/* -*- Mode: Java; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set shiftwidth=2 tabstop=2 autoindent cindent expandtab: */
/* Copyright 2012 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.
*/
/*jshint globalstrict: false */
// Initializing PDFJS global object (if still undefined)
if (typeof PDFJS === 'undefined') {
(typeof window !== 'undefined' ? window : this).PDFJS = {};
}
PDFJS.version = '1.0.107';
PDFJS.build = '6c5a308';
(function pdfjsWrapper() {
// Use strict in our context only - users might not want it
'use strict';
/* -*- Mode: Java; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set shiftwidth=2 tabstop=2 autoindent cindent expandtab: */
/* Copyright 2012 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.
*/
/* globals Cmd, ColorSpace, Dict, MozBlobBuilder, Name, PDFJS, Ref, URL,
Promise */
'use strict';
var globalScope = (typeof window === 'undefined') ? this : window;
var isWorker = (typeof window == 'undefined');
var FONT_IDENTITY_MATRIX = [0.001, 0, 0, 0.001, 0, 0];
var TextRenderingMode = {
FILL: 0,
STROKE: 1,
FILL_STROKE: 2,
INVISIBLE: 3,
FILL_ADD_TO_PATH: 4,
STROKE_ADD_TO_PATH: 5,
FILL_STROKE_ADD_TO_PATH: 6,
ADD_TO_PATH: 7,
FILL_STROKE_MASK: 3,
ADD_TO_PATH_FLAG: 4
};
var ImageKind = {
GRAYSCALE_1BPP: 1,
RGB_24BPP: 2,
RGBA_32BPP: 3
};
// The global PDFJS object exposes the API
// In production, it will be declared outside a global wrapper
// In development, it will be declared here
if (!globalScope.PDFJS) {
globalScope.PDFJS = {};
}
globalScope.PDFJS.pdfBug = false;
PDFJS.VERBOSITY_LEVELS = {
errors: 0,
warnings: 1,
infos: 5
};
// All the possible operations for an operator list.
var OPS = PDFJS.OPS = {
// Intentionally start from 1 so it is easy to spot bad operators that will be
// 0's.
dependency: 1,
setLineWidth: 2,
setLineCap: 3,
setLineJoin: 4,
setMiterLimit: 5,
setDash: 6,
setRenderingIntent: 7,
setFlatness: 8,
setGState: 9,
save: 10,
restore: 11,
transform: 12,
moveTo: 13,
lineTo: 14,
curveTo: 15,
curveTo2: 16,
curveTo3: 17,
closePath: 18,
rectangle: 19,
stroke: 20,
closeStroke: 21,
fill: 22,
eoFill: 23,
fillStroke: 24,
eoFillStroke: 25,
closeFillStroke: 26,
closeEOFillStroke: 27,
endPath: 28,
clip: 29,
eoClip: 30,
beginText: 31,
endText: 32,
setCharSpacing: 33,
setWordSpacing: 34,
setHScale: 35,
setLeading: 36,
setFont: 37,
setTextRenderingMode: 38,
setTextRise: 39,
moveText: 40,
setLeadingMoveText: 41,
setTextMatrix: 42,
nextLine: 43,
showText: 44,
showSpacedText: 45,
nextLineShowText: 46,
nextLineSetSpacingShowText: 47,
setCharWidth: 48,
setCharWidthAndBounds: 49,
setStrokeColorSpace: 50,
setFillColorSpace: 51,
setStrokeColor: 52,
setStrokeColorN: 53,
setFillColor: 54,
setFillColorN: 55,
setStrokeGray: 56,
setFillGray: 57,
setStrokeRGBColor: 58,
setFillRGBColor: 59,
setStrokeCMYKColor: 60,
setFillCMYKColor: 61,
shadingFill: 62,
beginInlineImage: 63,
beginImageData: 64,
endInlineImage: 65,
paintXObject: 66,
markPoint: 67,
markPointProps: 68,
beginMarkedContent: 69,
beginMarkedContentProps: 70,
endMarkedContent: 71,
beginCompat: 72,
endCompat: 73,
paintFormXObjectBegin: 74,
paintFormXObjectEnd: 75,
beginGroup: 76,
endGroup: 77,
beginAnnotations: 78,
endAnnotations: 79,
beginAnnotation: 80,
endAnnotation: 81,
paintJpegXObject: 82,
paintImageMaskXObject: 83,
paintImageMaskXObjectGroup: 84,
paintImageXObject: 85,
paintInlineImageXObject: 86,
paintInlineImageXObjectGroup: 87,
paintImageXObjectRepeat: 88,
paintImageMaskXObjectRepeat: 89,
paintSolidColorImageMask: 90
};
// A notice for devs. These are good for things that are helpful to devs, such
// as warning that Workers were disabled, which is important to devs but not
// end users.
function info(msg) {
if (PDFJS.verbosity >= PDFJS.VERBOSITY_LEVELS.infos) {
console.log('Info: ' + msg);
}
}
// Non-fatal warnings.
function warn(msg) {
if (PDFJS.verbosity >= PDFJS.VERBOSITY_LEVELS.warnings) {
console.log('Warning: ' + msg);
}
}
// Fatal errors that should trigger the fallback UI and halt execution by
// throwing an exception.
function error(msg) {
// If multiple arguments were passed, pass them all to the log function.
if (arguments.length > 1) {
var logArguments = ['Error:'];
logArguments.push.apply(logArguments, arguments);
console.log.apply(console, logArguments);
// Join the arguments into a single string for the lines below.
msg = [].join.call(arguments, ' ');
} else {
console.log('Error: ' + msg);
}
console.log(backtrace());
UnsupportedManager.notify(UNSUPPORTED_FEATURES.unknown);
throw new Error(msg);
}
function backtrace() {
try {
throw new Error();
} catch (e) {
return e.stack ? e.stack.split('\n').slice(2).join('\n') : '';
}
}
function assert(cond, msg) {
if (!cond) {
error(msg);
}
}
var UNSUPPORTED_FEATURES = PDFJS.UNSUPPORTED_FEATURES = {
unknown: 'unknown',
forms: 'forms',
javaScript: 'javaScript',
smask: 'smask',
shadingPattern: 'shadingPattern',
font: 'font'
};
var UnsupportedManager = PDFJS.UnsupportedManager =
(function UnsupportedManagerClosure() {
var listeners = [];
return {
listen: function (cb) {
listeners.push(cb);
},
notify: function (featureId) {
warn('Unsupported feature "' + featureId + '"');
for (var i = 0, ii = listeners.length; i < ii; i++) {
listeners[i](featureId);
}
}
};
})();
// Combines two URLs. The baseUrl shall be absolute URL. If the url is an
// absolute URL, it will be returned as is.
function combineUrl(baseUrl, url) {
if (!url) {
return baseUrl;
}
if (/^[a-z][a-z0-9+\-.]*:/i.test(url)) {
return url;
}
var i;
if (url.charAt(0) == '/') {
// absolute path
i = baseUrl.indexOf('://');
if (url.charAt(1) === '/') {
++i;
} else {
i = baseUrl.indexOf('/', i + 3);
}
return baseUrl.substring(0, i) + url;
} else {
// relative path
var pathLength = baseUrl.length;
i = baseUrl.lastIndexOf('#');
pathLength = i >= 0 ? i : pathLength;
i = baseUrl.lastIndexOf('?', pathLength);
pathLength = i >= 0 ? i : pathLength;
var prefixLength = baseUrl.lastIndexOf('/', pathLength);
return baseUrl.substring(0, prefixLength + 1) + url;
}
}
// Validates if URL is safe and allowed, e.g. to avoid XSS.
function isValidUrl(url, allowRelative) {
if (!url) {
return false;
}
// RFC 3986 (http://tools.ietf.org/html/rfc3986#section-3.1)
// scheme = ALPHA *( ALPHA / DIGIT / "+" / "-" / "." )
var protocol = /^[a-z][a-z0-9+\-.]*(?=:)/i.exec(url);
if (!protocol) {
return allowRelative;
}
protocol = protocol[0].toLowerCase();
switch (protocol) {
case 'http':
case 'https':
case 'ftp':
case 'mailto':
return true;
default:
return false;
}
}
PDFJS.isValidUrl = isValidUrl;
function shadow(obj, prop, value) {
Object.defineProperty(obj, prop, { value: value,
enumerable: true,
configurable: true,
writable: false });
return value;
}
var PasswordResponses = PDFJS.PasswordResponses = {
NEED_PASSWORD: 1,
INCORRECT_PASSWORD: 2
};
var PasswordException = (function PasswordExceptionClosure() {
function PasswordException(msg, code) {
this.name = 'PasswordException';
this.message = msg;
this.code = code;
}
PasswordException.prototype = new Error();
PasswordException.constructor = PasswordException;
return PasswordException;
})();
var UnknownErrorException = (function UnknownErrorExceptionClosure() {
function UnknownErrorException(msg, details) {
this.name = 'UnknownErrorException';
this.message = msg;
this.details = details;
}
UnknownErrorException.prototype = new Error();
UnknownErrorException.constructor = UnknownErrorException;
return UnknownErrorException;
})();
var InvalidPDFException = (function InvalidPDFExceptionClosure() {
function InvalidPDFException(msg) {
this.name = 'InvalidPDFException';
this.message = msg;
}
InvalidPDFException.prototype = new Error();
InvalidPDFException.constructor = InvalidPDFException;
return InvalidPDFException;
})();
var MissingPDFException = (function MissingPDFExceptionClosure() {
function MissingPDFException(msg) {
this.name = 'MissingPDFException';
this.message = msg;
}
MissingPDFException.prototype = new Error();
MissingPDFException.constructor = MissingPDFException;
return MissingPDFException;
})();
var NotImplementedException = (function NotImplementedExceptionClosure() {
function NotImplementedException(msg) {
this.message = msg;
}
NotImplementedException.prototype = new Error();
NotImplementedException.prototype.name = 'NotImplementedException';
NotImplementedException.constructor = NotImplementedException;
return NotImplementedException;
})();
var MissingDataException = (function MissingDataExceptionClosure() {
function MissingDataException(begin, end) {
this.begin = begin;
this.end = end;
this.message = 'Missing data [' + begin + ', ' + end + ')';
}
MissingDataException.prototype = new Error();
MissingDataException.prototype.name = 'MissingDataException';
MissingDataException.constructor = MissingDataException;
return MissingDataException;
})();
var XRefParseException = (function XRefParseExceptionClosure() {
function XRefParseException(msg) {
this.message = msg;
}
XRefParseException.prototype = new Error();
XRefParseException.prototype.name = 'XRefParseException';
XRefParseException.constructor = XRefParseException;
return XRefParseException;
})();
function bytesToString(bytes) {
var length = bytes.length;
var MAX_ARGUMENT_COUNT = 8192;
if (length < MAX_ARGUMENT_COUNT) {
return String.fromCharCode.apply(null, bytes);
}
var strBuf = [];
for (var i = 0; i < length; i += MAX_ARGUMENT_COUNT) {
var chunkEnd = Math.min(i + MAX_ARGUMENT_COUNT, length);
var chunk = bytes.subarray(i, chunkEnd);
strBuf.push(String.fromCharCode.apply(null, chunk));
}
return strBuf.join('');
}
function stringToArray(str) {
var length = str.length;
var array = [];
for (var i = 0; i < length; ++i) {
array[i] = str.charCodeAt(i);
}
return array;
}
function stringToBytes(str) {
var length = str.length;
var bytes = new Uint8Array(length);
for (var i = 0; i < length; ++i) {
bytes[i] = str.charCodeAt(i) & 0xFF;
}
return bytes;
}
function string32(value) {
return String.fromCharCode((value >> 24) & 0xff, (value >> 16) & 0xff,
(value >> 8) & 0xff, value & 0xff);
}
function log2(x) {
var n = 1, i = 0;
while (x > n) {
n <<= 1;
i++;
}
return i;
}
function readInt8(data, start) {
return (data[start] << 24) >> 24;
}
function readUint16(data, offset) {
return (data[offset] << 8) | data[offset + 1];
}
function readUint32(data, offset) {
return ((data[offset] << 24) | (data[offset + 1] << 16) |
(data[offset + 2] << 8) | data[offset + 3]) >>> 0;
}
// Lazy test the endianness of the platform
// NOTE: This will be 'true' for simulated TypedArrays
function isLittleEndian() {
var buffer8 = new Uint8Array(2);
buffer8[0] = 1;
var buffer16 = new Uint16Array(buffer8.buffer);
return (buffer16[0] === 1);
}
Object.defineProperty(PDFJS, 'isLittleEndian', {
configurable: true,
get: function PDFJS_isLittleEndian() {
return shadow(PDFJS, 'isLittleEndian', isLittleEndian());
}
});
// Lazy test if the userAgant support CanvasTypedArrays
function hasCanvasTypedArrays() {
var canvas = document.createElement('canvas');
canvas.width = canvas.height = 1;
var ctx = canvas.getContext('2d');
var imageData = ctx.createImageData(1, 1);
return (typeof imageData.data.buffer !== 'undefined');
}
Object.defineProperty(PDFJS, 'hasCanvasTypedArrays', {
configurable: true,
get: function PDFJS_hasCanvasTypedArrays() {
return shadow(PDFJS, 'hasCanvasTypedArrays', hasCanvasTypedArrays());
}
});
var Uint32ArrayView = (function Uint32ArrayViewClosure() {
function Uint32ArrayView(buffer, length) {
this.buffer = buffer;
this.byteLength = buffer.length;
this.length = length === undefined ? (this.byteLength >> 2) : length;
ensureUint32ArrayViewProps(this.length);
}
Uint32ArrayView.prototype = Object.create(null);
var uint32ArrayViewSetters = 0;
function createUint32ArrayProp(index) {
return {
get: function () {
var buffer = this.buffer, offset = index << 2;
return (buffer[offset] | (buffer[offset + 1] << 8) |
(buffer[offset + 2] << 16) | (buffer[offset + 3] << 24)) >>> 0;
},
set: function (value) {
var buffer = this.buffer, offset = index << 2;
buffer[offset] = value & 255;
buffer[offset + 1] = (value >> 8) & 255;
buffer[offset + 2] = (value >> 16) & 255;
buffer[offset + 3] = (value >>> 24) & 255;
}
};
}
function ensureUint32ArrayViewProps(length) {
while (uint32ArrayViewSetters < length) {
Object.defineProperty(Uint32ArrayView.prototype,
uint32ArrayViewSetters,
createUint32ArrayProp(uint32ArrayViewSetters));
uint32ArrayViewSetters++;
}
}
return Uint32ArrayView;
})();
var IDENTITY_MATRIX = [1, 0, 0, 1, 0, 0];
var Util = PDFJS.Util = (function UtilClosure() {
function Util() {}
Util.makeCssRgb = function Util_makeCssRgb(rgb) {
return 'rgb(' + rgb[0] + ',' + rgb[1] + ',' + rgb[2] + ')';
};
Util.makeCssCmyk = function Util_makeCssCmyk(cmyk) {
var rgb = ColorSpace.singletons.cmyk.getRgb(cmyk, 0);
return Util.makeCssRgb(rgb);
};
// Concatenates two transformation matrices together and returns the result.
Util.transform = function Util_transform(m1, m2) {
return [
m1[0] * m2[0] + m1[2] * m2[1],
m1[1] * m2[0] + m1[3] * m2[1],
m1[0] * m2[2] + m1[2] * m2[3],
m1[1] * m2[2] + m1[3] * m2[3],
m1[0] * m2[4] + m1[2] * m2[5] + m1[4],
m1[1] * m2[4] + m1[3] * m2[5] + m1[5]
];
};
// For 2d affine transforms
Util.applyTransform = function Util_applyTransform(p, m) {
var xt = p[0] * m[0] + p[1] * m[2] + m[4];
var yt = p[0] * m[1] + p[1] * m[3] + m[5];
return [xt, yt];
};
Util.applyInverseTransform = function Util_applyInverseTransform(p, m) {
var d = m[0] * m[3] - m[1] * m[2];
var xt = (p[0] * m[3] - p[1] * m[2] + m[2] * m[5] - m[4] * m[3]) / d;
var yt = (-p[0] * m[1] + p[1] * m[0] + m[4] * m[1] - m[5] * m[0]) / d;
return [xt, yt];
};
// Applies the transform to the rectangle and finds the minimum axially
// aligned bounding box.
Util.getAxialAlignedBoundingBox =
function Util_getAxialAlignedBoundingBox(r, m) {
var p1 = Util.applyTransform(r, m);
var p2 = Util.applyTransform(r.slice(2, 4), m);
var p3 = Util.applyTransform([r[0], r[3]], m);
var p4 = Util.applyTransform([r[2], r[1]], m);
return [
Math.min(p1[0], p2[0], p3[0], p4[0]),
Math.min(p1[1], p2[1], p3[1], p4[1]),
Math.max(p1[0], p2[0], p3[0], p4[0]),
Math.max(p1[1], p2[1], p3[1], p4[1])
];
};
Util.inverseTransform = function Util_inverseTransform(m) {
var d = m[0] * m[3] - m[1] * m[2];
return [m[3] / d, -m[1] / d, -m[2] / d, m[0] / d,
(m[2] * m[5] - m[4] * m[3]) / d, (m[4] * m[1] - m[5] * m[0]) / d];
};
// Apply a generic 3d matrix M on a 3-vector v:
// | a b c | | X |
// | d e f | x | Y |
// | g h i | | Z |
// M is assumed to be serialized as [a,b,c,d,e,f,g,h,i],
// with v as [X,Y,Z]
Util.apply3dTransform = function Util_apply3dTransform(m, v) {
return [
m[0] * v[0] + m[1] * v[1] + m[2] * v[2],
m[3] * v[0] + m[4] * v[1] + m[5] * v[2],
m[6] * v[0] + m[7] * v[1] + m[8] * v[2]
];
};
// This calculation uses Singular Value Decomposition.
// The SVD can be represented with formula A = USV. We are interested in the
// matrix S here because it represents the scale values.
Util.singularValueDecompose2dScale =
function Util_singularValueDecompose2dScale(m) {
var transpose = [m[0], m[2], m[1], m[3]];
// Multiply matrix m with its transpose.
var a = m[0] * transpose[0] + m[1] * transpose[2];
var b = m[0] * transpose[1] + m[1] * transpose[3];
var c = m[2] * transpose[0] + m[3] * transpose[2];
var d = m[2] * transpose[1] + m[3] * transpose[3];
// Solve the second degree polynomial to get roots.
var first = (a + d) / 2;
var second = Math.sqrt((a + d) * (a + d) - 4 * (a * d - c * b)) / 2;
var sx = first + second || 1;
var sy = first - second || 1;
// Scale values are the square roots of the eigenvalues.
return [Math.sqrt(sx), Math.sqrt(sy)];
};
// Normalize rectangle rect=[x1, y1, x2, y2] so that (x1,y1) < (x2,y2)
// For coordinate systems whose origin lies in the bottom-left, this
// means normalization to (BL,TR) ordering. For systems with origin in the
// top-left, this means (TL,BR) ordering.
Util.normalizeRect = function Util_normalizeRect(rect) {
var r = rect.slice(0); // clone rect
if (rect[0] > rect[2]) {
r[0] = rect[2];
r[2] = rect[0];
}
if (rect[1] > rect[3]) {
r[1] = rect[3];
r[3] = rect[1];
}
return r;
};
// Returns a rectangle [x1, y1, x2, y2] corresponding to the
// intersection of rect1 and rect2. If no intersection, returns 'false'
// The rectangle coordinates of rect1, rect2 should be [x1, y1, x2, y2]
Util.intersect = function Util_intersect(rect1, rect2) {
function compare(a, b) {
return a - b;
}
// Order points along the axes
var orderedX = [rect1[0], rect1[2], rect2[0], rect2[2]].sort(compare),
orderedY = [rect1[1], rect1[3], rect2[1], rect2[3]].sort(compare),
result = [];
rect1 = Util.normalizeRect(rect1);
rect2 = Util.normalizeRect(rect2);
// X: first and second points belong to different rectangles?
if ((orderedX[0] === rect1[0] && orderedX[1] === rect2[0]) ||
(orderedX[0] === rect2[0] && orderedX[1] === rect1[0])) {
// Intersection must be between second and third points
result[0] = orderedX[1];
result[2] = orderedX[2];
} else {
return false;
}
// Y: first and second points belong to different rectangles?
if ((orderedY[0] === rect1[1] && orderedY[1] === rect2[1]) ||
(orderedY[0] === rect2[1] && orderedY[1] === rect1[1])) {
// Intersection must be between second and third points
result[1] = orderedY[1];
result[3] = orderedY[2];
} else {
return false;
}
return result;
};
Util.sign = function Util_sign(num) {
return num < 0 ? -1 : 1;
};
// TODO(mack): Rename appendToArray
Util.concatenateToArray = function concatenateToArray(arr1, arr2) {
Array.prototype.push.apply(arr1, arr2);
};
Util.prependToArray = function concatenateToArray(arr1, arr2) {
Array.prototype.unshift.apply(arr1, arr2);
};
Util.extendObj = function extendObj(obj1, obj2) {
for (var key in obj2) {
obj1[key] = obj2[key];
}
};
Util.getInheritableProperty = function Util_getInheritableProperty(dict,
name) {
while (dict && !dict.has(name)) {
dict = dict.get('Parent');
}
if (!dict) {
return null;
}
return dict.get(name);
};
Util.inherit = function Util_inherit(sub, base, prototype) {
sub.prototype = Object.create(base.prototype);
sub.prototype.constructor = sub;
for (var prop in prototype) {
sub.prototype[prop] = prototype[prop];
}
};
Util.loadScript = function Util_loadScript(src, callback) {
var script = document.createElement('script');
var loaded = false;
script.setAttribute('src', src);
if (callback) {
script.onload = function() {
if (!loaded) {
callback();
}
loaded = true;
};
}
document.getElementsByTagName('head')[0].appendChild(script);
};
return Util;
})();
var PageViewport = PDFJS.PageViewport = (function PageViewportClosure() {
function PageViewport(viewBox, scale, rotation, offsetX, offsetY, dontFlip) {
this.viewBox = viewBox;
this.scale = scale;
this.rotation = rotation;
this.offsetX = offsetX;
this.offsetY = offsetY;
// creating transform to convert pdf coordinate system to the normal
// canvas like coordinates taking in account scale and rotation
var centerX = (viewBox[2] + viewBox[0]) / 2;
var centerY = (viewBox[3] + viewBox[1]) / 2;
var rotateA, rotateB, rotateC, rotateD;
rotation = rotation % 360;
rotation = rotation < 0 ? rotation + 360 : rotation;
switch (rotation) {
case 180:
rotateA = -1; rotateB = 0; rotateC = 0; rotateD = 1;
break;
case 90:
rotateA = 0; rotateB = 1; rotateC = 1; rotateD = 0;
break;
case 270:
rotateA = 0; rotateB = -1; rotateC = -1; rotateD = 0;
break;
//case 0:
default:
rotateA = 1; rotateB = 0; rotateC = 0; rotateD = -1;
break;
}
if (dontFlip) {
rotateC = -rotateC; rotateD = -rotateD;
}
var offsetCanvasX, offsetCanvasY;
var width, height;
if (rotateA === 0) {
offsetCanvasX = Math.abs(centerY - viewBox[1]) * scale + offsetX;
offsetCanvasY = Math.abs(centerX - viewBox[0]) * scale + offsetY;
width = Math.abs(viewBox[3] - viewBox[1]) * scale;
height = Math.abs(viewBox[2] - viewBox[0]) * scale;
} else {
offsetCanvasX = Math.abs(centerX - viewBox[0]) * scale + offsetX;
offsetCanvasY = Math.abs(centerY - viewBox[1]) * scale + offsetY;
width = Math.abs(viewBox[2] - viewBox[0]) * scale;
height = Math.abs(viewBox[3] - viewBox[1]) * scale;
}
// creating transform for the following operations:
// translate(-centerX, -centerY), rotate and flip vertically,
// scale, and translate(offsetCanvasX, offsetCanvasY)
this.transform = [
rotateA * scale,
rotateB * scale,
rotateC * scale,
rotateD * scale,
offsetCanvasX - rotateA * scale * centerX - rotateC * scale * centerY,
offsetCanvasY - rotateB * scale * centerX - rotateD * scale * centerY
];
this.width = width;
this.height = height;
this.fontScale = scale;
}
PageViewport.prototype = {
clone: function PageViewPort_clone(args) {
args = args || {};
var scale = 'scale' in args ? args.scale : this.scale;
var rotation = 'rotation' in args ? args.rotation : this.rotation;
return new PageViewport(this.viewBox.slice(), scale, rotation,
this.offsetX, this.offsetY, args.dontFlip);
},
convertToViewportPoint: function PageViewport_convertToViewportPoint(x, y) {
return Util.applyTransform([x, y], this.transform);
},
convertToViewportRectangle:
function PageViewport_convertToViewportRectangle(rect) {
var tl = Util.applyTransform([rect[0], rect[1]], this.transform);
var br = Util.applyTransform([rect[2], rect[3]], this.transform);
return [tl[0], tl[1], br[0], br[1]];
},
convertToPdfPoint: function PageViewport_convertToPdfPoint(x, y) {
return Util.applyInverseTransform([x, y], this.transform);
}
};
return PageViewport;
})();
var PDFStringTranslateTable = [
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0x2D8, 0x2C7, 0x2C6, 0x2D9, 0x2DD, 0x2DB, 0x2DA, 0x2DC, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0x2022, 0x2020, 0x2021, 0x2026, 0x2014,
0x2013, 0x192, 0x2044, 0x2039, 0x203A, 0x2212, 0x2030, 0x201E, 0x201C,
0x201D, 0x2018, 0x2019, 0x201A, 0x2122, 0xFB01, 0xFB02, 0x141, 0x152, 0x160,
0x178, 0x17D, 0x131, 0x142, 0x153, 0x161, 0x17E, 0, 0x20AC
];
function stringToPDFString(str) {
var i, n = str.length, strBuf = [];
if (str[0] === '\xFE' && str[1] === '\xFF') {
// UTF16BE BOM
for (i = 2; i < n; i += 2) {
strBuf.push(String.fromCharCode(
(str.charCodeAt(i) << 8) | str.charCodeAt(i + 1)));
}
} else {
for (i = 0; i < n; ++i) {
var code = PDFStringTranslateTable[str.charCodeAt(i)];
strBuf.push(code ? String.fromCharCode(code) : str.charAt(i));
}
}
return strBuf.join('');
}
function stringToUTF8String(str) {
return decodeURIComponent(escape(str));
}
function isEmptyObj(obj) {
for (var key in obj) {
return false;
}
return true;
}
function isBool(v) {
return typeof v == 'boolean';
}
function isInt(v) {
return typeof v == 'number' && ((v | 0) == v);
}
function isNum(v) {
return typeof v == 'number';
}
function isString(v) {
return typeof v == 'string';
}
function isNull(v) {
return v === null;
}
function isName(v) {
return v instanceof Name;
}
function isCmd(v, cmd) {
return v instanceof Cmd && (!cmd || v.cmd == cmd);
}
function isDict(v, type) {
if (!(v instanceof Dict)) {
return false;
}
if (!type) {
return true;
}
var dictType = v.get('Type');
return isName(dictType) && dictType.name == type;
}
function isArray(v) {
return v instanceof Array;
}
function isStream(v) {
return typeof v == 'object' && v !== null && v !== undefined &&
('getBytes' in v);
}
function isArrayBuffer(v) {
return typeof v == 'object' && v !== null && v !== undefined &&
('byteLength' in v);
}
function isRef(v) {
return v instanceof Ref;
}
function isPDFFunction(v) {
var fnDict;
if (typeof v != 'object') {
return false;
} else if (isDict(v)) {
fnDict = v;
} else if (isStream(v)) {
fnDict = v.dict;
} else {
return false;
}
return fnDict.has('FunctionType');
}
/**
* Legacy support for PDFJS Promise implementation.
* TODO remove eventually
* @ignore
*/
var LegacyPromise = PDFJS.LegacyPromise = (function LegacyPromiseClosure() {
return function LegacyPromise() {
var resolve, reject;
var promise = new Promise(function (resolve_, reject_) {
resolve = resolve_;
reject = reject_;
});
promise.resolve = resolve;
promise.reject = reject;
return promise;
};
})();
/**
* Polyfill for Promises:
* The following promise implementation tries to generally implment the
* Promise/A+ spec. Some notable differences from other promise libaries are:
* - There currently isn't a seperate deferred and promise object.
* - Unhandled rejections eventually show an error if they aren't handled.
*
* Based off of the work in:
* https://bugzilla.mozilla.org/show_bug.cgi?id=810490
*/
(function PromiseClosure() {
if (globalScope.Promise) {
// Promises existing in the DOM/Worker, checking presence of all/resolve
if (typeof globalScope.Promise.all !== 'function') {
globalScope.Promise.all = function (iterable) {
var count = 0, results = [], resolve, reject;
var promise = new globalScope.Promise(function (resolve_, reject_) {
resolve = resolve_;
reject = reject_;
});
iterable.forEach(function (p, i) {
count++;
p.then(function (result) {
results[i] = result;
count--;
if (count === 0) {
resolve(results);
}
}, reject);
});
if (count === 0) {
resolve(results);
}
return promise;
};
}
if (typeof globalScope.Promise.resolve !== 'function') {
globalScope.Promise.resolve = function (x) {
return new globalScope.Promise(function (resolve) { resolve(x); });
};
}
return;
}
var STATUS_PENDING = 0;
var STATUS_RESOLVED = 1;
var STATUS_REJECTED = 2;
// In an attempt to avoid silent exceptions, unhandled rejections are
// tracked and if they aren't handled in a certain amount of time an
// error is logged.
var REJECTION_TIMEOUT = 500;
var HandlerManager = {
handlers: [],
running: false,
unhandledRejections: [],
pendingRejectionCheck: false,
scheduleHandlers: function scheduleHandlers(promise) {
if (promise._status == STATUS_PENDING) {
return;
}
this.handlers = this.handlers.concat(promise._handlers);
promise._handlers = [];
if (this.running) {
return;
}
this.running = true;
setTimeout(this.runHandlers.bind(this), 0);
},
runHandlers: function runHandlers() {
var RUN_TIMEOUT = 1; // ms
var timeoutAt = Date.now() + RUN_TIMEOUT;
while (this.handlers.length > 0) {
var handler = this.handlers.shift();
var nextStatus = handler.thisPromise._status;
var nextValue = handler.thisPromise._value;
try {
if (nextStatus === STATUS_RESOLVED) {
if (typeof(handler.onResolve) == 'function') {
nextValue = handler.onResolve(nextValue);
}
} else if (typeof(handler.onReject) === 'function') {
nextValue = handler.onReject(nextValue);
nextStatus = STATUS_RESOLVED;
if (handler.thisPromise._unhandledRejection) {
this.removeUnhandeledRejection(handler.thisPromise);
}
}
} catch (ex) {
nextStatus = STATUS_REJECTED;
nextValue = ex;
}
handler.nextPromise._updateStatus(nextStatus, nextValue);
if (Date.now() >= timeoutAt) {
break;
}
}
if (this.handlers.length > 0) {
setTimeout(this.runHandlers.bind(this), 0);
return;
}
this.running = false;
},
addUnhandledRejection: function addUnhandledRejection(promise) {
this.unhandledRejections.push({
promise: promise,
time: Date.now()
});
this.scheduleRejectionCheck();
},
removeUnhandeledRejection: function removeUnhandeledRejection(promise) {
promise._unhandledRejection = false;
for (var i = 0; i < this.unhandledRejections.length; i++) {
if (this.unhandledRejections[i].promise === promise) {
this.unhandledRejections.splice(i);
i--;
}
}
},
scheduleRejectionCheck: function scheduleRejectionCheck() {
if (this.pendingRejectionCheck) {
return;
}
this.pendingRejectionCheck = true;
setTimeout(function rejectionCheck() {
this.pendingRejectionCheck = false;
var now = Date.now();
for (var i = 0; i < this.unhandledRejections.length; i++) {
if (now - this.unhandledRejections[i].time > REJECTION_TIMEOUT) {
var unhandled = this.unhandledRejections[i].promise._value;
var msg = 'Unhandled rejection: ' + unhandled;
if (unhandled.stack) {
msg += '\n' + unhandled.stack;
}
warn(msg);
this.unhandledRejections.splice(i);
i--;
}
}
if (this.unhandledRejections.length) {
this.scheduleRejectionCheck();
}
}.bind(this), REJECTION_TIMEOUT);
}
};
function Promise(resolver) {
this._status = STATUS_PENDING;
this._handlers = [];
resolver.call(this, this._resolve.bind(this), this._reject.bind(this));
}
/**
* Builds a promise that is resolved when all the passed in promises are
* resolved.
