/* * Copyright 2002-2015 Drew Noakes * * Licensed under the Apache License, Version 2.0 (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.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * * More information about this project is available at: * * https://drewnoakes.com/code/exif/ * https://github.com/drewnoakes/metadata-extractor */ package com.drew.metadata.exif; import com.drew.lang.annotations.NotNull; import com.drew.lang.annotations.Nullable; import com.drew.metadata.MetadataException; import java.io.FileOutputStream; import java.io.IOException; import java.util.HashMap; /** * One of several Exif directories. Otherwise known as IFD1, this directory holds information about an embedded thumbnail image. * * @author Drew Noakes https://drewnoakes.com */ public class ExifThumbnailDirectory extends ExifDirectoryBase { /** * The offset to thumbnail image bytes. */ public static final int TAG_THUMBNAIL_OFFSET = 0x0201; /** * The size of the thumbnail image data in bytes. */ public static final int TAG_THUMBNAIL_LENGTH = 0x0202; /** * Shows compression method for Thumbnail. * 1 = Uncompressed * 2 = CCITT 1D * 3 = T4/Group 3 Fax * 4 = T6/Group 4 Fax * 5 = LZW * 6 = JPEG (old-style) * 7 = JPEG * 8 = Adobe Deflate * 9 = JBIG B&W * 10 = JBIG Color * 32766 = Next * 32771 = CCIRLEW * 32773 = PackBits * 32809 = Thunderscan * 32895 = IT8CTPAD * 32896 = IT8LW * 32897 = IT8MP * 32898 = IT8BL * 32908 = PixarFilm * 32909 = PixarLog * 32946 = Deflate * 32947 = DCS * 34661 = JBIG * 34676 = SGILog * 34677 = SGILog24 * 34712 = JPEG 2000 * 34713 = Nikon NEF Compressed */ public static final int TAG_THUMBNAIL_COMPRESSION = 0x0103; @NotNull protected static final HashMap _tagNameMap = new HashMap(); static { addExifTagNames(_tagNameMap); _tagNameMap.put(TAG_THUMBNAIL_COMPRESSION, "Thumbnail Compression"); _tagNameMap.put(TAG_THUMBNAIL_OFFSET, "Thumbnail Offset"); _tagNameMap.put(TAG_THUMBNAIL_LENGTH, "Thumbnail Length"); } @Nullable private byte[] _thumbnailData; public ExifThumbnailDirectory() { this.setDescriptor(new ExifThumbnailDescriptor(this)); } @Override @NotNull public String getName() { return "Exif Thumbnail"; } @Override @NotNull protected HashMap getTagNameMap() { return _tagNameMap; } public boolean hasThumbnailData() { return _thumbnailData != null; } @Nullable public byte[] getThumbnailData() { return _thumbnailData; } public void setThumbnailData(@Nullable byte[] data) { _thumbnailData = data; } public void writeThumbnail(@NotNull String filename) throws MetadataException, IOException { byte[] data = _thumbnailData; if (data == null) throw new MetadataException("No thumbnail data exists."); FileOutputStream stream = null; try { stream = new FileOutputStream(filename); stream.write(data); } finally { if (stream != null) stream.close(); } } /* // This thumbnail extraction code is not complete, and is included to assist anyone who feels like looking into // it. Please share any progress with the original author, and hence the community. Thanks. public Image getThumbnailImage() throws MetadataException { if (!hasThumbnailData()) return null; int compression = 0; try { compression = this.getInt(ExifSubIFDDirectory.TAG_COMPRESSION); } catch (Throwable e) { this.addError("Unable to determine thumbnail type " + e.getMessage()); } final byte[] thumbnailBytes = getThumbnailData(); if (compression == ExifSubIFDDirectory.COMPRESSION_JPEG) { // JPEG Thumbnail // operate directly on thumbnailBytes return decodeBytesAsImage(thumbnailBytes); } else if (compression == ExifSubIFDDirectory.COMPRESSION_NONE) { // uncompressed thumbnail (raw RGB data) if (!this.containsTag(ExifSubIFDDirectory.TAG_PHOTOMETRIC_INTERPRETATION)) return null; try { // If the image is RGB format, then convert it to a bitmap final int photometricInterpretation = this.getInt(ExifSubIFDDirectory.TAG_PHOTOMETRIC_INTERPRETATION); if (photometricInterpretation == ExifSubIFDDirectory.PHOTOMETRIC_INTERPRETATION_RGB) { // RGB Image image = createImageFromRawRgb(thumbnailBytes); return image; } else if (photometricInterpretation == ExifSubIFDDirectory.PHOTOMETRIC_INTERPRETATION_YCBCR) { // YCbCr Image image = createImageFromRawYCbCr(thumbnailBytes); return image; } else if (photometricInterpretation == ExifSubIFDDirectory.PHOTOMETRIC_INTERPRETATION_MONOCHROME) { // Monochrome return null; } } catch (Throwable e) { this.addError("Unable