/* Copyright 2017 Mozilla Foundation * * 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. */ 'use strict'; Object.defineProperty(exports, "__esModule", { value: true }); exports.PDFImage = undefined; var _util = require('../shared/util'); var _stream = require('./stream'); var _primitives = require('./primitives'); var _colorspace = require('./colorspace'); var _jpx = require('./jpx'); var PDFImage = function PDFImageClosure() { function handleImageData(image, nativeDecoder) { if (nativeDecoder && nativeDecoder.canDecode(image)) { return nativeDecoder.decode(image); } return Promise.resolve(image); } function decodeAndClamp(value, addend, coefficient, max) { value = addend + value * coefficient; return value < 0 ? 0 : value > max ? max : value; } function resizeImageMask(src, bpc, w1, h1, w2, h2) { var length = w2 * h2; var dest = bpc <= 8 ? new Uint8Array(length) : bpc <= 16 ? new Uint16Array(length) : new Uint32Array(length); var xRatio = w1 / w2; var yRatio = h1 / h2; var i, j, py, newIndex = 0, oldIndex; var xScaled = new Uint16Array(w2); var w1Scanline = w1; for (i = 0; i < w2; i++) { xScaled[i] = Math.floor(i * xRatio); } for (i = 0; i < h2; i++) { py = Math.floor(i * yRatio) * w1Scanline; for (j = 0; j < w2; j++) { oldIndex = py + xScaled[j]; dest[newIndex++] = src[oldIndex]; } } return dest; } function PDFImage(xref, res, image, inline, smask, mask, isMask) { this.image = image; var dict = image.dict; if (dict.has('Filter')) { var filter = dict.get('Filter').name; if (filter === 'JPXDecode') { var jpxImage = new _jpx.JpxImage(); jpxImage.parseImageProperties(image.stream); image.stream.reset(); image.bitsPerComponent = jpxImage.bitsPerComponent; image.numComps = jpxImage.componentsCount; } else if (filter === 'JBIG2Decode') { image.bitsPerComponent = 1; image.numComps = 1; } } this.width = dict.get('Width', 'W'); this.height = dict.get('Height', 'H'); if (this.width < 1 || this.height < 1) { throw new _util.FormatError('Invalid image width: ' + this.width + ' or ' + ('height: ' + this.height)); } this.interpolate = dict.get('Interpolate', 'I') || false; this.imageMask = dict.get('ImageMask', 'IM') || false; this.matte = dict.get('Matte') || false; var bitsPerComponent = image.bitsPerComponent; if (!bitsPerComponent) { bitsPerComponent = dict.get('BitsPerComponent', 'BPC'); if (!bitsPerComponent) { if (this.imageMask) { bitsPerComponent = 1; } else { throw new _util.FormatError('Bits per component missing in image: ' + this.imageMask); } } } this.bpc = bitsPerComponent; if (!this.imageMask) { var colorSpace = dict.get('ColorSpace', 'CS'); if (!colorSpace) { (0, _util.info)('JPX images (which do not require color spaces)'); switch (image.numComps) { case 1: colorSpace = _primitives.Name.get('DeviceGray'); break; case 3: colorSpace = _primitives.Name.get('DeviceRGB'); break; case 4: colorSpace = _primitives.Name.get('DeviceCMYK'); break; default: throw new Error('JPX images with ' + this.numComps + ' ' + 'color components not supported.'); } } this.colorSpace = _colorspace.ColorSpace.parse(colorSpace, xref, res); this.numComps = this.colorSpace.numComps; } this.decode = dict.getArray('Decode', 'D'); this.needsDecode = false; if (this.decode && (this.colorSpace && !this.colorSpace.isDefaultDecode(this.decode) || isMask && !