/* -*- 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.
*/
'use strict';
var PartialEvaluator = (function PartialEvaluatorClosure() {
function PartialEvaluator(xref, handler, uniquePrefix) {
this.state = new EvalState();
this.stateStack = [];
this.xref = xref;
this.handler = handler;
this.uniquePrefix = uniquePrefix;
this.objIdCounter = 0;
this.fontIdCounter = 0;
}
var OP_MAP = {
// Graphics state
w: 'setLineWidth',
J: 'setLineCap',
j: 'setLineJoin',
M: 'setMiterLimit',
d: 'setDash',
ri: 'setRenderingIntent',
i: 'setFlatness',
gs: 'setGState',
q: 'save',
Q: 'restore',
cm: 'transform',
// Path
m: 'moveTo',
l: 'lineTo',
c: 'curveTo',
v: 'curveTo2',
y: 'curveTo3',
h: 'closePath',
re: 'rectangle',
S: 'stroke',
s: 'closeStroke',
f: 'fill',
F: 'fill',
'f*': 'eoFill',
B: 'fillStroke',
'B*': 'eoFillStroke',
b: 'closeFillStroke',
'b*': 'closeEOFillStroke',
n: 'endPath',
// Clipping
W: 'clip',
'W*': 'eoClip',
// Text
BT: 'beginText',
ET: 'endText',
Tc: 'setCharSpacing',
Tw: 'setWordSpacing',
Tz: 'setHScale',
TL: 'setLeading',
Tf: 'setFont',
Tr: 'setTextRenderingMode',
Ts: 'setTextRise',
Td: 'moveText',
TD: 'setLeadingMoveText',
Tm: 'setTextMatrix',
'T*': 'nextLine',
Tj: 'showText',
TJ: 'showSpacedText',
"'": 'nextLineShowText',
'"': 'nextLineSetSpacingShowText',
// Type3 fonts
d0: 'setCharWidth',
d1: 'setCharWidthAndBounds',
// Color
CS: 'setStrokeColorSpace',
cs: 'setFillColorSpace',
SC: 'setStrokeColor',
SCN: 'setStrokeColorN',
sc: 'setFillColor',
scn: 'setFillColorN',
G: 'setStrokeGray',
g: 'setFillGray',
RG: 'setStrokeRGBColor',
rg: 'setFillRGBColor',
K: 'setStrokeCMYKColor',
k: 'setFillCMYKColor',
// Shading
sh: 'shadingFill',
// Images
BI: 'beginInlineImage',
ID: 'beginImageData',
EI: 'endInlineImage',
// XObjects
Do: 'paintXObject',
// Marked content
MP: 'markPoint',
DP: 'markPointProps',
BMC: 'beginMarkedContent',
BDC: 'beginMarkedContentProps',
EMC: 'endMarkedContent',
// Compatibility
BX: 'beginCompat',
EX: 'endCompat',
// (reserved partial commands for the lexer)
BM: null,
BD: null,
'true': null,
fa: null,
fal: null,
fals: null,
'false': null,
nu: null,
nul: null,
'null': null
};
PartialEvaluator.prototype = {
loadFont: function PartialEvaluator_loadFont(fontName, font, xref,
resources, dependency) {
var fontRes = resources.get('Font');
assert(fontRes, 'fontRes not available');
font = xref.fetchIfRef(font) || fontRes.get(fontName);
assertWellFormed(isDict(font));
++this.fontIdCounter;
var loadedName = font.loadedName;
if (!loadedName) {
// keep track of each font we translated so the caller can
// load them asynchronously before calling display on a page
loadedName = 'font_' + this.uniquePrefix + this.fontIdCounter;
font.loadedName = loadedName;
var translated;
try {
translated = this.translateFont(font, xref, resources,
dependency);
} catch (e) {
translated = { error: e };
}
font.translated = translated;
var data = translated;
if (data.loadCharProcs) {
delete data.loadCharProcs;
var charProcs = font.get('CharProcs').getAll();
var fontResources = font.get('Resources') || resources;
var charProcOperatorList = {};
for (var key in charProcs) {
var glyphStream = charProcs[key];
charProcOperatorList[key] =
this.getOperatorList(glyphStream, fontResources, dependency);
}
data.charProcOperatorList = charProcOperatorList;
}
}
return font;
},
getOperatorList: function PartialEvaluator_getOperatorList(stream,
resources,
dependency,
queue) {
var self = this;
var xref = this.xref;
var handler = this.handler;
var uniquePrefix = this.uniquePrefix || '';
function insertDependency(depList) {
fnArray.push('dependency');
argsArray.push(depList);
for (var i = 0, ii = depList.length; i < ii; i++) {
var dep = depList[i];
if (dependency.indexOf(dep) == -1) {
dependency.push(depList[i]);
}
}
}
function handleSetFont(fontName, font) {
font = self.loadFont(fontName, font, xref, resources, dependency);
var loadedName = font.loadedName;
if (!font.sent) {
var data = font.translated;
if (data instanceof Font)
data = data.exportData();
handler.send('obj', [
loadedName,
'Font',
data
]);
font.sent = true;
}
// Ensure the font is ready before the font is set
// and later on used for drawing.
