ui/file_manager/gallery/js/image_editor/exif_encoder.js - platform/external/chromium_org - Git at Google

 // Copyright 2014 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 // TODO:(kaznacheev) Share the EXIF constants with exif_parser.js
 var EXIF_MARK_SOS = 0xffda;  // Start of "stream" (the actual image data).
 var EXIF_MARK_SOI = 0xffd8;  // Start of image data.
 var EXIF_MARK_EOI = 0xffd9;  // End of image data.

 var EXIF_MARK_APP0 = 0xffe0;  // APP0 block, most commonly JFIF data.
 var EXIF_MARK_EXIF = 0xffe1;  // Start of exif block.

 var EXIF_ALIGN_LITTLE = 0x4949;  // Indicates little endian exif data.
 var EXIF_ALIGN_BIG = 0x4d4d;  // Indicates big endian exif data.

 var EXIF_TAG_TIFF = 0x002a;  // First directory containing TIFF data.
 var EXIF_TAG_GPSDATA = 0x8825;  // Pointer from TIFF to the GPS directory.
 var EXIF_TAG_EXIFDATA = 0x8769;  // Pointer from TIFF to the EXIF IFD.

 var EXIF_TAG_JPG_THUMB_OFFSET = 0x0201;  // Pointer from TIFF to thumbnail.
 var EXIF_TAG_JPG_THUMB_LENGTH = 0x0202;  // Length of thumbnail data.

 var EXIF_TAG_IMAGE_WIDTH = 0x0100;
 var EXIF_TAG_IMAGE_HEIGHT = 0x0101;

 var EXIF_TAG_ORIENTATION = 0x0112;
 var EXIF_TAG_X_DIMENSION = 0xA002;
 var EXIF_TAG_Y_DIMENSION = 0xA003;

 /**
  * The Exif metadata encoder.
  * Uses the metadata format as defined by ExifParser.
  * @param {Object} original_metadata Metadata to encode.
  * @constructor
  * @extends {ImageEncoder.MetadataEncoder}
  */
 function ExifEncoder(original_metadata) {
   ImageEncoder.MetadataEncoder.apply(this, arguments);

   this.ifd_ = this.metadata_.ifd;
   if (!this.ifd_)
     this.ifd_ = this.metadata_.ifd = {};
 }

 ExifEncoder.prototype = {__proto__: ImageEncoder.MetadataEncoder.prototype};

 ImageEncoder.registerMetadataEncoder(ExifEncoder, 'image/jpeg');

 /**
  * @param {HTMLCanvasElement|Object} canvas Canvas or anything with
  *                                          width and height properties.
  */
 ExifEncoder.prototype.setImageData = function(canvas) {
   var image = this.ifd_.image;
   if (!image)
     image = this.ifd_.image = {};

   // Only update width/height in this directory if they are present.
   if (image[EXIF_TAG_IMAGE_WIDTH] && image[EXIF_TAG_IMAGE_HEIGHT]) {
     image[EXIF_TAG_IMAGE_WIDTH].value = canvas.width;
     image[EXIF_TAG_IMAGE_HEIGHT].value = canvas.height;
   }

   var exif = this.ifd_.exif;
   if (!exif)
     exif = this.ifd_.exif = {};
   ExifEncoder.findOrCreateTag(image, EXIF_TAG_EXIFDATA);
   ExifEncoder.findOrCreateTag(exif, EXIF_TAG_X_DIMENSION).value = canvas.width;
   ExifEncoder.findOrCreateTag(exif, EXIF_TAG_Y_DIMENSION).value = canvas.height;

   this.metadata_.width = canvas.width;
   this.metadata_.height = canvas.height;

   // Always save in default orientation.
   delete this.metadata_.imageTransform;
   ExifEncoder.findOrCreateTag(image, EXIF_TAG_ORIENTATION).value = 1;
 };


 /**
  * @param {HTMLCanvasElement} canvas Thumbnail canvas.
  * @param {number} quality (0..1] Thumbnail encoding quality.
  */
 ExifEncoder.prototype.setThumbnailData = function(canvas, quality) {
   // Empirical formula with reasonable behavior:
   // 10K for 1Mpix, 30K for 5Mpix, 50K for 9Mpix and up.
   var pixelCount = this.metadata_.width * this.metadata_.height;
   var maxEncodedSize = 5000 * Math.min(10, 1 + pixelCount / 1000000);

   var DATA_URL_PREFIX = 'data:' + this.mimeType + ';base64,';
   var BASE64_BLOAT = 4 / 3;
   var maxDataURLLength =
       DATA_URL_PREFIX.length + Math.ceil(maxEncodedSize * BASE64_BLOAT);

   for (;; quality *= 0.8) {
     ImageEncoder.MetadataEncoder.prototype.setThumbnailData.call(
         this, canvas, quality);
     if (this.metadata_.thumbnailURL.length <= maxDataURLLength || quality < 0.2)
       break;
   }

   if (this.metadata_.thumbnailURL.length <= maxDataURLLength) {
     var thumbnail = this.ifd_.thumbnail;
     if (!thumbnail)
       thumbnail = this.ifd_.thumbnail = {};