* @param {array} array of data and/or promises to wait for.
* @return {Promise} New dependant promise.
*/
Promise.all = function Promise_all(promises) {
var resolveAll, rejectAll;
var deferred = new Promise(function (resolve, reject) {
resolveAll = resolve;
rejectAll = reject;
});
var unresolved = promises.length;
var results = [];
if (unresolved === 0) {
resolveAll(results);
return deferred;
}
function reject(reason) {
if (deferred._status === STATUS_REJECTED) {
return;
}
results = [];
rejectAll(reason);
}
for (var i = 0, ii = promises.length; i < ii; ++i) {
var promise = promises[i];
var resolve = (function(i) {
return function(value) {
if (deferred._status === STATUS_REJECTED) {
return;
}
results[i] = value;
unresolved--;
if (unresolved === 0) {
resolveAll(results);
}
};
})(i);
if (Promise.isPromise(promise)) {
promise.then(resolve, reject);
} else {
resolve(promise);
}
}
return deferred;
};
/**
* Checks if the value is likely a promise (has a 'then' function).
* @return {boolean} true if x is thenable
*/
Promise.isPromise = function Promise_isPromise(value) {
return value && typeof value.then === 'function';
};
/**
* Creates resolved promise
* @param x resolve value
* @returns {Promise}
*/
Promise.resolve = function Promise_resolve(x) {
return new Promise(function (resolve) { resolve(x); });
};
Promise.prototype = {
_status: null,
_value: null,
_handlers: null,
_unhandledRejection: null,
_updateStatus: function Promise__updateStatus(status, value) {
if (this._status === STATUS_RESOLVED ||
this._status === STATUS_REJECTED) {
return;
}
if (status == STATUS_RESOLVED &&
Promise.isPromise(value)) {
value.then(this._updateStatus.bind(this, STATUS_RESOLVED),
this._updateStatus.bind(this, STATUS_REJECTED));
return;
}
this._status = status;
this._value = value;
if (status === STATUS_REJECTED && this._handlers.length === 0) {
this._unhandledRejection = true;
HandlerManager.addUnhandledRejection(this);
}
HandlerManager.scheduleHandlers(this);
},
_resolve: function Promise_resolve(value) {
this._updateStatus(STATUS_RESOLVED, value);
},
_reject: function Promise_reject(reason) {
this._updateStatus(STATUS_REJECTED, reason);
},
then: function Promise_then(onResolve, onReject) {
var nextPromise = new Promise(function (resolve, reject) {
this.resolve = reject;
this.reject = reject;
});
this._handlers.push({
thisPromise: this,
onResolve: onResolve,
onReject: onReject,
nextPromise: nextPromise
});
HandlerManager.scheduleHandlers(this);
return nextPromise;
}
};
globalScope.Promise = Promise;
})();
var StatTimer = (function StatTimerClosure() {
function rpad(str, pad, length) {
while (str.length < length) {
str += pad;
}
return str;
}
function StatTimer() {
this.started = {};
this.times = [];
this.enabled = true;
}
StatTimer.prototype = {
time: function StatTimer_time(name) {
if (!this.enabled) {
return;
}
if (name in this.started) {
warn('Timer is already running for ' + name);
}
this.started[name] = Date.now();
},
timeEnd: function StatTimer_timeEnd(name) {
if (!this.enabled) {
return;
}
if (!(name in this.started)) {
warn('Timer has not been started for ' + name);
}
this.times.push({
'name': name,
'start': this.started[name],
'end': Date.now()
});
// Remove timer from started so it can be called again.
delete this.started[name];
},
toString: function StatTimer_toString() {
var i, ii;
var times = this.times;
var out = '';
// Find the longest name for padding purposes.
var longest = 0;
for (i = 0, ii = times.length; i < ii; ++i) {
var name = times[i]['name'];
if (name.length > longest) {
longest = name.length;
}
}
for (i = 0, ii = times.length; i < ii; ++i) {
var span = times[i];
var duration = span.end - span.start;
out += rpad(span['name'], ' ', longest) + ' ' + duration + 'ms\n';
}
return out;
}
};
return StatTimer;
})();
PDFJS.createBlob = function createBlob(data, contentType) {
if (typeof Blob !== 'undefined') {
return new Blob([data], { type: contentType });
}
// Blob builder is deprecated in FF14 and removed in FF18.
var bb = new MozBlobBuilder();
bb.append(data);
return bb.getBlob(contentType);
};
PDFJS.createObjectURL = (function createObjectURLClosure() {
// Blob/createObjectURL is not available, falling back to data schema.
var digits =
'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/=';
return function createObjectURL(data, contentType) {
if (!PDFJS.disableCreateObjectURL &&
typeof URL !== 'undefined' && URL.createObjectURL) {
var blob = PDFJS.createBlob(data, contentType);
return URL.createObjectURL(blob);
}
var buffer = 'data:' + contentType + ';base64,';
for (var i = 0, ii = data.length; i < ii; i += 3) {
var b1 = data[i] & 0xFF;
var b2 = data[i + 1] & 0xFF;
var b3 = data[i + 2] & 0xFF;
var d1 = b1 >> 2, d2 = ((b1 & 3) << 4) | (b2 >> 4);
var d3 = i + 1 < ii ? ((b2 & 0xF) << 2) | (b3 >> 6) : 64;
var d4 = i + 2 < ii ? (b3 & 0x3F) : 64;
buffer += digits[d1] + digits[d2] + digits[d3] + digits[d4];
}
return buffer;
};
})();
function MessageHandler(name, comObj) {
this.name = name;
this.comObj = comObj;
this.callbackIndex = 1;
this.postMessageTransfers = true;
var callbacks = this.callbacks = {};
var ah = this.actionHandler = {};
ah['console_log'] = [function ahConsoleLog(data) {
console.log.apply(console, data);
}];
ah['console_error'] = [function ahConsoleError(data) {
console.error.apply(console, data);
}];
ah['_unsupported_feature'] = [function ah_unsupportedFeature(data) {
UnsupportedManager.notify(data);
}];
comObj.onmessage = function messageHandlerComObjOnMessage(event) {
var data = event.data;
if (data.isReply) {
var callbackId = data.callbackId;
if (data.callbackId in callbacks) {
var callback = callbacks[callbackId];
delete callbacks[callbackId];
callback(data.data);
} else {
error('Cannot resolve callback ' + callbackId);
}
} else if (data.action in ah) {
var action = ah[data.action];
if (data.callbackId) {
var deferred = {};
var promise = new Promise(function (resolve, reject) {
deferred.resolve = resolve;
deferred.reject = reject;
});
deferred.promise = promise;
promise.then(function(resolvedData) {
comObj.postMessage({
isReply: true,
callbackId: data.callbackId,
data: resolvedData
});
});
action[0].call(action[1], data.data, deferred);
} else {
action[0].call(action[1], data.data);
}
} else {
error('Unkown action from worker: ' + data.action);
}
};
}
MessageHandler.prototype = {
on: function messageHandlerOn(actionName, handler, scope) {
var ah = this.actionHandler;
if (ah[actionName]) {
error('There is already an actionName called "' + actionName + '"');
}
ah[actionName] = [handler, scope];
},
/**
* Sends a message to the comObj to invoke the action with the supplied data.
* @param {String} actionName Action to call.
* @param {JSON} data JSON data to send.
* @param {function} [callback] Optional callback that will handle a reply.
* @param {Array} [transfers] Optional list of transfers/ArrayBuffers
*/
send: function messageHandlerSend(actionName, data, callback, transfers) {
var message = {
action: actionName,
data: data
};
if (callback) {
var callbackId = this.callbackIndex++;
this.callbacks[callbackId] = callback;
message.callbackId = callbackId;
}
if (transfers && this.postMessageTransfers) {
this.comObj.postMessage(message, transfers);
} else {
this.comObj.postMessage(message);
}
}
};
function loadJpegStream(id, imageUrl, objs) {
var img = new Image();
img.onload = (function loadJpegStream_onloadClosure() {
objs.resolve(id, img);
});
img.src = imageUrl;
}
var ColorSpace = (function ColorSpaceClosure() {
// Constructor should define this.numComps, this.defaultColor, this.name
function ColorSpace() {
error('should not call ColorSpace constructor');
}
ColorSpace.prototype = {
/**
* Converts the color value to the RGB color. The color components are
* located in the src array starting from the srcOffset. Returns the array
* of the rgb components, each value ranging from [0,255].
*/
getRgb: function ColorSpace_getRgb(src, srcOffset) {
var rgb = new Uint8Array(3);
this.getRgbItem(src, srcOffset, rgb, 0);
return rgb;
},
/**
* Converts the color value to the RGB color, similar to the getRgb method.
* The result placed into the dest array starting from the destOffset.
*/
getRgbItem: function ColorSpace_getRgbItem(src, srcOffset,
dest, destOffset) {
error('Should not call ColorSpace.getRgbItem');
},
/**
* Converts the specified number of the color values to the RGB colors.
* The colors are located in the src array starting from the srcOffset.
* The result is placed into the dest array starting from the destOffset.
* The src array items shall be in [0,2^bits) range, the dest array items
* will be in [0,255] range. alpha01 indicates how many alpha components
* there are in the dest array; it will be either 0 (RGB array) or 1 (RGBA
* array).
*/
getRgbBuffer: function ColorSpace_getRgbBuffer(src, srcOffset, count,
dest, destOffset, bits,
alpha01) {
error('Should not call ColorSpace.getRgbBuffer');
},
/**
* Determines the number of bytes required to store the result of the
* conversion done by the getRgbBuffer method. As in getRgbBuffer,
* |alpha01| is either 0 (RGB output) or 1 (RGBA output).
*/
getOutputLength: function ColorSpace_getOutputLength(inputLength,
alpha01) {
error('Should not call ColorSpace.getOutputLength');
},
/**
* Returns true if source data will be equal the result/output data.
*/
isPassthrough: function ColorSpace_isPassthrough(bits) {
return false;
},
/**
* Fills in the RGB colors in the destination buffer. alpha01 indicates
* how many alpha components there are in the dest array; it will be either
* 0 (RGB array) or 1 (RGBA array).
*/
fillRgb: function ColorSpace_fillRgb(dest, originalWidth,
originalHeight, width, height,
actualHeight, bpc, comps, alpha01) {
var count = originalWidth * originalHeight;
var rgbBuf = null;
var numComponentColors = 1 << bpc;
var needsResizing = originalHeight != height || originalWidth != width;
var i, ii;
if (this.isPassthrough(bpc)) {
rgbBuf = comps;
} else if (this.numComps === 1 && count > numComponentColors &&
this.name !== 'DeviceGray' && this.name !== 'DeviceRGB') {
// Optimization: create a color map when there is just one component and
// we are converting more colors than the size of the color map. We
// don't build the map if the colorspace is gray or rgb since those
// methods are faster than building a map. This mainly offers big speed
// ups for indexed and alternate colorspaces.
//
// TODO it may be worth while to cache the color map. While running
// testing I never hit a cache so I will leave that out for now (perhaps
// we are reparsing colorspaces too much?).
var allColors = bpc <= 8 ? new Uint8Array(numComponentColors) :
new Uint16Array(numComponentColors);
var key;
for (i = 0; i < numComponentColors; i++) {
allColors[i] = i;
}
var colorMap = new Uint8Array(numComponentColors * 3);
this.getRgbBuffer(allColors, 0, numComponentColors, colorMap, 0, bpc,
/* alpha01 = */ 0);
var destPos, rgbPos;
if (!needsResizing) {
// Fill in the RGB values directly into |dest|.
destPos = 0;
for (i = 0; i < count; ++i) {
key = comps[i] * 3;
dest[destPos++] = colorMap[key];
dest[destPos++] = colorMap[key + 1];
dest[destPos++] = colorMap[key + 2];
destPos += alpha01;
}
} else {
rgbBuf = new Uint8Array(count * 3);
rgbPos = 0;
for (i = 0; i < count; ++i) {
key = comps[i] * 3;
rgbBuf[rgbPos++] = colorMap[key];
rgbBuf[rgbPos++] = colorMap[key + 1];
rgbBuf[rgbPos++] = colorMap[key + 2];
}
}
} else {
if (!needsResizing) {
// Fill in the RGB values directly into |dest|.
this.getRgbBuffer(comps, 0, width * actualHeight, dest, 0, bpc,
alpha01);
} else {
rgbBuf = new Uint8Array(count * 3);
this.getRgbBuffer(comps, 0, count, rgbBuf, 0, bpc,
/* alpha01 = */ 0);
}
}
if (rgbBuf) {
if (needsResizing) {
PDFImage.resize(rgbBuf, bpc, 3, originalWidth, originalHeight, width,
height, dest, alpha01);
} else {
rgbPos = 0;
destPos = 0;
for (i = 0, ii = width * actualHeight; i < ii; i++) {
dest[destPos++] = rgbBuf[rgbPos++];
dest[destPos++] = rgbBuf[rgbPos++];
dest[destPos++] = rgbBuf[rgbPos++];
destPos += alpha01;
}
}
}
},
/**
* True if the colorspace has components in the default range of [0, 1].
* This should be true for all colorspaces except for lab color spaces
* which are [0,100], [-128, 127], [-128, 127].
*/
usesZeroToOneRange: true
};
ColorSpace.parse = function ColorSpace_parse(cs, xref, res) {
var IR = ColorSpace.parseToIR(cs, xref, res);
if (IR instanceof AlternateCS) {
return IR;
}
return ColorSpace.fromIR(IR);
};
ColorSpace.fromIR = function ColorSpace_fromIR(IR) {
var name = isArray(IR) ? IR[0] : IR;
var whitePoint, blackPoint;
switch (name) {
case 'DeviceGrayCS':
return this.singletons.gray;
case 'DeviceRgbCS':
return this.singletons.rgb;
case 'DeviceCmykCS':
return this.singletons.cmyk;
case 'CalGrayCS':
whitePoint = IR[1].WhitePoint;
blackPoint = IR[1].BlackPoint;
var gamma = IR[1].Gamma;
return new CalGrayCS(whitePoint, blackPoint, gamma);
case 'PatternCS':
var basePatternCS = IR[1];
if (basePatternCS) {
basePatternCS = ColorSpace.fromIR(basePatternCS);
}
return new PatternCS(basePatternCS);
case 'IndexedCS':
var baseIndexedCS = IR[1];
var hiVal = IR[2];
var lookup = IR[3];
return new IndexedCS(ColorSpace.fromIR(baseIndexedCS), hiVal, lookup);
case 'AlternateCS':
var numComps = IR[1];
var alt = IR[2];
var tintFnIR = IR[3];
return new AlternateCS(numComps, ColorSpace.fromIR(alt),
PDFFunction.fromIR(tintFnIR));
case 'LabCS':
whitePoint = IR[1].WhitePoint;
blackPoint = IR[1].BlackPoint;
var range = IR[1].Range;
return new LabCS(whitePoint, blackPoint, range);
default:
error('Unkown name ' + name);
}
return null;
};
ColorSpace.parseToIR = function ColorSpace_parseToIR(cs, xref, res) {
if (isName(cs)) {
var colorSpaces = res.get('ColorSpace');
if (isDict(colorSpaces)) {
var refcs = colorSpaces.get(cs.name);
if (refcs) {
cs = refcs;
}
}
}
cs = xref.fetchIfRef(cs);
var mode;
if (isName(cs)) {
mode = cs.name;
this.mode = mode;
switch (mode) {
case 'DeviceGray':
case 'G':
return 'DeviceGrayCS';
case 'DeviceRGB':
case 'RGB':
return 'DeviceRgbCS';
case 'DeviceCMYK':
case 'CMYK':
return 'DeviceCmykCS';
case 'Pattern':
return ['PatternCS', null];
default:
error('unrecognized colorspace ' + mode);
}
} else if (isArray(cs)) {
mode = cs[0].name;
this.mode = mode;
var numComps, params;
switch (mode) {
case 'DeviceGray':
case 'G':
return 'DeviceGrayCS';
case 'DeviceRGB':
case 'RGB':
return 'DeviceRgbCS';
case 'DeviceCMYK':
case 'CMYK':
return 'DeviceCmykCS';
case 'CalGray':
params = cs[1].getAll();
return ['CalGrayCS', params];
case 'CalRGB':
return 'DeviceRgbCS';
case 'ICCBased':
var stream = xref.fetchIfRef(cs[1]);
var dict = stream.dict;
numComps = dict.get('N');
if (numComps == 1) {
return 'DeviceGrayCS';
} else if (numComps == 3) {
return 'DeviceRgbCS';
} else if (numComps == 4) {
return 'DeviceCmykCS';
}
break;
case 'Pattern':
var basePatternCS = cs[1];
if (basePatternCS) {
basePatternCS = ColorSpace.parseToIR(basePatternCS, xref, res);
}
return ['PatternCS', basePatternCS];
case 'Indexed':
case 'I':
var baseIndexedCS = ColorSpace.parseToIR(cs[1], xref, res);
var hiVal = cs[2] + 1;
var lookup = xref.fetchIfRef(cs[3]);
if (isStream(lookup)) {
lookup = lookup.getBytes();
}
return ['IndexedCS', baseIndexedCS, hiVal, lookup];
case 'Separation':
case 'DeviceN':
var name = cs[1];
numComps = 1;
if (isName(name)) {
numComps = 1;
} else if (isArray(name)) {
numComps = name.length;
}
var alt = ColorSpace.parseToIR(cs[2], xref, res);
var tintFnIR = PDFFunction.getIR(xref, xref.fetchIfRef(cs[3]));
return ['AlternateCS', numComps, alt, tintFnIR];
case 'Lab':
params = cs[1].getAll();
return ['LabCS', params];
default:
error('unimplemented color space object "' + mode + '"');
}
} else {
error('unrecognized color space object: "' + cs + '"');
}
return null;
};
/**
* Checks if a decode map matches the default decode map for a color space.
* This handles the general decode maps where there are two values per
* component. e.g. [0, 1, 0, 1, 0, 1] for a RGB color.
* This does not handle Lab, Indexed, or Pattern decode maps since they are
* slightly different.
* @param {Array} decode Decode map (usually from an image).
* @param {Number} n Number of components the color space has.
*/
ColorSpace.isDefaultDecode = function ColorSpace_isDefaultDecode(decode, n) {
if (!decode) {
return true;
}
if (n * 2 !== decode.length) {
warn('The decode map is not the correct length');
return true;
}
for (var i = 0, ii = decode.length; i < ii; i += 2) {
if (decode[i] !== 0 || decode[i + 1] != 1) {
return false;
}
}
return true;
};
ColorSpace.singletons = {
get gray() {
return shadow(this, 'gray', new DeviceGrayCS());
},
get rgb() {
return shadow(this, 'rgb', new DeviceRgbCS());
},
get cmyk() {
return shadow(this, 'cmyk', new DeviceCmykCS());
}
};
return ColorSpace;
})();
/**
* Alternate color space handles both Separation and DeviceN color spaces. A
* Separation color space is actually just a DeviceN with one color component.
* Both color spaces use a tinting function to convert colors to a base color
* space.
*/
var AlternateCS = (function AlternateCSClosure() {
function AlternateCS(numComps, base, tintFn) {
this.name = 'Alternate';
this.numComps = numComps;
this.defaultColor = new Float32Array(numComps);
for (var i = 0; i < numComps; ++i) {
this.defaultColor[i] = 1;
}
this.base = base;
this.tintFn = tintFn;
}
AlternateCS.prototype = {
getRgb: ColorSpace.prototype.getRgb,
getRgbItem: function AlternateCS_getRgbItem(src, srcOffset,
dest, destOffset) {
var baseNumComps = this.base.numComps;
var input = 'subarray' in src ?
src.subarray(srcOffset, srcOffset + this.numComps) :
Array.prototype.slice.call(src, srcOffset, srcOffset + this.numComps);
var tinted = this.tintFn(input);
this.base.getRgbItem(tinted, 0, dest, destOffset);
},
getRgbBuffer: function AlternateCS_getRgbBuffer(src, srcOffset, count,
dest, destOffset, bits,
alpha01) {
var tintFn = this.tintFn;
var base = this.base;
var scale = 1 / ((1 << bits) - 1);
var baseNumComps = base.numComps;
var usesZeroToOneRange = base.usesZeroToOneRange;
var isPassthrough = (base.isPassthrough(8) || !usesZeroToOneRange) &&
alpha01 === 0;
var pos = isPassthrough ? destOffset : 0;
var baseBuf = isPassthrough ? dest : new Uint8Array(baseNumComps * count);
var numComps = this.numComps;
var scaled = new Float32Array(numComps);
var i, j;
for (i = 0; i < count; i++) {
for (j = 0; j < numComps; j++) {
scaled[j] = src[srcOffset++] * scale;
}
var tinted = tintFn(scaled);
if (usesZeroToOneRange) {
for (j = 0; j < baseNumComps; j++) {
baseBuf[pos++] = tinted[j] * 255;
}
} else {
base.getRgbItem(tinted, 0, baseBuf, pos);
pos += baseNumComps;
}
}
if (!isPassthrough) {
base.getRgbBuffer(baseBuf, 0, count, dest, destOffset, 8, alpha01);
}
},
getOutputLength: function AlternateCS_getOutputLength(inputLength,
alpha01) {
return this.base.getOutputLength(inputLength *
this.base.numComps / this.numComps,
alpha01);
},
isPassthrough: ColorSpace.prototype.isPassthrough,
fillRgb: ColorSpace.prototype.fillRgb,
isDefaultDecode: function AlternateCS_isDefaultDecode(decodeMap) {
return ColorSpace.isDefaultDecode(decodeMap, this.numComps);
},
usesZeroToOneRange: true
};
return AlternateCS;
})();
var PatternCS = (function PatternCSClosure() {
function PatternCS(baseCS) {
this.name = 'Pattern';
this.base = baseCS;
}
PatternCS.prototype = {};
return PatternCS;
})();
var IndexedCS = (function IndexedCSClosure() {
function IndexedCS(base, highVal, lookup) {
this.name = 'Indexed';
this.numComps = 1;
this.defaultColor = new Uint8Array([0]);
this.base = base;
this.highVal = highVal;
var baseNumComps = base.numComps;
var length = baseNumComps * highVal;
var lookupArray;
if (isStream(lookup)) {
lookupArray = new Uint8Array(length);
var bytes = lookup.getBytes(length);
lookupArray.set(bytes);
} else if (isString(lookup)) {
lookupArray = new Uint8Array(length);
for (var i = 0; i < length; ++i) {
lookupArray[i] = lookup.charCodeAt(i);
}
} else if (lookup instanceof Uint8Array || lookup instanceof Array) {
lookupArray = lookup;
} else {
error('Unrecognized lookup table: ' + lookup);
}
this.lookup = lookupArray;
}
IndexedCS.prototype = {
getRgb: ColorSpace.prototype.getRgb,
getRgbItem: function IndexedCS_getRgbItem(src, srcOffset,
dest, destOffset) {
var numComps = this.base.numComps;
var start = src[srcOffset] * numComps;
this.base.getRgbItem(this.lookup, start, dest, destOffset);
},
getRgbBuffer: function IndexedCS_getRgbBuffer(src, srcOffset, count,
dest, destOffset, bits,
alpha01) {
var base = this.base;
var numComps = base.numComps;
var outputDelta = base.getOutputLength(numComps, alpha01);
var lookup = this.lookup;
for (var i = 0; i < count; ++i) {
var lookupPos = src[srcOffset++] * numComps;
base.getRgbBuffer(lookup, lookupPos, 1, dest, destOffset, 8, alpha01);
destOffset += outputDelta;
}
},
getOutputLength: function IndexedCS_getOutputLength(inputLength, alpha01) {
return this.base.getOutputLength(inputLength * this.base.numComps,
alpha01);
},
isPassthrough: ColorSpace.prototype.isPassthrough,
fillRgb: ColorSpace.prototype.fillRgb,
isDefaultDecode: function IndexedCS_isDefaultDecode(decodeMap) {
// indexed color maps shouldn't be changed
return true;
},
usesZeroToOneRange: true
};
return IndexedCS;
})();
var DeviceGrayCS = (function DeviceGrayCSClosure() {
function DeviceGrayCS() {
this.name = 'DeviceGray';
this.numComps = 1;
this.defaultColor = new Float32Array([0]);
}
DeviceGrayCS.prototype = {
getRgb: ColorSpace.prototype.getRgb,
getRgbItem: function DeviceGrayCS_getRgbItem(src, srcOffset,
dest, destOffset) {
var c = (src[srcOffset] * 255) | 0;
c = c < 0 ? 0 : c > 255 ? 255 : c;
dest[destOffset] = dest[destOffset + 1] = dest[destOffset + 2] = c;
},
getRgbBuffer: function DeviceGrayCS_getRgbBuffer(src, srcOffset, count,
dest, destOffset, bits,
alpha01) {
var scale = 255 / ((1 << bits) - 1);
var j = srcOffset, q = destOffset;
for (var i = 0; i < count; ++i) {
var c = (scale * src[j++]) | 0;
dest[q++] = c;
dest[q++] = c;
dest[q++] = c;
q += alpha01;
}
},
getOutputLength: function DeviceGrayCS_getOutputLength(inputLength,
alpha01) {
return inputLength * (3 + alpha01);
},
isPassthrough: ColorSpace.prototype.isPassthrough,
fillRgb: ColorSpace.prototype.fillRgb,
isDefaultDecode: function DeviceGrayCS_isDefaultDecode(decodeMap) {
return ColorSpace.isDefaultDecode(decodeMap, this.numComps);
},
usesZeroToOneRange: true
};
return DeviceGrayCS;
})();
var DeviceRgbCS = (function DeviceRgbCSClosure() {
function DeviceRgbCS() {
this.name = 'DeviceRGB';
this.numComps = 3;
this.defaultColor = new Float32Array([0, 0, 0]);
}
DeviceRgbCS.prototype = {
getRgb: ColorSpace.prototype.getRgb,
getRgbItem: function DeviceRgbCS_getRgbItem(src, srcOffset,
dest, destOffset) {
var r = (src[srcOffset] * 255) | 0;
var g = (src[srcOffset + 1] * 255) | 0;
var b = (src[srcOffset + 2] * 255) | 0;
dest[destOffset] = r < 0 ? 0 : r > 255 ? 255 : r;
dest[destOffset + 1] = g < 0 ? 0 : g > 255 ? 255 : g;
dest[destOffset + 2] = b < 0 ? 0 : b > 255 ? 255 : b;
},
getRgbBuffer: function DeviceRgbCS_getRgbBuffer(src, srcOffset, count,
dest, destOffset, bits,
alpha01) {
if (bits === 8 && alpha01 === 0) {
dest.set(src.subarray(srcOffset, srcOffset + count * 3), destOffset);
return;
}
var scale = 255 / ((1 << bits) - 1);
var j = srcOffset, q = destOffset;
for (var i = 0; i < count; ++i) {
dest[q++] = (scale * src[j++]) | 0;
dest[q++] = (scale * src[j++]) | 0;
dest[q++] = (scale * src[j++]) | 0;
q += alpha01;
}
},
getOutputLength: function DeviceRgbCS_getOutputLength(inputLength,
alpha01) {
return (inputLength * (3 + alpha01) / 3) | 0;
},
isPassthrough: function DeviceRgbCS_isPassthrough(bits) {
return bits == 8;
},
fillRgb: ColorSpace.prototype.fillRgb,
isDefaultDecode: function DeviceRgbCS_isDefaultDecode(decodeMap) {
return ColorSpace.isDefaultDecode(decodeMap, this.numComps);
},
usesZeroToOneRange: true
};
return DeviceRgbCS;
})();
var DeviceCmykCS = (function DeviceCmykCSClosure() {
// The coefficients below was found using numerical analysis: the method of
// steepest descent for the sum((f_i - color_value_i)^2) for r/g/b colors,
// where color_value is the tabular value from the table of sampled RGB colors
// from CMYK US Web Coated (SWOP) colorspace, and f_i is the corresponding
// CMYK color conversion using the estimation below:
// f(A, B,.. N) = Acc+Bcm+Ccy+Dck+c+Fmm+Gmy+Hmk+Im+Jyy+Kyk+Ly+Mkk+Nk+255
function convertToRgb(src, srcOffset, srcScale, dest, destOffset) {
var c = src[srcOffset + 0] * srcScale;
var m = src[srcOffset + 1] * srcScale;
var y = src[srcOffset + 2] * srcScale;
var k = src[srcOffset + 3] * srcScale;
var r =
(c * (-4.387332384609988 * c + 54.48615194189176 * m +
18.82290502165302 * y + 212.25662451639585 * k +
-285.2331026137004) +
m * (1.7149763477362134 * m - 5.6096736904047315 * y +
-17.873870861415444 * k - 5.497006427196366) +
y * (-2.5217340131683033 * y - 21.248923337353073 * k +
17.5119270841813) +
k * (-21.86122147463605 * k - 189.48180835922747) + 255) | 0;
var g =
(c * (8.841041422036149 * c + 60.118027045597366 * m +
6.871425592049007 * y + 31.159100130055922 * k +
-79.2970844816548) +
m * (-15.310361306967817 * m + 17.575251261109482 * y +
131.35250912493976 * k - 190.9453302588951) +
y * (4.444339102852739 * y + 9.8632861493405 * k - 24.86741582555878) +
k * (-20.737325471181034 * k - 187.80453709719578) + 255) | 0;
var b =
(c * (0.8842522430003296 * c + 8.078677503112928 * m +
30.89978309703729 * y - 0.23883238689178934 * k +
-14.183576799673286) +
m * (10.49593273432072 * m + 63.02378494754052 * y +
50.606957656360734 * k - 112.23884253719248) +
y * (0.03296041114873217 * y + 115.60384449646641 * k +
-193.58209356861505) +
k * (-22.33816807309886 * k - 180.12613974708367) + 255) | 0;
dest[destOffset] = r > 255 ? 255 : r < 0 ? 0 : r;
dest[destOffset + 1] = g > 255 ? 255 : g < 0 ? 0 : g;
dest[destOffset + 2] = b > 255 ? 255 : b < 0 ? 0 : b;
}
function DeviceCmykCS() {
this.name = 'DeviceCMYK';
this.numComps = 4;
this.defaultColor = new Float32Array([0, 0, 0, 1]);
}
DeviceCmykCS.prototype = {
getRgb: ColorSpace.prototype.getRgb,
getRgbItem: function DeviceCmykCS_getRgbItem(src, srcOffset,
dest, destOffset) {
convertToRgb(src, srcOffset, 1, dest, destOffset);
},
getRgbBuffer: function DeviceCmykCS_getRgbBuffer(src, srcOffset, count,
dest, destOffset, bits,
alpha01) {
var scale = 1 / ((1 << bits) - 1);
for (var i = 0; i < count; i++) {
convertToRgb(src, srcOffset, scale, dest, destOffset);
srcOffset += 4;
destOffset += 3 + alpha01;
}
},
getOutputLength: function DeviceCmykCS_getOutputLength(inputLength,
alpha01) {
return (inputLength / 4 * (3 + alpha01)) | 0;
},
isPassthrough: ColorSpace.prototype.isPassthrough,
fillRgb: ColorSpace.prototype.fillRgb,
isDefaultDecode: function DeviceCmykCS_isDefaultDecode(decodeMap) {
return ColorSpace.isDefaultDecode(decodeMap, this.numComps);
},
usesZeroToOneRange: true
};
return DeviceCmykCS;
})();
//
// CalGrayCS: Based on "PDF Reference, Sixth Ed", p.245
//
var CalGrayCS = (function CalGrayCSClosure() {
function CalGrayCS(whitePoint, blackPoint, gamma) {
this.name = 'CalGray';
this.numComps = 1;
this.defaultColor = new Float32Array([0]);
if (!whitePoint) {
error('WhitePoint missing - required for color space CalGray');
}
blackPoint = blackPoint || [0, 0, 0];
gamma = gamma || 1;
// Translate arguments to spec variables.
this.XW = whitePoint[0];
this.YW = whitePoint[1];
this.ZW = whitePoint[2];
this.XB = blackPoint[0];
this.YB = blackPoint[1];
this.ZB = blackPoint[2];
this.G = gamma;
// Validate variables as per spec.
if (this.XW < 0 || this.ZW < 0 || this.YW !== 1) {
error('Invalid WhitePoint components for ' + this.name +
', no fallback available');
}
if (this.XB < 0 || this.YB < 0 || this.ZB < 0) {
info('Invalid BlackPoint for ' + this.name + ', falling back to default');
this.XB = this.YB = this.ZB = 0;
}
if (this.XB !== 0 || this.YB !== 0 || this.ZB !== 0) {
warn(this.name + ', BlackPoint: XB: ' + this.XB + ', YB: ' + this.YB +
', ZB: ' + this.ZB + ', only default values are supported.');
}
if (this.G < 1) {
info('Invalid Gamma: ' + this.G + ' for ' + this.name +
', falling back to default');
this.G = 1;
}
}
function convertToRgb(cs, src, srcOffset, dest, destOffset, scale) {
// A represents a gray component of a calibrated gray space.
