/* -*- Mode: Java; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim: set shiftwidth=2 tabstop=2 autoindent cindent expandtab: */ 'use strict'; var PDFImage = (function PDFImageClosure() { /** * Decode the image in the main thread if it supported. Resovles the promise * when the image data is ready. */ function handleImageData(handler, xref, res, image, promise) { if (image instanceof JpegStream && image.isNative) { // For natively supported jpegs send them to the main thread for decoding. var dict = image.dict; var colorSpace = dict.get('ColorSpace', 'CS'); colorSpace = ColorSpace.parse(colorSpace, xref, res); var numComps = colorSpace.numComps; handler.send('jpeg_decode', [image.getIR(), numComps], function(message) { var data = message.data; var stream = new Stream(data, 0, data.length, image.dict); promise.resolve(stream); }); } else { promise.resolve(image); } } function PDFImage(xref, res, image, inline, smask) { this.image = image; if (image.getParams) { // JPX/JPEG2000 streams directly contain bits per component // and color space mode information. TODO('get params from actual stream'); // var bits = ... // var colorspace = ... } // TODO cache rendered images? var dict = image.dict; this.width = dict.get('Width', 'W'); this.height = dict.get('Height', 'H'); if (this.width < 1 || this.height < 1) error('Invalid image width: ' + this.width + ' or height: ' + this.height); this.interpolate = dict.get('Interpolate', 'I') || false; this.imageMask = dict.get('ImageMask', 'IM') || false; var bitsPerComponent = image.bitsPerComponent; if (!bitsPerComponent) { bitsPerComponent = dict.get('BitsPerComponent', 'BPC'); if (!bitsPerComponent) { if (this.imageMask) bitsPerComponent = 1; else error('Bits per component missing in image: ' + this.imageMask); } } this.bpc = bitsPerComponent; if (!this.imageMask) { var colorSpace = dict.get('ColorSpace', 'CS'); if (!colorSpace) { TODO('JPX images (which don"t require color spaces'); colorSpace = new Name('DeviceRGB'); } this.colorSpace = ColorSpace.parse(colorSpace, xref, res); this.numComps = this.colorSpace.numComps; } this.decode = dict.get('Decode', 'D'); var mask = xref.fetchIfRef(dict.get('Mask')); if (mask) { TODO('masked images'); } else if (smask) { this.smask = new PDFImage(xref, res, smask, false); } } /** * Handles processing of image data and calls the callback with an argument * of a PDFImage when the image is ready to be used. */ PDFImage.buildImage = function buildImage(callback, handler, xref, res, image, inline) { var imageDataPromise = new Promise(); var smaskPromise = new Promise(); // The image data and smask data may not be ready yet, wait till both are // resolved. Promise.all([imageDataPromise, smaskPromise]).then(function(results) { var imageData = results[0], smaskData = results[1]; var image = new PDFImage(xref, res, imageData, inline, smaskData); callback(image); }); handleImageData(handler, xref, res, image, imageDataPromise); var smask = xref.fetchIfRef(image.dict.get('SMask')); if (smask) handleImageData(handler, xref, res, smask, smaskPromise); else smaskPromise.resolve(null); }; PDFImage.prototype = { getComponents: function getComponents(buffer, decodeMap) { var bpc = this.bpc; if (bpc == 8) return buffer; var width = this.width; var height = this.height; var numComps = this.numComps; var length = width * height; var bufferPos = 0; var output = bpc <= 8 ? new Uint8Array(length) : bpc <= 16 ? new Uint16Array(length) : new Uint32Array(length); var rowComps = width * numComps; if (bpc == 1) { var valueZero = 0, valueOne = 1; if (decodeMap) { valueZero = decodeMap[0] ? 1 : 0; valueOne = decodeMap[1] ? 1 : 0; } var mask = 0; var buf = 0; for (var i = 0, ii = length; i < ii; ++i) { if (i % rowComps == 0) { mask = 0; buf = 0; } else { mask >>= 1; } if (mask <= 0) { buf = buffer[bufferPos++]; mask = 128; } output[i] = !(buf & mask) ? valueZero : valueOne; } } else { if (decodeMap != null) TODO('interpolate component values'); var bits = 0, buf = 0; for (var i = 0, ii = length; i < ii; ++i) { if (i % rowComps == 0) { buf = 0; bits = 0; } while (bits < bpc) { buf = (buf << 8) | buffer[bufferPos++]; bits += 8; } var remainingBits = bits - bpc; output[i] = buf >> remainingBits; buf = buf & ((1 << remainingBits) - 1); bits = remainingBits; } } return output; }, getOpacity: function getOpacity() { var smask = this.smask; var width = this.width; var height = this.height; var buf = new Uint8Array(width * height); if (smask) { var sw = smask.width; var sh = smask.height; if (sw != this.width || sh != this.height) error('smask dimensions do not match image dimensions: ' + sw + ' != ' + this.width + ', ' + sh + ' != ' + this.height); smask.fillGrayBuffer(buf); return buf; } else { for (var i = 0, ii = width * height; i < ii; ++i) buf[i] = 255; } return buf; }, applyStencilMask: function applyStencilMask(buffer, inverseDecode) { var width = this.width, height = this.height; var bitStrideLength = (width + 7) >> 3; var imgArray = this.getImageBytes(bitStrideLength * height); var imgArrayPos = 0; var i, j, mask, buf; // removing making non-masked pixels transparent var bufferPos = 3; // alpha component offset for (i = 0; i < height; i++) { mask = 0; for (j = 0; j < width; j++) { if (!mask) { buf = imgArray[imgArrayPos++]; mask = 128; } if (!(buf & mask) == inverseDecode) { buffer[bufferPos] = 0; } bufferPos += 4; mask >>= 1; } } }, fillRgbaBuffer: function fillRgbaBuffer(buffer, decodeMap) { var numComps = this.numComps; var width = this.width; var height = this.height; var bpc = this.bpc; // rows start at byte boundary; var rowBytes = (width * numComps * bpc + 7) >> 3; var imgArray = this.getImageBytes(height * rowBytes); var comps = this.colorSpace.getRgbBuffer( this.getComponents(imgArray, decodeMap), bpc); var compsPos = 0; var opacity = this.getOpacity(); var opacityPos = 0; var length = width * height * 4; for (var i = 0; i < length; i += 4) { buffer[i] = comps[compsPos++]; buffer[i + 1] = comps[compsPos++]; buffer[i + 2] = comps[compsPos++]; buffer[i + 3] = opacity[opacityPos++]; } }, fillGrayBuffer: function fillGrayBuffer(buffer) { var numComps = this.numComps; if (numComps != 1) error('Reading gray scale from a color image: ' + numComps); var width = this.width; var height = this.height; var bpc = this.bpc; // rows start at byte boundary; var rowBytes = (width * numComps * bpc + 7) >> 3; var imgArray = this.getImageBytes(height * rowBytes); var comps = this.getComponents(imgArray); var length = width * height; for (var i = 0; i < length; ++i) buffer[i] = comps[i]; }, getImageBytes: function getImageBytes(length) { this.image.reset(); return this.image.getBytes(length); } }; return PDFImage; })(); function loadJpegStream(id, imageData, objs) { var img = new Image(); img.onload = (function jpegImageLoaderOnload() { objs.resolve(id, img); }); img.src = 'data:image/jpeg;base64,' + window.btoa(imageData); }