     ExifEncoder.findOrCreateTag(thumbnail, EXIF_TAG_IMAGE_WIDTH).value =
         canvas.width;

     ExifEncoder.findOrCreateTag(thumbnail, EXIF_TAG_IMAGE_HEIGHT).value =
         canvas.height;

     // The values for these tags will be set in ExifWriter.encode.
     ExifEncoder.findOrCreateTag(thumbnail, EXIF_TAG_JPG_THUMB_OFFSET);
     ExifEncoder.findOrCreateTag(thumbnail, EXIF_TAG_JPG_THUMB_LENGTH);

     // Always save in default orientation.
     ExifEncoder.findOrCreateTag(thumbnail, EXIF_TAG_ORIENTATION).value = 1;
   } else {
     console.warn(
         'Thumbnail URL too long: ' + this.metadata_.thumbnailURL.length);
     // Delete thumbnail ifd so that it is not written out to a file, but
     // keep thumbnailURL for display purposes.
     if (this.ifd_.thumbnail) {
       delete this.ifd_.thumbnail;
     }
   }
   delete this.metadata_.thumbnailTransform;
 };

 /**
  * Return a range where the metadata is (or should be) located.
  * @param {string} encodedImage Raw image data to look for metadata.
  * @return {Object} An object with from and to properties.
  */
 ExifEncoder.prototype.findInsertionRange = function(encodedImage) {
   function getWord(pos) {
     if (pos + 2 > encodedImage.length)
       throw 'Reading past the buffer end @' + pos;
     return encodedImage.charCodeAt(pos) << 8 | encodedImage.charCodeAt(pos + 1);
   }

   if (getWord(0) != EXIF_MARK_SOI)
     throw new Error('Jpeg data starts from 0x' + getWord(0).toString(16));

   var sectionStart = 2;

   // Default: an empty range right after SOI.
   // Will be returned in absence of APP0 or Exif sections.
   var range = {from: sectionStart, to: sectionStart};

   for (;;) {
     var tag = getWord(sectionStart);

     if (tag == EXIF_MARK_SOS)
       break;

     var nextSectionStart = sectionStart + 2 + getWord(sectionStart + 2);
     if (nextSectionStart <= sectionStart ||
         nextSectionStart > encodedImage.length)
       throw new Error('Invalid section size in jpeg data');

     if (tag == EXIF_MARK_APP0) {
       // Assert that we have not seen the Exif section yet.
       if (range.from != range.to)
         throw new Error('APP0 section found after EXIF section');
       // An empty range right after the APP0 segment.
       range.from = range.to = nextSectionStart;
     } else if (tag == EXIF_MARK_EXIF) {
       // A range containing the existing EXIF section.
       range.from = sectionStart;
       range.to = nextSectionStart;
     }
     sectionStart = nextSectionStart;
   }

   return range;
 };

 /**
  * @return {ArrayBuffer} serialized metadata ready to write to an image file.
  */
 ExifEncoder.prototype.encode = function() {
   var HEADER_SIZE = 10;

   // Allocate the largest theoretically possible size.
   var bytes = new Uint8Array(0x10000);

   // Serialize header
   var hw = new ByteWriter(bytes.buffer, 0, HEADER_SIZE);
   hw.writeScalar(EXIF_MARK_EXIF, 2);
   hw.forward('size', 2);
   hw.writeString('Exif\0\0');  // Magic string.

   // First serialize the content of the exif section.
   // Use a ByteWriter starting at HEADER_SIZE offset so that tell() positions
   // can be directly mapped to offsets as encoded in the dictionaries.
   var bw = new ByteWriter(bytes.buffer, HEADER_SIZE);

   if (this.metadata_.littleEndian) {
     bw.setByteOrder(ByteWriter.LITTLE_ENDIAN);
     bw.writeScalar(EXIF_ALIGN_LITTLE, 2);
   } else {
     bw.setByteOrder(ByteWriter.BIG_ENDIAN);
     bw.writeScalar(EXIF_ALIGN_BIG, 2);
   }

   bw.writeScalar(EXIF_TAG_TIFF, 2);

   bw.forward('image-dir', 4);  // The pointer should point right after itself.
   bw.resolveOffset('image-dir');

   ExifEncoder.encodeDirectory(bw, this.ifd_.image,
       [EXIF_TAG_EXIFDATA, EXIF_TAG_GPSDATA], 'thumb-dir');

   if (this.ifd_.exif) {
     bw.resolveOffset(EXIF_TAG_EXIFDATA);
     ExifEncoder.encodeDirectory(bw, this.ifd_.exif);
   } else {
     if (EXIF_TAG_EXIFDATA in this.ifd_.image)
       throw new Error('Corrupt exif dictionary reference');
   }

   if (this.ifd_.gps) {
     bw.resolveOffset(EXIF_TAG_GPSDATA);
     ExifEncoder.encodeDirectory(bw, this.ifd_.gps);
   } else {
     if (EXIF_TAG_GPSDATA in this.ifd_.image)
       throw new Error('Missing gps dictionary reference');
   }