// A <---> AG in the spec
var A = src[srcOffset] * scale;
var AG = Math.pow(A, cs.G);
// Computes intermediate variables M, L, N as per spec.
// Except if other than default BlackPoint values are used.
var M = cs.XW * AG;
var L = cs.YW * AG;
var N = cs.ZW * AG;
// Decode XYZ, as per spec.
var X = M;
var Y = L;
var Z = N;
// http://www.poynton.com/notes/colour_and_gamma/ColorFAQ.html, Ch 4.
// This yields values in range [0, 100].
var Lstar = Math.max(116 * Math.pow(Y, 1 / 3) - 16, 0);
// Convert values to rgb range [0, 255].
dest[destOffset] = Lstar * 255 / 100;
dest[destOffset + 1] = Lstar * 255 / 100;
dest[destOffset + 2] = Lstar * 255 / 100;
}
CalGrayCS.prototype = {
getRgb: ColorSpace.prototype.getRgb,
getRgbItem: function CalGrayCS_getRgbItem(src, srcOffset,
dest, destOffset) {
convertToRgb(this, src, srcOffset, dest, destOffset, 1);
},
getRgbBuffer: function CalGrayCS_getRgbBuffer(src, srcOffset, count,
dest, destOffset, bits,
alpha01) {
var scale = 1 / ((1 << bits) - 1);
for (var i = 0; i < count; ++i) {
convertToRgb(this, src, srcOffset, dest, destOffset, scale);
srcOffset += 1;
destOffset += 3 + alpha01;
}
},
getOutputLength: function CalGrayCS_getOutputLength(inputLength, alpha01) {
return inputLength * (3 + alpha01);
},
isPassthrough: ColorSpace.prototype.isPassthrough,
fillRgb: ColorSpace.prototype.fillRgb,
isDefaultDecode: function CalGrayCS_isDefaultDecode(decodeMap) {
return ColorSpace.isDefaultDecode(decodeMap, this.numComps);
},
usesZeroToOneRange: true
};
return CalGrayCS;
})();
//
// LabCS: Based on "PDF Reference, Sixth Ed", p.250
//
var LabCS = (function LabCSClosure() {
function LabCS(whitePoint, blackPoint, range) {
this.name = 'Lab';
this.numComps = 3;
this.defaultColor = new Float32Array([0, 0, 0]);
if (!whitePoint) {
error('WhitePoint missing - required for color space Lab');
}
blackPoint = blackPoint || [0, 0, 0];
range = range || [-100, 100, -100, 100];
// Translate args to spec variables
this.XW = whitePoint[0];
this.YW = whitePoint[1];
this.ZW = whitePoint[2];
this.amin = range[0];
this.amax = range[1];
this.bmin = range[2];
this.bmax = range[3];
// These are here just for completeness - the spec doesn't offer any
// formulas that use BlackPoint in Lab
this.XB = blackPoint[0];
this.YB = blackPoint[1];
this.ZB = blackPoint[2];
// Validate vars as per spec
if (this.XW < 0 || this.ZW < 0 || this.YW !== 1) {
error('Invalid WhitePoint components, no fallback available');
}
if (this.XB < 0 || this.YB < 0 || this.ZB < 0) {
info('Invalid BlackPoint, falling back to default');
this.XB = this.YB = this.ZB = 0;
}
if (this.amin > this.amax || this.bmin > this.bmax) {
info('Invalid Range, falling back to defaults');
this.amin = -100;
this.amax = 100;
this.bmin = -100;
this.bmax = 100;
}
}
// Function g(x) from spec
function fn_g(x) {
if (x >= 6 / 29) {
return x * x * x;
} else {
return (108 / 841) * (x - 4 / 29);
}
}
function decode(value, high1, low2, high2) {
return low2 + (value) * (high2 - low2) / (high1);
}
// If decoding is needed maxVal should be 2^bits per component - 1.
function convertToRgb(cs, src, srcOffset, maxVal, dest, destOffset) {
// XXX: Lab input is in the range of [0, 100], [amin, amax], [bmin, bmax]
// not the usual [0, 1]. If a command like setFillColor is used the src
// values will already be within the correct range. However, if we are
// converting an image we have to map the values to the correct range given
// above.
// Ls,as,bs <---> L*,a*,b* in the spec
var Ls = src[srcOffset];
var as = src[srcOffset + 1];
var bs = src[srcOffset + 2];
if (maxVal !== false) {
Ls = decode(Ls, maxVal, 0, 100);
as = decode(as, maxVal, cs.amin, cs.amax);
bs = decode(bs, maxVal, cs.bmin, cs.bmax);
}
// Adjust limits of 'as' and 'bs'
as = as > cs.amax ? cs.amax : as < cs.amin ? cs.amin : as;
bs = bs > cs.bmax ? cs.bmax : bs < cs.bmin ? cs.bmin : bs;
// Computes intermediate variables X,Y,Z as per spec
var M = (Ls + 16) / 116;
var L = M + (as / 500);
var N = M - (bs / 200);
var X = cs.XW * fn_g(L);
var Y = cs.YW * fn_g(M);
var Z = cs.ZW * fn_g(N);
var r, g, b;
// Using different conversions for D50 and D65 white points,
// per http://www.color.org/srgb.pdf
if (cs.ZW < 1) {
// Assuming D50 (X=0.9642, Y=1.00, Z=0.8249)
r = X * 3.1339 + Y * -1.6170 + Z * -0.4906;
g = X * -0.9785 + Y * 1.9160 + Z * 0.0333;
b = X * 0.0720 + Y * -0.2290 + Z * 1.4057;
} else {
// Assuming D65 (X=0.9505, Y=1.00, Z=1.0888)
r = X * 3.2406 + Y * -1.5372 + Z * -0.4986;
g = X * -0.9689 + Y * 1.8758 + Z * 0.0415;
b = X * 0.0557 + Y * -0.2040 + Z * 1.0570;
}
// clamp color values to [0,1] range then convert to [0,255] range.
dest[destOffset] = r <= 0 ? 0 : r >= 1 ? 255 : Math.sqrt(r) * 255 | 0;
dest[destOffset + 1] = g <= 0 ? 0 : g >= 1 ? 255 : Math.sqrt(g) * 255 | 0;
dest[destOffset + 2] = b <= 0 ? 0 : b >= 1 ? 255 : Math.sqrt(b) * 255 | 0;
}
LabCS.prototype = {
getRgb: ColorSpace.prototype.getRgb,
getRgbItem: function LabCS_getRgbItem(src, srcOffset, dest, destOffset) {
convertToRgb(this, src, srcOffset, false, dest, destOffset);
},
getRgbBuffer: function LabCS_getRgbBuffer(src, srcOffset, count,
dest, destOffset, bits,
alpha01) {
var maxVal = (1 << bits) - 1;
for (var i = 0; i < count; i++) {
convertToRgb(this, src, srcOffset, maxVal, dest, destOffset);
srcOffset += 3;
destOffset += 3 + alpha01;
}
},
getOutputLength: function LabCS_getOutputLength(inputLength, alpha01) {
return (inputLength * (3 + alpha01) / 3) | 0;
},
isPassthrough: ColorSpace.prototype.isPassthrough,
isDefaultDecode: function LabCS_isDefaultDecode(decodeMap) {
// XXX: Decoding is handled with the lab conversion because of the strange
// ranges that are used.
return true;
},
usesZeroToOneRange: false
};
return LabCS;
})();
var PDFFunction = (function PDFFunctionClosure() {
var CONSTRUCT_SAMPLED = 0;
var CONSTRUCT_INTERPOLATED = 2;
var CONSTRUCT_STICHED = 3;
var CONSTRUCT_POSTSCRIPT = 4;
return {
getSampleArray: function PDFFunction_getSampleArray(size, outputSize, bps,
str) {
var i, ii;
var length = 1;
for (i = 0, ii = size.length; i < ii; i++) {
length *= size[i];
}
length *= outputSize;
var array = [];
var codeSize = 0;
var codeBuf = 0;
// 32 is a valid bps so shifting won't work
var sampleMul = 1.0 / (Math.pow(2.0, bps) - 1);
var strBytes = str.getBytes((length * bps + 7) / 8);
var strIdx = 0;
for (i = 0; i < length; i++) {
while (codeSize < bps) {
codeBuf <<= 8;
codeBuf |= strBytes[strIdx++];
codeSize += 8;
}
codeSize -= bps;
array.push((codeBuf >> codeSize) * sampleMul);
codeBuf &= (1 << codeSize) - 1;
}
return array;
},
getIR: function PDFFunction_getIR(xref, fn) {
var dict = fn.dict;
if (!dict) {
dict = fn;
}
var types = [this.constructSampled,
null,
this.constructInterpolated,
this.constructStiched,
this.constructPostScript];
var typeNum = dict.get('FunctionType');
var typeFn = types[typeNum];
if (!typeFn) {
error('Unknown type of function');
}
return typeFn.call(this, fn, dict, xref);
},
fromIR: function PDFFunction_fromIR(IR) {
var type = IR[0];
switch (type) {
case CONSTRUCT_SAMPLED:
return this.constructSampledFromIR(IR);
case CONSTRUCT_INTERPOLATED:
return this.constructInterpolatedFromIR(IR);
case CONSTRUCT_STICHED:
return this.constructStichedFromIR(IR);
//case CONSTRUCT_POSTSCRIPT:
default:
return this.constructPostScriptFromIR(IR);
}
},
parse: function PDFFunction_parse(xref, fn) {
var IR = this.getIR(xref, fn);
return this.fromIR(IR);
},
constructSampled: function PDFFunction_constructSampled(str, dict) {
function toMultiArray(arr) {
var inputLength = arr.length;
var out = [];
var index = 0;
for (var i = 0; i < inputLength; i += 2) {
out[index] = [arr[i], arr[i + 1]];
++index;
}
return out;
}
var domain = dict.get('Domain');
var range = dict.get('Range');
if (!domain || !range) {
error('No domain or range');
}
var inputSize = domain.length / 2;
var outputSize = range.length / 2;
domain = toMultiArray(domain);
range = toMultiArray(range);
var size = dict.get('Size');
var bps = dict.get('BitsPerSample');
var order = dict.get('Order') || 1;
if (order !== 1) {
// No description how cubic spline interpolation works in PDF32000:2008
// As in poppler, ignoring order, linear interpolation may work as good
info('No support for cubic spline interpolation: ' + order);
}
var encode = dict.get('Encode');
if (!encode) {
encode = [];
for (var i = 0; i < inputSize; ++i) {
encode.push(0);
encode.push(size[i] - 1);
}
}
encode = toMultiArray(encode);
var decode = dict.get('Decode');
if (!decode) {
decode = range;
} else {
decode = toMultiArray(decode);
}
var samples = this.getSampleArray(size, outputSize, bps, str);
return [
CONSTRUCT_SAMPLED, inputSize, domain, encode, decode, samples, size,
outputSize, Math.pow(2, bps) - 1, range
];
},
constructSampledFromIR: function PDFFunction_constructSampledFromIR(IR) {
// See chapter 3, page 109 of the PDF reference
function interpolate(x, xmin, xmax, ymin, ymax) {
return ymin + ((x - xmin) * ((ymax - ymin) / (xmax - xmin)));
}
return function constructSampledFromIRResult(args) {
// See chapter 3, page 110 of the PDF reference.
var m = IR[1];
var domain = IR[2];
var encode = IR[3];
var decode = IR[4];
var samples = IR[5];
var size = IR[6];
var n = IR[7];
//var mask = IR[8];
var range = IR[9];
if (m != args.length) {
error('Incorrect number of arguments: ' + m + ' != ' +
args.length);
}
var x = args;
// Building the cube vertices: its part and sample index
// http://rjwagner49.com/Mathematics/Interpolation.pdf
var cubeVertices = 1 << m;
var cubeN = new Float64Array(cubeVertices);
var cubeVertex = new Uint32Array(cubeVertices);
var i, j;
for (j = 0; j < cubeVertices; j++) {
cubeN[j] = 1;
}
var k = n, pos = 1;
// Map x_i to y_j for 0 <= i < m using the sampled function.
for (i = 0; i < m; ++i) {
// x_i' = min(max(x_i, Domain_2i), Domain_2i+1)
var domain_2i = domain[i][0];
var domain_2i_1 = domain[i][1];
var xi = Math.min(Math.max(x[i], domain_2i), domain_2i_1);
// e_i = Interpolate(x_i', Domain_2i, Domain_2i+1,
// Encode_2i, Encode_2i+1)
var e = interpolate(xi, domain_2i, domain_2i_1,
encode[i][0], encode[i][1]);
// e_i' = min(max(e_i, 0), Size_i - 1)
var size_i = size[i];
e = Math.min(Math.max(e, 0), size_i - 1);
// Adjusting the cube: N and vertex sample index
var e0 = e < size_i - 1 ? Math.floor(e) : e - 1; // e1 = e0 + 1;
var n0 = e0 + 1 - e; // (e1 - e) / (e1 - e0);
var n1 = e - e0; // (e - e0) / (e1 - e0);
var offset0 = e0 * k;
var offset1 = offset0 + k; // e1 * k
for (j = 0; j < cubeVertices; j++) {
if (j & pos) {
cubeN[j] *= n1;
cubeVertex[j] += offset1;
} else {
cubeN[j] *= n0;
cubeVertex[j] += offset0;
}
}
k *= size_i;
pos <<= 1;
}
var y = new Float64Array(n);
for (j = 0; j < n; ++j) {
// Sum all cube vertices' samples portions
var rj = 0;
for (i = 0; i < cubeVertices; i++) {
rj += samples[cubeVertex[i] + j] * cubeN[i];
}
// r_j' = Interpolate(r_j, 0, 2^BitsPerSample - 1,
// Decode_2j, Decode_2j+1)
rj = interpolate(rj, 0, 1, decode[j][0], decode[j][1]);
// y_j = min(max(r_j, range_2j), range_2j+1)
y[j] = Math.min(Math.max(rj, range[j][0]), range[j][1]);
}
return y;
};
},
constructInterpolated: function PDFFunction_constructInterpolated(str,
dict) {
var c0 = dict.get('C0') || [0];
var c1 = dict.get('C1') || [1];
var n = dict.get('N');
if (!isArray(c0) || !isArray(c1)) {
error('Illegal dictionary for interpolated function');
}
var length = c0.length;
var diff = [];
for (var i = 0; i < length; ++i) {
diff.push(c1[i] - c0[i]);
}
return [CONSTRUCT_INTERPOLATED, c0, diff, n];
},
constructInterpolatedFromIR:
function PDFFunction_constructInterpolatedFromIR(IR) {
var c0 = IR[1];
var diff = IR[2];
var n = IR[3];
var length = diff.length;
return function constructInterpolatedFromIRResult(args) {
var x = n == 1 ? args[0] : Math.pow(args[0], n);
var out = [];
for (var j = 0; j < length; ++j) {
out.push(c0[j] + (x * diff[j]));
}
return out;
};
},
constructStiched: function PDFFunction_constructStiched(fn, dict, xref) {
var domain = dict.get('Domain');
if (!domain) {
error('No domain');
}
var inputSize = domain.length / 2;
if (inputSize != 1) {
error('Bad domain for stiched function');
}
var fnRefs = dict.get('Functions');
var fns = [];
for (var i = 0, ii = fnRefs.length; i < ii; ++i) {
fns.push(PDFFunction.getIR(xref, xref.fetchIfRef(fnRefs[i])));
}
var bounds = dict.get('Bounds');
var encode = dict.get('Encode');
return [CONSTRUCT_STICHED, domain, bounds, encode, fns];
},
constructStichedFromIR: function PDFFunction_constructStichedFromIR(IR) {
var domain = IR[1];
var bounds = IR[2];
var encode = IR[3];
var fnsIR = IR[4];
var fns = [];
for (var i = 0, ii = fnsIR.length; i < ii; i++) {
fns.push(PDFFunction.fromIR(fnsIR[i]));
}
return function constructStichedFromIRResult(args) {
var clip = function constructStichedFromIRClip(v, min, max) {
if (v > max) {
v = max;
} else if (v < min) {
v = min;
}
return v;
};
// clip to domain
var v = clip(args[0], domain[0], domain[1]);
// calulate which bound the value is in
for (var i = 0, ii = bounds.length; i < ii; ++i) {
if (v < bounds[i]) {
break;
}
}
// encode value into domain of function
var dmin = domain[0];
if (i > 0) {
dmin = bounds[i - 1];
}
var dmax = domain[1];
if (i < bounds.length) {
dmax = bounds[i];
}
var rmin = encode[2 * i];
var rmax = encode[2 * i + 1];
var v2 = rmin + (v - dmin) * (rmax - rmin) / (dmax - dmin);
// call the appropriate function
return fns[i]([v2]);
};
},
constructPostScript: function PDFFunction_constructPostScript(fn, dict,
xref) {
var domain = dict.get('Domain');
var range = dict.get('Range');
if (!domain) {
error('No domain.');
}
if (!range) {
error('No range.');
}
var lexer = new PostScriptLexer(fn);
var parser = new PostScriptParser(lexer);
var code = parser.parse();
return [CONSTRUCT_POSTSCRIPT, domain, range, code];
},
constructPostScriptFromIR: function PDFFunction_constructPostScriptFromIR(
IR) {
var domain = IR[1];
var range = IR[2];
var code = IR[3];
var numOutputs = range.length / 2;
var evaluator = new PostScriptEvaluator(code);
// Cache the values for a big speed up, the cache size is limited though
// since the number of possible values can be huge from a PS function.
var cache = new FunctionCache();
return function constructPostScriptFromIRResult(args) {
var initialStack = [];
for (var i = 0, ii = (domain.length / 2); i < ii; ++i) {
initialStack.push(args[i]);
}
var key = initialStack.join('_');
if (cache.has(key)) {
return cache.get(key);
}
var stack = evaluator.execute(initialStack);
var transformed = [];
for (i = numOutputs - 1; i >= 0; --i) {
var out = stack.pop();
var rangeIndex = 2 * i;
if (out < range[rangeIndex]) {
out = range[rangeIndex];
} else if (out > range[rangeIndex + 1]) {
out = range[rangeIndex + 1];
}
transformed[i] = out;
}
cache.set(key, transformed);
return transformed;
};
}
};
})();
var FunctionCache = (function FunctionCacheClosure() {
// Of 10 PDF's with type4 functions the maxium number of distinct values seen
// was 256. This still may need some tweaking in the future though.
var MAX_CACHE_SIZE = 1024;
function FunctionCache() {
this.cache = {};
this.total = 0;
}
FunctionCache.prototype = {
has: function FunctionCache_has(key) {
return key in this.cache;
},
get: function FunctionCache_get(key) {
return this.cache[key];
},
set: function FunctionCache_set(key, value) {
if (this.total < MAX_CACHE_SIZE) {
this.cache[key] = value;
this.total++;
}
}
};
return FunctionCache;
})();
var PostScriptStack = (function PostScriptStackClosure() {
var MAX_STACK_SIZE = 100;
function PostScriptStack(initialStack) {
this.stack = initialStack || [];
}
PostScriptStack.prototype = {
push: function PostScriptStack_push(value) {
if (this.stack.length >= MAX_STACK_SIZE) {
error('PostScript function stack overflow.');
}
this.stack.push(value);
},
pop: function PostScriptStack_pop() {
if (this.stack.length <= 0) {
error('PostScript function stack underflow.');
}
return this.stack.pop();
},
copy: function PostScriptStack_copy(n) {
if (this.stack.length + n >= MAX_STACK_SIZE) {
error('PostScript function stack overflow.');
}
var stack = this.stack;
for (var i = stack.length - n, j = n - 1; j >= 0; j--, i++) {
stack.push(stack[i]);
}
},
index: function PostScriptStack_index(n) {
this.push(this.stack[this.stack.length - n - 1]);
},
// rotate the last n stack elements p times
roll: function PostScriptStack_roll(n, p) {
var stack = this.stack;
var l = stack.length - n;
var r = stack.length - 1, c = l + (p - Math.floor(p / n) * n), i, j, t;
for (i = l, j = r; i < j; i++, j--) {
t = stack[i]; stack[i] = stack[j]; stack[j] = t;
}
for (i = l, j = c - 1; i < j; i++, j--) {
t = stack[i]; stack[i] = stack[j]; stack[j] = t;
}
for (i = c, j = r; i < j; i++, j--) {
t = stack[i]; stack[i] = stack[j]; stack[j] = t;
}
}
};
return PostScriptStack;
})();
var PostScriptEvaluator = (function PostScriptEvaluatorClosure() {
function PostScriptEvaluator(operators) {
this.operators = operators;
}
PostScriptEvaluator.prototype = {
execute: function PostScriptEvaluator_execute(initialStack) {
var stack = new PostScriptStack(initialStack);
var counter = 0;
var operators = this.operators;
var length = operators.length;
var operator, a, b;
while (counter < length) {
operator = operators[counter++];
if (typeof operator == 'number') {
// Operator is really an operand and should be pushed to the stack.
stack.push(operator);
continue;
}
switch (operator) {
// non standard ps operators
case 'jz': // jump if false
b = stack.pop();
a = stack.pop();
if (!a) {
counter = b;
}
break;
case 'j': // jump
a = stack.pop();
counter = a;
break;
// all ps operators in alphabetical order (excluding if/ifelse)
case 'abs':
a = stack.pop();
stack.push(Math.abs(a));
break;
case 'add':
b = stack.pop();
a = stack.pop();
stack.push(a + b);
break;
case 'and':
b = stack.pop();
a = stack.pop();
if (isBool(a) && isBool(b)) {
stack.push(a && b);
} else {
stack.push(a & b);
}
break;
case 'atan':
a = stack.pop();
stack.push(Math.atan(a));
break;
case 'bitshift':
b = stack.pop();
a = stack.pop();
if (a > 0) {
stack.push(a << b);
} else {
stack.push(a >> b);
}
break;
case 'ceiling':
a = stack.pop();
stack.push(Math.ceil(a));
break;
case 'copy':
a = stack.pop();
stack.copy(a);
break;
case 'cos':
a = stack.pop();
stack.push(Math.cos(a));
break;
case 'cvi':
a = stack.pop() | 0;
stack.push(a);
break;
case 'cvr':
// noop
break;
case 'div':
b = stack.pop();
a = stack.pop();
stack.push(a / b);
break;
case 'dup':
stack.copy(1);
break;
case 'eq':
b = stack.pop();
a = stack.pop();
stack.push(a == b);
break;
case 'exch':
stack.roll(2, 1);
break;
case 'exp':
b = stack.pop();
a = stack.pop();
stack.push(Math.pow(a, b));
break;
case 'false':
stack.push(false);
break;
case 'floor':
a = stack.pop();
stack.push(Math.floor(a));
break;
case 'ge':
b = stack.pop();
a = stack.pop();
stack.push(a >= b);
break;
case 'gt':
b = stack.pop();
a = stack.pop();
stack.push(a > b);
break;
case 'idiv':
b = stack.pop();
a = stack.pop();
stack.push((a / b) | 0);
break;
case 'index':
a = stack.pop();
stack.index(a);
break;
case 'le':
b = stack.pop();
a = stack.pop();
stack.push(a <= b);
break;
case 'ln':
a = stack.pop();
stack.push(Math.log(a));
break;
case 'log':
a = stack.pop();
stack.push(Math.log(a) / Math.LN10);
break;
case 'lt':
b = stack.pop();
a = stack.pop();
stack.push(a < b);
break;
case 'mod':
b = stack.pop();
a = stack.pop();
stack.push(a % b);
break;
case 'mul':
b = stack.pop();
a = stack.pop();
stack.push(a * b);
break;
case 'ne':
b = stack.pop();
a = stack.pop();
stack.push(a != b);
break;
case 'neg':
a = stack.pop();
stack.push(-b);
break;
case 'not':
a = stack.pop();
if (isBool(a) && isBool(b)) {
stack.push(a && b);
} else {
stack.push(a & b);
}
break;
case 'or':
b = stack.pop();
a = stack.pop();
if (isBool(a) && isBool(b)) {
stack.push(a || b);
} else {
stack.push(a | b);
}
break;
case 'pop':
stack.pop();
break;
case 'roll':
b = stack.pop();
a = stack.pop();
stack.roll(a, b);
break;
case 'round':
a = stack.pop();
stack.push(Math.round(a));
break;
case 'sin':
a = stack.pop();
stack.push(Math.sin(a));
break;
case 'sqrt':
a = stack.pop();
stack.push(Math.sqrt(a));
break;
case 'sub':
b = stack.pop();
a = stack.pop();
stack.push(a - b);
break;
case 'true':
stack.push(true);
break;
case 'truncate':
a = stack.pop();
a = a < 0 ? Math.ceil(a) : Math.floor(a);
stack.push(a);
break;
case 'xor':
b = stack.pop();
a = stack.pop();
if (isBool(a) && isBool(b)) {
stack.push(a != b);
} else {
stack.push(a ^ b);
}
break;
default:
error('Unknown operator ' + operator);
break;
}
}
return stack.stack;
}
};
return PostScriptEvaluator;
})();
var DEFAULT_ICON_SIZE = 22; // px
var HIGHLIGHT_OFFSET = 4; // px
var SUPPORTED_TYPES = ['Link', 'Text', 'Widget'];
var Annotation = (function AnnotationClosure() {
// 12.5.5: Algorithm: Appearance streams
function getTransformMatrix(rect, bbox, matrix) {
var bounds = Util.getAxialAlignedBoundingBox(bbox, matrix);
var minX = bounds[0];
var minY = bounds[1];
var maxX = bounds[2];
var maxY = bounds[3];
if (minX === maxX || minY === maxY) {
// From real-life file, bbox was [0, 0, 0, 0]. In this case,
// just apply the transform for rect
return [1, 0, 0, 1, rect[0], rect[1]];
}
var xRatio = (rect[2] - rect[0]) / (maxX - minX);
var yRatio = (rect[3] - rect[1]) / (maxY - minY);
return [
xRatio,
0,
0,
yRatio,
rect[0] - minX * xRatio,
rect[1] - minY * yRatio
];
}
function getDefaultAppearance(dict) {
var appearanceState = dict.get('AP');
if (!isDict(appearanceState)) {
return;
}
var appearance;
var appearances = appearanceState.get('N');
if (isDict(appearances)) {
var as = dict.get('AS');
if (as && appearances.has(as.name)) {
appearance = appearances.get(as.name);
}
} else {
appearance = appearances;
}
return appearance;
}
function Annotation(params) {
if (params.data) {
this.data = params.data;
return;
}
var dict = params.dict;
var data = this.data = {};
data.subtype = dict.get('Subtype').name;
var rect = dict.get('Rect') || [0, 0, 0, 0];
data.rect = Util.normalizeRect(rect);
data.annotationFlags = dict.get('F');
var color = dict.get('C');
if (isArray(color) && color.length === 3) {
// TODO(mack): currently only supporting rgb; need support different
// colorspaces
data.color = color;
} else {
data.color = [0, 0, 0];
}
// Some types of annotations have border style dict which has more
// info than the border array
if (dict.has('BS')) {
var borderStyle = dict.get('BS');
data.borderWidth = borderStyle.has('W') ? borderStyle.get('W') : 1;
} else {
var borderArray = dict.get('Border') || [0, 0, 1];
data.borderWidth = borderArray[2] || 0;
// TODO: implement proper support for annotations with line dash patterns.
var dashArray = borderArray[3];
if (data.borderWidth > 0 && dashArray && isArray(dashArray)) {
var dashArrayLength = dashArray.length;
if (dashArrayLength > 0) {
// According to the PDF specification: the elements in a dashArray
// shall be numbers that are nonnegative and not all equal to zero.
var isInvalid = false;
var numPositive = 0;
for (var i = 0; i < dashArrayLength; i++) {
var validNumber = (+dashArray[i] >= 0);
if (!validNumber) {
isInvalid = true;
break;
} else if (dashArray[i] > 0) {
numPositive++;
}
}
if (isInvalid || numPositive === 0) {
data.borderWidth = 0;
}
}
}
}
this.appearance = getDefaultAppearance(dict);
data.hasAppearance = !!this.appearance;
data.id = params.ref.num;
}
Annotation.prototype = {
getData: function Annotation_getData() {
return this.data;
},
hasHtml: function Annotation_hasHtml() {
return false;
},
getHtmlElement: function Annotation_getHtmlElement(commonObjs) {
throw new NotImplementedException(
'getHtmlElement() should be implemented in subclass');
},
// TODO(mack): Remove this, it's not really that helpful.
getEmptyContainer: function Annotation_getEmptyContainer(tagName, rect,
borderWidth) {
assert(!isWorker,
'getEmptyContainer() should be called from main thread');
var bWidth = borderWidth || 0;
rect = rect || this.data.rect;
var element = document.createElement(tagName);
element.style.borderWidth = bWidth + 'px';
var width = rect[2] - rect[0] - 2 * bWidth;
var height = rect[3] - rect[1] - 2 * bWidth;
element.style.width = width + 'px';
element.style.height = height + 'px';
return element;
},
isInvisible: function Annotation_isInvisible() {
var data = this.data;
if (data && SUPPORTED_TYPES.indexOf(data.subtype) !== -1) {
return false;
} else {
return !!(data &&
data.annotationFlags && // Default: not invisible
data.annotationFlags & 0x1); // Invisible
}
},
isViewable: function Annotation_isViewable() {
var data = this.data;
return !!(!this.isInvisible() &&
data &&
(!data.annotationFlags ||
!(data.annotationFlags & 0x22)) && // Hidden or NoView
data.rect); // rectangle is nessessary
},
isPrintable: function Annotation_isPrintable() {
var data = this.data;
return !!(!this.isInvisible() &&
data &&
data.annotationFlags && // Default: not printable
data.annotationFlags & 0x4 && // Print
data.rect); // rectangle is nessessary
},
loadResources: function(keys) {
var promise = new LegacyPromise();
this.appearance.dict.getAsync('Resources').then(function(resources) {
if (!resources) {
promise.resolve();
return;
}
var objectLoader = new ObjectLoader(resources.map,
keys,
resources.xref);
objectLoader.load().then(function() {
promise.resolve(resources);
});
}.bind(this));
return promise;
},
getOperatorList: function Annotation_getOperatorList(evaluator) {
var promise = new LegacyPromise();
if (!this.appearance) {
promise.resolve(new OperatorList());
return promise;
}
var data = this.data;
var appearanceDict = this.appearance.dict;
var resourcesPromise = this.loadResources([
'ExtGState',
'ColorSpace',
'Pattern',
'Shading',
'XObject',
'Font'
// ProcSet
// Properties
]);
var bbox = appearanceDict.get('BBox') || [0, 0, 1, 1];
var matrix = appearanceDict.get('Matrix') || [1, 0, 0, 1, 0 ,0];
var transform = getTransformMatrix(data.rect, bbox, matrix);
resourcesPromise.then(function(resources) {
var opList = new OperatorList();
opList.addOp(OPS.beginAnnotation, [data.rect, transform, matrix]);
evaluator.getOperatorList(this.appearance, resources, opList);
opList.addOp(OPS.endAnnotation, []);
promise.resolve(opList);
this.appearance.reset();
}.bind(this));
return promise;
}
};
Annotation.getConstructor =
function Annotation_getConstructor(subtype, fieldType) {
if (!subtype) {
return;
}
// TODO(mack): Implement FreeText annotations
if (subtype === 'Link') {
return LinkAnnotation;
} else if (subtype === 'Text') {
return TextAnnotation;
} else if (subtype === 'Widget') {
if (!fieldType) {
return;
}
if (fieldType === 'Tx') {
return TextWidgetAnnotation;
} else {
return WidgetAnnotation;
}
} else {
return Annotation;
}
};
// TODO(mack): Support loading annotation from data
Annotation.fromData = function Annotation_fromData(data) {
var subtype = data.subtype;
var fieldType = data.fieldType;
var Constructor = Annotation.getConstructor(subtype, fieldType);
if (Constructor) {
return new Constructor({ data: data });
}
};
Annotation.fromRef = function Annotation_fromRef(xref, ref) {
var dict = xref.fetchIfRef(ref);
if (!isDict(dict)) {
return;
}
var subtype = dict.get('Subtype');
subtype = isName(subtype) ? subtype.name : '';
if (!subtype) {
return;
}
var fieldType = Util.getInheritableProperty(dict, 'FT');
fieldType = isName(fieldType) ? fieldType.name : '';
var Constructor = Annotation.getConstructor(subtype, fieldType);
if (!Constructor) {
return;
}
var params = {
dict: dict,
ref: ref,
};
var annotation = new Constructor(params);
if (annotation.isViewable() || annotation.isPrintable()) {
return annotation;
} else {
warn('unimplemented annotation type: ' + subtype);
}
};
Annotation.appendToOperatorList = function Annotation_appendToOperatorList(
annotations, opList, pdfManager, partialEvaluator, intent) {
function reject(e) {
annotationsReadyPromise.reject(e);
}
var annotationsReadyPromise = new LegacyPromise();
var annotationPromises = [];
for (var i = 0, n = annotations.length; i < n; ++i) {
if (intent === 'display' && annotations[i].isViewable() ||
intent === 'print' && annotations[i].isPrintable()) {
annotationPromises.push(
annotations[i].getOperatorList(partialEvaluator));
}
}
Promise.all(annotationPromises).then(function(datas) {
opList.addOp(OPS.beginAnnotations, []);
for (var i = 0, n = datas.length; i < n; ++i) {
var annotOpList = datas[i];
opList.addOpList(annotOpList);
}
opList.addOp(OPS.endAnnotations, []);
annotationsReadyPromise.resolve();
}, reject);
return annotationsReadyPromise;
};
return Annotation;
})();
PDFJS.Annotation = Annotation;
var WidgetAnnotation = (function WidgetAnnotationClosure() {
function WidgetAnnotation(params) {
Annotation.call(this, params);
if (params.data) {
return;
}
var dict = params.dict;
var data = this.data;
data.fieldValue = stringToPDFString(
Util.getInheritableProperty(dict, 'V') || '');
data.alternativeText = stringToPDFString(dict.get('TU') || '');
data.defaultAppearance = Util.getInheritableProperty(dict, 'DA') || '';
var fieldType = Util.getInheritableProperty(dict, 'FT');
data.fieldType = isName(fieldType) ? fieldType.name : '';
data.fieldFlags = Util.getInheritableProperty(dict, 'Ff') || 0;
this.fieldResources = Util.getInheritableProperty(dict, 'DR') || Dict.empty;
// Building the full field name by collecting the field and
// its ancestors 'T' data and joining them using '.'.
var fieldName = [];
var namedItem = dict;
var ref = params.ref;
while (namedItem) {
var parent = namedItem.get('Parent');
var parentRef = namedItem.getRaw('Parent');
var name = namedItem.get('T');
if (name) {
fieldName.unshift(stringToPDFString(name));
} else {
// The field name is absent, that means more than one field
// with the same name may exist. Replacing the empty name
// with the '`' plus index in the parent's 'Kids' array.