to extract thumbnail: " + e.getMessage()); } } return null; } /** * Handle the YCbCr thumbnail encoding used by Ricoh RDC4200/4300, Fuji DS-7/300 and DX-5/7/9 cameras. * * At DX-5/7/9, YCbCrSubsampling(0x0212) has values of '2,1', PlanarConfiguration(0x011c) has a value '1'. So the * data align of this image is below. * * Y(0,0),Y(1,0),Cb(0,0),Cr(0,0), Y(2,0),Y(3,0),Cb(2,0),Cr(3.0), Y(4,0),Y(5,0),Cb(4,0),Cr(4,0). . . . * * The numbers in parenthesis are pixel coordinates. DX series' YCbCrCoefficients(0x0211) has values '0.299/0.587/0.114', * ReferenceBlackWhite(0x0214) has values '0,255,128,255,128,255'. Therefore to convert from Y/Cb/Cr to RGB is; * * B(0,0)=(Cb-128)*(2-0.114*2)+Y(0,0) * R(0,0)=(Cr-128)*(2-0.299*2)+Y(0,0) * G(0,0)=(Y(0,0)-0.114*B(0,0)-0.299*R(0,0))/0.587 * * Horizontal subsampling is a value '2', so you can calculate B(1,0)/R(1,0)/G(1,0) by using the Y(1,0) and Cr(0,0)/Cb(0,0). * Repeat this conversion by value of ImageWidth(0x0100) and ImageLength(0x0101). * * @param thumbnailBytes * @return * @throws com.drew.metadata.MetadataException * / private Image createImageFromRawYCbCr(byte[] thumbnailBytes) throws MetadataException { /* Y = 0.257R + 0.504G + 0.098B + 16 Cb = -0.148R - 0.291G + 0.439B + 128 Cr = 0.439R - 0.368G - 0.071B + 128 G = 1.164(Y-16) - 0.391(Cb-128) - 0.813(Cr-128) R = 1.164(Y-16) + 1.596(Cr-128) B = 1.164(Y-16) + 2.018(Cb-128) R, G and B range from 0 to 255. Y ranges from 16 to 235. Cb and Cr range from 16 to 240. http://www.faqs.org/faqs/graphics/colorspace-faq/ * / int length = thumbnailBytes.length; // this.getInt(ExifSubIFDDirectory.TAG_STRIP_BYTE_COUNTS); final int imageWidth = this.getInt(ExifSubIFDDirectory.TAG_THUMBNAIL_IMAGE_WIDTH); final int imageHeight = this.getInt(ExifSubIFDDirectory.TAG_THUMBNAIL_IMAGE_HEIGHT); // final int headerLength = 54; // byte[] result = new byte[length + headerLength]; // // Add a windows BMP header described: // // http://www.onicos.com/staff/iz/formats/bmp.html // result[0] = 'B'; // result[1] = 'M'; // File Type identifier // result[3] = (byte)(result.length / 256); // result[2] = (byte)result.length; // result[10] = (byte)headerLength; // result[14] = 40; // MS Windows BMP header // result[18] = (byte)imageWidth; // result[22] = (byte)imageHeight; // result[26] = 1; // 1 Plane // result[28] = 24; // Colour depth // result[34] = (byte)length; // result[35] = (byte)(length / 256); final BufferedImage image = new BufferedImage(imageWidth, imageHeight, BufferedImage.TYPE_INT_RGB); // order is YCbCr and image is upside down, bitmaps are BGR //// for (int i = headerLength, dataOffset = length; i235 || cb<16 || cb>240 || cr<16 || cr>240) // "".toString(); // // int g = (int)(1.164*(y-16) - 0.391*(cb-128) - 0.813*(cr-128)); // int r = (int)(1.164*(y-16) + 1.596*(cr-128)); // int b = (int)(1.164*(y-16) + 2.018*(cb-128)); // //// result[i] = (byte)b; //// result[i + 1] = (byte)g; //// result[i + 2] = (byte)r; // // // TODO compose the image here // image.setRGB(1, 2, 3); // } return image; } /** * Creates a thumbnail image in (Windows) BMP format from raw RGB data. * @param thumbnailBytes * @return * @throws com.drew.metadata.MetadataException * / private Image createImageFromRawRgb(byte[] thumbnailBytes) throws MetadataException { final int length = thumbnailBytes.length; // this.getInt(ExifSubIFDDirectory.TAG_STRIP_BYTE_COUNTS); final int imageWidth = this.getInt(ExifSubIFDDirectory.TAG_THUMBNAIL_IMAGE_WIDTH); final int imageHeight = this.getInt(ExifSubIFDDirectory.TAG_THUMBNAIL_IMAGE_HEIGHT); // final int headerLength = 54; // final byte[] result = new byte[length + headerLength]; // // Add a windows BMP header described: // // http://www.onicos.com/staff/iz/formats/bmp.html // result[0] = 'B'; // result[1] = 'M'; // File Type identifier // result[3] = (byte)(result.length / 256); // result[2] = (byte)result.length; // result[10] = (byte)headerLength; // result[14] = 40; // MS Windows BMP header // result[18] = (byte)imageWidth; // result[22] = (byte)imageHeight; // result[26] = 1; // 1 Plane // result[28] = 24; // Colour depth // result[34] = (byte)length; // result[35] = (byte)(length / 256); final BufferedImage image = new BufferedImage(imageWidth, imageHeight, BufferedImage.TYPE_INT_RGB); // order is RGB and image is upside down, bitmaps are BGR // for (int i = headerLength, dataOffset = length; i