   if (this.ifd_.thumbnail) {
     bw.resolveOffset('thumb-dir');
     ExifEncoder.encodeDirectory(
         bw,
         this.ifd_.thumbnail,
         [EXIF_TAG_JPG_THUMB_OFFSET, EXIF_TAG_JPG_THUMB_LENGTH]);

     var thumbnailDecoded =
         ImageEncoder.decodeDataURL(this.metadata_.thumbnailURL);
     bw.resolveOffset(EXIF_TAG_JPG_THUMB_OFFSET);
     bw.resolve(EXIF_TAG_JPG_THUMB_LENGTH, thumbnailDecoded.length);
     bw.writeString(thumbnailDecoded);
   } else {
     bw.resolve('thumb-dir', 0);
   }

   bw.checkResolved();

   var totalSize = HEADER_SIZE + bw.tell();
   hw.resolve('size', totalSize - 2);  // The marker is excluded.
   hw.checkResolved();

   var subarray = new Uint8Array(totalSize);
   for (var i = 0; i != totalSize; i++) {
     subarray[i] = bytes[i];
   }
   return subarray.buffer;
 };

 /*
  * Static methods.
  */

 /**
  * Write the contents of an IFD directory.
  * @param {ByteWriter} bw ByteWriter to use.
  * @param {Object} directory A directory map as created by ExifParser.
  * @param {Array} resolveLater An array of tag ids for which the values will be
  *                resolved later.
  * @param {string} nextDirPointer A forward key for the pointer to the next
  *                 directory. If omitted the pointer is set to 0.
  */
 ExifEncoder.encodeDirectory = function(
     bw, directory, resolveLater, nextDirPointer) {

   var longValues = [];

   bw.forward('dir-count', 2);
   var count = 0;

   for (var key in directory) {
     var tag = directory[key];
     bw.writeScalar(tag.id, 2);
     bw.writeScalar(tag.format, 2);
     bw.writeScalar(tag.componentCount, 4);

     var width = ExifEncoder.getComponentWidth(tag) * tag.componentCount;

     if (resolveLater && (resolveLater.indexOf(tag.id) >= 0)) {
       // The actual value depends on further computations.
       if (tag.componentCount != 1 || width > 4)
         throw new Error('Cannot forward the pointer for ' + tag.id);
       bw.forward(tag.id, width);
     } else if (width <= 4) {
       // The value fits into 4 bytes, write it immediately.
       ExifEncoder.writeValue(bw, tag);
     } else {
       // The value does not fit, forward the 4 byte offset to the actual value.
       width = 4;
       bw.forward(tag.id, width);
       longValues.push(tag);
     }
     bw.skip(4 - width);  // Align so that the value take up exactly 4 bytes.
     count++;
   }

   bw.resolve('dir-count', count);

   if (nextDirPointer) {
     bw.forward(nextDirPointer, 4);
   } else {
     bw.writeScalar(0, 4);
   }

   // Write out the long values and resolve pointers.
   for (var i = 0; i != longValues.length; i++) {
     var longValue = longValues[i];
     bw.resolveOffset(longValue.id);
     ExifEncoder.writeValue(bw, longValue);
   }
 };

 /**
  * @param {{format:number, id:number}} tag EXIF tag object.
  * @return {number} Width in bytes of the data unit associated with this tag.
  * TODO(kaznacheev): Share with ExifParser?
  */
 ExifEncoder.getComponentWidth = function(tag) {
   switch (tag.format) {
     case 1:  // Byte
     case 2:  // String
     case 7:  // Undefined
       return 1;

     case 3:  // Short
       return 2;

     case 4:  // Long
     case 9:  // Signed Long
       return 4;

     case 5:  // Rational
     case 10:  // Signed Rational
       return 8;

     default:  // ???
       console.warn('Unknown tag format 0x' +
           Number(tag.id).toString(16) + ': ' + tag.format);
       return 4;
   }
 };

 /**
  * Writes out the tag value.
  * @param {ByteWriter} bw Writer to use.
  * @param {Object} tag Tag, which value to write.
  */
 ExifEncoder.writeValue = function(bw, tag) {
   if (tag.format == 2) {  // String
     if (tag.componentCount != tag.value.length) {
       throw new Error(
           'String size mismatch for 0x' + Number(tag.id).toString(16));
     }
     bw.writeString(tag.value);
   } else {  // Scalar or rational
     var width = ExifEncoder.getComponentWidth(tag);

     var writeComponent = function(value, signed) {
       if (width == 8) {
         bw.writeScalar(value[0], 4, signed);
         bw.writeScalar(value[1], 4, signed);
       } else {
         bw.writeScalar(value, width, signed);
       }
     };

     var signed = (tag.format == 9 || tag.format == 10);
     if (tag.componentCount == 1) {
       writeComponent(tag.value, signed);
     } else {
       for (var i = 0; i != tag.componentCount; i++) {
         writeComponent(tag.value[i], signed);
       }
     }
   }
 };