// This is not in the PDF spec but necessary to id the
// the input controls.
var kids = parent.get('Kids');
var j, jj;
for (j = 0, jj = kids.length; j < jj; j++) {
var kidRef = kids[j];
if (kidRef.num == ref.num && kidRef.gen == ref.gen) {
break;
}
}
fieldName.unshift('`' + j);
}
namedItem = parent;
ref = parentRef;
}
data.fullName = fieldName.join('.');
}
var parent = Annotation.prototype;
Util.inherit(WidgetAnnotation, Annotation, {
isViewable: function WidgetAnnotation_isViewable() {
if (this.data.fieldType === 'Sig') {
warn('unimplemented annotation type: Widget signature');
return false;
}
return parent.isViewable.call(this);
}
});
return WidgetAnnotation;
})();
var TextWidgetAnnotation = (function TextWidgetAnnotationClosure() {
function TextWidgetAnnotation(params) {
WidgetAnnotation.call(this, params);
if (params.data) {
return;
}
this.data.textAlignment = Util.getInheritableProperty(params.dict, 'Q');
}
// TODO(mack): This dupes some of the logic in CanvasGraphics.setFont()
function setTextStyles(element, item, fontObj) {
var style = element.style;
style.fontSize = item.fontSize + 'px';
style.direction = item.fontDirection < 0 ? 'rtl': 'ltr';
if (!fontObj) {
return;
}
style.fontWeight = fontObj.black ?
(fontObj.bold ? 'bolder' : 'bold') :
(fontObj.bold ? 'bold' : 'normal');
style.fontStyle = fontObj.italic ? 'italic' : 'normal';
var fontName = fontObj.loadedName;
var fontFamily = fontName ? '"' + fontName + '", ' : '';
// Use a reasonable default font if the font doesn't specify a fallback
var fallbackName = fontObj.fallbackName || 'Helvetica, sans-serif';
style.fontFamily = fontFamily + fallbackName;
}
Util.inherit(TextWidgetAnnotation, WidgetAnnotation, {
hasHtml: function TextWidgetAnnotation_hasHtml() {
return !this.data.hasAppearance && !!this.data.fieldValue;
},
getHtmlElement: function TextWidgetAnnotation_getHtmlElement(commonObjs) {
assert(!isWorker, 'getHtmlElement() shall be called from main thread');
var item = this.data;
var element = this.getEmptyContainer('div');
element.style.display = 'table';
var content = document.createElement('div');
content.textContent = item.fieldValue;
var textAlignment = item.textAlignment;
content.style.textAlign = ['left', 'center', 'right'][textAlignment];
content.style.verticalAlign = 'middle';
content.style.display = 'table-cell';
var fontObj = item.fontRefName ?
commonObjs.getData(item.fontRefName) : null;
setTextStyles(content, item, fontObj);
element.appendChild(content);
return element;
},
getOperatorList: function TextWidgetAnnotation_getOperatorList(evaluator) {
if (this.appearance) {
return Annotation.prototype.getOperatorList.call(this, evaluator);
}
var promise = new LegacyPromise();
var opList = new OperatorList();
var data = this.data;
// Even if there is an appearance stream, ignore it. This is the
// behaviour used by Adobe Reader.
var defaultAppearance = data.defaultAppearance;
if (!defaultAppearance) {
promise.resolve(opList);
return promise;
}
// Include any font resources found in the default appearance
var stream = new Stream(stringToBytes(defaultAppearance));
evaluator.getOperatorList(stream, this.fieldResources, opList);
var appearanceFnArray = opList.fnArray;
var appearanceArgsArray = opList.argsArray;
var fnArray = [];
// TODO(mack): Add support for stroke color
data.rgb = [0, 0, 0];
// TODO THIS DOESN'T MAKE ANY SENSE SINCE THE fnArray IS EMPTY!
for (var i = 0, n = fnArray.length; i < n; ++i) {
var fnId = appearanceFnArray[i];
var args = appearanceArgsArray[i];
if (fnId === OPS.setFont) {
data.fontRefName = args[0];
var size = args[1];
if (size < 0) {
data.fontDirection = -1;
data.fontSize = -size;
} else {
data.fontDirection = 1;
data.fontSize = size;
}
} else if (fnId === OPS.setFillRGBColor) {
data.rgb = args;
} else if (fnId === OPS.setFillGray) {
var rgbValue = args[0] * 255;
data.rgb = [rgbValue, rgbValue, rgbValue];
}
}
promise.resolve(opList);
return promise;
}
});
return TextWidgetAnnotation;
})();
var InteractiveAnnotation = (function InteractiveAnnotationClosure() {
function InteractiveAnnotation(params) {
Annotation.call(this, params);
}
Util.inherit(InteractiveAnnotation, Annotation, {
hasHtml: function InteractiveAnnotation_hasHtml() {
return true;
},
highlight: function InteractiveAnnotation_highlight() {
if (this.highlightElement &&
this.highlightElement.hasAttribute('hidden')) {
this.highlightElement.removeAttribute('hidden');
}
},
unhighlight: function InteractiveAnnotation_unhighlight() {
if (this.highlightElement &&
!this.highlightElement.hasAttribute('hidden')) {
this.highlightElement.setAttribute('hidden', true);
}
},
initContainer: function InteractiveAnnotation_initContainer() {
var item = this.data;
var rect = item.rect;
var container = this.getEmptyContainer('section', rect, item.borderWidth);
container.style.backgroundColor = item.color;
var color = item.color;
var rgb = [];
for (var i = 0; i < 3; ++i) {
rgb[i] = Math.round(color[i] * 255);
}
item.colorCssRgb = Util.makeCssRgb(rgb);
var highlight = document.createElement('div');
highlight.className = 'annotationHighlight';
highlight.style.left = highlight.style.top = -HIGHLIGHT_OFFSET + 'px';
highlight.style.right = highlight.style.bottom = -HIGHLIGHT_OFFSET + 'px';
highlight.setAttribute('hidden', true);
this.highlightElement = highlight;
container.appendChild(this.highlightElement);
return container;
}
});
return InteractiveAnnotation;
})();
var TextAnnotation = (function TextAnnotationClosure() {
function TextAnnotation(params) {
InteractiveAnnotation.call(this, params);
if (params.data) {
return;
}
var dict = params.dict;
var data = this.data;
var content = dict.get('Contents');
var title = dict.get('T');
data.content = stringToPDFString(content || '');
data.title = stringToPDFString(title || '');
if (data.hasAppearance) {
data.name = 'NoIcon';
} else {
data.rect[1] = data.rect[3] - DEFAULT_ICON_SIZE;
data.rect[2] = data.rect[0] + DEFAULT_ICON_SIZE;
data.name = dict.has('Name') ? dict.get('Name').name : 'Note';
}
if (dict.has('C')) {
data.hasBgColor = true;
}
}
var ANNOT_MIN_SIZE = 10;
Util.inherit(TextAnnotation, InteractiveAnnotation, {
getHtmlElement: function TextAnnotation_getHtmlElement(commonObjs) {
assert(!isWorker, 'getHtmlElement() shall be called from main thread');
var item = this.data;
var rect = item.rect;
// sanity check because of OOo-generated PDFs
if ((rect[3] - rect[1]) < ANNOT_MIN_SIZE) {
rect[3] = rect[1] + ANNOT_MIN_SIZE;
}
if ((rect[2] - rect[0]) < ANNOT_MIN_SIZE) {
rect[2] = rect[0] + (rect[3] - rect[1]); // make it square
}
var container = this.initContainer();
container.className = 'annotText';
var image = document.createElement('img');
image.style.height = container.style.height;
image.style.width = container.style.width;
var iconName = item.name;
image.src = PDFJS.imageResourcesPath + 'annotation-' +
iconName.toLowerCase() + '.svg';
image.alt = '[{{type}} Annotation]';
image.dataset.l10nId = 'text_annotation_type';
image.dataset.l10nArgs = JSON.stringify({type: iconName});
var contentWrapper = document.createElement('div');
contentWrapper.className = 'annotTextContentWrapper';
contentWrapper.style.left = Math.floor(rect[2] - rect[0] + 5) + 'px';
contentWrapper.style.top = '-10px';
var content = document.createElement('div');
content.className = 'annotTextContent';
content.setAttribute('hidden', true);
var i, ii;
if (item.hasBgColor) {
var color = item.color;
var rgb = [];
for (i = 0; i < 3; ++i) {
// Enlighten the color (70%)
var c = Math.round(color[i] * 255);
rgb[i] = Math.round((255 - c) * 0.7) + c;
}
content.style.backgroundColor = Util.makeCssRgb(rgb);
}
var title = document.createElement('h1');
var text = document.createElement('p');
title.textContent = item.title;
if (!item.content && !item.title) {
content.setAttribute('hidden', true);
} else {
var e = document.createElement('span');
var lines = item.content.split(/(?:\r\n?|\n)/);
for (i = 0, ii = lines.length; i < ii; ++i) {
var line = lines[i];
e.appendChild(document.createTextNode(line));
if (i < (ii - 1)) {
e.appendChild(document.createElement('br'));
}
}
text.appendChild(e);
var pinned = false;
var showAnnotation = function showAnnotation(pin) {
if (pin) {
pinned = true;
}
if (content.hasAttribute('hidden')) {
container.style.zIndex += 1;
content.removeAttribute('hidden');
}
};
var hideAnnotation = function hideAnnotation(unpin) {
if (unpin) {
pinned = false;
}
if (!content.hasAttribute('hidden') && !pinned) {
container.style.zIndex -= 1;
content.setAttribute('hidden', true);
}
};
var toggleAnnotation = function toggleAnnotation() {
if (pinned) {
hideAnnotation(true);
} else {
showAnnotation(true);
}
};
image.addEventListener('click', function image_clickHandler() {
toggleAnnotation();
}, false);
image.addEventListener('mouseover', function image_mouseOverHandler() {
showAnnotation();
}, false);
image.addEventListener('mouseout', function image_mouseOutHandler() {
hideAnnotation();
}, false);
content.addEventListener('click', function content_clickHandler() {
hideAnnotation(true);
}, false);
}
content.appendChild(title);
content.appendChild(text);
contentWrapper.appendChild(content);
container.appendChild(image);
container.appendChild(contentWrapper);
return container;
}
});
return TextAnnotation;
})();
var LinkAnnotation = (function LinkAnnotationClosure() {
function LinkAnnotation(params) {
InteractiveAnnotation.call(this, params);
if (params.data) {
return;
}
var dict = params.dict;
var data = this.data;
var action = dict.get('A');
if (action) {
var linkType = action.get('S').name;
if (linkType === 'URI') {
var url = action.get('URI');
if (isName(url)) {
// Some bad PDFs do not put parentheses around relative URLs.
url = '/' + url.name;
} else if (url) {
url = addDefaultProtocolToUrl(url);
}
// TODO: pdf spec mentions urls can be relative to a Base
// entry in the dictionary.
if (!isValidUrl(url, false)) {
url = '';
}
data.url = url;
} else if (linkType === 'GoTo') {
data.dest = action.get('D');
} else if (linkType === 'GoToR') {
var urlDict = action.get('F');
if (isDict(urlDict)) {
// We assume that the 'url' is a Filspec dictionary
// and fetch the url without checking any further
url = urlDict.get('F') || '';
}
// TODO: pdf reference says that GoToR
// can also have 'NewWindow' attribute
if (!isValidUrl(url, false)) {
url = '';
}
data.url = url;
data.dest = action.get('D');
} else if (linkType === 'Named') {
data.action = action.get('N').name;
} else {
warn('unrecognized link type: ' + linkType);
}
} else if (dict.has('Dest')) {
// simple destination link
var dest = dict.get('Dest');
data.dest = isName(dest) ? dest.name : dest;
}
}
// Lets URLs beginning with 'www.' default to using the 'http://' protocol.
function addDefaultProtocolToUrl(url) {
if (url && url.indexOf('www.') === 0) {
return ('http://' + url);
}
return url;
}
Util.inherit(LinkAnnotation, InteractiveAnnotation, {
hasOperatorList: function LinkAnnotation_hasOperatorList() {
return false;
},
getHtmlElement: function LinkAnnotation_getHtmlElement(commonObjs) {
var container = this.initContainer();
container.className = 'annotLink';
var item = this.data;
container.style.borderColor = item.colorCssRgb;
container.style.borderStyle = 'solid';
var link = document.createElement('a');
link.href = link.title = this.data.url || '';
container.appendChild(link);
return container;
}
});
return LinkAnnotation;
})();
/**
* The maximum allowed image size in total pixels e.g. width * height. Images
* above this value will not be drawn. Use -1 for no limit.
* @var {number}
*/
PDFJS.maxImageSize = (PDFJS.maxImageSize === undefined ?
-1 : PDFJS.maxImageSize);
/**
* The url of where the predefined Adobe CMaps are located. Include trailing
* slash.
* @var {string}
*/
PDFJS.cMapUrl = (PDFJS.cMapUrl === undefined ? null : PDFJS.cMapUrl);
/**
* Specifies if CMaps are binary packed.
* @var {boolean}
*/
PDFJS.cMapPacked = PDFJS.cMapPacked === undefined ? false : PDFJS.cMapPacked;
/*
* By default fonts are converted to OpenType fonts and loaded via font face
* rules. If disabled, the font will be rendered using a built in font renderer
* that constructs the glyphs with primitive path commands.
* @var {boolean}
*/
PDFJS.disableFontFace = (PDFJS.disableFontFace === undefined ?
false : PDFJS.disableFontFace);
/**
* Path for image resources, mainly for annotation icons. Include trailing
* slash.
* @var {string}
*/
PDFJS.imageResourcesPath = (PDFJS.imageResourcesPath === undefined ?
'' : PDFJS.imageResourcesPath);
/**
* Disable the web worker and run all code on the main thread. This will happen
* automatically if the browser doesn't support workers or sending typed arrays
* to workers.
* @var {boolean}
*/
PDFJS.disableWorker = (PDFJS.disableWorker === undefined ?
false : PDFJS.disableWorker);
/**
* Path and filename of the worker file. Required when the worker is enabled in
* development mode. If unspecified in the production build, the worker will be
* loaded based on the location of the pdf.js file.
* @var {string}
*/
PDFJS.workerSrc = (PDFJS.workerSrc === undefined ? null : PDFJS.workerSrc);
/**
* Disable range request loading of PDF files. When enabled and if the server
* supports partial content requests then the PDF will be fetched in chunks.
* Enabled (false) by default.
* @var {boolean}
*/
PDFJS.disableRange = (PDFJS.disableRange === undefined ?
false : PDFJS.disableRange);
/**
* Disable pre-fetching of PDF file data. When range requests are enabled PDF.js
* will automatically keep fetching more data even if it isn't needed to display
* the current page. This default behavior can be disabled.
* @var {boolean}
*/
PDFJS.disableAutoFetch = (PDFJS.disableAutoFetch === undefined ?
false : PDFJS.disableAutoFetch);
/**
* Enables special hooks for debugging PDF.js.
* @var {boolean}
*/
PDFJS.pdfBug = (PDFJS.pdfBug === undefined ? false : PDFJS.pdfBug);
/**
* Enables transfer usage in postMessage for ArrayBuffers.
* @var {boolean}
*/
PDFJS.postMessageTransfers = (PDFJS.postMessageTransfers === undefined ?
true : PDFJS.postMessageTransfers);
/**
* Disables URL.createObjectURL usage.
* @var {boolean}
*/
PDFJS.disableCreateObjectURL = (PDFJS.disableCreateObjectURL === undefined ?
false : PDFJS.disableCreateObjectURL);
/**
* Disables WebGL usage.
* @var {boolean}
*/
PDFJS.disableWebGL = (PDFJS.disableWebGL === undefined ?
true : PDFJS.disableWebGL);
/**
* Controls the logging level.
* The constants from PDFJS.VERBOSITY_LEVELS should be used:
* - errors
* - warnings [default]
* - infos
* @var {number}
*/
PDFJS.verbosity = (PDFJS.verbosity === undefined ?
PDFJS.VERBOSITY_LEVELS.warnings : PDFJS.verbosity);
/**
* Document initialization / loading parameters object.
*
* @typedef {Object} DocumentInitParameters
* @property {string} url - The URL of the PDF.
* @property {TypedArray} data - A typed array with PDF data.
* @property {Object} httpHeaders - Basic authentication headers.
* @property {boolean} withCredentials - Indicates whether or not cross-site
* Access-Control requests should be made using credentials such as cookies
* or authorization headers. The default is false.
* @property {string} password - For decrypting password-protected PDFs.
* @property {TypedArray} initialData - A typed array with the first portion or
* all of the pdf data. Used by the extension since some data is already
* loaded before the switch to range requests.
*/
/**
* This is the main entry point for loading a PDF and interacting with it.
* NOTE: If a URL is used to fetch the PDF data a standard XMLHttpRequest(XHR)
* is used, which means it must follow the same origin rules that any XHR does
* e.g. No cross domain requests without CORS.
*
* @param {string|TypedArray|DocumentInitParameters} source Can be a url to
* where a PDF is located, a typed array (Uint8Array) already populated with
* data or parameter object.
*
* @param {Object} pdfDataRangeTransport is optional. It is used if you want
* to manually serve range requests for data in the PDF. See viewer.js for
* an example of pdfDataRangeTransport's interface.
*
* @param {function} passwordCallback is optional. It is used to request a
* password if wrong or no password was provided. The callback receives two
* parameters: function that needs to be called with new password and reason
* (see {PasswordResponses}).
*
* @return {Promise} A promise that is resolved with {@link PDFDocumentProxy}
* object.
*/
PDFJS.getDocument = function getDocument(source,
pdfDataRangeTransport,
passwordCallback,
progressCallback) {
var workerInitializedPromise, workerReadyPromise, transport;
if (typeof source === 'string') {
source = { url: source };
} else if (isArrayBuffer(source)) {
source = { data: source };
} else if (typeof source !== 'object') {
error('Invalid parameter in getDocument, need either Uint8Array, ' +
'string or a parameter object');
}
if (!source.url && !source.data) {
error('Invalid parameter array, need either .data or .url');
}
// copy/use all keys as is except 'url' -- full path is required
var params = {};
for (var key in source) {
if (key === 'url' && typeof window !== 'undefined') {
params[key] = combineUrl(window.location.href, source[key]);
continue;
}
params[key] = source[key];
}
workerInitializedPromise = new PDFJS.LegacyPromise();
workerReadyPromise = new PDFJS.LegacyPromise();
transport = new WorkerTransport(workerInitializedPromise, workerReadyPromise,
pdfDataRangeTransport, progressCallback);
workerInitializedPromise.then(function transportInitialized() {
transport.passwordCallback = passwordCallback;
transport.fetchDocument(params);
});
return workerReadyPromise;
};
/**
* Proxy to a PDFDocument in the worker thread. Also, contains commonly used
* properties that can be read synchronously.
* @class
*/
var PDFDocumentProxy = (function PDFDocumentProxyClosure() {
function PDFDocumentProxy(pdfInfo, transport) {
this.pdfInfo = pdfInfo;
this.transport = transport;
}
PDFDocumentProxy.prototype = /** @lends PDFDocumentProxy.prototype */ {
/**
* @return {number} Total number of pages the PDF contains.
*/
get numPages() {
return this.pdfInfo.numPages;
},
/**
* @return {string} A unique ID to identify a PDF. Not guaranteed to be
* unique.
*/
get fingerprint() {
return this.pdfInfo.fingerprint;
},
/**
* @param {number} pageNumber The page number to get. The first page is 1.
* @return {Promise} A promise that is resolved with a {@link PDFPageProxy}
* object.
*/
getPage: function PDFDocumentProxy_getPage(pageNumber) {
return this.transport.getPage(pageNumber);
},
/**
* @param {{num: number, gen: number}} ref The page reference. Must have
* the 'num' and 'gen' properties.
* @return {Promise} A promise that is resolved with the page index that is
* associated with the reference.
*/
getPageIndex: function PDFDocumentProxy_getPageIndex(ref) {
return this.transport.getPageIndex(ref);
},
/**
* @return {Promise} A promise that is resolved with a lookup table for
* mapping named destinations to reference numbers.
*/
getDestinations: function PDFDocumentProxy_getDestinations() {
return this.transport.getDestinations();
},
/**
* @return {Promise} A promise that is resolved with a lookup table for
* mapping named attachments to their content.
*/
getAttachments: function PDFDocumentProxy_getAttachments() {
return this.transport.getAttachments();
},
/**
* @return {Promise} A promise that is resolved with an array of all the
* JavaScript strings in the name tree.
*/
getJavaScript: function PDFDocumentProxy_getJavaScript() {
var promise = new PDFJS.LegacyPromise();
var js = this.pdfInfo.javaScript;
promise.resolve(js);
return promise;
},
/**
* @return {Promise} A promise that is resolved with an {Array} that is a
* tree outline (if it has one) of the PDF. The tree is in the format of:
* [
* {
* title: string,
* bold: boolean,
* italic: boolean,
* color: rgb array,
* dest: dest obj,
* items: array of more items like this
* },
* ...
* ].
*/
getOutline: function PDFDocumentProxy_getOutline() {
var promise = new PDFJS.LegacyPromise();
var outline = this.pdfInfo.outline;
promise.resolve(outline);
return promise;
},
/**
* @return {Promise} A promise that is resolved with an {Object} that has
* info and metadata properties. Info is an {Object} filled with anything
* available in the information dictionary and similarly metadata is a
* {Metadata} object with information from the metadata section of the PDF.
*/
getMetadata: function PDFDocumentProxy_getMetadata() {
var promise = new PDFJS.LegacyPromise();
var info = this.pdfInfo.info;
var metadata = this.pdfInfo.metadata;
promise.resolve({
info: info,
metadata: (metadata ? new PDFJS.Metadata(metadata) : null)
});
return promise;
},
/**
* @return {Promise} A promise that is resolved with a TypedArray that has
* the raw data from the PDF.
*/
getData: function PDFDocumentProxy_getData() {
var promise = new PDFJS.LegacyPromise();
this.transport.getData(promise);
return promise;
},
/**
* @return {Promise} A promise that is resolved when the document's data
* is loaded. It is resolved with an {Object} that contains the length
* property that indicates size of the PDF data in bytes.
*/
getDownloadInfo: function PDFDocumentProxy_getDownloadInfo() {
return this.transport.downloadInfoPromise;
},
/**
* Cleans up resources allocated by the document, e.g. created @font-face.
*/
cleanup: function PDFDocumentProxy_cleanup() {
this.transport.startCleanup();
},
/**
* Destroys current document instance and terminates worker.
*/
destroy: function PDFDocumentProxy_destroy() {
this.transport.destroy();
}
};
return PDFDocumentProxy;
})();
/**
* Page text content.
*
* @typedef {Object} TextContent
* @property {array} items - array of {@link TextItem}
* @property {Object} styles - {@link TextStyles} objects, indexed by font
* name.
*/
/**
* Page text content part.
*
* @typedef {Object} TextItem
* @property {string} str - text content.
* @property {string} dir - text direction: 'ttb', 'ltr' or 'rtl'.
* @property {array} transform - transformation matrix.
* @property {number} width - width in device space.
* @property {number} height - height in device space.
* @property {string} fontName - font name used by pdf.js for converted font.
*/
/**
* Text style.
*
* @typedef {Object} TextStyle
* @property {number} ascent - font ascent.
* @property {number} descent - font descent.
* @property {boolean} vertical - text is in vertical mode.
* @property {string} fontFamily - possible font family
*/
/**
* Page render parameters.
*
* @typedef {Object} RenderParameters
* @property {Object} canvasContext - A 2D context of a DOM Canvas object.
* @property {PageViewport} viewport - Rendering viewport obtained by
* calling of PDFPage.getViewport method.
* @property {string} intent - Rendering intent, can be 'display' or 'print'
* (default value is 'display').
* @property {Object} imageLayer - (optional) An object that has beginLayout,
* endLayout and appendImage functions.
* @property {function} continueCallback - (optional) A function that will be
* called each time the rendering is paused. To continue
* rendering call the function that is the first argument
* to the callback.
*/
/**
* Proxy to a PDFPage in the worker thread.
* @class
*/
var PDFPageProxy = (function PDFPageProxyClosure() {
function PDFPageProxy(pageInfo, transport) {
this.pageInfo = pageInfo;
this.transport = transport;
this.stats = new StatTimer();
this.stats.enabled = !!globalScope.PDFJS.enableStats;
this.commonObjs = transport.commonObjs;
this.objs = new PDFObjects();
this.cleanupAfterRender = false;
this.pendingDestroy = false;
this.intentStates = {};
}
PDFPageProxy.prototype = /** @lends PDFPageProxy.prototype */ {
/**
* @return {number} Page number of the page. First page is 1.
*/
get pageNumber() {
return this.pageInfo.pageIndex + 1;
},
/**
* @return {number} The number of degrees the page is rotated clockwise.
*/
get rotate() {
return this.pageInfo.rotate;
},
/**
* @return {Object} The reference that points to this page. It has 'num' and
* 'gen' properties.
*/
get ref() {
return this.pageInfo.ref;
},
/**
* @return {Array} An array of the visible portion of the PDF page in the
* user space units - [x1, y1, x2, y2].
*/
get view() {
return this.pageInfo.view;
},
/**
* @param {number} scale The desired scale of the viewport.
* @param {number} rotate Degrees to rotate the viewport. If omitted this
* defaults to the page rotation.
* @return {PageViewport} Contains 'width' and 'height' properties along
* with transforms required for rendering.
*/
getViewport: function PDFPageProxy_getViewport(scale, rotate) {
if (arguments.length < 2) {
rotate = this.rotate;
}
return new PDFJS.PageViewport(this.view, scale, rotate, 0, 0);
},
/**
* @return {Promise} A promise that is resolved with an {Array} of the
* annotation objects.
*/
getAnnotations: function PDFPageProxy_getAnnotations() {
if (this.annotationsPromise) {
return this.annotationsPromise;
}
var promise = new PDFJS.LegacyPromise();
this.annotationsPromise = promise;
this.transport.getAnnotations(this.pageInfo.pageIndex);
return promise;
},
/**
* Begins the process of rendering a page to the desired context.
* @param {RenderParameters} params Page render parameters.
* @return {RenderTask} An object that contains the promise, which
* is resolved when the page finishes rendering.
*/
render: function PDFPageProxy_render(params) {
var stats = this.stats;
stats.time('Overall');
// If there was a pending destroy cancel it so no cleanup happens during
// this call to render.
this.pendingDestroy = false;
var renderingIntent = ('intent' in params ?
(params.intent == 'print' ? 'print' : 'display') : 'display');
if (!this.intentStates[renderingIntent]) {
this.intentStates[renderingIntent] = {};
}
var intentState = this.intentStates[renderingIntent];
// If there is no displayReadyPromise yet, then the operatorList was never
// requested before. Make the request and create the promise.
if (!intentState.displayReadyPromise) {
intentState.receivingOperatorList = true;
intentState.displayReadyPromise = new LegacyPromise();
intentState.operatorList = {
fnArray: [],
argsArray: [],
lastChunk: false
};
this.stats.time('Page Request');
this.transport.messageHandler.send('RenderPageRequest', {
pageIndex: this.pageNumber - 1,
intent: renderingIntent
});
}
var internalRenderTask = new InternalRenderTask(complete, params,
this.objs,
this.commonObjs,
intentState.operatorList,
this.pageNumber);
if (!intentState.renderTasks) {
intentState.renderTasks = [];
}
intentState.renderTasks.push(internalRenderTask);
var renderTask = new RenderTask(internalRenderTask);
var self = this;
intentState.displayReadyPromise.then(
function pageDisplayReadyPromise(transparency) {
if (self.pendingDestroy) {
complete();
return;
}
stats.time('Rendering');
internalRenderTask.initalizeGraphics(transparency);
internalRenderTask.operatorListChanged();
},
function pageDisplayReadPromiseError(reason) {
complete(reason);
}
);
function complete(error) {
var i = intentState.renderTasks.indexOf(internalRenderTask);
if (i >= 0) {
intentState.renderTasks.splice(i, 1);
}
if (self.cleanupAfterRender) {
self.pendingDestroy = true;
}
self._tryDestroy();
if (error) {
renderTask.promise.reject(error);
} else {
renderTask.promise.resolve();
}
stats.timeEnd('Rendering');
stats.timeEnd('Overall');
}
return renderTask;
},
/**
* @return {Promise} That is resolved a {@link TextContent}
* object that represent the page text content.
*/
getTextContent: function PDFPageProxy_getTextContent() {
var promise = new PDFJS.LegacyPromise();
this.transport.messageHandler.send('GetTextContent', {
pageIndex: this.pageNumber - 1
},
function textContentCallback(textContent) {
promise.resolve(textContent);
}
);
return promise;
},
/**
* Destroys resources allocated by the page.
*/
destroy: function PDFPageProxy_destroy() {
this.pendingDestroy = true;
this._tryDestroy();
},
/**
* For internal use only. Attempts to clean up if rendering is in a state
* where that's possible.
* @ignore
*/
_tryDestroy: function PDFPageProxy__destroy() {
if (!this.pendingDestroy ||
Object.keys(this.intentStates).some(function(intent) {
var intentState = this.intentStates[intent];
return (intentState.renderTasks.length !== 0 ||
intentState.receivingOperatorList);
}, this)) {
return;
}
Object.keys(this.intentStates).forEach(function(intent) {
delete this.intentStates[intent];
}, this);
this.objs.clear();
this.pendingDestroy = false;
},
/**
* For internal use only.
* @ignore
*/
_startRenderPage: function PDFPageProxy_startRenderPage(transparency,
intent) {
var intentState = this.intentStates[intent];
intentState.displayReadyPromise.resolve(transparency);
},
/**
* For internal use only.
