/* * Copyright (C)2011-2012, 2014-2015, 2017-2018, 2022-2024 D. R. Commander. * All Rights Reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * - Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * - 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. * - Neither the name of the libjpeg-turbo Project 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 HOLDERS AND CONTRIBUTORS "AS IS", * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDERS OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ /* * This program demonstrates how to use the TurboJPEG Java API to approximate * the functionality of the IJG's cjpeg program. cjpeg features that are not * covered: * * - GIF and Targa input file formats [legacy feature] * - Separate quality settings for luminance and chrominance * - The floating-point DCT method [legacy feature] * - Input image smoothing * - Progress reporting * - Debug output * - Forcing baseline-compatible quantization tables * - Specifying arbitrary quantization tables * - Specifying arbitrary sampling factors * - Scan scripts */ import java.io.*; import java.util.*; import org.libjpegturbo.turbojpeg.*; @SuppressWarnings("checkstyle:JavadocType") final class TJComp { private TJComp() {} static final String CLASS_NAME = new TJComp().getClass().getName(); static final int DEFAULT_SUBSAMP = TJ.SAMP_420; static final int DEFAULT_QUALITY = 75; static final String[] SUBSAMP_NAME = { "444", "422", "420", "GRAY", "440", "411", "441" }; static void usage() { System.out.println("\nUSAGE: java [Java options] " + CLASS_NAME + " [options] \n"); System.out.println("The input image can be in Windows BMP or PBMPLUS (PPM/PGM) format.\n"); System.out.println("GENERAL OPTIONS (CAN BE ABBREVIATED)"); System.out.println("------------------------------------"); System.out.println("-icc FILE"); System.out.println(" Embed the ICC (International Color Consortium) color management profile"); System.out.println(" from the specified file into the JPEG image"); System.out.println("-lossless PSV[,Pt]"); System.out.println(" Create a lossless JPEG image (implies -subsamp 444) using predictor"); System.out.println(" selection value PSV (1-7) and optional point transform Pt (0 through"); System.out.println(" {data precision} - 1)"); System.out.println("-maxmemory N"); System.out.println(" Memory limit (in megabytes) for intermediate buffers used with progressive"); System.out.println(" JPEG compression, lossless JPEG compression, and Huffman table optimization"); System.out.println(" [default = no limit]"); System.out.println("-precision N"); System.out.println(" Create a JPEG image with N-bit data precision [N = 2..16; default = 8; if N"); System.out.println(" is not 8 or 12, then -lossless must also be specified] (-precision 12"); System.out.println(" implies -optimize unless -arithmetic is also specified)"); System.out.println("-restart N"); System.out.println(" Add a restart marker every N MCU rows [default = 0 (no restart markers)]."); System.out.println(" Append 'B' to specify the restart marker interval in MCUs (lossy only.)\n"); System.out.println("LOSSY JPEG OPTIONS (CAN BE ABBREVIATED)"); System.out.println("---------------------------------------"); System.out.println("-arithmetic"); System.out.println(" Use arithmetic entropy coding instead of Huffman entropy coding (can be"); System.out.println(" combined with -progressive)"); System.out.println("-dct fast"); System.out.println(" Use less accurate DCT algorithm [legacy feature]"); System.out.println("-dct int"); System.out.println(" Use more accurate DCT algorithm [default]"); System.out.println("-grayscale"); System.out.println(" Create a grayscale JPEG image from a full-color input image"); System.out.println("-optimize"); System.out.println(" Use Huffman table optimization"); System.out.println("-progressive"); System.out.println(" Create a progressive JPEG image instead of a single-scan JPEG image (can be"); System.out.println(" combined with -arithmetic; implies -optimize unless -arithmetic is also"); System.out.println(" specified)"); System.out.println("-quality {1..100}"); System.out.format(" Create a JPEG image with the specified quality level [default = %d]\n", DEFAULT_QUALITY); System.out.println("-rgb"); System.out.println(" Create a JPEG image that uses the RGB colorspace instead of the YCbCr"); System.out.println(" colorspace"); System.out.println("-subsamp {444|422|440|420|411|441}"); System.out.println(" Create a JPEG image that uses the specified chrominance subsampling level"); System.out.format(" [default = %s]\n\n", SUBSAMP_NAME[DEFAULT_SUBSAMP]); System.exit(1); } static boolean matchArg(String arg, String string, int minChars) { if (arg.length() > string.length() || arg.length() < minChars) return false; int cmpChars = Math.max(arg.length(), minChars); string = string.substring(0, cmpChars); return arg.equalsIgnoreCase(string); } public static void main(String[] argv) { int exitStatus = 0; TJCompressor tjc = null; FileInputStream fis = null; FileOutputStream fos = null; try { int i; int arithmetic = -1, colorspace = -1, fastDCT = -1, losslessPSV = -1, losslessPt = -1, maxMemory = -1, optimize = -1, pixelFormat = TJ.PF_UNKNOWN, precision = 8, progressive = -1, quality = DEFAULT_QUALITY, restartIntervalBlocks = -1, restartIntervalRows = -1, subsamp = DEFAULT_SUBSAMP; String iccFilename = null; byte[] iccBuf, jpegBuf; for (i = 0; i < argv.length; i++) { if (matchArg(argv[i], "-arithmetic", 2)) arithmetic = 1; else if (matchArg(argv[i], "-dct", 2) && i < argv.length - 1) { i++; if (matchArg(argv[i], "fast", 1)) fastDCT = 1; else if (!matchArg(argv[i], "int", 1)) usage(); } else if (matchArg(argv[i], "-grayscale", 2) || matchArg(argv[i], "-greyscale", 2)) colorspace = TJ.CS_GRAY; else if (matchArg(argv[i], "-icc", 2) && i < argv.length - 1) iccFilename = argv[++i]; else if (matchArg(argv[i], "-lossless", 2) && i < argv.length - 1) { Scanner scanner = new Scanner(argv[++i]).useDelimiter(","); try { if (scanner.hasNextInt()) losslessPSV = scanner.nextInt(); if (scanner.hasNextInt()) losslessPt = scanner.nextInt(); } catch (Exception e) {} if (losslessPSV < 1 || losslessPSV > 7) usage(); } else if (matchArg(argv[i], "-maxmemory", 2) && i < argv.length - 1) { int temp = -1; try { temp = Integer.parseInt(argv[++i]); } catch (NumberFormatException e) {} if (temp < 0) usage(); maxMemory = temp; } else if (matchArg(argv[i], "-optimize", 2) || matchArg(argv[i], "-optimise", 2)) optimize = 1; else if (matchArg(argv[i], "-precision", 4) && i < argv.length - 1) { int temp = 0; try { temp = Integer.parseInt(argv[++i]); } catch (NumberFormatException e) {} if (temp < 2 || temp > 16) usage(); precision = temp; } else if (matchArg(argv[i], "-progressive", 2)) progressive = 1; else if (matchArg(argv[i], "-quality", 2) && i < argv.length - 1) { int temp = 0; try { temp = Integer.parseInt(argv[++i]); } catch (NumberFormatException e) {} if (temp < 1 || temp > 100) usage(); quality = temp; } else if (matchArg(argv[i], "-rgb", 3)) colorspace = TJ.CS_RGB; else if (matchArg(argv[i], "-restart", 2) && i < argv.length - 1) { int temp = -1; String arg = argv[++i]; Scanner scanner = new Scanner(arg).useDelimiter("b|B"); try { temp = scanner.nextInt(); } catch (Exception e) {} if (temp < 0 || temp > 65535 || scanner.hasNext()) usage(); if (arg.endsWith("B") || arg.endsWith("b")) restartIntervalBlocks = temp; else restartIntervalRows = temp; } else if (matchArg(argv[i], "-subsamp", 2) && i < argv.length - 1) { i++; if (matchArg(argv[i], "444", 3)) subsamp = TJ.SAMP_444; else if (matchArg(argv[i], "422", 3)) subsamp = TJ.SAMP_422; else if (matchArg(argv[i], "440", 3)) subsamp = TJ.SAMP_440; else if (matchArg(argv[i], "420", 3)) subsamp = TJ.SAMP_420; else if (matchArg(argv[i], "411", 3)) subsamp = TJ.SAMP_411; else if (matchArg(argv[i], "441", 3)) subsamp = TJ.SAMP_441; else usage(); } else break; } if (i != argv.length - 2) usage(); if (losslessPSV == -1 && precision != 8 && precision != 12) usage(); tjc = new TJCompressor(); tjc.set(TJ.PARAM_QUALITY, quality); tjc.set(TJ.PARAM_SUBSAMP, subsamp); tjc.set(TJ.PARAM_PRECISION, precision); if (fastDCT >= 0) tjc.set(TJ.PARAM_FASTDCT, fastDCT); if (optimize >= 0) tjc.set(TJ.PARAM_OPTIMIZE, optimize); if (progressive >= 0) tjc.set(TJ.PARAM_PROGRESSIVE, progressive); if (arithmetic >= 0) tjc.set(TJ.PARAM_ARITHMETIC, arithmetic); if (losslessPSV >= 1 && losslessPSV <= 7) { tjc.set(TJ.PARAM_LOSSLESS, 1); tjc.set(TJ.PARAM_LOSSLESSPSV, losslessPSV); if (losslessPt >= 0) tjc.set(TJ.PARAM_LOSSLESSPT, losslessPt); } if (restartIntervalBlocks >= 0) tjc.set(TJ.PARAM_RESTARTBLOCKS, restartIntervalBlocks); if (restartIntervalRows >= 0) tjc.set(TJ.PARAM_RESTARTROWS, restartIntervalRows); if (maxMemory >= 0) tjc.set(TJ.PARAM_MAXMEMORY, maxMemory); tjc.loadSourceImage(argv[i], 1, pixelFormat); pixelFormat = tjc.getPixelFormat(); if (pixelFormat == TJ.PF_GRAY && colorspace < 0) colorspace = TJ.CS_GRAY; if (colorspace >= 0) tjc.set(TJ.PARAM_COLORSPACE, colorspace); if (iccFilename != null) { File iccFile = new File(iccFilename); fis = new FileInputStream(iccFile); int iccSize = fis.available(); if (iccSize < 1) throw new Exception("ICC profile contains no data"); iccBuf = new byte[iccSize]; fis.read(iccBuf); fis.close(); fis = null; tjc.setICCProfile(iccBuf); } jpegBuf = tjc.compress(); File outFile = new File(argv[++i]); fos = new FileOutputStream(outFile); fos.write(jpegBuf, 0, tjc.getCompressedSize()); } catch (Exception e) { e.printStackTrace(); exitStatus = -1; } try { if (fis != null) fis.close(); if (fos != null) fos.close(); if (tjc != null) tjc.close(); } catch (Exception e) {} System.exit(exitStatus); } };