 /**
  * @param {{Object.<number,Object>}} directory EXIF directory.
  * @param {number} id Tag id.
  * @param {number} format Tag format
  *                        (used in {@link ExifEncoder#getComponentWidth}).
  * @param {number} componentCount Number of components in this tag.
  * @return {{id:number, format:number, componentCount:number}}
  *     Tag found or created.
  */
 ExifEncoder.findOrCreateTag = function(directory, id, format, componentCount) {
   if (!(id in directory)) {
     directory[id] = {
       id: id,
       format: format || 3,  // Short
       componentCount: componentCount || 1
     };
   }
   return directory[id];
 };

 /**
  * ByteWriter class.
  * @param {ArrayBuffer} arrayBuffer Underlying buffer to use.
  * @param {number} offset Offset at which to start writing.
  * @param {number} length Maximum length to use.
  * @class
  * @constructor
  */
 function ByteWriter(arrayBuffer, offset, length) {
   length = length || (arrayBuffer.byteLength - offset);
   this.view_ = new DataView(arrayBuffer, offset, length);
   this.littleEndian_ = false;
   this.pos_ = 0;
   this.forwards_ = {};
 }

 /**
  * Little endian byte order.
  * @type {number}
  */
 ByteWriter.LITTLE_ENDIAN = 0;

 /**
  * Bug endian byte order.
  * @type {number}
  */
 ByteWriter.BIG_ENDIAN = 1;

 /**
  * Set the byte ordering for future writes.
  * @param {number} order ByteOrder to use {ByteWriter.LITTLE_ENDIAN}
  *   or {ByteWriter.BIG_ENDIAN}.
  */
 ByteWriter.prototype.setByteOrder = function(order) {
   this.littleEndian_ = (order == ByteWriter.LITTLE_ENDIAN);
 };

 /**
  * @return {number} the current write position.
  */
 ByteWriter.prototype.tell = function() { return this.pos_ };

 /**
  * Skips desired amount of bytes in output stream.
  * @param {number} count Byte count to skip.
  */
 ByteWriter.prototype.skip = function(count) {
   this.validateWrite(count);
   this.pos_ += count;
 };

 /**
  * Check if the buffer has enough room to read 'width' bytes. Throws an error
  * if it has not.
  * @param {number} width Amount of bytes to check.
  */
 ByteWriter.prototype.validateWrite = function(width) {
   if (this.pos_ + width > this.view_.byteLength)
     throw new Error('Writing past the end of the buffer');
 };

 /**
  * Writes scalar value to output stream.
  * @param {number} value Value to write.
  * @param {number} width Desired width of written value.
  * @param {boolean=} opt_signed True if value represents signed number.
  */
 ByteWriter.prototype.writeScalar = function(value, width, opt_signed) {
   var method;
   // The below switch is so verbose for two reasons:
   // 1. V8 is faster on method names which are 'symbols'.
   // 2. Method names are discoverable by full text search.
   switch (width) {
     case 1:
       method = opt_signed ? 'setInt8' : 'setUint8';
       break;

     case 2:
       method = opt_signed ? 'setInt16' : 'setUint16';
       break;

     case 4:
       method = opt_signed ? 'setInt32' : 'setUint32';
       break;

     case 8:
       method = opt_signed ? 'setInt64' : 'setUint64';
       break;

     default:
       throw new Error('Invalid width: ' + width);
       break;
   }

   this.validateWrite(width);
   this.view_[method](this.pos_, value, this.littleEndian_);
   this.pos_ += width;
 };

 /**
  * Writes string.
  * @param {string} str String to write.
  */
 ByteWriter.prototype.writeString = function(str) {
   this.validateWrite(str.length);
   for (var i = 0; i != str.length; i++) {
     this.view_.setUint8(this.pos_++, str.charCodeAt(i));
   }
 };

 /**
  * Allocate the space for 'width' bytes for the value that will be set later.
  * To be followed by a 'resolve' call with the same key.
  * @param {string} key A key to identify the value.
  * @param {number} width Width of the value in bytes.
  */
 ByteWriter.prototype.forward = function(key, width) {
   if (key in this.forwards_)
     throw new Error('Duplicate forward key ' + key);
   this.validateWrite(width);
   this.forwards_[key] = {
     pos: this.pos_,
     width: width
   };
   this.pos_ += width;
 };

 /**
  * Set the value previously allocated with a 'forward' call.
  * @param {string} key A key to identify the value.
  * @param {number} value value to write in pre-allocated space.
  */
 ByteWriter.prototype.resolve = function(key, value) {
   if (!(key in this.forwards_))
     throw new Error('Undeclared forward key ' + key.toString(16));
   var forward = this.forwards_[key];
   var curPos = this.pos_;
   this.pos_ = forward.pos;
   this.writeScalar(value, forward.width);
   this.pos_ = curPos;
   delete this.forwards_[key];
 };

 /**
  * A shortcut to resolve the value to the current write position.
  * @param {string} key A key to identify pre-allocated position.
  */
 ByteWriter.prototype.resolveOffset = function(key) {
   this.resolve(key, this.tell());
 };