* @ignore
*/
_renderPageChunk: function PDFPageProxy_renderPageChunk(operatorListChunk,
intent) {
var intentState = this.intentStates[intent];
var i, ii;
// Add the new chunk to the current operator list.
for (i = 0, ii = operatorListChunk.length; i < ii; i++) {
intentState.operatorList.fnArray.push(operatorListChunk.fnArray[i]);
intentState.operatorList.argsArray.push(
operatorListChunk.argsArray[i]);
}
intentState.operatorList.lastChunk = operatorListChunk.lastChunk;
// Notify all the rendering tasks there are more operators to be consumed.
for (i = 0; i < intentState.renderTasks.length; i++) {
intentState.renderTasks[i].operatorListChanged();
}
if (operatorListChunk.lastChunk) {
intentState.receivingOperatorList = false;
this._tryDestroy();
}
}
};
return PDFPageProxy;
})();
/**
* For internal use only.
* @ignore
*/
var WorkerTransport = (function WorkerTransportClosure() {
function WorkerTransport(workerInitializedPromise, workerReadyPromise,
pdfDataRangeTransport, progressCallback) {
this.pdfDataRangeTransport = pdfDataRangeTransport;
this.workerReadyPromise = workerReadyPromise;
this.progressCallback = progressCallback;
this.commonObjs = new PDFObjects();
this.pageCache = [];
this.pagePromises = [];
this.downloadInfoPromise = new PDFJS.LegacyPromise();
this.passwordCallback = null;
// If worker support isn't disabled explicit and the browser has worker
// support, create a new web worker and test if it/the browser fullfills
// all requirements to run parts of pdf.js in a web worker.
// Right now, the requirement is, that an Uint8Array is still an Uint8Array
// as it arrives on the worker. Chrome added this with version 15.
if (!globalScope.PDFJS.disableWorker && typeof Worker !== 'undefined') {
var workerSrc = PDFJS.workerSrc;
if (!workerSrc) {
error('No PDFJS.workerSrc specified');
}
try {
// Some versions of FF can't create a worker on localhost, see:
// https://bugzilla.mozilla.org/show_bug.cgi?id=683280
var worker = new Worker(workerSrc);
var messageHandler = new MessageHandler('main', worker);
this.messageHandler = messageHandler;
messageHandler.on('test', function transportTest(data) {
var supportTypedArray = data && data.supportTypedArray;
if (supportTypedArray) {
this.worker = worker;
if (!data.supportTransfers) {
PDFJS.postMessageTransfers = false;
}
this.setupMessageHandler(messageHandler);
workerInitializedPromise.resolve();
} else {
globalScope.PDFJS.disableWorker = true;
this.loadFakeWorkerFiles().then(function() {
this.setupFakeWorker();
workerInitializedPromise.resolve();
}.bind(this));
}
}.bind(this));
var testObj = new Uint8Array([PDFJS.postMessageTransfers ? 255 : 0]);
// Some versions of Opera throw a DATA_CLONE_ERR on serializing the
// typed array. Also, checking if we can use transfers.
try {
messageHandler.send('test', testObj, null, [testObj.buffer]);
} catch (ex) {
info('Cannot use postMessage transfers');
testObj[0] = 0;
messageHandler.send('test', testObj);
}
return;
} catch (e) {
info('The worker has been disabled.');
}
}
// Either workers are disabled, not supported or have thrown an exception.
// Thus, we fallback to a faked worker.
globalScope.PDFJS.disableWorker = true;
this.loadFakeWorkerFiles().then(function() {
this.setupFakeWorker();
workerInitializedPromise.resolve();
}.bind(this));
}
WorkerTransport.prototype = {
destroy: function WorkerTransport_destroy() {
this.pageCache = [];
this.pagePromises = [];
var self = this;
this.messageHandler.send('Terminate', null, function () {
FontLoader.clear();
if (self.worker) {
self.worker.terminate();
}
});
},
loadFakeWorkerFiles: function WorkerTransport_loadFakeWorkerFiles() {
if (!PDFJS.fakeWorkerFilesLoadedPromise) {
PDFJS.fakeWorkerFilesLoadedPromise = new LegacyPromise();
// In the developer build load worker_loader which in turn loads all the
// other files and resolves the promise. In production only the
// pdf.worker.js file is needed.
Util.loadScript(PDFJS.workerSrc, function() {
PDFJS.fakeWorkerFilesLoadedPromise.resolve();
});
}
return PDFJS.fakeWorkerFilesLoadedPromise;
},
setupFakeWorker: function WorkerTransport_setupFakeWorker() {
warn('Setting up fake worker.');
// If we don't use a worker, just post/sendMessage to the main thread.
var fakeWorker = {
postMessage: function WorkerTransport_postMessage(obj) {
fakeWorker.onmessage({data: obj});
},
terminate: function WorkerTransport_terminate() {}
};
var messageHandler = new MessageHandler('main', fakeWorker);
this.setupMessageHandler(messageHandler);
// If the main thread is our worker, setup the handling for the messages
// the main thread sends to it self.
PDFJS.WorkerMessageHandler.setup(messageHandler);
},
setupMessageHandler:
function WorkerTransport_setupMessageHandler(messageHandler) {
this.messageHandler = messageHandler;
function updatePassword(password) {
messageHandler.send('UpdatePassword', password);
}
var pdfDataRangeTransport = this.pdfDataRangeTransport;
if (pdfDataRangeTransport) {
pdfDataRangeTransport.addRangeListener(function(begin, chunk) {
messageHandler.send('OnDataRange', {
begin: begin,
chunk: chunk
});
});
pdfDataRangeTransport.addProgressListener(function(loaded) {
messageHandler.send('OnDataProgress', {
loaded: loaded
});
});
messageHandler.on('RequestDataRange',
function transportDataRange(data) {
pdfDataRangeTransport.requestDataRange(data.begin, data.end);
}, this);
}
messageHandler.on('GetDoc', function transportDoc(data) {
var pdfInfo = data.pdfInfo;
this.numPages = data.pdfInfo.numPages;
var pdfDocument = new PDFDocumentProxy(pdfInfo, this);
this.pdfDocument = pdfDocument;
this.workerReadyPromise.resolve(pdfDocument);
}, this);
messageHandler.on('NeedPassword', function transportPassword(data) {
if (this.passwordCallback) {
return this.passwordCallback(updatePassword,
PasswordResponses.NEED_PASSWORD);
}
this.workerReadyPromise.reject(data.exception.message, data.exception);
}, this);
messageHandler.on('IncorrectPassword', function transportBadPass(data) {
if (this.passwordCallback) {
return this.passwordCallback(updatePassword,
PasswordResponses.INCORRECT_PASSWORD);
}
this.workerReadyPromise.reject(data.exception.message, data.exception);
}, this);
messageHandler.on('InvalidPDF', function transportInvalidPDF(data) {
this.workerReadyPromise.reject(data.exception.name, data.exception);
}, this);
messageHandler.on('MissingPDF', function transportMissingPDF(data) {
this.workerReadyPromise.reject(data.exception.message, data.exception);
}, this);
messageHandler.on('UnknownError', function transportUnknownError(data) {
this.workerReadyPromise.reject(data.exception.message, data.exception);
}, this);
messageHandler.on('DataLoaded', function transportPage(data) {
this.downloadInfoPromise.resolve(data);
}, this);
messageHandler.on('GetPage', function transportPage(data) {
var pageInfo = data.pageInfo;
var page = new PDFPageProxy(pageInfo, this);
this.pageCache[pageInfo.pageIndex] = page;
var promise = this.pagePromises[pageInfo.pageIndex];
promise.resolve(page);
}, this);
messageHandler.on('GetAnnotations', function transportAnnotations(data) {
var annotations = data.annotations;
var promise = this.pageCache[data.pageIndex].annotationsPromise;
promise.resolve(annotations);
}, this);
messageHandler.on('StartRenderPage', function transportRender(data) {
var page = this.pageCache[data.pageIndex];
page.stats.timeEnd('Page Request');
page._startRenderPage(data.transparency, data.intent);
}, this);
messageHandler.on('RenderPageChunk', function transportRender(data) {
var page = this.pageCache[data.pageIndex];
page._renderPageChunk(data.operatorList, data.intent);
}, this);
messageHandler.on('commonobj', function transportObj(data) {
var id = data[0];
var type = data[1];
if (this.commonObjs.hasData(id)) {
return;
}
switch (type) {
case 'Font':
var exportedData = data[2];
var font;
if ('error' in exportedData) {
var error = exportedData.error;
warn('Error during font loading: ' + error);
this.commonObjs.resolve(id, error);
break;
} else {
font = new FontFace(exportedData);
}
FontLoader.bind(
[font],
function fontReady(fontObjs) {
this.commonObjs.resolve(id, font);
}.bind(this)
);
break;
case 'FontPath':
this.commonObjs.resolve(id, data[2]);
break;
default:
error('Got unknown common object type ' + type);
}
}, this);
messageHandler.on('obj', function transportObj(data) {
var id = data[0];
var pageIndex = data[1];
var type = data[2];
var pageProxy = this.pageCache[pageIndex];
var imageData;
if (pageProxy.objs.hasData(id)) {
return;
}
switch (type) {
case 'JpegStream':
imageData = data[3];
loadJpegStream(id, imageData, pageProxy.objs);
break;
case 'Image':
imageData = data[3];
pageProxy.objs.resolve(id, imageData);
// heuristics that will allow not to store large data
var MAX_IMAGE_SIZE_TO_STORE = 8000000;
if (imageData && 'data' in imageData &&
imageData.data.length > MAX_IMAGE_SIZE_TO_STORE) {
pageProxy.cleanupAfterRender = true;
}
break;
default:
error('Got unknown object type ' + type);
}
}, this);
messageHandler.on('DocProgress', function transportDocProgress(data) {
if (this.progressCallback) {
this.progressCallback({
loaded: data.loaded,
total: data.total
});
}
}, this);
messageHandler.on('DocError', function transportDocError(data) {
this.workerReadyPromise.reject(data);
}, this);
messageHandler.on('PageError', function transportError(data, intent) {
var page = this.pageCache[data.pageNum - 1];
var intentState = page.intentStates[intent];
if (intentState.displayReadyPromise) {
intentState.displayReadyPromise.reject(data.error);
} else {
error(data.error);
}
}, this);
messageHandler.on('JpegDecode', function(data, deferred) {
var imageUrl = data[0];
var components = data[1];
if (components != 3 && components != 1) {
error('Only 3 component or 1 component can be returned');
}
var img = new Image();
img.onload = (function messageHandler_onloadClosure() {
var width = img.width;
var height = img.height;
var size = width * height;
var rgbaLength = size * 4;
var buf = new Uint8Array(size * components);
var tmpCanvas = createScratchCanvas(width, height);
var tmpCtx = tmpCanvas.getContext('2d');
tmpCtx.drawImage(img, 0, 0);
var data = tmpCtx.getImageData(0, 0, width, height).data;
var i, j;
if (components == 3) {
for (i = 0, j = 0; i < rgbaLength; i += 4, j += 3) {
buf[j] = data[i];
buf[j + 1] = data[i + 1];
buf[j + 2] = data[i + 2];
}
} else if (components == 1) {
for (i = 0, j = 0; i < rgbaLength; i += 4, j++) {
buf[j] = data[i];
}
}
deferred.resolve({ data: buf, width: width, height: height});
}).bind(this);
img.src = imageUrl;
});
},
fetchDocument: function WorkerTransport_fetchDocument(source) {
source.disableAutoFetch = PDFJS.disableAutoFetch;
source.chunkedViewerLoading = !!this.pdfDataRangeTransport;
this.messageHandler.send('GetDocRequest', {
source: source,
disableRange: PDFJS.disableRange,
maxImageSize: PDFJS.maxImageSize,
cMapUrl: PDFJS.cMapUrl,
cMapPacked: PDFJS.cMapPacked,
disableFontFace: PDFJS.disableFontFace,
disableCreateObjectURL: PDFJS.disableCreateObjectURL,
verbosity: PDFJS.verbosity
});
},
getData: function WorkerTransport_getData(promise) {
this.messageHandler.send('GetData', null, function(data) {
promise.resolve(data);
});
},
getPage: function WorkerTransport_getPage(pageNumber, promise) {
if (pageNumber <= 0 || pageNumber > this.numPages ||
(pageNumber|0) !== pageNumber) {
var pagePromise = new PDFJS.LegacyPromise();
pagePromise.reject(new Error('Invalid page request'));
return pagePromise;
}
var pageIndex = pageNumber - 1;
if (pageIndex in this.pagePromises) {
return this.pagePromises[pageIndex];
}
promise = new PDFJS.LegacyPromise();
this.pagePromises[pageIndex] = promise;
this.messageHandler.send('GetPageRequest', { pageIndex: pageIndex });
return promise;
},
getPageIndex: function WorkerTransport_getPageIndexByRef(ref) {
var promise = new PDFJS.LegacyPromise();
this.messageHandler.send('GetPageIndex', { ref: ref },
function (pageIndex) {
promise.resolve(pageIndex);
}
);
return promise;
},
getAnnotations: function WorkerTransport_getAnnotations(pageIndex) {
this.messageHandler.send('GetAnnotationsRequest',
{ pageIndex: pageIndex });
},
getDestinations: function WorkerTransport_getDestinations() {
var promise = new PDFJS.LegacyPromise();
this.messageHandler.send('GetDestinations', null,
function transportDestinations(destinations) {
promise.resolve(destinations);
}
);
return promise;
},
getAttachments: function WorkerTransport_getAttachments() {
var promise = new PDFJS.LegacyPromise();
this.messageHandler.send('GetAttachments', null,
function transportAttachments(attachments) {
promise.resolve(attachments);
}
);
return promise;
},
startCleanup: function WorkerTransport_startCleanup() {
this.messageHandler.send('Cleanup', null,
function endCleanup() {
for (var i = 0, ii = this.pageCache.length; i < ii; i++) {
var page = this.pageCache[i];
if (page) {
page.destroy();
}
}
this.commonObjs.clear();
FontLoader.clear();
}.bind(this)
);
}
};
return WorkerTransport;
})();
/**
* A PDF document and page is built of many objects. E.g. there are objects
* for fonts, images, rendering code and such. These objects might get processed
* inside of a worker. The `PDFObjects` implements some basic functions to
* manage these objects.
* @ignore
*/
var PDFObjects = (function PDFObjectsClosure() {
function PDFObjects() {
this.objs = {};
}
PDFObjects.prototype = {
/**
* Internal function.
* Ensures there is an object defined for `objId`.
*/
ensureObj: function PDFObjects_ensureObj(objId) {
if (this.objs[objId]) {
return this.objs[objId];
}
var obj = {
promise: new LegacyPromise(),
data: null,
resolved: false
};
this.objs[objId] = obj;
return obj;
},
/**
* If called *without* callback, this returns the data of `objId` but the
* object needs to be resolved. If it isn't, this function throws.
*
* If called *with* a callback, the callback is called with the data of the
* object once the object is resolved. That means, if you call this
* function and the object is already resolved, the callback gets called
* right away.
*/
get: function PDFObjects_get(objId, callback) {
// If there is a callback, then the get can be async and the object is
// not required to be resolved right now
if (callback) {
this.ensureObj(objId).promise.then(callback);
return null;
}
// If there isn't a callback, the user expects to get the resolved data
// directly.
var obj = this.objs[objId];
// If there isn't an object yet or the object isn't resolved, then the
// data isn't ready yet!
if (!obj || !obj.resolved) {
error('Requesting object that isn\'t resolved yet ' + objId);
}
return obj.data;
},
/**
* Resolves the object `objId` with optional `data`.
*/
resolve: function PDFObjects_resolve(objId, data) {
var obj = this.ensureObj(objId);
obj.resolved = true;
obj.data = data;
obj.promise.resolve(data);
},
isResolved: function PDFObjects_isResolved(objId) {
var objs = this.objs;
if (!objs[objId]) {
return false;
} else {
return objs[objId].resolved;
}
},
hasData: function PDFObjects_hasData(objId) {
return this.isResolved(objId);
},
/**
* Returns the data of `objId` if object exists, null otherwise.
*/
getData: function PDFObjects_getData(objId) {
var objs = this.objs;
if (!objs[objId] || !objs[objId].resolved) {
return null;
} else {
return objs[objId].data;
}
},
clear: function PDFObjects_clear() {
this.objs = {};
}
};
return PDFObjects;
})();
/**
* Allows controlling of the rendering tasks.
* @class
*/
var RenderTask = (function RenderTaskClosure() {
function RenderTask(internalRenderTask) {
this.internalRenderTask = internalRenderTask;
/**
* Promise for rendering task completion.
* @type {Promise}
*/
this.promise = new PDFJS.LegacyPromise();
}
RenderTask.prototype = /** @lends RenderTask.prototype */ {
/**
* Cancels the rendering task. If the task is currently rendering it will
* not be cancelled until graphics pauses with a timeout. The promise that
* this object extends will resolved when cancelled.
*/
cancel: function RenderTask_cancel() {
this.internalRenderTask.cancel();
this.promise.reject(new Error('Rendering is cancelled'));
},
/**
* Registers callback to indicate the rendering task completion.
*
* @param {function} onFulfilled The callback for the rendering completion.
* @param {function} onRejected The callback for the rendering failure.
* @return {Promise} A promise that is resolved after the onFulfilled or
* onRejected callback.
*/
then: function RenderTask_then(onFulfilled, onRejected) {
return this.promise.then(onFulfilled, onRejected);
}
};
return RenderTask;
})();
/**
* For internal use only.
* @ignore
*/
var InternalRenderTask = (function InternalRenderTaskClosure() {
function InternalRenderTask(callback, params, objs, commonObjs, operatorList,
pageNumber) {
this.callback = callback;
this.params = params;
this.objs = objs;
this.commonObjs = commonObjs;
this.operatorListIdx = null;
this.operatorList = operatorList;
this.pageNumber = pageNumber;
this.running = false;
this.graphicsReadyCallback = null;
this.graphicsReady = false;
this.cancelled = false;
}
InternalRenderTask.prototype = {
initalizeGraphics:
function InternalRenderTask_initalizeGraphics(transparency) {
if (this.cancelled) {
return;
}
if (PDFJS.pdfBug && 'StepperManager' in globalScope &&
globalScope.StepperManager.enabled) {
this.stepper = globalScope.StepperManager.create(this.pageNumber - 1);
this.stepper.init(this.operatorList);
this.stepper.nextBreakPoint = this.stepper.getNextBreakPoint();
}
var params = this.params;
this.gfx = new CanvasGraphics(params.canvasContext, this.commonObjs,
this.objs, params.imageLayer);
this.gfx.beginDrawing(params.viewport, transparency);
this.operatorListIdx = 0;
this.graphicsReady = true;
if (this.graphicsReadyCallback) {
this.graphicsReadyCallback();
}
},
cancel: function InternalRenderTask_cancel() {
this.running = false;
this.cancelled = true;
this.callback('cancelled');
},
operatorListChanged: function InternalRenderTask_operatorListChanged() {
if (!this.graphicsReady) {
if (!this.graphicsReadyCallback) {
this.graphicsReadyCallback = this._continue.bind(this);
}
return;
}
if (this.stepper) {
this.stepper.updateOperatorList(this.operatorList);
}
if (this.running) {
return;
}
this._continue();
},
_continue: function InternalRenderTask__continue() {
this.running = true;
if (this.cancelled) {
return;
}
if (this.params.continueCallback) {
this.params.continueCallback(this._next.bind(this));
} else {
this._next();
}
},
_next: function InternalRenderTask__next() {
if (this.cancelled) {
return;
}
this.operatorListIdx = this.gfx.executeOperatorList(this.operatorList,
this.operatorListIdx,
this._continue.bind(this),
this.stepper);
if (this.operatorListIdx === this.operatorList.argsArray.length) {
this.running = false;
if (this.operatorList.lastChunk) {
this.gfx.endDrawing();
this.callback();
}
}
}
};
return InternalRenderTask;
})();
var Metadata = PDFJS.Metadata = (function MetadataClosure() {
function fixMetadata(meta) {
return meta.replace(/>\\376\\377([^<]+)/g, function(all, codes) {
var bytes = codes.replace(/\\([0-3])([0-7])([0-7])/g,
function(code, d1, d2, d3) {
return String.fromCharCode(d1 * 64 + d2 * 8 + d3 * 1);
});
var chars = '';
for (var i = 0; i < bytes.length; i += 2) {
var code = bytes.charCodeAt(i) * 256 + bytes.charCodeAt(i + 1);
chars += code >= 32 && code < 127 && code != 60 && code != 62 &&
code != 38 && false ? String.fromCharCode(code) :
'&#x' + (0x10000 + code).toString(16).substring(1) + ';';
}
return '>' + chars;
});
}
function Metadata(meta) {
if (typeof meta === 'string') {
// Ghostscript produces invalid metadata
meta = fixMetadata(meta);
var parser = new DOMParser();
meta = parser.parseFromString(meta, 'application/xml');
} else if (!(meta instanceof Document)) {
error('Metadata: Invalid metadata object');
}
this.metaDocument = meta;
this.metadata = {};
this.parse();
}
Metadata.prototype = {
parse: function Metadata_parse() {
var doc = this.metaDocument;
var rdf = doc.documentElement;
if (rdf.nodeName.toLowerCase() !== 'rdf:rdf') { // Wrapped in <xmpmeta>
rdf = rdf.firstChild;
while (rdf && rdf.nodeName.toLowerCase() !== 'rdf:rdf') {
rdf = rdf.nextSibling;
}
}
var nodeName = (rdf) ? rdf.nodeName.toLowerCase() : null;
if (!rdf || nodeName !== 'rdf:rdf' || !rdf.hasChildNodes()) {
return;
}
var children = rdf.childNodes, desc, entry, name, i, ii, length, iLength;
for (i = 0, length = children.length; i < length; i++) {
desc = children[i];
if (desc.nodeName.toLowerCase() !== 'rdf:description') {
continue;
}
for (ii = 0, iLength = desc.childNodes.length; ii < iLength; ii++) {
if (desc.childNodes[ii].nodeName.toLowerCase() !== '#text') {
entry = desc.childNodes[ii];
name = entry.nodeName.toLowerCase();
this.metadata[name] = entry.textContent.trim();
}
}
}
},
get: function Metadata_get(name) {
return this.metadata[name] || null;
},
has: function Metadata_has(name) {
return typeof this.metadata[name] !== 'undefined';
}
};
return Metadata;
})();
// <canvas> contexts store most of the state we need natively.
// However, PDF needs a bit more state, which we store here.
// Minimal font size that would be used during canvas fillText operations.
var MIN_FONT_SIZE = 16;
var MAX_GROUP_SIZE = 4096;
var COMPILE_TYPE3_GLYPHS = true;
function createScratchCanvas(width, height) {
var canvas = document.createElement('canvas');
canvas.width = width;
canvas.height = height;
return canvas;
}
function addContextCurrentTransform(ctx) {
// If the context doesn't expose a `mozCurrentTransform`, add a JS based on.
if (!ctx.mozCurrentTransform) {
// Store the original context
ctx._scaleX = ctx._scaleX || 1.0;
ctx._scaleY = ctx._scaleY || 1.0;
ctx._originalSave = ctx.save;
ctx._originalRestore = ctx.restore;
ctx._originalRotate = ctx.rotate;
ctx._originalScale = ctx.scale;
ctx._originalTranslate = ctx.translate;
ctx._originalTransform = ctx.transform;
ctx._originalSetTransform = ctx.setTransform;
ctx._transformMatrix = [ctx._scaleX, 0, 0, ctx._scaleY, 0, 0];
ctx._transformStack = [];
Object.defineProperty(ctx, 'mozCurrentTransform', {
get: function getCurrentTransform() {
return this._transformMatrix;
}
});
Object.defineProperty(ctx, 'mozCurrentTransformInverse', {
get: function getCurrentTransformInverse() {
// Calculation done using WolframAlpha:
// http://www.wolframalpha.com/input/?
// i=Inverse+{{a%2C+c%2C+e}%2C+{b%2C+d%2C+f}%2C+{0%2C+0%2C+1}}
var m = this._transformMatrix;
var a = m[0], b = m[1], c = m[2], d = m[3], e = m[4], f = m[5];
var ad_bc = a * d - b * c;
var bc_ad = b * c - a * d;
return [
d / ad_bc,
b / bc_ad,
c / bc_ad,
a / ad_bc,
(d * e - c * f) / bc_ad,
(b * e - a * f) / ad_bc
];
}
});
ctx.save = function ctxSave() {
var old = this._transformMatrix;
this._transformStack.push(old);
this._transformMatrix = old.slice(0, 6);
this._originalSave();
};
ctx.restore = function ctxRestore() {
var prev = this._transformStack.pop();
if (prev) {
this._transformMatrix = prev;
this._originalRestore();
}
};
ctx.translate = function ctxTranslate(x, y) {
var m = this._transformMatrix;
m[4] = m[0] * x + m[2] * y + m[4];
m[5] = m[1] * x + m[3] * y + m[5];
this._originalTranslate(x, y);
};
ctx.scale = function ctxScale(x, y) {
var m = this._transformMatrix;
m[0] = m[0] * x;
m[1] = m[1] * x;
m[2] = m[2] * y;
m[3] = m[3] * y;
this._originalScale(x, y);
};
ctx.transform = function ctxTransform(a, b, c, d, e, f) {
var m = this._transformMatrix;
this._transformMatrix = [
m[0] * a + m[2] * b,
m[1] * a + m[3] * b,
m[0] * c + m[2] * d,
m[1] * c + m[3] * d,
m[0] * e + m[2] * f + m[4],
m[1] * e + m[3] * f + m[5]
];
ctx._originalTransform(a, b, c, d, e, f);
};
ctx.setTransform = function ctxSetTransform(a, b, c, d, e, f) {
this._transformMatrix = [a, b, c, d, e, f];
ctx._originalSetTransform(a, b, c, d, e, f);
};
ctx.rotate = function ctxRotate(angle) {
var cosValue = Math.cos(angle);
var sinValue = Math.sin(angle);
var m = this._transformMatrix;
this._transformMatrix = [
m[0] * cosValue + m[2] * sinValue,
m[1] * cosValue + m[3] * sinValue,
m[0] * (-sinValue) + m[2] * cosValue,
m[1] * (-sinValue) + m[3] * cosValue,
m[4],
m[5]
];
this._originalRotate(angle);
};
}
}
var CachedCanvases = (function CachedCanvasesClosure() {
var cache = {};
return {
getCanvas: function CachedCanvases_getCanvas(id, width, height,
trackTransform) {
var canvasEntry;
if (id in cache) {
canvasEntry = cache[id];
canvasEntry.canvas.width = width;
canvasEntry.canvas.height = height;
// reset canvas transform for emulated mozCurrentTransform, if needed
canvasEntry.context.setTransform(1, 0, 0, 1, 0, 0);
} else {
var canvas = createScratchCanvas(width, height);
var ctx = canvas.getContext('2d');
if (trackTransform) {
addContextCurrentTransform(ctx);
}
cache[id] = canvasEntry = {canvas: canvas, context: ctx};
}
return canvasEntry;
},
clear: function () {
cache = {};
}
};
})();
function compileType3Glyph(imgData) {
var POINT_TO_PROCESS_LIMIT = 1000;
var width = imgData.width, height = imgData.height;
var i, j, j0, width1 = width + 1;
var points = new Uint8Array(width1 * (height + 1));
var POINT_TYPES =
new Uint8Array([0, 2, 4, 0, 1, 0, 5, 4, 8, 10, 0, 8, 0, 2, 1, 0]);
// decodes bit-packed mask data
var lineSize = (width + 7) & ~7, data0 = imgData.data;
var data = new Uint8Array(lineSize * height), pos = 0, ii;
for (i = 0, ii = data0.length; i < ii; i++) {
var mask = 128, elem = data0[i];
while (mask > 0) {
data[pos++] = (elem & mask) ? 0 : 255;
mask >>= 1;
}
}
// finding iteresting points: every point is located between mask pixels,
// so there will be points of the (width + 1)x(height + 1) grid. Every point
// will have flags assigned based on neighboring mask pixels:
// 4 | 8
// --P--
// 2 | 1
// We are interested only in points with the flags:
// - outside corners: 1, 2, 4, 8;
// - inside corners: 7, 11, 13, 14;
// - and, intersections: 5, 10.
var count = 0;
pos = 0;
if (data[pos] !== 0) {
points[0] = 1;
++count;
}
for (j = 1; j < width; j++) {
if (data[pos] !== data[pos + 1]) {
points[j] = data[pos] ? 2 : 1;
++count;
}
pos++;
}
if (data[pos] !== 0) {
points[j] = 2;
++count;
}
for (i = 1; i < height; i++) {
pos = i * lineSize;
j0 = i * width1;
if (data[pos - lineSize] !== data[pos]) {
points[j0] = data[pos] ? 1 : 8;
++count;
}
// 'sum' is the position of the current pixel configuration in the 'TYPES'
// array (in order 8-1-2-4, so we can use '>>2' to shift the column).
var sum = (data[pos] ? 4 : 0) + (data[pos - lineSize] ? 8 : 0);
for (j = 1; j < width; j++) {
sum = (sum >> 2) + (data[pos + 1] ? 4 : 0) +
(data[pos - lineSize + 1] ? 8 : 0);
if (POINT_TYPES[sum]) {
points[j0 + j] = POINT_TYPES[sum];
++count;
}
pos++;
}
if (data[pos - lineSize] !== data[pos]) {
points[j0 + j] = data[pos] ? 2 : 4;
++count;
}
if (count > POINT_TO_PROCESS_LIMIT) {
return null;
}
}
pos = lineSize * (height - 1);
j0 = i * width1;
if (data[pos] !== 0) {
points[j0] = 8;
++count;
}
for (j = 1; j < width; j++) {
if (data[pos] !== data[pos + 1]) {
points[j0 + j] = data[pos] ? 4 : 8;
++count;
}
pos++;
}
if (data[pos] !== 0) {
points[j0 + j] = 4;
++count;
}
if (count > POINT_TO_PROCESS_LIMIT) {
return null;
}
// building outlines
var steps = new Int32Array([0, width1, -1, 0, -width1, 0, 0, 0, 1]);
var outlines = [];
for (i = 0; count && i <= height; i++) {
var p = i * width1;
var end = p + width;
while (p < end && !points[p]) {
p++;
}
if (p === end) {
continue;
}
var coords = [p % width1, i];
var type = points[p], p0 = p, pp;
do {
var step = steps[type];
do {
p += step;
} while (!points[p]);
pp = points[p];
if (pp !== 5 && pp !== 10) {
// set new direction
type = pp;
// delete mark
points[p] = 0;
} else { // type is 5 or 10, ie, a crossing
// set new direction
type = pp & ((0x33 * type) >> 4);
// set new type for "future hit"
points[p] &= (type >> 2 | type << 2);
}
coords.push(p % width1);
coords.push((p / width1) | 0);
--count;
} while (p0 !== p);
outlines.push(coords);
--i;
}
var drawOutline = function(c) {
c.save();
// the path shall be painted in [0..1]x[0..1] space
c.scale(1 / width, -1 / height);
c.translate(0, -height);
c.beginPath();
for (var i = 0, ii = outlines.length; i < ii; i++) {
var o = outlines[i];
c.moveTo(o[0], o[1]);
for (var j = 2, jj = o.length; j < jj; j += 2) {
c.lineTo(o[j], o[j+1]);
}
}
c.fill();
c.beginPath();
c.restore();
};
return drawOutline;
}
var CanvasExtraState = (function CanvasExtraStateClosure() {
function CanvasExtraState(old) {
// Are soft masks and alpha values shapes or opacities?
this.alphaIsShape = false;
this.fontSize = 0;
this.fontSizeScale = 1;
this.textMatrix = IDENTITY_MATRIX;
this.fontMatrix = FONT_IDENTITY_MATRIX;
this.leading = 0;
// Current point (in user coordinates)
this.x = 0;
this.y = 0;
// Start of text line (in text coordinates)
this.lineX = 0;
this.lineY = 0;
// Character and word spacing
this.charSpacing = 0;
this.wordSpacing = 0;
this.textHScale = 1;
this.textRenderingMode = TextRenderingMode.FILL;
this.textRise = 0;
// Color spaces
this.fillColorSpace = ColorSpace.singletons.gray;
this.fillColorSpaceObj = null;
this.strokeColorSpace = ColorSpace.singletons.gray;
this.strokeColorSpaceObj = null;
this.fillColorObj = null;
this.strokeColorObj = null;
// Default fore and background colors
this.fillColor = '#000000';
this.strokeColor = '#000000';
// Note: fill alpha applies to all non-stroking operations
this.fillAlpha = 1;
this.strokeAlpha = 1;
this.lineWidth = 1;
this.activeSMask = null; // nonclonable field (see the save method below)
this.old = old;
}
CanvasExtraState.prototype = {
clone: function CanvasExtraState_clone() {
return Object.create(this);
},
setCurrentPoint: function CanvasExtraState_setCurrentPoint(x, y) {
this.x = x;
this.y = y;
}
};
return CanvasExtraState;
})();
var CanvasGraphics = (function CanvasGraphicsClosure() {
// Defines the time the executeOperatorList is going to be executing
// before it stops and shedules a continue of execution.
var EXECUTION_TIME = 15;
function CanvasGraphics(canvasCtx, commonObjs, objs, imageLayer) {
this.ctx = canvasCtx;
this.current = new CanvasExtraState();
this.stateStack = [];
this.pendingClip = null;
this.pendingEOFill = false;
this.res = null;
this.xobjs = null;
this.commonObjs = commonObjs;
this.objs = objs;
this.imageLayer = imageLayer;
this.groupStack = [];
this.processingType3 = null;
// Patterns are painted relative to the initial page/form transform, see pdf
// spec 8.7.2 NOTE 1.
this.baseTransform = null;
this.baseTransformStack = [];
this.groupLevel = 0;
this.smaskStack = [];
this.smaskCounter = 0;
this.tempSMask = null;
if (canvasCtx) {
addContextCurrentTransform(canvasCtx);
}
}
function putBinaryImageData(ctx, imgData) {
if (typeof ImageData !== 'undefined' && imgData instanceof ImageData) {
ctx.putImageData(imgData, 0, 0);
return;
}
// Put the image data to the canvas in chunks, rather than putting the
// whole image at once. This saves JS memory, because the ImageData object
// is smaller. It also possibly saves C++ memory within the implementation
// of putImageData(). (E.g. in Firefox we make two short-lived copies of
// the data passed to putImageData()). |n| shouldn't be too small, however,
// because too many putImageData() calls will slow things down.