// OPTIMIZE: This should get insert to the operatorList only once per
// page.
insertDependency([loadedName]);
return loadedName;
}
function buildPaintImageXObject(image, inline) {
var dict = image.dict;
var w = dict.get('Width', 'W');
var h = dict.get('Height', 'H');
var imageMask = dict.get('ImageMask', 'IM') || false;
if (imageMask) {
// This depends on a tmpCanvas beeing filled with the
// current fillStyle, such that processing the pixel
// data can't be done here. Instead of creating a
// complete PDFImage, only read the information needed
// for later.
var width = dict.get('Width', 'W');
var height = dict.get('Height', 'H');
var bitStrideLength = (width + 7) >> 3;
var imgArray = image.getBytes(bitStrideLength * height);
var decode = dict.get('Decode', 'D');
var inverseDecode = !!decode && decode[0] > 0;
fn = 'paintImageMaskXObject';
args = [imgArray, inverseDecode, width, height];
return;
}
// If there is no imageMask, create the PDFImage and a lot
// of image processing can be done here.
var objId = 'img_' + uniquePrefix + (++self.objIdCounter);
insertDependency([objId]);
args = [objId, w, h];
var softMask = dict.get('SMask', 'SM') || false;
var mask = dict.get('Mask') || false;
if (!softMask && !mask && image instanceof JpegStream &&
image.isNativelySupported(xref, resources)) {
// These JPEGs don't need any more processing so we can just send it.
fn = 'paintJpegXObject';
handler.send('obj', [objId, 'JpegStream', image.getIR()]);
return;
}
fn = 'paintImageXObject';
PDFImage.buildImage(function(imageObj) {
var drawWidth = imageObj.drawWidth;
var drawHeight = imageObj.drawHeight;
var imgData = {
width: drawWidth,
height: drawHeight,
data: new Uint8Array(drawWidth * drawHeight * 4)
};
var pixels = imgData.data;
imageObj.fillRgbaBuffer(pixels, drawWidth, drawHeight);
handler.send('obj', [objId, 'Image', imgData]);
}, handler, xref, resources, image, inline);
}
if (!queue)
queue = {};
if (!queue.argsArray) {
queue.argsArray = [];
}
if (!queue.fnArray) {
queue.fnArray = [];
}
var fnArray = queue.fnArray, argsArray = queue.argsArray;
var dependencyArray = dependency || [];
resources = resources || new Dict();
var xobjs = resources.get('XObject') || new Dict();
var patterns = resources.get('Pattern') || new Dict();
var parser = new Parser(new Lexer(stream, OP_MAP), false, xref);
var res = resources;
var args = [], obj;
var TILING_PATTERN = 1, SHADING_PATTERN = 2;
while (true) {
obj = parser.getObj();
if (isEOF(obj))
break;
if (isCmd(obj)) {
var cmd = obj.cmd;
var fn = OP_MAP[cmd];
assertWellFormed(fn, 'Unknown command "' + cmd + '"');
// TODO figure out how to type-check vararg functions
if ((cmd == 'SCN' || cmd == 'scn') && !args[args.length - 1].code) {
// compile tiling patterns
var patternName = args[args.length - 1];
// SCN/scn applies patterns along with normal colors
if (isName(patternName)) {
var pattern = patterns.get(patternName.name);
if (pattern) {
var dict = isStream(pattern) ? pattern.dict : pattern;
var typeNum = dict.get('PatternType');
if (typeNum == TILING_PATTERN) {
// Create an IR of the pattern code.
var depIdx = dependencyArray.length;
var operatorList = this.getOperatorList(pattern,
dict.get('Resources') || resources, dependencyArray);
// Add the dependencies that are required to execute the
// operatorList.