 /**
  * Check if every forward has been resolved, throw and error if not.
  */
 ByteWriter.prototype.checkResolved = function() {
   for (var key in this.forwards_) {
     throw new Error('Unresolved forward pointer ' + key.toString(16));
   }
 };
	// Copyright 2014 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	// TODO:(kaznacheev) Share the EXIF constants with exif_parser.js
	var EXIF_MARK_SOS = 0xffda; // Start of "stream" (the actual image data).
	var EXIF_MARK_SOI = 0xffd8; // Start of image data.
	var EXIF_MARK_EOI = 0xffd9; // End of image data.

	var EXIF_MARK_APP0 = 0xffe0; // APP0 block, most commonly JFIF data.
	var EXIF_MARK_EXIF = 0xffe1; // Start of exif block.

	var EXIF_ALIGN_LITTLE = 0x4949; // Indicates little endian exif data.
	var EXIF_ALIGN_BIG = 0x4d4d; // Indicates big endian exif data.

	var EXIF_TAG_TIFF = 0x002a; // First directory containing TIFF data.
	var EXIF_TAG_GPSDATA = 0x8825; // Pointer from TIFF to the GPS directory.
	var EXIF_TAG_EXIFDATA = 0x8769; // Pointer from TIFF to the EXIF IFD.

	var EXIF_TAG_JPG_THUMB_OFFSET = 0x0201; // Pointer from TIFF to thumbnail.
	var EXIF_TAG_JPG_THUMB_LENGTH = 0x0202; // Length of thumbnail data.

	var EXIF_TAG_IMAGE_WIDTH = 0x0100;
	var EXIF_TAG_IMAGE_HEIGHT = 0x0101;

	var EXIF_TAG_ORIENTATION = 0x0112;
	var EXIF_TAG_X_DIMENSION = 0xA002;
	var EXIF_TAG_Y_DIMENSION = 0xA003;

	/**
	* The Exif metadata encoder.
	* Uses the metadata format as defined by ExifParser.
	* @param {Object} original_metadata Metadata to encode.
	* @constructor
	* @extends {ImageEncoder.MetadataEncoder}
	*/
	function ExifEncoder(original_metadata) {
	ImageEncoder.MetadataEncoder.apply(this, arguments);

	this.ifd_ = this.metadata_.ifd;
	if (!this.ifd_)
	this.ifd_ = this.metadata_.ifd = {};
	}

	ExifEncoder.prototype = {__proto__: ImageEncoder.MetadataEncoder.prototype};

	ImageEncoder.registerMetadataEncoder(ExifEncoder, 'image/jpeg');

	/**
	* @param {HTMLCanvasElement\|Object} canvas Canvas or anything with
	* width and height properties.
	*/
	ExifEncoder.prototype.setImageData = function(canvas) {
	var image = this.ifd_.image;
	if (!image)
	image = this.ifd_.image = {};

	// Only update width/height in this directory if they are present.
	if (image[EXIF_TAG_IMAGE_WIDTH] && image[EXIF_TAG_IMAGE_HEIGHT]) {
	image[EXIF_TAG_IMAGE_WIDTH].value = canvas.width;
	image[EXIF_TAG_IMAGE_HEIGHT].value = canvas.height;
	}

	var exif = this.ifd_.exif;
	if (!exif)
	exif = this.ifd_.exif = {};
	ExifEncoder.findOrCreateTag(image, EXIF_TAG_EXIFDATA);
	ExifEncoder.findOrCreateTag(exif, EXIF_TAG_X_DIMENSION).value = canvas.width;
	ExifEncoder.findOrCreateTag(exif, EXIF_TAG_Y_DIMENSION).value = canvas.height;

	this.metadata_.width = canvas.width;
	this.metadata_.height = canvas.height;

	// Always save in default orientation.
	delete this.metadata_.imageTransform;
	ExifEncoder.findOrCreateTag(image, EXIF_TAG_ORIENTATION).value = 1;
	};


	/**
	* @param {HTMLCanvasElement} canvas Thumbnail canvas.
	* @param {number} quality (0..1] Thumbnail encoding quality.
	*/
	ExifEncoder.prototype.setThumbnailData = function(canvas, quality) {
	// Empirical formula with reasonable behavior:
	// 10K for 1Mpix, 30K for 5Mpix, 50K for 9Mpix and up.
	var pixelCount = this.metadata_.width * this.metadata_.height;
	var maxEncodedSize = 5000 * Math.min(10, 1 + pixelCount / 1000000);

	var DATA_URL_PREFIX = 'data:' + this.mimeType + ';base64,';
	var BASE64_BLOAT = 4 / 3;
	var maxDataURLLength =
	DATA_URL_PREFIX.length + Math.ceil(maxEncodedSize * BASE64_BLOAT);

	for (;; quality *= 0.8) {
	ImageEncoder.MetadataEncoder.prototype.setThumbnailData.call(
	this, canvas, quality);
	if (this.metadata_.thumbnailURL.length <= maxDataURLLength \|\| quality < 0.2)
	break;
	}

	if (this.metadata_.thumbnailURL.length <= maxDataURLLength) {
	var thumbnail = this.ifd_.thumbnail;
	if (!thumbnail)
	thumbnail = this.ifd_.thumbnail = {};