//
// Note: as written, if the last chunk is partial, the putImageData() call
// will (conceptually) put pixels past the bounds of the canvas. But
// that's ok; any such pixels are ignored.
var height = imgData.height, width = imgData.width;
var fullChunkHeight = 16;
var fracChunks = height / fullChunkHeight;
var fullChunks = Math.floor(fracChunks);
var totalChunks = Math.ceil(fracChunks);
var partialChunkHeight = height - fullChunks * fullChunkHeight;
var chunkImgData = ctx.createImageData(width, fullChunkHeight);
var srcPos = 0, destPos;
var src = imgData.data;
var dest = chunkImgData.data;
var i, j, thisChunkHeight, elemsInThisChunk;
// There are multiple forms in which the pixel data can be passed, and
// imgData.kind tells us which one this is.
if (imgData.kind === ImageKind.GRAYSCALE_1BPP) {
// Grayscale, 1 bit per pixel (i.e. black-and-white).
var srcLength = src.byteLength;
var dest32 = PDFJS.hasCanvasTypedArrays ? new Uint32Array(dest.buffer) :
new Uint32ArrayView(dest);
var dest32DataLength = dest32.length;
var fullSrcDiff = (width + 7) >> 3;
var white = 0xFFFFFFFF;
var black = (PDFJS.isLittleEndian || !PDFJS.hasCanvasTypedArrays) ?
0xFF000000 : 0x000000FF;
for (i = 0; i < totalChunks; i++) {
thisChunkHeight =
(i < fullChunks) ? fullChunkHeight : partialChunkHeight;
destPos = 0;
for (j = 0; j < thisChunkHeight; j++) {
var srcDiff = srcLength - srcPos;
var k = 0;
var kEnd = (srcDiff > fullSrcDiff) ? width : srcDiff * 8 - 7;
var kEndUnrolled = kEnd & ~7;
var mask = 0;
var srcByte = 0;
for (; k < kEndUnrolled; k += 8) {
srcByte = src[srcPos++];
dest32[destPos++] = (srcByte & 128) ? white : black;
dest32[destPos++] = (srcByte & 64) ? white : black;
dest32[destPos++] = (srcByte & 32) ? white : black;
dest32[destPos++] = (srcByte & 16) ? white : black;
dest32[destPos++] = (srcByte & 8) ? white : black;
dest32[destPos++] = (srcByte & 4) ? white : black;
dest32[destPos++] = (srcByte & 2) ? white : black;
dest32[destPos++] = (srcByte & 1) ? white : black;
}
for (; k < kEnd; k++) {
if (mask === 0) {
srcByte = src[srcPos++];
mask = 128;
}
dest32[destPos++] = (srcByte & mask) ? white : black;
mask >>= 1;
}
}
// We ran out of input. Make all remaining pixels transparent.
while (destPos < dest32DataLength) {
dest32[destPos++] = 0;
}
ctx.putImageData(chunkImgData, 0, i * fullChunkHeight);
}
} else if (imgData.kind === ImageKind.RGBA_32BPP) {
// RGBA, 32-bits per pixel.
for (i = 0; i < totalChunks; i++) {
thisChunkHeight =
(i < fullChunks) ? fullChunkHeight : partialChunkHeight;
elemsInThisChunk = imgData.width * thisChunkHeight * 4;
dest.set(src.subarray(srcPos, srcPos + elemsInThisChunk));
srcPos += elemsInThisChunk;
ctx.putImageData(chunkImgData, 0, i * fullChunkHeight);
}
} else if (imgData.kind === ImageKind.RGB_24BPP) {
// RGB, 24-bits per pixel.
for (i = 0; i < totalChunks; i++) {
thisChunkHeight =
(i < fullChunks) ? fullChunkHeight : partialChunkHeight;
elemsInThisChunk = imgData.width * thisChunkHeight * 3;
destPos = 0;
for (j = 0; j < elemsInThisChunk; j += 3) {
dest[destPos++] = src[srcPos++];
dest[destPos++] = src[srcPos++];
dest[destPos++] = src[srcPos++];
dest[destPos++] = 255;
}
ctx.putImageData(chunkImgData, 0, i * fullChunkHeight);
}
} else {
error('bad image kind: ' + imgData.kind);
}
}
function putBinaryImageMask(ctx, imgData) {
var height = imgData.height, width = imgData.width;
var fullChunkHeight = 16;
var fracChunks = height / fullChunkHeight;
var fullChunks = Math.floor(fracChunks);
var totalChunks = Math.ceil(fracChunks);
var partialChunkHeight = height - fullChunks * fullChunkHeight;
var chunkImgData = ctx.createImageData(width, fullChunkHeight);
var srcPos = 0;
var src = imgData.data;
var dest = chunkImgData.data;
for (var i = 0; i < totalChunks; i++) {
var thisChunkHeight =
(i < fullChunks) ? fullChunkHeight : partialChunkHeight;
// Expand the mask so it can be used by the canvas. Any required
// inversion has already been handled.
var destPos = 3; // alpha component offset
for (var j = 0; j < thisChunkHeight; j++) {
var mask = 0;
for (var k = 0; k < width; k++) {
if (!mask) {
var elem = src[srcPos++];
mask = 128;
}
dest[destPos] = (elem & mask) ? 0 : 255;
destPos += 4;
mask >>= 1;
}
}
ctx.putImageData(chunkImgData, 0, i * fullChunkHeight);
}
}
function copyCtxState(sourceCtx, destCtx) {
var properties = ['strokeStyle', 'fillStyle', 'fillRule', 'globalAlpha',
'lineWidth', 'lineCap', 'lineJoin', 'miterLimit',
'globalCompositeOperation', 'font'];
for (var i = 0, ii = properties.length; i < ii; i++) {
var property = properties[i];
if (property in sourceCtx) {
destCtx[property] = sourceCtx[property];
}
}
if ('setLineDash' in sourceCtx) {
destCtx.setLineDash(sourceCtx.getLineDash());
destCtx.lineDashOffset = sourceCtx.lineDashOffset;
} else if ('mozDash' in sourceCtx) {
destCtx.mozDash = sourceCtx.mozDash;
destCtx.mozDashOffset = sourceCtx.mozDashOffset;
}
}
function genericComposeSMask(maskCtx, layerCtx, width, height,
subtype, backdrop) {
var addBackdropFn;
if (backdrop) {
addBackdropFn = function (r0, g0, b0, bytes) {
var length = bytes.length;
for (var i = 3; i < length; i += 4) {
var alpha = bytes[i] / 255;
if (alpha === 0) {
bytes[i - 3] = r0;
bytes[i - 2] = g0;
bytes[i - 1] = b0;
} else if (alpha < 1) {
var alpha_ = 1 - alpha;
bytes[i - 3] = (bytes[i - 3] * alpha + r0 * alpha_) | 0;
bytes[i - 2] = (bytes[i - 2] * alpha + g0 * alpha_) | 0;
bytes[i - 1] = (bytes[i - 1] * alpha + b0 * alpha_) | 0;
}
}
}.bind(null, backdrop[0], backdrop[1], backdrop[2]);
} else {
addBackdropFn = function () {};
}
var composeFn;
if (subtype === 'Luminosity') {
composeFn = function (maskDataBytes, layerDataBytes) {
var length = maskDataBytes.length;
for (var i = 3; i < length; i += 4) {
var y = ((maskDataBytes[i - 3] * 77) + // * 0.3 / 255 * 0x10000
(maskDataBytes[i - 2] * 152) + // * 0.59 ....
(maskDataBytes[i - 1] * 28)) | 0; // * 0.11 ....
layerDataBytes[i] = (layerDataBytes[i] * y) >> 16;
}
};
} else {
composeFn = function (maskDataBytes, layerDataBytes) {
var length = maskDataBytes.length;
for (var i = 3; i < length; i += 4) {
var alpha = maskDataBytes[i];
layerDataBytes[i] = (layerDataBytes[i] * alpha / 255) | 0;
}
};
}
// processing image in chunks to save memory
var PIXELS_TO_PROCESS = 65536;
var chunkSize = Math.min(height, Math.ceil(PIXELS_TO_PROCESS / width));
for (var row = 0; row < height; row += chunkSize) {
var chunkHeight = Math.min(chunkSize, height - row);
var maskData = maskCtx.getImageData(0, row, width, chunkHeight);
var layerData = layerCtx.getImageData(0, row, width, chunkHeight);
addBackdropFn(maskData.data);
composeFn(maskData.data, layerData.data);
maskCtx.putImageData(layerData, 0, row);
}
}
function composeSMask(ctx, smask, layerCtx) {
var mask = smask.canvas;
var maskCtx = smask.context;
ctx.setTransform(smask.scaleX, 0, 0, smask.scaleY,
smask.offsetX, smask.offsetY);
var backdrop;
if (smask.backdrop) {
var cs = smask.colorSpace || ColorSpace.singletons.rgb;
backdrop = cs.getRgb(smask.backdrop, 0);
}
if (WebGLUtils.isEnabled) {
var composed = WebGLUtils.composeSMask(layerCtx.canvas, mask,
{subtype: smask.subtype, backdrop: backdrop});
ctx.setTransform(1, 0, 0, 1, 0, 0);
ctx.drawImage(composed, smask.offsetX, smask.offsetY);
return;
}
genericComposeSMask(maskCtx, layerCtx, mask.width, mask.height,
smask.subtype, backdrop);
ctx.drawImage(mask, 0, 0);
}
var LINE_CAP_STYLES = ['butt', 'round', 'square'];
var LINE_JOIN_STYLES = ['miter', 'round', 'bevel'];
var NORMAL_CLIP = {};
var EO_CLIP = {};
CanvasGraphics.prototype = {
beginDrawing: function CanvasGraphics_beginDrawing(viewport, transparency) {
// For pdfs that use blend modes we have to clear the canvas else certain
// blend modes can look wrong since we'd be blending with a white
// backdrop. The problem with a transparent backdrop though is we then
// don't get sub pixel anti aliasing on text, so we fill with white if
// we can.
var width = this.ctx.canvas.width;
var height = this.ctx.canvas.height;
if (transparency) {
this.ctx.clearRect(0, 0, width, height);
} else {
this.ctx.mozOpaque = true;
this.ctx.save();
this.ctx.fillStyle = 'rgb(255, 255, 255)';
this.ctx.fillRect(0, 0, width, height);
this.ctx.restore();
}
var transform = viewport.transform;
this.ctx.save();
this.ctx.transform.apply(this.ctx, transform);
this.baseTransform = this.ctx.mozCurrentTransform.slice();
if (this.imageLayer) {
this.imageLayer.beginLayout();
}
},
executeOperatorList: function CanvasGraphics_executeOperatorList(
operatorList,
executionStartIdx, continueCallback,
stepper) {
var argsArray = operatorList.argsArray;
var fnArray = operatorList.fnArray;
var i = executionStartIdx || 0;
var argsArrayLen = argsArray.length;
// Sometimes the OperatorList to execute is empty.
if (argsArrayLen == i) {
return i;
}
var endTime = Date.now() + EXECUTION_TIME;
var commonObjs = this.commonObjs;
var objs = this.objs;
var fnId;
var deferred = Promise.resolve();
while (true) {
if (stepper && i === stepper.nextBreakPoint) {
stepper.breakIt(i, continueCallback);
return i;
}
fnId = fnArray[i];
if (fnId !== OPS.dependency) {
this[fnId].apply(this, argsArray[i]);
} else {
var deps = argsArray[i];
for (var n = 0, nn = deps.length; n < nn; n++) {
var depObjId = deps[n];
var common = depObjId.substring(0, 2) == 'g_';
// If the promise isn't resolved yet, add the continueCallback
// to the promise and bail out.
if (!common && !objs.isResolved(depObjId)) {
objs.get(depObjId, continueCallback);
return i;
}
if (common && !commonObjs.isResolved(depObjId)) {
commonObjs.get(depObjId, continueCallback);
return i;
}
}
}
i++;
// If the entire operatorList was executed, stop as were done.
if (i == argsArrayLen) {
return i;
}
// If the execution took longer then a certain amount of time, schedule
// to continue exeution after a short delay.
// However, this is only possible if a 'continueCallback' is passed in.
if (continueCallback && Date.now() > endTime) {
deferred.then(continueCallback);
return i;
}
// If the operatorList isn't executed completely yet OR the execution
// time was short enough, do another execution round.
}
},
endDrawing: function CanvasGraphics_endDrawing() {
this.ctx.restore();
CachedCanvases.clear();
WebGLUtils.clear();
if (this.imageLayer) {
this.imageLayer.endLayout();
}
},
// Graphics state
setLineWidth: function CanvasGraphics_setLineWidth(width) {
this.current.lineWidth = width;
this.ctx.lineWidth = width;
},
setLineCap: function CanvasGraphics_setLineCap(style) {
this.ctx.lineCap = LINE_CAP_STYLES[style];
},
setLineJoin: function CanvasGraphics_setLineJoin(style) {
this.ctx.lineJoin = LINE_JOIN_STYLES[style];
},
setMiterLimit: function CanvasGraphics_setMiterLimit(limit) {
this.ctx.miterLimit = limit;
},
setDash: function CanvasGraphics_setDash(dashArray, dashPhase) {
var ctx = this.ctx;
if ('setLineDash' in ctx) {
ctx.setLineDash(dashArray);
ctx.lineDashOffset = dashPhase;
} else {
ctx.mozDash = dashArray;
ctx.mozDashOffset = dashPhase;
}
},
setRenderingIntent: function CanvasGraphics_setRenderingIntent(intent) {
// Maybe if we one day fully support color spaces this will be important
// for now we can ignore.
// TODO set rendering intent?
},
setFlatness: function CanvasGraphics_setFlatness(flatness) {
// There's no way to control this with canvas, but we can safely ignore.
// TODO set flatness?
},
setGState: function CanvasGraphics_setGState(states) {
for (var i = 0, ii = states.length; i < ii; i++) {
var state = states[i];
var key = state[0];
var value = state[1];
switch (key) {
case 'LW':
this.setLineWidth(value);
break;
case 'LC':
this.setLineCap(value);
break;
case 'LJ':
this.setLineJoin(value);
break;
case 'ML':
this.setMiterLimit(value);
break;
case 'D':
this.setDash(value[0], value[1]);
break;
case 'RI':
this.setRenderingIntent(value);
break;
case 'FL':
this.setFlatness(value);
break;
case 'Font':
this.setFont(value[0], value[1]);
break;
case 'CA':
this.current.strokeAlpha = state[1];
break;
case 'ca':
this.current.fillAlpha = state[1];
this.ctx.globalAlpha = state[1];
break;
case 'BM':
if (value && value.name && (value.name !== 'Normal')) {
var mode = value.name.replace(/([A-Z])/g,
function(c) {
return '-' + c.toLowerCase();
}
).substring(1);
this.ctx.globalCompositeOperation = mode;
if (this.ctx.globalCompositeOperation !== mode) {
warn('globalCompositeOperation "' + mode +
'" is not supported');
}
} else {
this.ctx.globalCompositeOperation = 'source-over';
}
break;
case 'SMask':
if (this.current.activeSMask) {
this.endSMaskGroup();
}
this.current.activeSMask = value ? this.tempSMask : null;
if (this.current.activeSMask) {
this.beginSMaskGroup();
}
this.tempSMask = null;
break;
}
}
},
beginSMaskGroup: function CanvasGraphics_beginSMaskGroup() {
var activeSMask = this.current.activeSMask;
var drawnWidth = activeSMask.canvas.width;
var drawnHeight = activeSMask.canvas.height;
var cacheId = 'smaskGroupAt' + this.groupLevel;
var scratchCanvas = CachedCanvases.getCanvas(
cacheId, drawnWidth, drawnHeight, true);
var currentCtx = this.ctx;
var currentTransform = currentCtx.mozCurrentTransform;
this.ctx.save();
var groupCtx = scratchCanvas.context;
groupCtx.scale(1 / activeSMask.scaleX, 1 / activeSMask.scaleY);
groupCtx.translate(-activeSMask.offsetX, -activeSMask.offsetY);
groupCtx.transform.apply(groupCtx, currentTransform);
copyCtxState(currentCtx, groupCtx);
this.ctx = groupCtx;
this.setGState([
['BM', 'Normal'],
['ca', 1],
['CA', 1]
]);
this.groupStack.push(currentCtx);
this.groupLevel++;
},
endSMaskGroup: function CanvasGraphics_endSMaskGroup() {
var groupCtx = this.ctx;
this.groupLevel--;
this.ctx = this.groupStack.pop();
composeSMask(this.ctx, this.current.activeSMask, groupCtx);
this.ctx.restore();
},
save: function CanvasGraphics_save() {
this.ctx.save();
var old = this.current;
this.stateStack.push(old);
this.current = old.clone();
if (this.current.activeSMask) {
this.current.activeSMask = null;
}
},
restore: function CanvasGraphics_restore() {
var prev = this.stateStack.pop();
if (prev) {
if (this.current.activeSMask) {
this.endSMaskGroup();
}
this.current = prev;
this.ctx.restore();
}
},
transform: function CanvasGraphics_transform(a, b, c, d, e, f) {
this.ctx.transform(a, b, c, d, e, f);
},
// Path
moveTo: function CanvasGraphics_moveTo(x, y) {
this.ctx.moveTo(x, y);
this.current.setCurrentPoint(x, y);
},
lineTo: function CanvasGraphics_lineTo(x, y) {
this.ctx.lineTo(x, y);
this.current.setCurrentPoint(x, y);
},
curveTo: function CanvasGraphics_curveTo(x1, y1, x2, y2, x3, y3) {
this.ctx.bezierCurveTo(x1, y1, x2, y2, x3, y3);
this.current.setCurrentPoint(x3, y3);
},
curveTo2: function CanvasGraphics_curveTo2(x2, y2, x3, y3) {
var current = this.current;
this.ctx.bezierCurveTo(current.x, current.y, x2, y2, x3, y3);
current.setCurrentPoint(x3, y3);
},
curveTo3: function CanvasGraphics_curveTo3(x1, y1, x3, y3) {
this.curveTo(x1, y1, x3, y3, x3, y3);
this.current.setCurrentPoint(x3, y3);
},
closePath: function CanvasGraphics_closePath() {
this.ctx.closePath();
},
rectangle: function CanvasGraphics_rectangle(x, y, width, height) {
if (width === 0) {
width = this.getSinglePixelWidth();
}
if (height === 0) {
height = this.getSinglePixelWidth();
}
this.ctx.rect(x, y, width, height);
},
stroke: function CanvasGraphics_stroke(consumePath) {
consumePath = typeof consumePath !== 'undefined' ? consumePath : true;
var ctx = this.ctx;
var strokeColor = this.current.strokeColor;
if (this.current.lineWidth === 0) {
ctx.lineWidth = this.getSinglePixelWidth();
}
// For stroke we want to temporarily change the global alpha to the
// stroking alpha.
ctx.globalAlpha = this.current.strokeAlpha;
if (strokeColor && strokeColor.hasOwnProperty('type') &&
strokeColor.type === 'Pattern') {
// for patterns, we transform to pattern space, calculate
// the pattern, call stroke, and restore to user space
ctx.save();
ctx.strokeStyle = strokeColor.getPattern(ctx, this);
ctx.stroke();
ctx.restore();
} else {
ctx.stroke();
}
if (consumePath) {
this.consumePath();
}
// Restore the global alpha to the fill alpha
ctx.globalAlpha = this.current.fillAlpha;
},
closeStroke: function CanvasGraphics_closeStroke() {
this.closePath();
this.stroke();
},
fill: function CanvasGraphics_fill(consumePath) {
consumePath = typeof consumePath !== 'undefined' ? consumePath : true;
var ctx = this.ctx;
var fillColor = this.current.fillColor;
var needRestore = false;
if (fillColor && fillColor.hasOwnProperty('type') &&
fillColor.type === 'Pattern') {
ctx.save();
ctx.fillStyle = fillColor.getPattern(ctx, this);
needRestore = true;
}
if (this.pendingEOFill) {
if ('mozFillRule' in this.ctx) {
this.ctx.mozFillRule = 'evenodd';
this.ctx.fill();
this.ctx.mozFillRule = 'nonzero';
} else {
try {
this.ctx.fill('evenodd');
} catch (ex) {
// shouldn't really happen, but browsers might think differently
this.ctx.fill();
}
}
this.pendingEOFill = false;
} else {
this.ctx.fill();
}
if (needRestore) {
ctx.restore();
}
if (consumePath) {
this.consumePath();
}
},
eoFill: function CanvasGraphics_eoFill() {
this.pendingEOFill = true;
this.fill();
},
fillStroke: function CanvasGraphics_fillStroke() {
this.fill(false);
this.stroke(false);
this.consumePath();
},
eoFillStroke: function CanvasGraphics_eoFillStroke() {
this.pendingEOFill = true;
this.fillStroke();
},
closeFillStroke: function CanvasGraphics_closeFillStroke() {
this.closePath();
this.fillStroke();
},
closeEOFillStroke: function CanvasGraphics_closeEOFillStroke() {
this.pendingEOFill = true;
this.closePath();
this.fillStroke();
},
endPath: function CanvasGraphics_endPath() {
this.consumePath();
},
// Clipping
clip: function CanvasGraphics_clip() {
this.pendingClip = NORMAL_CLIP;
},
eoClip: function CanvasGraphics_eoClip() {
this.pendingClip = EO_CLIP;
},
// Text
beginText: function CanvasGraphics_beginText() {
this.current.textMatrix = IDENTITY_MATRIX;
this.current.x = this.current.lineX = 0;
this.current.y = this.current.lineY = 0;
},
endText: function CanvasGraphics_endText() {
if (!('pendingTextPaths' in this)) {
this.ctx.beginPath();
return;
}
var paths = this.pendingTextPaths;
var ctx = this.ctx;
ctx.save();
ctx.beginPath();
for (var i = 0; i < paths.length; i++) {
var path = paths[i];
ctx.setTransform.apply(ctx, path.transform);
ctx.translate(path.x, path.y);
path.addToPath(ctx, path.fontSize);
}
ctx.restore();
ctx.clip();
ctx.beginPath();
delete this.pendingTextPaths;
},
setCharSpacing: function CanvasGraphics_setCharSpacing(spacing) {
this.current.charSpacing = spacing;
},
setWordSpacing: function CanvasGraphics_setWordSpacing(spacing) {
this.current.wordSpacing = spacing;
},
setHScale: function CanvasGraphics_setHScale(scale) {
this.current.textHScale = scale / 100;
},
setLeading: function CanvasGraphics_setLeading(leading) {
this.current.leading = -leading;
},
setFont: function CanvasGraphics_setFont(fontRefName, size) {
var fontObj = this.commonObjs.get(fontRefName);
var current = this.current;
if (!fontObj) {
error('Can\'t find font for ' + fontRefName);
}
current.fontMatrix = (fontObj.fontMatrix ?
fontObj.fontMatrix : FONT_IDENTITY_MATRIX);
// A valid matrix needs all main diagonal elements to be non-zero
// This also ensures we bypass FF bugzilla bug #719844.
if (current.fontMatrix[0] === 0 ||
current.fontMatrix[3] === 0) {
warn('Invalid font matrix for font ' + fontRefName);
}
// The spec for Tf (setFont) says that 'size' specifies the font 'scale',
// and in some docs this can be negative (inverted x-y axes).
if (size < 0) {
size = -size;
current.fontDirection = -1;
} else {
current.fontDirection = 1;
}
this.current.font = fontObj;
this.current.fontSize = size;
if (fontObj.coded) {
return; // we don't need ctx.font for Type3 fonts
}
var name = fontObj.loadedName || 'sans-serif';
var bold = fontObj.black ? (fontObj.bold ? 'bolder' : 'bold') :
(fontObj.bold ? 'bold' : 'normal');
var italic = fontObj.italic ? 'italic' : 'normal';
var typeface = '"' + name + '", ' + fontObj.fallbackName;
// Some font backends cannot handle fonts below certain size.
// Keeping the font at minimal size and using the fontSizeScale to change
// the current transformation matrix before the fillText/strokeText.
// See https://bugzilla.mozilla.org/show_bug.cgi?id=726227
var browserFontSize = size >= MIN_FONT_SIZE ? size : MIN_FONT_SIZE;
this.current.fontSizeScale = browserFontSize != MIN_FONT_SIZE ? 1.0 :
size / MIN_FONT_SIZE;
var rule = italic + ' ' + bold + ' ' + browserFontSize + 'px ' + typeface;
this.ctx.font = rule;
},
setTextRenderingMode: function CanvasGraphics_setTextRenderingMode(mode) {
this.current.textRenderingMode = mode;
},
setTextRise: function CanvasGraphics_setTextRise(rise) {
this.current.textRise = rise;
},
moveText: function CanvasGraphics_moveText(x, y) {
this.current.x = this.current.lineX += x;
this.current.y = this.current.lineY += y;
},
setLeadingMoveText: function CanvasGraphics_setLeadingMoveText(x, y) {
this.setLeading(-y);
this.moveText(x, y);
},
setTextMatrix: function CanvasGraphics_setTextMatrix(a, b, c, d, e, f) {
this.current.textMatrix = [a, b, c, d, e, f];
this.current.x = this.current.lineX = 0;
this.current.y = this.current.lineY = 0;
},
nextLine: function CanvasGraphics_nextLine() {
this.moveText(0, this.current.leading);
},
applyTextTransforms: function CanvasGraphics_applyTextTransforms() {
var ctx = this.ctx;
var current = this.current;
ctx.transform.apply(ctx, current.textMatrix);
ctx.translate(current.x, current.y + current.textRise);
if (current.fontDirection > 0) {
ctx.scale(current.textHScale, -1);
} else {
ctx.scale(-current.textHScale, 1);
}
},
paintChar: function (character, x, y) {
var ctx = this.ctx;
var current = this.current;
var font = current.font;
var fontSize = current.fontSize / current.fontSizeScale;
var textRenderingMode = current.textRenderingMode;
var fillStrokeMode = textRenderingMode &
TextRenderingMode.FILL_STROKE_MASK;
var isAddToPathSet = !!(textRenderingMode &
TextRenderingMode.ADD_TO_PATH_FLAG);
var addToPath;
if (font.disableFontFace || isAddToPathSet) {
addToPath = font.getPathGenerator(this.commonObjs, character);
}
if (font.disableFontFace) {
ctx.save();
ctx.translate(x, y);
ctx.beginPath();
addToPath(ctx, fontSize);
if (fillStrokeMode === TextRenderingMode.FILL ||
fillStrokeMode === TextRenderingMode.FILL_STROKE) {
ctx.fill();
}
if (fillStrokeMode === TextRenderingMode.STROKE ||
fillStrokeMode === TextRenderingMode.FILL_STROKE) {
ctx.stroke();
}
ctx.restore();
} else {
if (fillStrokeMode === TextRenderingMode.FILL ||
fillStrokeMode === TextRenderingMode.FILL_STROKE) {
ctx.fillText(character, x, y);
}
if (fillStrokeMode === TextRenderingMode.STROKE ||
fillStrokeMode === TextRenderingMode.FILL_STROKE) {
ctx.strokeText(character, x, y);
}
}
if (isAddToPathSet) {
var paths = this.pendingTextPaths || (this.pendingTextPaths = []);
paths.push({
transform: ctx.mozCurrentTransform,
x: x,
y: y,
fontSize: fontSize,
addToPath: addToPath
});
}
},
get isFontSubpixelAAEnabled() {
// Checks if anti-aliasing is enabled when scaled text is painted.
// On Windows GDI scaled fonts looks bad.
var ctx = document.createElement('canvas').getContext('2d');
ctx.scale(1.5, 1);
ctx.fillText('I', 0, 10);
var data = ctx.getImageData(0, 0, 10, 10).data;
var enabled = false;
for (var i = 3; i < data.length; i += 4) {
if (data[i] > 0 && data[i] < 255) {
enabled = true;
break;
}
}
return shadow(this, 'isFontSubpixelAAEnabled', enabled);
},
showText: function CanvasGraphics_showText(glyphs) {
var ctx = this.ctx;
var current = this.current;
var font = current.font;
var fontSize = current.fontSize;
var fontSizeScale = current.fontSizeScale;
var charSpacing = current.charSpacing;
var wordSpacing = current.wordSpacing;
var textHScale = current.textHScale * current.fontDirection;
var fontMatrix = current.fontMatrix || FONT_IDENTITY_MATRIX;
var glyphsLength = glyphs.length;
var vertical = font.vertical;
var defaultVMetrics = font.defaultVMetrics;
var i, glyph, width;
if (fontSize === 0) {
return;
}
// Type3 fonts - each glyph is a "mini-PDF"
if (font.coded) {
ctx.save();
ctx.transform.apply(ctx, current.textMatrix);
ctx.translate(current.x, current.y);
ctx.scale(textHScale, 1);
for (i = 0; i < glyphsLength; ++i) {
glyph = glyphs[i];
if (glyph === null) {
// word break
this.ctx.translate(wordSpacing, 0);
current.x += wordSpacing * textHScale;
continue;
}
this.processingType3 = glyph;
this.save();
ctx.scale(fontSize, fontSize);
ctx.transform.apply(ctx, fontMatrix);
this.executeOperatorList(glyph.operatorList);
this.restore();
var transformed = Util.applyTransform([glyph.width, 0], fontMatrix);
width = ((transformed[0] * fontSize + charSpacing) *
current.fontDirection);
ctx.translate(width, 0);
current.x += width * textHScale;
}
ctx.restore();
this.processingType3 = null;
} else {
ctx.save();
this.applyTextTransforms();
var lineWidth = current.lineWidth;
var a1 = current.textMatrix[0], b1 = current.textMatrix[1];
var scale = Math.sqrt(a1 * a1 + b1 * b1);
if (scale === 0 || lineWidth === 0) {
lineWidth = this.getSinglePixelWidth();
} else {
lineWidth /= scale;
}
if (fontSizeScale != 1.0) {
ctx.scale(fontSizeScale, fontSizeScale);
lineWidth /= fontSizeScale;
}
ctx.lineWidth = lineWidth;
var x = 0;
for (i = 0; i < glyphsLength; ++i) {
glyph = glyphs[i];
if (glyph === null) {
// word break
x += current.fontDirection * wordSpacing;
continue;
}
var restoreNeeded = false;
var character = glyph.fontChar;
var vmetric = glyph.vmetric || defaultVMetrics;
if (vertical) {
var vx = glyph.vmetric ? vmetric[1] : glyph.width * 0.5;
vx = -vx * fontSize * current.fontMatrix[0];
var vy = vmetric[2] * fontSize * current.fontMatrix[0];
}
width = vmetric ? -vmetric[0] : glyph.width;
var charWidth = width * fontSize * current.fontMatrix[0] +
charSpacing * current.fontDirection;
var accent = glyph.accent;
var scaledX, scaledY, scaledAccentX, scaledAccentY;
if (vertical) {
scaledX = vx / fontSizeScale;
scaledY = (x + vy) / fontSizeScale;
} else {
scaledX = x / fontSizeScale;
scaledY = 0;
}
if (font.remeasure && width > 0 && this.isFontSubpixelAAEnabled) {
// some standard fonts may not have the exact width, trying to
// rescale per character
var measuredWidth = ctx.measureText(character).width * 1000 /
current.fontSize * current.fontSizeScale;
var characterScaleX = width / measuredWidth;
restoreNeeded = true;
ctx.save();
ctx.scale(characterScaleX, 1);
scaledX /= characterScaleX;
if (accent) {
scaledAccentX /= characterScaleX;
}
}
this.paintChar(character, scaledX, scaledY);
if (accent) {
scaledAccentX = scaledX + accent.offset.x / fontSizeScale;
scaledAccentY = scaledY - accent.offset.y / fontSizeScale;
this.paintChar(accent.fontChar, scaledAccentX, scaledAccentY);
}
x += charWidth;
if (restoreNeeded) {
ctx.restore();
}
}
if (vertical) {
current.y -= x * textHScale;
} else {
current.x += x * textHScale;
}
ctx.restore();
}
},
showSpacedText: function CanvasGraphics_showSpacedText(arr) {
var current = this.current;
var font = current.font;
var fontSize = current.fontSize;
// TJ array's number is independent from fontMatrix
var textHScale = current.textHScale * 0.001 * current.fontDirection;
var arrLength = arr.length;
var vertical = font.vertical;
for (var i = 0; i < arrLength; ++i) {
var e = arr[i];
if (isNum(e)) {
var spacingLength = -e * fontSize * textHScale;
if (vertical) {
current.y += spacingLength;
} else {
current.x += spacingLength;
}
} else {
this.showText(e);
}
}
},
nextLineShowText: function CanvasGraphics_nextLineShowText(text) {
this.nextLine();
this.showText(text);
},
nextLineSetSpacingShowText:
function CanvasGraphics_nextLineSetSpacingShowText(wordSpacing,
charSpacing,
text) {
this.setWordSpacing(wordSpacing);
this.setCharSpacing(charSpacing);
this.nextLineShowText(text);
},
// Type3 fonts
setCharWidth: function CanvasGraphics_setCharWidth(xWidth, yWidth) {
// We can safely ignore this since the width should be the same
// as the width in the Widths array.
