratio. * * @return the X/Y pixel dimensionless aspect ratio */ public float getXYRatio() { return this.XYRatio; } /** * Sets the X/Y pixel dimensionless aspect ratio. * * @param XYRatio * the X/Y pixel dimensionless aspect ratio */ public void setXYRatio(float XYRatio) { this.XYRatio = XYRatio; } // color, colorspaces and transparency /** this is the colorspace of a jpeg-image. */ protected int colorspace = -1; /** * Gets the colorspace for the image. *

* Remark: this only makes sense for Images of the type Jpeg. * * @return a colorspace value */ public int getColorspace() { return colorspace; } /** Image color inversion */ protected boolean invert = false; /** * Getter for the inverted value * * @return true if the image is inverted */ public boolean isInverted() { return invert; } /** * Sets inverted true or false * * @param invert * true or false */ public void setInverted(boolean invert) { this.invert = invert; } /** ICC Profile attached */ protected ICC_Profile profile = null; /** * Tags this image with an ICC profile. * * @param profile * the profile */ public void tagICC(ICC_Profile profile) { this.profile = profile; } /** * Checks is the image has an ICC profile. * * @return the ICC profile or null */ public boolean hasICCProfile() { return (this.profile != null); } /** * Gets the images ICC profile. * * @return the ICC profile */ public ICC_Profile getICCProfile() { return profile; } /** a dictionary with additional information */ private PdfDictionary additional = null; /** * Getter for the dictionary with additional information. * * @return a PdfDictionary with additional information. */ public PdfDictionary getAdditional() { return this.additional; } /** * Sets the /Colorspace key. * * @param additional * a PdfDictionary with additional information. */ public void setAdditional(PdfDictionary additional) { this.additional = additional; } /** * Replaces CalRGB and CalGray colorspaces with DeviceRGB and DeviceGray. */ public void simplifyColorspace() { if (additional == null) return; PdfArray value = additional.getAsArray(PdfName.COLORSPACE); if (value == null) return; PdfObject cs = simplifyColorspace(value); PdfObject newValue; if (cs.isName()) newValue = cs; else { newValue = value; PdfName first = value.getAsName(0); if (PdfName.INDEXED.equals(first)) { if (value.size() >= 2) { PdfArray second = value.getAsArray(1); if (second != null) { value.set(1, simplifyColorspace(second)); } } } } additional.put(PdfName.COLORSPACE, newValue); } /** * Gets a PDF Name from an array or returns the object that was passed. */ private PdfObject simplifyColorspace(PdfArray obj) { if (obj == null) return obj; PdfName first = obj.getAsName(0); if (PdfName.CALGRAY.equals(first)) return PdfName.DEVICEGRAY; else if (PdfName.CALRGB.equals(first)) return PdfName.DEVICERGB; else return obj; } /** Is this image a mask? */ protected boolean mask = false; /** The image that serves as a mask for this image. */ protected Image imageMask; /** Holds value of property smask. */ private boolean smask; /** * Returns true if this Image is a mask. * * @return true if this Image is a mask */ public boolean isMask() { return mask; } /** * Make this Image a mask. * * @throws DocumentException * if this Image can not be a mask */ public void makeMask() throws DocumentException { if (!isMaskCandidate()) throw new DocumentException(MessageLocalization.getComposedMessage("this.image.can.not.be.an.image.mask")); mask = true; } /** * Returns true if this Image has the * requisites to be a mask. * * @return true if this Image can be a mask */ public boolean isMaskCandidate() { if (type == IMGRAW) { if (bpc > 0xff) return true; } return colorspace == 1; } /** * Gets the explicit masking. * * @return the explicit masking */ public Image getImageMask() { return imageMask; } /** * Sets the explicit masking. * * @param mask * the mask to be applied * @throws DocumentException * on error */ public void setImageMask(Image mask) throws DocumentException { if (this.mask) throw new DocumentException(MessageLocalization.getComposedMessage("an.image.mask.cannot.contain.another.image.mask")); if (!mask.mask) throw new DocumentException(MessageLocalization.getComposedMessage("the.image.mask.is.not.a.mask.did.you.do.makemask")); imageMask = mask; smask = (mask.bpc > 1 && mask.bpc <= 8); } /** * Getter for property smask. * * @return Value of property smask. * */ public boolean isSmask() { return this.smask; } /** * Setter for property smask. * * @param smask * New value of property smask. */ public void setSmask(boolean smask) { this.smask = smask; } /** * this is the transparency information of the raw image */ protected int[] transparency; /** * Returns the transparency. * * @return the transparency values */ public int[] getTransparency() { return transparency; } /** * Sets the transparency values * * @param transparency * the transparency values */ public void setTransparency(int[] transparency) { this.transparency = transparency; } /** * Returns the compression level used for images written as a compressed stream. * @return the compression level (0 = best speed, 9 = best compression, -1 is default) * @since 2.1.3 */ public int getCompressionLevel() { return compressionLevel; } /** * Sets the compression level to be used if the image is written as a compressed stream. * @param compressionLevel a value between 0 (best speed) and 9 (best compression) * @since 2.1.3 */ public void setCompressionLevel(int compressionLevel) { if (compressionLevel < PdfStream.NO_COMPRESSION || compressionLevel > PdfStream.BEST_COMPRESSION) this.compressionLevel = PdfStream.DEFAULT_COMPRESSION; else this.compressionLevel = compressionLevel; } }





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