insertDependency(dependencyArray.slice(depIdx));
args = TilingPattern.getIR(operatorList, dict, args);
}
else if (typeNum == SHADING_PATTERN) {
var shading = dict.get('Shading');
var matrix = dict.get('Matrix');
var pattern = Pattern.parseShading(shading, matrix, xref,
res);
args = pattern.getIR();
} else {
error('Unkown PatternType ' + typeNum);
}
}
}
} else if (cmd == 'Do' && !args[0].code) {
// eagerly compile XForm objects
var name = args[0].name;
var xobj = xobjs.get(name);
if (xobj) {
assertWellFormed(isStream(xobj), 'XObject should be a stream');
var type = xobj.dict.get('Subtype');
assertWellFormed(
isName(type),
'XObject should have a Name subtype'
);
if ('Form' == type.name) {
var matrix = xobj.dict.get('Matrix');
var bbox = xobj.dict.get('BBox');
fnArray.push('paintFormXObjectBegin');
argsArray.push([matrix, bbox]);
// This adds the operatorList of the xObj to the current queue.
var depIdx = dependencyArray.length;
// Pass in the current `queue` object. That means the `fnArray`
// and the `argsArray` in this scope is reused and new commands
// are added to them.
this.getOperatorList(xobj,
xobj.dict.get('Resources') || resources,
dependencyArray, queue);
// Add the dependencies that are required to execute the
// operatorList.
insertDependency(dependencyArray.slice(depIdx));
fn = 'paintFormXObjectEnd';
args = [];
} else if ('Image' == type.name) {
buildPaintImageXObject(xobj, false);
} else {
error('Unhandled XObject subtype ' + type.name);
}
}
} else if (cmd == 'Tf') { // eagerly collect all fonts
args[0] = handleSetFont(args[0].name);
} else if (cmd == 'EI') {
buildPaintImageXObject(args[0], true);
}
switch (fn) {
// Parse the ColorSpace data to a raw format.
case 'setFillColorSpace':
case 'setStrokeColorSpace':
args = [ColorSpace.parseToIR(args[0], xref, resources)];
break;
case 'shadingFill':
var shadingRes = res.get('Shading');
if (!shadingRes)
error('No shading resource found');
var shading = shadingRes.get(args[0].name);
if (!shading)
error('No shading object found');
var shadingFill = Pattern.parseShading(shading, null, xref, res);
var patternIR = shadingFill.getIR();
args = [patternIR];
fn = 'shadingFill';
break;
case 'setGState':
var dictName = args[0];
var extGState = resources.get('ExtGState');
if (!isDict(extGState) || !extGState.has(dictName.name))
break;
var gsState = extGState.get(dictName.name);
// This array holds the converted/processed state data.
var gsStateObj = [];
gsState.forEach(
function canvasGraphicsSetGStateForEach(key, value) {
switch (key) {
case 'Type':
break;
case 'LW':
case 'LC':
case 'LJ':
case 'ML':
case 'D':
case 'RI':
case 'FL':
case 'CA':
case 'ca':
gsStateObj.push([key, value]);
break;
case 'Font':
gsStateObj.push([
'Font',
handleSetFont(null, value[0]),
value[1]
]);
break;
case 'BM':
// We support the default so don't trigger the TODO.
if (!isName(value) || value.name != 'Normal')
TODO('graphic state operator ' + key);
break;
case 'SMask':
// We support the default so don't trigger the TODO.
if (!isName(value) || value.name != 'None')
TODO('graphic state operator ' + key);
break;
// Only generate info log messages for the following since
// they are unlikey to have a big impact on the rendering.
case 'OP':
case 'op':
case 'OPM':
case 'BG':
case 'BG2':
case 'UCR':
case 'UCR2':
case 'TR':
case 'TR2':
case 'HT':
case 'SM':
case 'SA':
case 'AIS':
case 'TK':
// TODO implement these operators.
info('graphic state operator ' + key);
break;
default:
info('Unknown graphic state operator ' + key);
break;
}
}
);
args = [gsStateObj];
break;
} // switch
fnArray.push(fn);
argsArray.push(args);
args = [];
} else if (obj != null) {
assertWellFormed(args.length <= 33, 'Too many arguments');
args.push(obj instanceof Dict ? obj.getAll() : obj);
}
}
return queue;
},
getTextContent: function partialEvaluatorGetIRQueue(
stream, resources, state) {
var bidiTexts;
var kSpaceFactor = 0.35;
var kMultipleSpaceFactor = 1.5;
if (!state) {
bidiTexts = [];
state = {
bidiTexts: bidiTexts
};
} else {
bidiTexts = state.bidiTexts;
}
var self = this;
var xref = this.xref;
function handleSetFont(fontName, fontRef) {
return self.loadFont(fontName, fontRef, xref, resources, null);
}
resources = xref.fetchIfRef(resources) || new Dict();
// The xobj is parsed iff it's needed, e.g. if there is a `DO` cmd.