	ExifEncoder.findOrCreateTag(thumbnail, EXIF_TAG_IMAGE_WIDTH).value =
	canvas.width;

	ExifEncoder.findOrCreateTag(thumbnail, EXIF_TAG_IMAGE_HEIGHT).value =
	canvas.height;

	// The values for these tags will be set in ExifWriter.encode.
	ExifEncoder.findOrCreateTag(thumbnail, EXIF_TAG_JPG_THUMB_OFFSET);
	ExifEncoder.findOrCreateTag(thumbnail, EXIF_TAG_JPG_THUMB_LENGTH);

	// Always save in default orientation.
	ExifEncoder.findOrCreateTag(thumbnail, EXIF_TAG_ORIENTATION).value = 1;
	} else {
	console.warn(
	'Thumbnail URL too long: ' + this.metadata_.thumbnailURL.length);
	// Delete thumbnail ifd so that it is not written out to a file, but
	// keep thumbnailURL for display purposes.
	if (this.ifd_.thumbnail) {
	delete this.ifd_.thumbnail;
	}
	}
	delete this.metadata_.thumbnailTransform;
	};

	/**
	* Return a range where the metadata is (or should be) located.
	* @param {string} encodedImage Raw image data to look for metadata.
	* @return {Object} An object with from and to properties.
	*/
	ExifEncoder.prototype.findInsertionRange = function(encodedImage) {
	function getWord(pos) {
	if (pos + 2 > encodedImage.length)
	throw 'Reading past the buffer end @' + pos;
	return encodedImage.charCodeAt(pos) << 8 \| encodedImage.charCodeAt(pos + 1);
	}

	if (getWord(0) != EXIF_MARK_SOI)
	throw new Error('Jpeg data starts from 0x' + getWord(0).toString(16));

	var sectionStart = 2;

	// Default: an empty range right after SOI.
	// Will be returned in absence of APP0 or Exif sections.
	var range = {from: sectionStart, to: sectionStart};

	for (;;) {
	var tag = getWord(sectionStart);

	if (tag == EXIF_MARK_SOS)
	break;

	var nextSectionStart = sectionStart + 2 + getWord(sectionStart + 2);
	if (nextSectionStart <= sectionStart \|\|
	nextSectionStart > encodedImage.length)
	throw new Error('Invalid section size in jpeg data');

	if (tag == EXIF_MARK_APP0) {
	// Assert that we have not seen the Exif section yet.
	if (range.from != range.to)
	throw new Error('APP0 section found after EXIF section');
	// An empty range right after the APP0 segment.
	range.from = range.to = nextSectionStart;
	} else if (tag == EXIF_MARK_EXIF) {
	// A range containing the existing EXIF section.
	range.from = sectionStart;
	range.to = nextSectionStart;
	}
	sectionStart = nextSectionStart;
	}

	return range;
	};

	/**
	* @return {ArrayBuffer} serialized metadata ready to write to an image file.
	*/
	ExifEncoder.prototype.encode = function() {
	var HEADER_SIZE = 10;

	// Allocate the largest theoretically possible size.
	var bytes = new Uint8Array(0x10000);

	// Serialize header
	var hw = new ByteWriter(bytes.buffer, 0, HEADER_SIZE);
	hw.writeScalar(EXIF_MARK_EXIF, 2);
	hw.forward('size', 2);
	hw.writeString('Exif\0\0'); // Magic string.

	// First serialize the content of the exif section.
	// Use a ByteWriter starting at HEADER_SIZE offset so that tell() positions
	// can be directly mapped to offsets as encoded in the dictionaries.
	var bw = new ByteWriter(bytes.buffer, HEADER_SIZE);

	if (this.metadata_.littleEndian) {
	bw.setByteOrder(ByteWriter.LITTLE_ENDIAN);
	bw.writeScalar(EXIF_ALIGN_LITTLE, 2);
	} else {
	bw.setByteOrder(ByteWriter.BIG_ENDIAN);
	bw.writeScalar(EXIF_ALIGN_BIG, 2);
	}

	bw.writeScalar(EXIF_TAG_TIFF, 2);

	bw.forward('image-dir', 4); // The pointer should point right after itself.
	bw.resolveOffset('image-dir');

	ExifEncoder.encodeDirectory(bw, this.ifd_.image,
	[EXIF_TAG_EXIFDATA, EXIF_TAG_GPSDATA], 'thumb-dir');

	if (this.ifd_.exif) {
	bw.resolveOffset(EXIF_TAG_EXIFDATA);
	ExifEncoder.encodeDirectory(bw, this.ifd_.exif);
	} else {
	if (EXIF_TAG_EXIFDATA in this.ifd_.image)
	throw new Error('Corrupt exif dictionary reference');
	}

	if (this.ifd_.gps) {
	bw.resolveOffset(EXIF_TAG_GPSDATA);
	ExifEncoder.encodeDirectory(bw, this.ifd_.gps);
	} else {
	if (EXIF_TAG_GPSDATA in this.ifd_.image)
	throw new Error('Missing gps dictionary reference');
	}