},
setCharWidthAndBounds: function CanvasGraphics_setCharWidthAndBounds(xWidth,
yWidth,
llx,
lly,
urx,
ury) {
// TODO According to the spec we're also suppose to ignore any operators
// that set color or include images while processing this type3 font.
this.rectangle(llx, lly, urx - llx, ury - lly);
this.clip();
this.endPath();
},
// Color
setStrokeColorSpace: function CanvasGraphics_setStrokeColorSpace(raw) {
this.current.strokeColorSpace = ColorSpace.fromIR(raw);
},
setFillColorSpace: function CanvasGraphics_setFillColorSpace(raw) {
this.current.fillColorSpace = ColorSpace.fromIR(raw);
},
setStrokeColor: function CanvasGraphics_setStrokeColor(/*...*/) {
var cs = this.current.strokeColorSpace;
var rgbColor = cs.getRgb(arguments, 0);
var color = Util.makeCssRgb(rgbColor);
this.ctx.strokeStyle = color;
this.current.strokeColor = color;
},
getColorN_Pattern: function CanvasGraphics_getColorN_Pattern(IR, cs) {
var pattern;
if (IR[0] == 'TilingPattern') {
var args = IR[1];
var base = cs.base;
var color;
if (base) {
color = base.getRgb(args, 0);
}
pattern = new TilingPattern(IR, color, this.ctx, this.objs,
this.commonObjs, this.baseTransform);
} else {
pattern = getShadingPatternFromIR(IR);
}
return pattern;
},
setStrokeColorN: function CanvasGraphics_setStrokeColorN(/*...*/) {
var cs = this.current.strokeColorSpace;
if (cs.name == 'Pattern') {
this.current.strokeColor = this.getColorN_Pattern(arguments, cs);
} else {
this.setStrokeColor.apply(this, arguments);
}
},
setFillColor: function CanvasGraphics_setFillColor(/*...*/) {
var cs = this.current.fillColorSpace;
var rgbColor = cs.getRgb(arguments, 0);
var color = Util.makeCssRgb(rgbColor);
this.ctx.fillStyle = color;
this.current.fillColor = color;
},
setFillColorN: function CanvasGraphics_setFillColorN(/*...*/) {
var cs = this.current.fillColorSpace;
if (cs.name == 'Pattern') {
this.current.fillColor = this.getColorN_Pattern(arguments, cs);
} else {
this.setFillColor.apply(this, arguments);
}
},
setStrokeGray: function CanvasGraphics_setStrokeGray(gray) {
this.current.strokeColorSpace = ColorSpace.singletons.gray;
var rgbColor = this.current.strokeColorSpace.getRgb(arguments, 0);
var color = Util.makeCssRgb(rgbColor);
this.ctx.strokeStyle = color;
this.current.strokeColor = color;
},
setFillGray: function CanvasGraphics_setFillGray(gray) {
this.current.fillColorSpace = ColorSpace.singletons.gray;
var rgbColor = this.current.fillColorSpace.getRgb(arguments, 0);
var color = Util.makeCssRgb(rgbColor);
this.ctx.fillStyle = color;
this.current.fillColor = color;
},
setStrokeRGBColor: function CanvasGraphics_setStrokeRGBColor(r, g, b) {
this.current.strokeColorSpace = ColorSpace.singletons.rgb;
var rgbColor = this.current.strokeColorSpace.getRgb(arguments, 0);
var color = Util.makeCssRgb(rgbColor);
this.ctx.strokeStyle = color;
this.current.strokeColor = color;
},
setFillRGBColor: function CanvasGraphics_setFillRGBColor(r, g, b) {
this.current.fillColorSpace = ColorSpace.singletons.rgb;
var rgbColor = this.current.fillColorSpace.getRgb(arguments, 0);
var color = Util.makeCssRgb(rgbColor);
this.ctx.fillStyle = color;
this.current.fillColor = color;
},
setStrokeCMYKColor: function CanvasGraphics_setStrokeCMYKColor(c, m, y, k) {
this.current.strokeColorSpace = ColorSpace.singletons.cmyk;
var color = Util.makeCssCmyk(arguments);
this.ctx.strokeStyle = color;
this.current.strokeColor = color;
},
setFillCMYKColor: function CanvasGraphics_setFillCMYKColor(c, m, y, k) {
this.current.fillColorSpace = ColorSpace.singletons.cmyk;
var color = Util.makeCssCmyk(arguments);
this.ctx.fillStyle = color;
this.current.fillColor = color;
},
shadingFill: function CanvasGraphics_shadingFill(patternIR) {
var ctx = this.ctx;
this.save();
var pattern = getShadingPatternFromIR(patternIR);
ctx.fillStyle = pattern.getPattern(ctx, this, true);
var inv = ctx.mozCurrentTransformInverse;
if (inv) {
var canvas = ctx.canvas;
var width = canvas.width;
var height = canvas.height;
var bl = Util.applyTransform([0, 0], inv);
var br = Util.applyTransform([0, height], inv);
var ul = Util.applyTransform([width, 0], inv);
var ur = Util.applyTransform([width, height], inv);
var x0 = Math.min(bl[0], br[0], ul[0], ur[0]);
var y0 = Math.min(bl[1], br[1], ul[1], ur[1]);
var x1 = Math.max(bl[0], br[0], ul[0], ur[0]);
var y1 = Math.max(bl[1], br[1], ul[1], ur[1]);
this.ctx.fillRect(x0, y0, x1 - x0, y1 - y0);
} else {
// HACK to draw the gradient onto an infinite rectangle.
// PDF gradients are drawn across the entire image while
// Canvas only allows gradients to be drawn in a rectangle
// The following bug should allow us to remove this.
// https://bugzilla.mozilla.org/show_bug.cgi?id=664884
this.ctx.fillRect(-1e10, -1e10, 2e10, 2e10);
}
this.restore();
},
// Images
beginInlineImage: function CanvasGraphics_beginInlineImage() {
error('Should not call beginInlineImage');
},
beginImageData: function CanvasGraphics_beginImageData() {
error('Should not call beginImageData');
},
paintFormXObjectBegin: function CanvasGraphics_paintFormXObjectBegin(matrix,
bbox) {
this.save();
this.baseTransformStack.push(this.baseTransform);
if (matrix && isArray(matrix) && 6 == matrix.length) {
this.transform.apply(this, matrix);
}
this.baseTransform = this.ctx.mozCurrentTransform;
if (bbox && isArray(bbox) && 4 == bbox.length) {
var width = bbox[2] - bbox[0];
var height = bbox[3] - bbox[1];
this.rectangle(bbox[0], bbox[1], width, height);
this.clip();
this.endPath();
}
},
paintFormXObjectEnd: function CanvasGraphics_paintFormXObjectEnd() {
this.restore();
this.baseTransform = this.baseTransformStack.pop();
},
beginGroup: function CanvasGraphics_beginGroup(group) {
this.save();
var currentCtx = this.ctx;
// TODO non-isolated groups - according to Rik at adobe non-isolated
// group results aren't usually that different and they even have tools
// that ignore this setting. Notes from Rik on implmenting:
// - When you encounter an transparency group, create a new canvas with
// the dimensions of the bbox
// - copy the content from the previous canvas to the new canvas
// - draw as usual
// - remove the backdrop alpha:
// alphaNew = 1 - (1 - alpha)/(1 - alphaBackdrop) with 'alpha' the alpha
// value of your transparency group and 'alphaBackdrop' the alpha of the
// backdrop
// - remove background color:
// colorNew = color - alphaNew *colorBackdrop /(1 - alphaNew)
if (!group.isolated) {
info('TODO: Support non-isolated groups.');
}
// TODO knockout - supposedly possible with the clever use of compositing
// modes.
if (group.knockout) {
warn('Knockout groups not supported.');
}
var currentTransform = currentCtx.mozCurrentTransform;
if (group.matrix) {
currentCtx.transform.apply(currentCtx, group.matrix);
}
assert(group.bbox, 'Bounding box is required.');
// Based on the current transform figure out how big the bounding box
// will actually be.
var bounds = Util.getAxialAlignedBoundingBox(
group.bbox,
currentCtx.mozCurrentTransform);
// Clip the bounding box to the current canvas.
var canvasBounds = [0,
0,
currentCtx.canvas.width,
currentCtx.canvas.height];
bounds = Util.intersect(bounds, canvasBounds) || [0, 0, 0, 0];
// Use ceil in case we're between sizes so we don't create canvas that is
// too small and make the canvas at least 1x1 pixels.
var offsetX = Math.floor(bounds[0]);
var offsetY = Math.floor(bounds[1]);
var drawnWidth = Math.max(Math.ceil(bounds[2]) - offsetX, 1);
var drawnHeight = Math.max(Math.ceil(bounds[3]) - offsetY, 1);
var scaleX = 1, scaleY = 1;
if (drawnWidth > MAX_GROUP_SIZE) {
scaleX = drawnWidth / MAX_GROUP_SIZE;
drawnWidth = MAX_GROUP_SIZE;
}
if (drawnHeight > MAX_GROUP_SIZE) {
scaleY = drawnHeight / MAX_GROUP_SIZE;
drawnHeight = MAX_GROUP_SIZE;
}
var cacheId = 'groupAt' + this.groupLevel;
if (group.smask) {
// Using two cache entries is case if masks are used one after another.
cacheId += '_smask_' + ((this.smaskCounter++) % 2);
}
var scratchCanvas = CachedCanvases.getCanvas(
cacheId, drawnWidth, drawnHeight, true);
var groupCtx = scratchCanvas.context;
// Since we created a new canvas that is just the size of the bounding box
// we have to translate the group ctx.
groupCtx.scale(1 / scaleX, 1 / scaleY);
groupCtx.translate(-offsetX, -offsetY);
groupCtx.transform.apply(groupCtx, currentTransform);
if (group.smask) {
// Saving state and cached mask to be used in setGState.
this.smaskStack.push({
canvas: scratchCanvas.canvas,
context: groupCtx,
offsetX: offsetX,
offsetY: offsetY,
scaleX: scaleX,
scaleY: scaleY,
subtype: group.smask.subtype,
backdrop: group.smask.backdrop,
colorSpace: group.colorSpace && ColorSpace.fromIR(group.colorSpace)
});
} else {
// Setup the current ctx so when the group is popped we draw it at the
// right location.
currentCtx.setTransform(1, 0, 0, 1, 0, 0);
currentCtx.translate(offsetX, offsetY);
currentCtx.scale(scaleX, scaleY);
}
// The transparency group inherits all off the current graphics state
// except the blend mode, soft mask, and alpha constants.
copyCtxState(currentCtx, groupCtx);
this.ctx = groupCtx;
this.setGState([
['BM', 'Normal'],
['ca', 1],
['CA', 1]
]);
this.groupStack.push(currentCtx);
this.groupLevel++;
},
endGroup: function CanvasGraphics_endGroup(group) {
this.groupLevel--;
var groupCtx = this.ctx;
this.ctx = this.groupStack.pop();
// Turn off image smoothing to avoid sub pixel interpolation which can
// look kind of blurry for some pdfs.
if ('imageSmoothingEnabled' in this.ctx) {
this.ctx.imageSmoothingEnabled = false;
} else {
this.ctx.mozImageSmoothingEnabled = false;
}
if (group.smask) {
this.tempSMask = this.smaskStack.pop();
} else {
this.ctx.drawImage(groupCtx.canvas, 0, 0);
}
this.restore();
},
beginAnnotations: function CanvasGraphics_beginAnnotations() {
this.save();
this.current = new CanvasExtraState();
},
endAnnotations: function CanvasGraphics_endAnnotations() {
this.restore();
},
beginAnnotation: function CanvasGraphics_beginAnnotation(rect, transform,
matrix) {
this.save();
if (rect && isArray(rect) && 4 == rect.length) {
var width = rect[2] - rect[0];
var height = rect[3] - rect[1];
this.rectangle(rect[0], rect[1], width, height);
this.clip();
this.endPath();
}
this.transform.apply(this, transform);
this.transform.apply(this, matrix);
},
endAnnotation: function CanvasGraphics_endAnnotation() {
this.restore();
},
paintJpegXObject: function CanvasGraphics_paintJpegXObject(objId, w, h) {
var domImage = this.objs.get(objId);
if (!domImage) {
warn('Dependent image isn\'t ready yet');
return;
}
this.save();
var ctx = this.ctx;
// scale the image to the unit square
ctx.scale(1 / w, -1 / h);
ctx.drawImage(domImage, 0, 0, domImage.width, domImage.height,
0, -h, w, h);
if (this.imageLayer) {
var currentTransform = ctx.mozCurrentTransformInverse;
var position = this.getCanvasPosition(0, 0);
this.imageLayer.appendImage({
objId: objId,
left: position[0],
top: position[1],
width: w / currentTransform[0],
height: h / currentTransform[3]
});
}
this.restore();
},
paintImageMaskXObject: function CanvasGraphics_paintImageMaskXObject(img) {
var ctx = this.ctx;
var width = img.width, height = img.height;
var glyph = this.processingType3;
if (COMPILE_TYPE3_GLYPHS && glyph && !('compiled' in glyph)) {
var MAX_SIZE_TO_COMPILE = 1000;
if (width <= MAX_SIZE_TO_COMPILE && height <= MAX_SIZE_TO_COMPILE) {
glyph.compiled =
compileType3Glyph({data: img.data, width: width, height: height});
} else {
glyph.compiled = null;
}
}
if (glyph && glyph.compiled) {
glyph.compiled(ctx);
return;
}
var maskCanvas = CachedCanvases.getCanvas('maskCanvas', width, height);
var maskCtx = maskCanvas.context;
maskCtx.save();
putBinaryImageMask(maskCtx, img);
maskCtx.globalCompositeOperation = 'source-in';
var fillColor = this.current.fillColor;
maskCtx.fillStyle = (fillColor && fillColor.hasOwnProperty('type') &&
fillColor.type === 'Pattern') ?
fillColor.getPattern(maskCtx, this) : fillColor;
maskCtx.fillRect(0, 0, width, height);
maskCtx.restore();
this.paintInlineImageXObject(maskCanvas.canvas);
},
paintImageMaskXObjectRepeat:
function CanvasGraphics_paintImageMaskXObjectRepeat(imgData, scaleX,
scaleY, positions) {
var width = imgData.width;
var height = imgData.height;
var ctx = this.ctx;
var maskCanvas = CachedCanvases.getCanvas('maskCanvas', width, height);
var maskCtx = maskCanvas.context;
maskCtx.save();
putBinaryImageMask(maskCtx, imgData);
maskCtx.globalCompositeOperation = 'source-in';
var fillColor = this.current.fillColor;
maskCtx.fillStyle = (fillColor && fillColor.hasOwnProperty('type') &&
fillColor.type === 'Pattern') ?
fillColor.getPattern(maskCtx, this) : fillColor;
maskCtx.fillRect(0, 0, width, height);
maskCtx.restore();
for (var i = 0, ii = positions.length; i < ii; i += 2) {
ctx.save();
ctx.transform(scaleX, 0, 0, scaleY, positions[i], positions[i + 1]);
ctx.scale(1, -1);
ctx.drawImage(maskCanvas.canvas, 0, 0, width, height,
0, -1, 1, 1);
ctx.restore();
}
},
paintImageMaskXObjectGroup:
function CanvasGraphics_paintImageMaskXObjectGroup(images) {
var ctx = this.ctx;
for (var i = 0, ii = images.length; i < ii; i++) {
var image = images[i];
var width = image.width, height = image.height;
var maskCanvas = CachedCanvases.getCanvas('maskCanvas', width, height);
var maskCtx = maskCanvas.context;
maskCtx.save();
putBinaryImageMask(maskCtx, image);
maskCtx.globalCompositeOperation = 'source-in';
var fillColor = this.current.fillColor;
maskCtx.fillStyle = (fillColor && fillColor.hasOwnProperty('type') &&
fillColor.type === 'Pattern') ?
fillColor.getPattern(maskCtx, this) : fillColor;
maskCtx.fillRect(0, 0, width, height);
maskCtx.restore();
ctx.save();
ctx.transform.apply(ctx, image.transform);
ctx.scale(1, -1);
ctx.drawImage(maskCanvas.canvas, 0, 0, width, height,
0, -1, 1, 1);
ctx.restore();
}
},
paintImageXObject: function CanvasGraphics_paintImageXObject(objId) {
var imgData = this.objs.get(objId);
if (!imgData) {
warn('Dependent image isn\'t ready yet');
return;
}
this.paintInlineImageXObject(imgData);
},
paintImageXObjectRepeat:
function CanvasGraphics_paintImageXObjectRepeat(objId, scaleX, scaleY,
positions) {
var imgData = this.objs.get(objId);
if (!imgData) {
warn('Dependent image isn\'t ready yet');
return;
}
var width = imgData.width;
var height = imgData.height;
var map = [];
for (var i = 0, ii = positions.length; i < ii; i += 2) {
map.push({transform: [scaleX, 0, 0, scaleY, positions[i],
positions[i + 1]], x: 0, y: 0, w: width, h: height});
}
this.paintInlineImageXObjectGroup(imgData, map);
},
paintInlineImageXObject:
function CanvasGraphics_paintInlineImageXObject(imgData) {
var width = imgData.width;
var height = imgData.height;
var ctx = this.ctx;
this.save();
// scale the image to the unit square
ctx.scale(1 / width, -1 / height);
var currentTransform = ctx.mozCurrentTransformInverse;
var a = currentTransform[0], b = currentTransform[1];
var widthScale = Math.max(Math.sqrt(a * a + b * b), 1);
var c = currentTransform[2], d = currentTransform[3];
var heightScale = Math.max(Math.sqrt(c * c + d * d), 1);
var imgToPaint, tmpCanvas;
// instanceof HTMLElement does not work in jsdom node.js module
if (imgData instanceof HTMLElement || !imgData.data) {
imgToPaint = imgData;
} else {
tmpCanvas = CachedCanvases.getCanvas('inlineImage', width, height);
var tmpCtx = tmpCanvas.context;
putBinaryImageData(tmpCtx, imgData);
imgToPaint = tmpCanvas.canvas;
}
var paintWidth = width, paintHeight = height;
var tmpCanvasId = 'prescale1';
// Vertial or horizontal scaling shall not be more than 2 to not loose the
// pixels during drawImage operation, painting on the temporary canvas(es)
// that are twice smaller in size
while ((widthScale > 2 && paintWidth > 1) ||
(heightScale > 2 && paintHeight > 1)) {
var newWidth = paintWidth, newHeight = paintHeight;
if (widthScale > 2 && paintWidth > 1) {
newWidth = Math.ceil(paintWidth / 2);
widthScale /= paintWidth / newWidth;
}
if (heightScale > 2 && paintHeight > 1) {
newHeight = Math.ceil(paintHeight / 2);
heightScale /= paintHeight / newHeight;
}
tmpCanvas = CachedCanvases.getCanvas(tmpCanvasId, newWidth, newHeight);
tmpCtx = tmpCanvas.context;
tmpCtx.clearRect(0, 0, newWidth, newHeight);
tmpCtx.drawImage(imgToPaint, 0, 0, paintWidth, paintHeight,
0, 0, newWidth, newHeight);
imgToPaint = tmpCanvas.canvas;
paintWidth = newWidth;
paintHeight = newHeight;
tmpCanvasId = tmpCanvasId === 'prescale1' ? 'prescale2' : 'prescale1';
}
ctx.drawImage(imgToPaint, 0, 0, paintWidth, paintHeight,
0, -height, width, height);
if (this.imageLayer) {
var position = this.getCanvasPosition(0, -height);
this.imageLayer.appendImage({
imgData: imgData,
left: position[0],
top: position[1],
width: width / currentTransform[0],
height: height / currentTransform[3]
});
}
this.restore();
},
paintInlineImageXObjectGroup:
function CanvasGraphics_paintInlineImageXObjectGroup(imgData, map) {
var ctx = this.ctx;
var w = imgData.width;
var h = imgData.height;
var tmpCanvas = CachedCanvases.getCanvas('inlineImage', w, h);
var tmpCtx = tmpCanvas.context;
putBinaryImageData(tmpCtx, imgData);
for (var i = 0, ii = map.length; i < ii; i++) {
var entry = map[i];
ctx.save();
ctx.transform.apply(ctx, entry.transform);
ctx.scale(1, -1);
ctx.drawImage(tmpCanvas.canvas, entry.x, entry.y, entry.w, entry.h,
0, -1, 1, 1);
if (this.imageLayer) {
var position = this.getCanvasPosition(entry.x, entry.y);
this.imageLayer.appendImage({
imgData: imgData,
left: position[0],
top: position[1],
width: w,
height: h
});
}
ctx.restore();
}
},
paintSolidColorImageMask:
function CanvasGraphics_paintSolidColorImageMask() {
this.ctx.fillRect(0, 0, 1, 1);
},
// Marked content
markPoint: function CanvasGraphics_markPoint(tag) {
// TODO Marked content.
},
markPointProps: function CanvasGraphics_markPointProps(tag, properties) {
// TODO Marked content.
},
beginMarkedContent: function CanvasGraphics_beginMarkedContent(tag) {
// TODO Marked content.
},
beginMarkedContentProps: function CanvasGraphics_beginMarkedContentProps(
tag, properties) {
// TODO Marked content.
},
endMarkedContent: function CanvasGraphics_endMarkedContent() {
// TODO Marked content.
},
// Compatibility
beginCompat: function CanvasGraphics_beginCompat() {
// TODO ignore undefined operators (should we do that anyway?)
},
endCompat: function CanvasGraphics_endCompat() {
// TODO stop ignoring undefined operators
},
// Helper functions
consumePath: function CanvasGraphics_consumePath() {
if (this.pendingClip) {
if (this.pendingClip == EO_CLIP) {
if ('mozFillRule' in this.ctx) {
this.ctx.mozFillRule = 'evenodd';
this.ctx.clip();
this.ctx.mozFillRule = 'nonzero';
} else {
try {
this.ctx.clip('evenodd');
} catch (ex) {
// shouldn't really happen, but browsers might think differently
this.ctx.clip();
}
}
} else {
this.ctx.clip();
}
this.pendingClip = null;
}
this.ctx.beginPath();
},
getSinglePixelWidth: function CanvasGraphics_getSinglePixelWidth(scale) {
var inverse = this.ctx.mozCurrentTransformInverse;
// max of the current horizontal and vertical scale
return Math.sqrt(Math.max(
(inverse[0] * inverse[0] + inverse[1] * inverse[1]),
(inverse[2] * inverse[2] + inverse[3] * inverse[3])));
},
getCanvasPosition: function CanvasGraphics_getCanvasPosition(x, y) {
var transform = this.ctx.mozCurrentTransform;
return [
transform[0] * x + transform[2] * y + transform[4],
transform[1] * x + transform[3] * y + transform[5]
];
}
};
for (var op in OPS) {
CanvasGraphics.prototype[OPS[op]] = CanvasGraphics.prototype[op];
}
return CanvasGraphics;
})();
var WebGLUtils = (function WebGLUtilsClosure() {
function loadShader(gl, code, shaderType) {
var shader = gl.createShader(shaderType);
gl.shaderSource(shader, code);
gl.compileShader(shader);
var compiled = gl.getShaderParameter(shader, gl.COMPILE_STATUS);
if (!compiled) {
var errorMsg = gl.getShaderInfoLog(shader);
throw new Error('Error during shader compilation: ' + errorMsg);
}
return shader;
}
function createVertexShader(gl, code) {
return loadShader(gl, code, gl.VERTEX_SHADER);
}
function createFragmentShader(gl, code) {
return loadShader(gl, code, gl.FRAGMENT_SHADER);
}
function createProgram(gl, shaders) {
var program = gl.createProgram();
for (var i = 0, ii = shaders.length; i < ii; ++i) {
gl.attachShader(program, shaders[i]);
}
gl.linkProgram(program);
var linked = gl.getProgramParameter(program, gl.LINK_STATUS);
if (!linked) {
var errorMsg = gl.getProgramInfoLog(program);
throw new Error('Error during program linking: ' + errorMsg);
}
return program;
}
function createTexture(gl, image, textureId) {
gl.activeTexture(textureId);
var texture = gl.createTexture();
gl.bindTexture(gl.TEXTURE_2D, texture);
// Set the parameters so we can render any size image.
gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_WRAP_S, gl.CLAMP_TO_EDGE);
gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_WRAP_T, gl.CLAMP_TO_EDGE);
gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_MIN_FILTER, gl.NEAREST);
gl.texParameteri(gl.TEXTURE_2D, gl.TEXTURE_MAG_FILTER, gl.NEAREST);
// Upload the image into the texture.
gl.texImage2D(gl.TEXTURE_2D, 0, gl.RGBA, gl.RGBA, gl.UNSIGNED_BYTE, image);
return texture;
}
var currentGL, currentCanvas;
function generageGL() {
if (currentGL) {
return;
}
currentCanvas = document.createElement('canvas');
currentGL = currentCanvas.getContext('webgl',
{ premultipliedalpha: false });
}
var smaskVertexShaderCode = '\
attribute vec2 a_position; \
attribute vec2 a_texCoord; \
\
uniform vec2 u_resolution; \
\
varying vec2 v_texCoord; \
\
void main() { \
vec2 clipSpace = (a_position / u_resolution) * 2.0 - 1.0; \
gl_Position = vec4(clipSpace * vec2(1, -1), 0, 1); \
\
v_texCoord = a_texCoord; \
} ';
var smaskFragmentShaderCode = '\
precision mediump float; \
\
uniform vec4 u_backdrop; \
uniform int u_subtype; \
uniform sampler2D u_image; \
uniform sampler2D u_mask; \
\
varying vec2 v_texCoord; \
\
void main() { \
vec4 imageColor = texture2D(u_image, v_texCoord); \
vec4 maskColor = texture2D(u_mask, v_texCoord); \
if (u_backdrop.a > 0.0) { \
maskColor.rgb = maskColor.rgb * maskColor.a + \
u_backdrop.rgb * (1.0 - maskColor.a); \
} \
float lum; \
if (u_subtype == 0) { \
lum = maskColor.a; \
} else { \
lum = maskColor.r * 0.3 + maskColor.g * 0.59 + \
maskColor.b * 0.11; \
} \
imageColor.a *= lum; \
imageColor.rgb *= imageColor.a; \
gl_FragColor = imageColor; \
} ';
var smaskCache = null;
function initSmaskGL() {
var canvas, gl;
generageGL();
canvas = currentCanvas;
currentCanvas = null;
gl = currentGL;
currentGL = null;
// setup a GLSL program
var vertexShader = createVertexShader(gl, smaskVertexShaderCode);
var fragmentShader = createFragmentShader(gl, smaskFragmentShaderCode);
var program = createProgram(gl, [vertexShader, fragmentShader]);
gl.useProgram(program);
var cache = {};
cache.gl = gl;
cache.canvas = canvas;
cache.resolutionLocation = gl.getUniformLocation(program, 'u_resolution');
cache.positionLocation = gl.getAttribLocation(program, 'a_position');
cache.backdropLocation = gl.getUniformLocation(program, 'u_backdrop');
cache.subtypeLocation = gl.getUniformLocation(program, 'u_subtype');
var texCoordLocation = gl.getAttribLocation(program, 'a_texCoord');
var texLayerLocation = gl.getUniformLocation(program, 'u_image');
var texMaskLocation = gl.getUniformLocation(program, 'u_mask');
// provide texture coordinates for the rectangle.