var xobjs = null;
var parser = new Parser(new Lexer(stream), false);
var res = resources;
var args = [], obj;
var chunk = '';
var font = null;
while (!isEOF(obj = parser.getObj())) {
if (isCmd(obj)) {
var cmd = obj.cmd;
switch (cmd) {
// TODO: Add support for SAVE/RESTORE and XFORM here.
case 'Tf':
font = handleSetFont(args[0].name).translated;
break;
case 'TJ':
var items = args[0];
for (var j = 0, jj = items.length; j < jj; j++) {
if (typeof items[j] === 'string') {
chunk += fontCharsToUnicode(items[j], font);
} else if (items[j] < 0 && font.spaceWidth > 0) {
var fakeSpaces = -items[j] / font.spaceWidth;
if (fakeSpaces > kMultipleSpaceFactor) {
fakeSpaces = Math.round(fakeSpaces);
while (fakeSpaces--) {
chunk += ' ';
}
} else if (fakeSpaces > kSpaceFactor) {
chunk += ' ';
}
}
}
break;
case 'Tj':
chunk += fontCharsToUnicode(args[0], font);
break;
case "'":
// For search, adding a extra white space for line breaks would be
// better here, but that causes too much spaces in the
// text-selection divs.
chunk += fontCharsToUnicode(args[0], font);
break;
case '"':
// Note comment in "'"
chunk += fontCharsToUnicode(args[2], font);
break;
case 'Do':
// Set the chunk such that the following if won't add something
// to the state.
chunk = '';
if (args[0].code) {
break;
}
if (!xobjs) {
xobjs = resources.get('XObject') || new Dict();
}
var name = args[0].name;
var xobj = xobjs.get(name);
if (!xobj)
break;
assertWellFormed(isStream(xobj), 'XObject should be a stream');
var type = xobj.dict.get('Subtype');
assertWellFormed(
isName(type),
'XObject should have a Name subtype'
);
if ('Form' !== type.name)
break;
state = this.getTextContent(
xobj,
xobj.dict.get('Resources') || resources,
state
);
break;
case 'gs':
var dictName = args[0];
var extGState = resources.get('ExtGState');
if (!isDict(extGState) || !extGState.has(dictName.name))
break;
var gsState = extGState.get(dictName.name);
for (var i = 0; i < gsState.length; i++) {
if (gsState[i] === 'Font') {
font = handleSetFont(args[0].name).translated;
}
}
break;
} // switch
if (chunk !== '') {
bidiTexts.push(PDFJS.bidi(chunk, -1));
chunk = '';
}
args = [];
} else if (obj != null) {
assertWellFormed(args.length <= 33, 'Too many arguments');
args.push(obj);
}
} // while
return state;
},
extractDataStructures: function
partialEvaluatorExtractDataStructures(dict, baseDict,
xref, properties) {
// 9.10.2
var toUnicode = dict.get('ToUnicode') ||
baseDict.get('ToUnicode');
if (toUnicode)
properties.toUnicode = this.readToUnicode(toUnicode, xref, properties);
if (properties.composite) {
// CIDSystemInfo helps to match CID to glyphs
var cidSystemInfo = dict.get('CIDSystemInfo');
if (isDict(cidSystemInfo)) {
properties.cidSystemInfo = {
registry: cidSystemInfo.get('Registry'),
ordering: cidSystemInfo.get('Ordering'),
supplement: cidSystemInfo.get('Supplement')
};
}
var cidToGidMap = dict.get('CIDToGIDMap');
if (isStream(cidToGidMap))
properties.cidToGidMap = this.readCidToGidMap(cidToGidMap);
}
var flags = properties.flags;
var differences = [];
var baseEncoding = Encodings.StandardEncoding;
// The Symbolic attribute can be misused for regular fonts
// Heuristic: we have to check if the font is a standard one also
if (!!(flags & FontFlags.Symbolic)) {
baseEncoding = !properties.file ? Encodings.symbolsEncoding :
Encodings.MacRomanEncoding;
}
var hasEncoding = dict.has('Encoding');
if (hasEncoding) {
var encoding = dict.get('Encoding');
if (isDict(encoding)) {
var baseName = encoding.get('BaseEncoding');
if (baseName)
baseEncoding = Encodings[baseName.name];
else
hasEncoding = false; // base encoding was not provided
// Load the differences between the base and original
if (encoding.has('Differences')) {
var diffEncoding = encoding.get('Differences');