	if (this.ifd_.thumbnail) {
	bw.resolveOffset('thumb-dir');
	ExifEncoder.encodeDirectory(
	bw,
	this.ifd_.thumbnail,
	[EXIF_TAG_JPG_THUMB_OFFSET, EXIF_TAG_JPG_THUMB_LENGTH]);

	var thumbnailDecoded =
	ImageEncoder.decodeDataURL(this.metadata_.thumbnailURL);
	bw.resolveOffset(EXIF_TAG_JPG_THUMB_OFFSET);
	bw.resolve(EXIF_TAG_JPG_THUMB_LENGTH, thumbnailDecoded.length);
	bw.writeString(thumbnailDecoded);
	} else {
	bw.resolve('thumb-dir', 0);
	}

	bw.checkResolved();

	var totalSize = HEADER_SIZE + bw.tell();
	hw.resolve('size', totalSize - 2); // The marker is excluded.
	hw.checkResolved();

	var subarray = new Uint8Array(totalSize);
	for (var i = 0; i != totalSize; i++) {
	subarray[i] = bytes[i];
	}
	return subarray.buffer;
	};

	/*
	* Static methods.
	*/

	/**
	* Write the contents of an IFD directory.
	* @param {ByteWriter} bw ByteWriter to use.
	* @param {Object} directory A directory map as created by ExifParser.
	* @param {Array} resolveLater An array of tag ids for which the values will be
	* resolved later.
	* @param {string} nextDirPointer A forward key for the pointer to the next
	* directory. If omitted the pointer is set to 0.
	*/
	ExifEncoder.encodeDirectory = function(
	bw, directory, resolveLater, nextDirPointer) {

	var longValues = [];

	bw.forward('dir-count', 2);
	var count = 0;

	for (var key in directory) {
	var tag = directory[key];
	bw.writeScalar(tag.id, 2);
	bw.writeScalar(tag.format, 2);
	bw.writeScalar(tag.componentCount, 4);

	var width = ExifEncoder.getComponentWidth(tag) * tag.componentCount;

	if (resolveLater && (resolveLater.indexOf(tag.id) >= 0)) {
	// The actual value depends on further computations.
	if (tag.componentCount != 1 \|\| width > 4)
	throw new Error('Cannot forward the pointer for ' + tag.id);
	bw.forward(tag.id, width);
	} else if (width <= 4) {
	// The value fits into 4 bytes, write it immediately.
	ExifEncoder.writeValue(bw, tag);
	} else {
	// The value does not fit, forward the 4 byte offset to the actual value.
	width = 4;
	bw.forward(tag.id, width);
	longValues.push(tag);
	}
	bw.skip(4 - width); // Align so that the value take up exactly 4 bytes.
	count++;
	}

	bw.resolve('dir-count', count);

	if (nextDirPointer) {
	bw.forward(nextDirPointer, 4);
	} else {
	bw.writeScalar(0, 4);
	}

	// Write out the long values and resolve pointers.
	for (var i = 0; i != longValues.length; i++) {
	var longValue = longValues[i];
	bw.resolveOffset(longValue.id);
	ExifEncoder.writeValue(bw, longValue);
	}
	};

	/**
	* @param {{format:number, id:number}} tag EXIF tag object.
	* @return {number} Width in bytes of the data unit associated with this tag.
	* TODO(kaznacheev): Share with ExifParser?
	*/
	ExifEncoder.getComponentWidth = function(tag) {
	switch (tag.format) {
	case 1: // Byte
	case 2: // String
	case 7: // Undefined
	return 1;

	case 3: // Short
	return 2;

	case 4: // Long
	case 9: // Signed Long
	return 4;

	case 5: // Rational
	case 10: // Signed Rational
	return 8;

	default: // ???
	console.warn('Unknown tag format 0x' +
	Number(tag.id).toString(16) + ': ' + tag.format);
	return 4;
	}
	};

	/**
	* Writes out the tag value.
	* @param {ByteWriter} bw Writer to use.
	* @param {Object} tag Tag, which value to write.
	*/
	ExifEncoder.writeValue = function(bw, tag) {
	if (tag.format == 2) { // String
	if (tag.componentCount != tag.value.length) {
	throw new Error(
	'String size mismatch for 0x' + Number(tag.id).toString(16));
	}
	bw.writeString(tag.value);
	} else { // Scalar or rational
	var width = ExifEncoder.getComponentWidth(tag);

	var writeComponent = function(value, signed) {
	if (width == 8) {
	bw.writeScalar(value[0], 4, signed);
	bw.writeScalar(value[1], 4, signed);
	} else {
	bw.writeScalar(value, width, signed);
	}
	};

	var signed = (tag.format == 9 \|\| tag.format == 10);
	if (tag.componentCount == 1) {
	writeComponent(tag.value, signed);
	} else {
	for (var i = 0; i != tag.componentCount; i++) {
	writeComponent(tag.value[i], signed);
	}
	}
	}
	};