var texCoordBuffer = gl.createBuffer();
gl.bindBuffer(gl.ARRAY_BUFFER, texCoordBuffer);
gl.bufferData(gl.ARRAY_BUFFER, new Float32Array([
0.0, 0.0,
1.0, 0.0,
0.0, 1.0,
0.0, 1.0,
1.0, 0.0,
1.0, 1.0]), gl.STATIC_DRAW);
gl.enableVertexAttribArray(texCoordLocation);
gl.vertexAttribPointer(texCoordLocation, 2, gl.FLOAT, false, 0, 0);
gl.uniform1i(texLayerLocation, 0);
gl.uniform1i(texMaskLocation, 1);
smaskCache = cache;
}
function composeSMask(layer, mask, properties) {
var width = layer.width, height = layer.height;
if (!smaskCache) {
initSmaskGL();
}
var cache = smaskCache,canvas = cache.canvas, gl = cache.gl;
canvas.width = width;
canvas.height = height;
gl.viewport(0, 0, gl.drawingBufferWidth, gl.drawingBufferHeight);
gl.uniform2f(cache.resolutionLocation, width, height);
if (properties.backdrop) {
gl.uniform4f(cache.resolutionLocation, properties.backdrop[0],
properties.backdrop[1], properties.backdrop[2], 1);
} else {
gl.uniform4f(cache.resolutionLocation, 0, 0, 0, 0);
}
gl.uniform1i(cache.subtypeLocation,
properties.subtype === 'Luminosity' ? 1 : 0);
// Create a textures
var texture = createTexture(gl, layer, gl.TEXTURE0);
var maskTexture = createTexture(gl, mask, gl.TEXTURE1);
// Create a buffer and put a single clipspace rectangle in
// it (2 triangles)
var buffer = gl.createBuffer();
gl.bindBuffer(gl.ARRAY_BUFFER, buffer);
gl.bufferData(gl.ARRAY_BUFFER, new Float32Array([
0, 0,
width, 0,
0, height,
0, height,
width, 0,
width, height]), gl.STATIC_DRAW);
gl.enableVertexAttribArray(cache.positionLocation);
gl.vertexAttribPointer(cache.positionLocation, 2, gl.FLOAT, false, 0, 0);
// draw
gl.clearColor(0, 0, 0, 0);
gl.enable(gl.BLEND);
gl.blendFunc(gl.ONE, gl.ONE_MINUS_SRC_ALPHA);
gl.clear(gl.COLOR_BUFFER_BIT);
gl.drawArrays(gl.TRIANGLES, 0, 6);
gl.flush();
gl.deleteTexture(texture);
gl.deleteTexture(maskTexture);
gl.deleteBuffer(buffer);
return canvas;
}
var figuresVertexShaderCode = '\
attribute vec2 a_position; \
attribute vec3 a_color; \
\
uniform vec2 u_resolution; \
uniform vec2 u_scale; \
uniform vec2 u_offset; \
\
varying vec4 v_color; \
\
void main() { \
vec2 position = (a_position + u_offset) * u_scale; \
vec2 clipSpace = (position / u_resolution) * 2.0 - 1.0; \
gl_Position = vec4(clipSpace * vec2(1, -1), 0, 1); \
\
v_color = vec4(a_color / 255.0, 1.0); \
} ';
var figuresFragmentShaderCode = '\
precision mediump float; \
\
varying vec4 v_color; \
\
void main() { \
gl_FragColor = v_color; \
} ';
var figuresCache = null;
function initFiguresGL() {
var canvas, gl;
generageGL();
canvas = currentCanvas;
currentCanvas = null;
gl = currentGL;
currentGL = null;
// setup a GLSL program
var vertexShader = createVertexShader(gl, figuresVertexShaderCode);
var fragmentShader = createFragmentShader(gl, figuresFragmentShaderCode);
var program = createProgram(gl, [vertexShader, fragmentShader]);
gl.useProgram(program);
var cache = {};
cache.gl = gl;
cache.canvas = canvas;
cache.resolutionLocation = gl.getUniformLocation(program, 'u_resolution');
cache.scaleLocation = gl.getUniformLocation(program, 'u_scale');
cache.offsetLocation = gl.getUniformLocation(program, 'u_offset');
cache.positionLocation = gl.getAttribLocation(program, 'a_position');
cache.colorLocation = gl.getAttribLocation(program, 'a_color');
figuresCache = cache;
}
function drawFigures(width, height, backgroundColor, figures, context) {
if (!figuresCache) {
initFiguresGL();
}
var cache = figuresCache, canvas = cache.canvas, gl = cache.gl;
canvas.width = width;
canvas.height = height;
gl.viewport(0, 0, gl.drawingBufferWidth, gl.drawingBufferHeight);
gl.uniform2f(cache.resolutionLocation, width, height);
// count triangle points
var count = 0;
var i, ii, rows;
for (i = 0, ii = figures.length; i < ii; i++) {
switch (figures[i].type) {
case 'lattice':
rows = (figures[i].coords.length / figures[i].verticesPerRow) | 0;
count += (rows - 1) * (figures[i].verticesPerRow - 1) * 6;
break;
case 'triangles':
count += figures[i].coords.length;
break;
}
}
// transfer data
var coords = new Float32Array(count * 2);
var colors = new Uint8Array(count * 3);
var coordsMap = context.coords, colorsMap = context.colors;
var pIndex = 0, cIndex = 0;
for (i = 0, ii = figures.length; i < ii; i++) {
var figure = figures[i], ps = figure.coords, cs = figure.colors;
switch (figure.type) {
case 'lattice':
var cols = figure.verticesPerRow;
rows = (ps.length / cols) | 0;
for (var row = 1; row < rows; row++) {
var offset = row * cols + 1;
for (var col = 1; col < cols; col++, offset++) {
coords[pIndex] = coordsMap[ps[offset - cols - 1]];
coords[pIndex + 1] = coordsMap[ps[offset - cols - 1] + 1];
coords[pIndex + 2] = coordsMap[ps[offset - cols]];
coords[pIndex + 3] = coordsMap[ps[offset - cols] + 1];
coords[pIndex + 4] = coordsMap[ps[offset - 1]];
coords[pIndex + 5] = coordsMap[ps[offset - 1] + 1];
colors[cIndex] = colorsMap[cs[offset - cols - 1]];
colors[cIndex + 1] = colorsMap[cs[offset - cols - 1] + 1];
colors[cIndex + 2] = colorsMap[cs[offset - cols - 1] + 2];
colors[cIndex + 3] = colorsMap[cs[offset - cols]];
colors[cIndex + 4] = colorsMap[cs[offset - cols] + 1];
colors[cIndex + 5] = colorsMap[cs[offset - cols] + 2];
colors[cIndex + 6] = colorsMap[cs[offset - 1]];
colors[cIndex + 7] = colorsMap[cs[offset - 1] + 1];
colors[cIndex + 8] = colorsMap[cs[offset - 1] + 2];
coords[pIndex + 6] = coords[pIndex + 2];
coords[pIndex + 7] = coords[pIndex + 3];
coords[pIndex + 8] = coords[pIndex + 4];
coords[pIndex + 9] = coords[pIndex + 5];
coords[pIndex + 10] = coordsMap[ps[offset]];
coords[pIndex + 11] = coordsMap[ps[offset] + 1];
colors[cIndex + 9] = colors[cIndex + 3];
colors[cIndex + 10] = colors[cIndex + 4];
colors[cIndex + 11] = colors[cIndex + 5];
colors[cIndex + 12] = colors[cIndex + 6];
colors[cIndex + 13] = colors[cIndex + 7];
colors[cIndex + 14] = colors[cIndex + 8];
colors[cIndex + 15] = colorsMap[cs[offset]];
colors[cIndex + 16] = colorsMap[cs[offset] + 1];
colors[cIndex + 17] = colorsMap[cs[offset] + 2];
pIndex += 12;
cIndex += 18;
}
}
break;
case 'triangles':
for (var j = 0, jj = ps.length; j < jj; j++) {
coords[pIndex] = coordsMap[ps[j]];
coords[pIndex + 1] = coordsMap[ps[j] + 1];
colors[cIndex] = colorsMap[cs[i]];
colors[cIndex + 1] = colorsMap[cs[j] + 1];
colors[cIndex + 2] = colorsMap[cs[j] + 2];
pIndex += 2;
cIndex += 3;
}
break;
}
}
// draw
if (backgroundColor) {
gl.clearColor(backgroundColor[0] / 255, backgroundColor[1] / 255,
backgroundColor[2] / 255, 1.0);
} else {
gl.clearColor(0, 0, 0, 0);
}
gl.clear(gl.COLOR_BUFFER_BIT);
var coordsBuffer = gl.createBuffer();
gl.bindBuffer(gl.ARRAY_BUFFER, coordsBuffer);
gl.bufferData(gl.ARRAY_BUFFER, coords, gl.STATIC_DRAW);
gl.enableVertexAttribArray(cache.positionLocation);
gl.vertexAttribPointer(cache.positionLocation, 2, gl.FLOAT, false, 0, 0);
var colorsBuffer = gl.createBuffer();
gl.bindBuffer(gl.ARRAY_BUFFER, colorsBuffer);
gl.bufferData(gl.ARRAY_BUFFER, colors, gl.STATIC_DRAW);
gl.enableVertexAttribArray(cache.colorLocation);
gl.vertexAttribPointer(cache.colorLocation, 3, gl.UNSIGNED_BYTE, false,
0, 0);
gl.uniform2f(cache.scaleLocation, context.scaleX, context.scaleY);
gl.uniform2f(cache.offsetLocation, context.offsetX, context.offsetY);
gl.drawArrays(gl.TRIANGLES, 0, count);
gl.flush();
gl.deleteBuffer(coordsBuffer);
gl.deleteBuffer(colorsBuffer);
return canvas;
}
function cleanup() {
smaskCache = null;
figuresCache = null;
}
return {
get isEnabled() {
if (PDFJS.disableWebGL) {
return false;
}
var enabled = false;
try {
generageGL();
enabled = !!currentGL;
} catch (e) { }
return shadow(this, 'isEnabled', enabled);
},
composeSMask: composeSMask,
drawFigures: drawFigures,
clear: cleanup
};
})();
var ShadingIRs = {};
ShadingIRs.RadialAxial = {
fromIR: function RadialAxial_fromIR(raw) {
var type = raw[1];
var colorStops = raw[2];
var p0 = raw[3];
var p1 = raw[4];
var r0 = raw[5];
var r1 = raw[6];
return {
type: 'Pattern',
getPattern: function RadialAxial_getPattern(ctx) {
var grad;
if (type === 'axial') {
grad = ctx.createLinearGradient(p0[0], p0[1], p1[0], p1[1]);
} else if (type === 'radial') {
grad = ctx.createRadialGradient(p0[0], p0[1], r0, p1[0], p1[1], r1);
}
for (var i = 0, ii = colorStops.length; i < ii; ++i) {
var c = colorStops[i];
grad.addColorStop(c[0], c[1]);
}
return grad;
}
};
}
};
var createMeshCanvas = (function createMeshCanvasClosure() {
function drawTriangle(data, context, p1, p2, p3, c1, c2, c3) {
// Very basic Gouraud-shaded triangle rasterization algorithm.
var coords = context.coords, colors = context.colors;
var bytes = data.data, rowSize = data.width * 4;
var tmp;
if (coords[p1 + 1] > coords[p2 + 1]) {
tmp = p1; p1 = p2; p2 = tmp; tmp = c1; c1 = c2; c2 = tmp;
}
if (coords[p2 + 1] > coords[p3 + 1]) {
tmp = p2; p2 = p3; p3 = tmp; tmp = c2; c2 = c3; c3 = tmp;
}
if (coords[p1 + 1] > coords[p2 + 1]) {
tmp = p1; p1 = p2; p2 = tmp; tmp = c1; c1 = c2; c2 = tmp;
}
var x1 = (coords[p1] + context.offsetX) * context.scaleX;
var y1 = (coords[p1 + 1] + context.offsetY) * context.scaleY;
var x2 = (coords[p2] + context.offsetX) * context.scaleX;
var y2 = (coords[p2 + 1] + context.offsetY) * context.scaleY;
var x3 = (coords[p3] + context.offsetX) * context.scaleX;
var y3 = (coords[p3 + 1] + context.offsetY) * context.scaleY;
if (y1 >= y3) {
return;
}
var c1r = colors[c1], c1g = colors[c1 + 1], c1b = colors[c1 + 2];
var c2r = colors[c2], c2g = colors[c2 + 1], c2b = colors[c2 + 2];
var c3r = colors[c3], c3g = colors[c3 + 1], c3b = colors[c3 + 2];
var minY = Math.round(y1), maxY = Math.round(y3);
var xa, car, cag, cab;
var xb, cbr, cbg, cbb;
var k;
for (var y = minY; y <= maxY; y++) {
if (y < y2) {
k = y < y1 ? 0 : y1 === y2 ? 1 : (y1 - y) / (y1 - y2);
xa = x1 - (x1 - x2) * k;
car = c1r - (c1r - c2r) * k;
cag = c1g - (c1g - c2g) * k;
cab = c1b - (c1b - c2b) * k;
} else {
k = y > y3 ? 1 : y2 === y3 ? 0 : (y2 - y) / (y2 - y3);
xa = x2 - (x2 - x3) * k;
car = c2r - (c2r - c3r) * k;
cag = c2g - (c2g - c3g) * k;
cab = c2b - (c2b - c3b) * k;
}
k = y < y1 ? 0 : y > y3 ? 1 : (y1 - y) / (y1 - y3);
xb = x1 - (x1 - x3) * k;
cbr = c1r - (c1r - c3r) * k;
cbg = c1g - (c1g - c3g) * k;
cbb = c1b - (c1b - c3b) * k;
var x1_ = Math.round(Math.min(xa, xb));
var x2_ = Math.round(Math.max(xa, xb));
var j = rowSize * y + x1_ * 4;
for (var x = x1_; x <= x2_; x++) {
k = (xa - x) / (xa - xb);
k = k < 0 ? 0 : k > 1 ? 1 : k;
bytes[j++] = (car - (car - cbr) * k) | 0;
bytes[j++] = (cag - (cag - cbg) * k) | 0;
bytes[j++] = (cab - (cab - cbb) * k) | 0;
bytes[j++] = 255;
}
}
}
function drawFigure(data, figure, context) {
var ps = figure.coords;
var cs = figure.colors;
var i, ii;
switch (figure.type) {
case 'lattice':
var verticesPerRow = figure.verticesPerRow;
var rows = Math.floor(ps.length / verticesPerRow) - 1;
var cols = verticesPerRow - 1;
for (i = 0; i < rows; i++) {
var q = i * verticesPerRow;
for (var j = 0; j < cols; j++, q++) {
drawTriangle(data, context,
ps[q], ps[q + 1], ps[q + verticesPerRow],
cs[q], cs[q + 1], cs[q + verticesPerRow]);
drawTriangle(data, context,
ps[q + verticesPerRow + 1], ps[q + 1], ps[q + verticesPerRow],
cs[q + verticesPerRow + 1], cs[q + 1], cs[q + verticesPerRow]);
}
}
break;
case 'triangles':
for (i = 0, ii = ps.length; i < ii; i += 3) {
drawTriangle(data, context,
ps[i], ps[i + 1], ps[i + 2],
cs[i], cs[i + 1], cs[i + 2]);
}
break;
default:
error('illigal figure');
break;
}
}
function createMeshCanvas(bounds, combinesScale, coords, colors, figures,
backgroundColor) {
// we will increase scale on some weird factor to let antialiasing take
// care of "rough" edges
var EXPECTED_SCALE = 1.1;
// MAX_PATTERN_SIZE is used to avoid OOM situation.
var MAX_PATTERN_SIZE = 3000; // 10in @ 300dpi shall be enough
var offsetX = Math.floor(bounds[0]);
var offsetY = Math.floor(bounds[1]);
var boundsWidth = Math.ceil(bounds[2]) - offsetX;
var boundsHeight = Math.ceil(bounds[3]) - offsetY;
var width = Math.min(Math.ceil(Math.abs(boundsWidth * combinesScale[0] *
EXPECTED_SCALE)), MAX_PATTERN_SIZE);
var height = Math.min(Math.ceil(Math.abs(boundsHeight * combinesScale[1] *
EXPECTED_SCALE)), MAX_PATTERN_SIZE);
var scaleX = boundsWidth / width;
var scaleY = boundsHeight / height;
var context = {
coords: coords,
colors: colors,
offsetX: -offsetX,
offsetY: -offsetY,
scaleX: 1 / scaleX,
scaleY: 1 / scaleY
};
var canvas, tmpCanvas, i, ii;
if (WebGLUtils.isEnabled) {
canvas = WebGLUtils.drawFigures(width, height, backgroundColor,
figures, context);
// https://bugzilla.mozilla.org/show_bug.cgi?id=972126
tmpCanvas = CachedCanvases.getCanvas('mesh', width, height, false);
tmpCanvas.context.drawImage(canvas, 0, 0);
canvas = tmpCanvas.canvas;
} else {
tmpCanvas = CachedCanvases.getCanvas('mesh', width, height, false);
var tmpCtx = tmpCanvas.context;
var data = tmpCtx.createImageData(width, height);
if (backgroundColor) {
var bytes = data.data;
for (i = 0, ii = bytes.length; i < ii; i += 4) {
bytes[i] = backgroundColor[0];
bytes[i + 1] = backgroundColor[1];
bytes[i + 2] = backgroundColor[2];
bytes[i + 3] = 255;
}
}
for (i = 0; i < figures.length; i++) {
drawFigure(data, figures[i], context);
}
tmpCtx.putImageData(data, 0, 0);
canvas = tmpCanvas.canvas;
}
return {canvas: canvas, offsetX: offsetX, offsetY: offsetY,
scaleX: scaleX, scaleY: scaleY};
}
return createMeshCanvas;
})();
ShadingIRs.Mesh = {
fromIR: function Mesh_fromIR(raw) {
//var type = raw[1];
var coords = raw[2];
var colors = raw[3];
var figures = raw[4];
var bounds = raw[5];
var matrix = raw[6];
//var bbox = raw[7];
var background = raw[8];
return {
type: 'Pattern',
getPattern: function Mesh_getPattern(ctx, owner, shadingFill) {
var combinedScale;
// Obtain scale from matrix and current transformation matrix.
if (shadingFill) {
combinedScale = Util.singularValueDecompose2dScale(
ctx.mozCurrentTransform);
} else {
var matrixScale = Util.singularValueDecompose2dScale(matrix);
var curMatrixScale = Util.singularValueDecompose2dScale(
owner.baseTransform);
combinedScale = [matrixScale[0] * curMatrixScale[0],
matrixScale[1] * curMatrixScale[1]];
}
// Rasterizing on the main thread since sending/queue large canvases
// might cause OOM.
var temporaryPatternCanvas = createMeshCanvas(bounds, combinedScale,
coords, colors, figures, shadingFill ? null : background);
if (!shadingFill) {
ctx.setTransform.apply(ctx, owner.baseTransform);
if (matrix) {
ctx.transform.apply(ctx, matrix);
}
}
ctx.translate(temporaryPatternCanvas.offsetX,
temporaryPatternCanvas.offsetY);
ctx.scale(temporaryPatternCanvas.scaleX,
temporaryPatternCanvas.scaleY);
return ctx.createPattern(temporaryPatternCanvas.canvas, 'no-repeat');
}
};
}
};
ShadingIRs.Dummy = {
fromIR: function Dummy_fromIR() {
return {
type: 'Pattern',
getPattern: function Dummy_fromIR_getPattern() {
return 'hotpink';
}
};
}
};
function getShadingPatternFromIR(raw) {
var shadingIR = ShadingIRs[raw[0]];
if (!shadingIR) {
error('Unknown IR type: ' + raw[0]);
}
return shadingIR.fromIR(raw);
}
var TilingPattern = (function TilingPatternClosure() {
var PaintType = {
COLORED: 1,
UNCOLORED: 2
};
var MAX_PATTERN_SIZE = 3000; // 10in @ 300dpi shall be enough
function TilingPattern(IR, color, ctx, objs, commonObjs, baseTransform) {
this.name = IR[1][0].name;
this.operatorList = IR[2];
this.matrix = IR[3] || [1, 0, 0, 1, 0, 0];
this.bbox = IR[4];
this.xstep = IR[5];
this.ystep = IR[6];
this.paintType = IR[7];
this.tilingType = IR[8];
this.color = color;
this.objs = objs;
this.commonObjs = commonObjs;
this.baseTransform = baseTransform;
this.type = 'Pattern';
this.ctx = ctx;
}
TilingPattern.prototype = {
createPatternCanvas: function TilinPattern_createPatternCanvas(owner) {
var operatorList = this.operatorList;
var bbox = this.bbox;
var xstep = this.xstep;
var ystep = this.ystep;
var paintType = this.paintType;
var tilingType = this.tilingType;
var color = this.color;
var objs = this.objs;
var commonObjs = this.commonObjs;
info('TilingType: ' + tilingType);
var x0 = bbox[0], y0 = bbox[1], x1 = bbox[2], y1 = bbox[3];
var topLeft = [x0, y0];
// we want the canvas to be as large as the step size
var botRight = [x0 + xstep, y0 + ystep];
var width = botRight[0] - topLeft[0];
var height = botRight[1] - topLeft[1];
// Obtain scale from matrix and current transformation matrix.
var matrixScale = Util.singularValueDecompose2dScale(this.matrix);
var curMatrixScale = Util.singularValueDecompose2dScale(
this.baseTransform);
var combinedScale = [matrixScale[0] * curMatrixScale[0],
matrixScale[1] * curMatrixScale[1]];
// MAX_PATTERN_SIZE is used to avoid OOM situation.
// Use width and height values that are as close as possible to the end
// result when the pattern is used. Too low value makes the pattern look
// blurry. Too large value makes it look too crispy.
width = Math.min(Math.ceil(Math.abs(width * combinedScale[0])),
MAX_PATTERN_SIZE);
height = Math.min(Math.ceil(Math.abs(height * combinedScale[1])),
MAX_PATTERN_SIZE);
var tmpCanvas = CachedCanvases.getCanvas('pattern', width, height, true);
var tmpCtx = tmpCanvas.context;
var graphics = new CanvasGraphics(tmpCtx, commonObjs, objs);
graphics.groupLevel = owner.groupLevel;
this.setFillAndStrokeStyleToContext(tmpCtx, paintType, color);
this.setScale(width, height, xstep, ystep);
this.transformToScale(graphics);
// transform coordinates to pattern space
var tmpTranslate = [1, 0, 0, 1, -topLeft[0], -topLeft[1]];
graphics.transform.apply(graphics, tmpTranslate);
this.clipBbox(graphics, bbox, x0, y0, x1, y1);
graphics.executeOperatorList(operatorList);
return tmpCanvas.canvas;
},
setScale: function TilingPattern_setScale(width, height, xstep, ystep) {
this.scale = [width / xstep, height / ystep];
},
transformToScale: function TilingPattern_transformToScale(graphics) {
var scale = this.scale;
var tmpScale = [scale[0], 0, 0, scale[1], 0, 0];
graphics.transform.apply(graphics, tmpScale);
},
scaleToContext: function TilingPattern_scaleToContext() {
var scale = this.scale;
this.ctx.scale(1 / scale[0], 1 / scale[1]);
},
clipBbox: function clipBbox(graphics, bbox, x0, y0, x1, y1) {
if (bbox && isArray(bbox) && 4 == bbox.length) {
var bboxWidth = x1 - x0;
var bboxHeight = y1 - y0;
graphics.rectangle(x0, y0, bboxWidth, bboxHeight);
graphics.clip();
graphics.endPath();
}
},
setFillAndStrokeStyleToContext:
function setFillAndStrokeStyleToContext(context, paintType, color) {
switch (paintType) {
case PaintType.COLORED:
var ctx = this.ctx;
context.fillStyle = ctx.fillStyle;
context.strokeStyle = ctx.strokeStyle;
break;
case PaintType.UNCOLORED:
var rgbColor = ColorSpace.singletons.rgb.getRgb(color, 0);
var cssColor = Util.makeCssRgb(rgbColor);
context.fillStyle = cssColor;
context.strokeStyle = cssColor;
break;
default:
error('Unsupported paint type: ' + paintType);
}
},
getPattern: function TilingPattern_getPattern(ctx, owner) {
var temporaryPatternCanvas = this.createPatternCanvas(owner);
ctx = this.ctx;
ctx.setTransform.apply(ctx, this.baseTransform);
ctx.transform.apply(ctx, this.matrix);
this.scaleToContext();
return ctx.createPattern(temporaryPatternCanvas, 'repeat');
}
};
return TilingPattern;
})();
PDFJS.disableFontFace = false;
var FontLoader = {
insertRule: function fontLoaderInsertRule(rule) {
var styleElement = document.getElementById('PDFJS_FONT_STYLE_TAG');
if (!styleElement) {
styleElement = document.createElement('style');
styleElement.id = 'PDFJS_FONT_STYLE_TAG';
document.documentElement.getElementsByTagName('head')[0].appendChild(
styleElement);
}
var styleSheet = styleElement.sheet;
styleSheet.insertRule(rule, styleSheet.cssRules.length);
},
clear: function fontLoaderClear() {
var styleElement = document.getElementById('PDFJS_FONT_STYLE_TAG');
if (styleElement) {
styleElement.parentNode.removeChild(styleElement);
}
},
get loadTestFont() {
// This is a CFF font with 1 glyph for '.' that fills its entire width and
// height.
return shadow(this, 'loadTestFont', atob(
'T1RUTwALAIAAAwAwQ0ZGIDHtZg4AAAOYAAAAgUZGVE1lkzZwAAAEHAAAABxHREVGABQAFQ' +
'AABDgAAAAeT1MvMlYNYwkAAAEgAAAAYGNtYXABDQLUAAACNAAAAUJoZWFk/xVFDQAAALwA' +
'AAA2aGhlYQdkA+oAAAD0AAAAJGhtdHgD6AAAAAAEWAAAAAZtYXhwAAJQAAAAARgAAAAGbm' +
'FtZVjmdH4AAAGAAAAAsXBvc3T/hgAzAAADeAAAACAAAQAAAAEAALZRFsRfDzz1AAsD6AAA' +
'AADOBOTLAAAAAM4KHDwAAAAAA+gDIQAAAAgAAgAAAAAAAAABAAADIQAAAFoD6AAAAAAD6A' +
'ABAAAAAAAAAAAAAAAAAAAAAQAAUAAAAgAAAAQD6AH0AAUAAAKKArwAAACMAooCvAAAAeAA' +
'MQECAAACAAYJAAAAAAAAAAAAAQAAAAAAAAAAAAAAAFBmRWQAwAAuAC4DIP84AFoDIQAAAA' +
'AAAQAAAAAAAAAAACAAIAABAAAADgCuAAEAAAAAAAAAAQAAAAEAAAAAAAEAAQAAAAEAAAAA' +
'AAIAAQAAAAEAAAAAAAMAAQAAAAEAAAAAAAQAAQAAAAEAAAAAAAUAAQAAAAEAAAAAAAYAAQ' +
'AAAAMAAQQJAAAAAgABAAMAAQQJAAEAAgABAAMAAQQJAAIAAgABAAMAAQQJAAMAAgABAAMA' +
'AQQJAAQAAgABAAMAAQQJAAUAAgABAAMAAQQJAAYAAgABWABYAAAAAAAAAwAAAAMAAAAcAA' +
'EAAAAAADwAAwABAAAAHAAEACAAAAAEAAQAAQAAAC7//wAAAC7////TAAEAAAAAAAABBgAA' +
'AQAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAEAAAAAAA' +
'AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA' +
'AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA' +
'AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA' +
'AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAMAAA' +
'AAAAD/gwAyAAAAAQAAAAAAAAAAAAAAAAAAAAABAAQEAAEBAQJYAAEBASH4DwD4GwHEAvgc' +
'A/gXBIwMAYuL+nz5tQXkD5j3CBLnEQACAQEBIVhYWFhYWFhYWFhYWFhYWFhYWFhYWFhYWF' +
'hYWFhYWFhYAAABAQAADwACAQEEE/t3Dov6fAH6fAT+fPp8+nwHDosMCvm1Cvm1DAz6fBQA' +
'AAAAAAABAAAAAMmJbzEAAAAAzgTjFQAAAADOBOQpAAEAAAAAAAAADAAUAAQAAAABAAAAAg' +
'ABAAAAAAAAAAAD6AAAAAAAAA=='
));
},
loadTestFontId: 0,
loadingContext: {
requests: [],
nextRequestId: 0
},
isSyncFontLoadingSupported: (function detectSyncFontLoadingSupport() {
if (isWorker) {
return false;
}
// User agent string sniffing is bad, but there is no reliable way to tell
// if font is fully loaded and ready to be used with canvas.
var userAgent = window.navigator.userAgent;
var m = /Mozilla\/5.0.*?rv:(\d+).*? Gecko/.exec(userAgent);
if (m && m[1] >= 14) {
return true;
}
// TODO other browsers
return false;
})(),
bind: function fontLoaderBind(fonts, callback) {
assert(!isWorker, 'bind() shall be called from main thread');
var rules = [], fontsToLoad = [];
for (var i = 0, ii = fonts.length; i < ii; i++) {
var font = fonts[i];
// Add the font to the DOM only once or skip if the font
// is already loaded.
if (font.attached || font.loading === false) {
continue;
}
font.attached = true;
var rule = font.bindDOM();
if (rule) {
rules.push(rule);
fontsToLoad.push(font);
}
}
var request = FontLoader.queueLoadingCallback(callback);
if (rules.length > 0 && !this.isSyncFontLoadingSupported) {
FontLoader.prepareFontLoadEvent(rules, fontsToLoad, request);
} else {
request.complete();
}
},
queueLoadingCallback: function FontLoader_queueLoadingCallback(callback) {
function LoadLoader_completeRequest() {
assert(!request.end, 'completeRequest() cannot be called twice');
request.end = Date.now();
// sending all completed requests in order how they were queued
while (context.requests.length > 0 && context.requests[0].end) {
var otherRequest = context.requests.shift();
setTimeout(otherRequest.callback, 0);
}
}
var context = FontLoader.loadingContext;
var requestId = 'pdfjs-font-loading-' + (context.nextRequestId++);
var request = {
id: requestId,
complete: LoadLoader_completeRequest,
callback: callback,
started: Date.now()
};
context.requests.push(request);
return request;
},
prepareFontLoadEvent: function fontLoaderPrepareFontLoadEvent(rules,
fonts,
request) {
/** Hack begin */
// There's currently no event when a font has finished downloading so the
// following code is a dirty hack to 'guess' when a font is
// ready. It's assumed fonts are loaded in order, so add a known test
// font after the desired fonts and then test for the loading of that
// test font.
function int32(data, offset) {
return (data.charCodeAt(offset) << 24) |
(data.charCodeAt(offset + 1) << 16) |
(data.charCodeAt(offset + 2) << 8) |
(data.charCodeAt(offset + 3) & 0xff);
}
function spliceString(s, offset, remove, insert) {
var chunk1 = s.substr(0, offset);
var chunk2 = s.substr(offset + remove);
return chunk1 + insert + chunk2;
}
var i, ii;
var canvas = document.createElement('canvas');
canvas.width = 1;
canvas.height = 1;
var ctx = canvas.getContext('2d');
var called = 0;
function isFontReady(name, callback) {
called++;
// With setTimeout clamping this gives the font ~100ms to load.
if(called > 30) {
warn('Load test font never loaded.');
callback();
return;
}
ctx.font = '30px ' + name;
ctx.fillText('.', 0, 20);
var imageData = ctx.getImageData(0, 0, 1, 1);
if (imageData.data[3] > 0) {
callback();
return;
}
setTimeout(isFontReady.bind(null, name, callback));
}
var loadTestFontId = 'lt' + Date.now() + this.loadTestFontId++;
// Chromium seems to cache fonts based on a hash of the actual font data,
// so the font must be modified for each load test else it will appear to
// be loaded already.
// TODO: This could maybe be made faster by avoiding the btoa of the full
// font by splitting it in chunks before hand and padding the font id.
var data = this.loadTestFont;
var COMMENT_OFFSET = 976; // has to be on 4 byte boundary (for checksum)
data = spliceString(data, COMMENT_OFFSET, loadTestFontId.length,
loadTestFontId);
// CFF checksum is important for IE, adjusting it
var CFF_CHECKSUM_OFFSET = 16;
var XXXX_VALUE = 0x58585858; // the "comment" filled with 'X'
var checksum = int32(data, CFF_CHECKSUM_OFFSET);
for (i = 0, ii = loadTestFontId.length - 3; i < ii; i += 4) {
checksum = (checksum - XXXX_VALUE + int32(loadTestFontId, i)) | 0;
}
if (i < loadTestFontId.length) { // align to 4 bytes boundary
checksum = (checksum - XXXX_VALUE +
int32(loadTestFontId + 'XXX', i)) | 0;
}
data = spliceString(data, CFF_CHECKSUM_OFFSET, 4, string32(checksum));
var url = 'url(data:font/opentype;base64,' + btoa(data) + ');';
var rule = '@font-face { font-family:"' + loadTestFontId + '";src:' +
url + '}';
FontLoader.insertRule(rule);
var names = [];
for (i = 0, ii = fonts.length; i < ii; i++) {
names.push(fonts[i].loadedName);
}
names.push(loadTestFontId);
var div = document.createElement('div');
div.setAttribute('style',
'visibility: hidden;' +
'width: 10px; height: 10px;' +
'position: absolute; top: 0px; left: 0px;');
for (i = 0, ii = names.length; i < ii; ++i) {
var span = document.createElement('span');
span.textContent = 'Hi';
span.style.fontFamily = names[i];
div.appendChild(span);
}
document.body.appendChild(div);
isFontReady(loadTestFontId, function() {
document.body.removeChild(div);
request.complete();
});
/** Hack end */
}
};
var FontFace = (function FontFaceClosure() {
function FontFace(name, file, properties) {
this.compiledGlyphs = {};
if (arguments.length === 1) {
// importing translated data
var data = arguments[0];
for (var i in data) {
this[i] = data[i];
}
return;
}
}
FontFace.prototype = {
bindDOM: function FontFace_bindDOM() {
if (!this.data) {
return null;
}
if (PDFJS.disableFontFace) {
this.disableFontFace = true;
return null;
}
var data = bytesToString(new Uint8Array(this.data));
var fontName = this.loadedName;
// Add the font-face rule to the document
var url = ('url(data:' + this.mimetype + ';base64,' +
window.btoa(data) + ');');
var rule = '@font-face { font-family:"' + fontName + '";src:' + url + '}';
FontLoader.insertRule(rule);
if (PDFJS.pdfBug && 'FontInspector' in globalScope &&
globalScope['FontInspector'].enabled) {
globalScope['FontInspector'].fontAdded(this, url);
}
return rule;
},
getPathGenerator: function (objs, character) {
if (!(character in this.compiledGlyphs)) {
var js = objs.get(this.loadedName + '_path_' + character);
/*jshint -W054 */
this.compiledGlyphs[character] = new Function('c', 'size', js);
}
return this.compiledGlyphs[character];
}
};
return FontFace;
})();
}).call((typeof window === 'undefined') ? this : window);
if (!PDFJS.workerSrc && typeof document !== 'undefined') {
// workerSrc is not set -- using last script url to define default location
PDFJS.workerSrc = (function () {
'use strict';
var scriptTagContainer = document.body ||
document.getElementsByTagName('head')[0];
var pdfjsSrc = scriptTagContainer.lastChild.src;
return pdfjsSrc && pdfjsSrc.replace(/\.js$/i, '.worker.js');
})();
}