_colorspace.ColorSpace.isDefaultDecode(this.decode, 1))) { this.needsDecode = true; var max = (1 << bitsPerComponent) - 1; this.decodeCoefficients = []; this.decodeAddends = []; for (var i = 0, j = 0; i < this.decode.length; i += 2, ++j) { var dmin = this.decode[i]; var dmax = this.decode[i + 1]; this.decodeCoefficients[j] = dmax - dmin; this.decodeAddends[j] = max * dmin; } } if (smask) { this.smask = new PDFImage(xref, res, smask, false); } else if (mask) { if ((0, _primitives.isStream)(mask)) { var maskDict = mask.dict, imageMask = maskDict.get('ImageMask', 'IM'); if (!imageMask) { (0, _util.warn)('Ignoring /Mask in image without /ImageMask.'); } else { this.mask = new PDFImage(xref, res, mask, false, null, null, true); } } else { this.mask = mask; } } } PDFImage.buildImage = function PDFImage_buildImage(handler, xref, res, image, inline, nativeDecoder) { var imagePromise = handleImageData(image, nativeDecoder); var smaskPromise; var maskPromise; var smask = image.dict.get('SMask'); var mask = image.dict.get('Mask'); if (smask) { smaskPromise = handleImageData(smask, nativeDecoder); maskPromise = Promise.resolve(null); } else { smaskPromise = Promise.resolve(null); if (mask) { if ((0, _primitives.isStream)(mask)) { maskPromise = handleImageData(mask, nativeDecoder); } else if ((0, _util.isArray)(mask)) { maskPromise = Promise.resolve(mask); } else { (0, _util.warn)('Unsupported mask format.'); maskPromise = Promise.resolve(null); } } else { maskPromise = Promise.resolve(null); } } return Promise.all([imagePromise, smaskPromise, maskPromise]).then(function (results) { var imageData = results[0]; var smaskData = results[1]; var maskData = results[2]; return new PDFImage(xref, res, imageData, inline, smaskData, maskData); }); }; PDFImage.createMask = function PDFImage_createMask(imgArray, width, height, imageIsFromDecodeStream, inverseDecode) { var computedLength = (width + 7 >> 3) * height; var actualLength = imgArray.byteLength; var haveFullData = computedLength === actualLength; var data, i; if (imageIsFromDecodeStream && (!inverseDecode || haveFullData)) { data = imgArray; } else if (!inverseDecode) { data = new Uint8Array(actualLength); data.set(imgArray); } else { data = new Uint8Array(computedLength); data.set(imgArray); for (i = actualLength; i < computedLength; i++) { data[i] = 0xff; } } if (inverseDecode) { for (i = 0; i < actualLength; i++) { data[i] = ~data[i]; } } return { data: data, width: width, height: height }; }; PDFImage.prototype = { get drawWidth() { return Math.max(this.width, this.smask && this.smask.width || 0, this.mask && this.mask.width || 0); }, get drawHeight() { return Math.max(this.height, this.smask && this.smask.height || 0, this.mask && this.mask.height || 0); }, decodeBuffer: function PDFImage_decodeBuffer(buffer) { var bpc = this.bpc; var numComps = this.numComps; var decodeAddends = this.decodeAddends; var decodeCoefficients = this.decodeCoefficients; var max = (1 << bpc) - 1; var i, ii; if (bpc === 1) { for (i = 0, ii = buffer.length; i < ii; i++) { buffer[i] = +!buffer[i]; } return; } var index = 0; for (i = 0, ii = this.width * this.height; i < ii; i++) { for (var j = 0; j < numComps; j++) { buffer[index] = decodeAndClamp(buffer[index], decodeAddends[j], decodeCoefficients[j], max); index++; } } }, getComponents: function PDFImage_getComponents(buffer) { 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 * numComps; var bufferPos = 0; var output = bpc <= 8 ? new Uint8Array(length) : bpc <= 16 ? new Uint16Array(length) : new Uint32Array(length); var rowComps = width * numComps; var max = (1 << bpc) - 1; var i = 0, ii, buf; if (bpc === 1) { var mask, loop1End, loop2End; for (var j = 0; j < height; j++) { loop1End = i + (rowComps & ~7); loop2End = i + rowComps; while (i < loop1End) { buf = buffer[bufferPos++]; output[i] = buf >> 7 & 1; output[i + 1] = buf >> 6 & 1; output[i + 2] = buf >> 5 & 1; output[i + 3] = buf >> 4 & 1; output[i + 4] = buf >> 3 & 1; output[i + 5] = buf >> 2 & 1; output[i + 6] = buf >> 1 & 1; output[i + 7] = buf & 1; i += 8; } if (i < loop2End) { buf = buffer[bufferPos++]; mask = 128; while (i < loop2End) { output[i++] = +!!(buf & mask); mask >>= 1; } } } } else { var bits = 0; buf = 0; for (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; var value = buf >> remainingBits; output[i] = value < 0 ? 0 : value > max ? max : value; buf = buf & (1 << remainingBits) - 1; bits = remainingBits; } } return output; }, fillOpacity: function PDFImage_fillOpacity(rgbaBuf, width, height, actualHeight, image) { var smask = this.smask; var mask = this.mask; var alphaBuf, sw, sh, i, ii, j; if (smask) { sw = smask.width; sh = smask.height; alphaBuf = new Uint8Array(sw * sh); smask.fillGrayBuffer(alphaBuf); if (sw !== width || sh !== height) { alphaBuf = resizeImageMask(alphaBuf, smask.bpc, sw, sh, width, height); } } else if (mask) { if (mask instanceof PDFImage) { sw = mask.width; sh = mask.height; alphaBuf = new Uint8Array(sw * sh); mask.numComps = 1; mask.fillGrayBuffer(alphaBuf); for (i = 0, ii = sw * sh; i < ii; ++i) { alphaBuf[i] = 255 - alphaBuf[i]; } if (sw !== width || sh !== height) { alphaBuf = resizeImageMask(alphaBuf, mask.bpc, sw, sh, width, height); } } else if ((0, _util.isArray)(mask)) { alphaBuf = new Uint8Array(width * height); var numComps = this.numComps; for (i = 0, ii = width * height; i < ii; ++i) { var opacity = 0; var imageOffset = i * numComps; for (j = 0; j < numComps; ++j) { var color = image[imageOffset + j]; var maskOffset = j * 2; if (color < mask[maskOffset] || color > mask[maskOffset + 1]) { opacity = 255; break; } } alphaBuf[i] = opacity; } } else { throw new _util.FormatError('Unknown mask format.'); } } if (alphaBuf) { for (i = 0, j = 3, ii = width * actualHeight; i < ii; ++i, j += 4) { rgbaBuf[j] = alphaBuf[i]; } } else { for (i = 0, j = 3, ii = width * actualHeight; i < ii; ++i, j += 4) { rgbaBuf[j] = 255; } } }, undoPreblend: function PDFImage_undoPreblend(buffer, width, height) { var matte = this.smask && this.smask.matte; if (!matte) { return; } var matteRgb = this.colorSpace.getRgb(matte, 0); var matteR = matteRgb[0]; var matteG = matteRgb[1]; var matteB = matteRgb[2]; var length = width * height * 4; var r, g, b; for (var i = 0; i < length; i += 4) { var alpha = buffer[i + 3]; if (alpha === 0) { buffer[i] = 255; buffer[i + 1] = 255; buffer[i + 2] = 255; continue; } var k = 255 / alpha; r = (buffer[i] - matteR) * k + matteR; g = (buffer[i + 1] - matteG) * k + matteG; b = (buffer[i + 2] - matteB) * k + matteB; buffer[i] = r <= 0 ? 0 : r >= 255 ? 255 : r | 0; buffer[i + 1] = g <= 0 ? 0 : g >= 255 ? 255 : g | 0; buffer[i + 2] = b <= 0 ? 0 : b >= 255 ? 