	/**
	* @param {{Object.<number,Object>}} directory EXIF directory.
	* @param {number} id Tag id.
	* @param {number} format Tag format
	* (used in {@link ExifEncoder#getComponentWidth}).
	* @param {number} componentCount Number of components in this tag.
	* @return {{id:number, format:number, componentCount:number}}
	* Tag found or created.
	*/
	ExifEncoder.findOrCreateTag = function(directory, id, format, componentCount) {
	if (!(id in directory)) {
	directory[id] = {
	id: id,
	format: format \|\| 3, // Short
	componentCount: componentCount \|\| 1
	};
	}
	return directory[id];
	};

	/**
	* ByteWriter class.
	* @param {ArrayBuffer} arrayBuffer Underlying buffer to use.
	* @param {number} offset Offset at which to start writing.
	* @param {number} length Maximum length to use.
	* @class
	* @constructor
	*/
	function ByteWriter(arrayBuffer, offset, length) {
	length = length \|\| (arrayBuffer.byteLength - offset);
	this.view_ = new DataView(arrayBuffer, offset, length);
	this.littleEndian_ = false;
	this.pos_ = 0;
	this.forwards_ = {};
	}

	/**
	* Little endian byte order.
	* @type {number}
	*/
	ByteWriter.LITTLE_ENDIAN = 0;

	/**
	* Bug endian byte order.
	* @type {number}
	*/
	ByteWriter.BIG_ENDIAN = 1;

	/**
	* Set the byte ordering for future writes.
	* @param {number} order ByteOrder to use {ByteWriter.LITTLE_ENDIAN}
	* or {ByteWriter.BIG_ENDIAN}.
	*/
	ByteWriter.prototype.setByteOrder = function(order) {
	this.littleEndian_ = (order == ByteWriter.LITTLE_ENDIAN);
	};

	/**
	* @return {number} the current write position.
	*/
	ByteWriter.prototype.tell = function() { return this.pos_ };

	/**
	* Skips desired amount of bytes in output stream.
	* @param {number} count Byte count to skip.
	*/
	ByteWriter.prototype.skip = function(count) {
	this.validateWrite(count);
	this.pos_ += count;
	};

	/**
	* Check if the buffer has enough room to read 'width' bytes. Throws an error
	* if it has not.
	* @param {number} width Amount of bytes to check.
	*/
	ByteWriter.prototype.validateWrite = function(width) {
	if (this.pos_ + width > this.view_.byteLength)
	throw new Error('Writing past the end of the buffer');
	};

	/**
	* Writes scalar value to output stream.
	* @param {number} value Value to write.
	* @param {number} width Desired width of written value.
	* @param {boolean=} opt_signed True if value represents signed number.
	*/
	ByteWriter.prototype.writeScalar = function(value, width, opt_signed) {
	var method;
	// The below switch is so verbose for two reasons:
	// 1. V8 is faster on method names which are 'symbols'.
	// 2. Method names are discoverable by full text search.
	switch (width) {
	case 1:
	method = opt_signed ? 'setInt8' : 'setUint8';
	break;

	case 2:
	method = opt_signed ? 'setInt16' : 'setUint16';
	break;

	case 4:
	method = opt_signed ? 'setInt32' : 'setUint32';
	break;

	case 8:
	method = opt_signed ? 'setInt64' : 'setUint64';
	break;

	default:
	throw new Error('Invalid width: ' + width);
	break;
	}

	this.validateWrite(width);
	this.view_[method](this.pos_, value, this.littleEndian_);
	this.pos_ += width;
	};

	/**
	* Writes string.
	* @param {string} str String to write.
	*/
	ByteWriter.prototype.writeString = function(str) {
	this.validateWrite(str.length);
	for (var i = 0; i != str.length; i++) {
	this.view_.setUint8(this.pos_++, str.charCodeAt(i));
	}
	};

	/**
	* Allocate the space for 'width' bytes for the value that will be set later.
	* To be followed by a 'resolve' call with the same key.
	* @param {string} key A key to identify the value.
	* @param {number} width Width of the value in bytes.
	*/
	ByteWriter.prototype.forward = function(key, width) {
	if (key in this.forwards_)
	throw new Error('Duplicate forward key ' + key);
	this.validateWrite(width);
	this.forwards_[key] = {
	pos: this.pos_,
	width: width
	};
	this.pos_ += width;
	};

	/**
	* Set the value previously allocated with a 'forward' call.
	* @param {string} key A key to identify the value.
	* @param {number} value value to write in pre-allocated space.
	*/
	ByteWriter.prototype.resolve = function(key, value) {
	if (!(key in this.forwards_))
	throw new Error('Undeclared forward key ' + key.toString(16));
	var forward = this.forwards_[key];
	var curPos = this.pos_;
	this.pos_ = forward.pos;
	this.writeScalar(value, forward.width);
	this.pos_ = curPos;
	delete this.forwards_[key];
	};

	/**
	* A shortcut to resolve the value to the current write position.
	* @param {string} key A key to identify pre-allocated position.
	*/
	ByteWriter.prototype.resolveOffset = function(key) {
	this.resolve(key, this.tell());
	};

	/**
	* Check if every forward has been resolved, throw and error if not.
	*/
	ByteWriter.prototype.checkResolved = function() {
	for (var key in this.forwards_) {
	throw new Error('Unresolved forward pointer ' + key.toString(16));
	}
	};