255 : b | 0; } }, createImageData: function PDFImage_createImageData(forceRGBA) { var drawWidth = this.drawWidth; var drawHeight = this.drawHeight; var imgData = { width: drawWidth, height: drawHeight }; var numComps = this.numComps; var originalWidth = this.width; var originalHeight = this.height; var bpc = this.bpc; var rowBytes = originalWidth * numComps * bpc + 7 >> 3; var imgArray; if (!forceRGBA) { var kind; if (this.colorSpace.name === 'DeviceGray' && bpc === 1) { kind = _util.ImageKind.GRAYSCALE_1BPP; } else if (this.colorSpace.name === 'DeviceRGB' && bpc === 8 && !this.needsDecode) { kind = _util.ImageKind.RGB_24BPP; } if (kind && !this.smask && !this.mask && drawWidth === originalWidth && drawHeight === originalHeight) { imgData.kind = kind; imgArray = this.getImageBytes(originalHeight * rowBytes); if (this.image instanceof _stream.DecodeStream) { imgData.data = imgArray; } else { var newArray = new Uint8Array(imgArray.length); newArray.set(imgArray); imgData.data = newArray; } if (this.needsDecode) { (0, _util.assert)(kind === _util.ImageKind.GRAYSCALE_1BPP); var buffer = imgData.data; for (var i = 0, ii = buffer.length; i < ii; i++) { buffer[i] ^= 0xff; } } return imgData; } if (this.image instanceof _stream.JpegStream && !this.smask && !this.mask && (this.colorSpace.name === 'DeviceGray' || this.colorSpace.name === 'DeviceRGB' || this.colorSpace.name === 'DeviceCMYK')) { imgData.kind = _util.ImageKind.RGB_24BPP; imgData.data = this.getImageBytes(originalHeight * rowBytes, drawWidth, drawHeight, true); return imgData; } } imgArray = this.getImageBytes(originalHeight * rowBytes); var actualHeight = 0 | imgArray.length / rowBytes * drawHeight / originalHeight; var comps = this.getComponents(imgArray); var alpha01, maybeUndoPreblend; if (!forceRGBA && !this.smask && !this.mask) { imgData.kind = _util.ImageKind.RGB_24BPP; imgData.data = new Uint8Array(drawWidth * drawHeight * 3); alpha01 = 0; maybeUndoPreblend = false; } else { imgData.kind = _util.ImageKind.RGBA_32BPP; imgData.data = new Uint8Array(drawWidth * drawHeight * 4); alpha01 = 1; maybeUndoPreblend = true; this.fillOpacity(imgData.data, drawWidth, drawHeight, actualHeight, comps); } if (this.needsDecode) { this.decodeBuffer(comps); } this.colorSpace.fillRgb(imgData.data, originalWidth, originalHeight, drawWidth, drawHeight, actualHeight, bpc, comps, alpha01); if (maybeUndoPreblend) { this.undoPreblend(imgData.data, drawWidth, actualHeight); } return imgData; }, fillGrayBuffer: function PDFImage_fillGrayBuffer(buffer) { var numComps = this.numComps; if (numComps !== 1) { throw new _util.FormatError('Reading gray scale from a color image: ' + numComps); } var width = this.width; var height = this.height; var bpc = this.bpc; var rowBytes = width * numComps * bpc + 7 >> 3; var imgArray = this.getImageBytes(height * rowBytes); var comps = this.getComponents(imgArray); var i, length; if (bpc === 1) { length = width * height; if (this.needsDecode) { for (i = 0; i < length; ++i) { buffer[i] = comps[i] - 1 & 255; } } else { for (i = 0; i < length; ++i) { buffer[i] = -comps[i] & 255; } } return; } if (this.needsDecode) { this.decodeBuffer(comps); } length = width * height; var scale = 255 / ((1 << bpc) - 1); for (i = 0; i < length; ++i) { buffer[i] = scale * comps[i] | 0; } }, getImageBytes: function PDFImage_getImageBytes(length, drawWidth, drawHeight, forceRGB) { this.image.reset(); this.image.drawWidth = drawWidth || this.width; this.image.drawHeight = drawHeight || this.height; this.image.forceRGB = !!forceRGB; return this.image.getBytes(length); } }; return PDFImage; }(); exports.PDFImage = PDFImage;