var index = 0;
for (var j = 0, jj = diffEncoding.length; j < jj; j++) {
var data = diffEncoding[j];
if (isNum(data))
index = data;
else
differences[index++] = data.name;
}
}
} else if (isName(encoding)) {
baseEncoding = Encodings[encoding.name];
} else {
error('Encoding is not a Name nor a Dict');
}
}
properties.differences = differences;
properties.baseEncoding = baseEncoding;
properties.hasEncoding = hasEncoding;
},
readToUnicode: function PartialEvaluator_readToUnicode(toUnicode, xref,
properties) {
var cmapObj = toUnicode;
var charToUnicode = [];
if (isName(cmapObj)) {
var isIdentityMap = cmapObj.name.substr(0, 9) == 'Identity-';
if (!isIdentityMap)
error('ToUnicode file cmap translation not implemented');
} else if (isStream(cmapObj)) {
var tokens = [];
var token = '';
var beginArrayToken = {};
var cmap = cmapObj.getBytes(cmapObj.length);
for (var i = 0, ii = cmap.length; i < ii; i++) {
var octet = cmap[i];
if (octet == 0x20 || octet == 0x0D || octet == 0x0A ||
octet == 0x3C || octet == 0x5B || octet == 0x5D) {
switch (token) {
case 'usecmap':
error('usecmap is not implemented');
break;
case 'beginbfchar':
case 'beginbfrange':
case 'begincidchar':
case 'begincidrange':
token = '';
tokens = [];
break;
case 'endcidrange':
case 'endbfrange':
for (var j = 0, jj = tokens.length; j < jj; j += 3) {
var startRange = tokens[j];
var endRange = tokens[j + 1];
var code = tokens[j + 2];
if (code == 0xFFFF) {
// CMap is broken, assuming code == startRange
code = startRange;
}
if (isArray(code)) {
var codeindex = 0;
while (startRange <= endRange) {
charToUnicode[startRange] = code[codeindex++];
++startRange;
}
} else {
while (startRange <= endRange) {
charToUnicode[startRange] = code++;
++startRange;
}
}
}
break;
case 'endcidchar':
case 'endbfchar':
for (var j = 0, jj = tokens.length; j < jj; j += 2) {
var index = tokens[j];
var code = tokens[j + 1];
charToUnicode[index] = code;
}
break;
case '':
break;
default:
if (token[0] >= '0' && token[0] <= '9')
token = parseInt(token, 10); // a number
tokens.push(token);
token = '';
}
switch (octet) {
case 0x5B:
// begin list parsing
tokens.push(beginArrayToken);
break;
case 0x5D:
// collect array items
var items = [], item;
while (tokens.length &&
(item = tokens.pop()) != beginArrayToken)
items.unshift(item);
tokens.push(items);
break;
}
} else if (octet == 0x3E) {
if (token.length) {
// Heuristic: guessing chars size by checking numbers sizes
// in the CMap entries.
if (token.length == 2 && properties.composite)
properties.wideChars = false;
if (token.length <= 4) {
// parsing hex number
tokens.push(parseInt(token, 16));
token = '';
} else {
// parsing hex UTF-16BE numbers
var str = [];
for (var k = 0, kk = token.length; k < kk; k += 4) {
var b = parseInt(token.substr(k, 4), 16);
if (b <= 0x10) {
k += 4;
b = (b << 16) | parseInt(token.substr(k, 4), 16);
b -= 0x10000;
str.push(0xD800 | (b >> 10));
str.push(0xDC00 | (b & 0x3FF));
break;
}
str.push(b);
}
tokens.push(String.fromCharCode.apply(String, str));
token = '';
}
}
} else {
token += String.fromCharCode(octet);
}
}
}
return charToUnicode;
},
readCidToGidMap: function PartialEvaluator_readCidToGidMap(cidToGidStream) {
// Extract the encoding from the CIDToGIDMap
var glyphsData = cidToGidStream.getBytes();
// Set encoding 0 to later verify the font has an encoding
var result = [];
for (var j = 0, jj = glyphsData.length; j < jj; j++) {
var glyphID = (glyphsData[j++] << 8) | glyphsData[j];
if (glyphID == 0)
continue;
var code = j >> 1;
result[code] = glyphID;
}
return result;
},
extractWidths: function PartialEvaluator_extractWidths(dict,
xref,
descriptor,
properties) {
var glyphsWidths = [];
var defaultWidth = 0;
if (properties.composite) {
defaultWidth = dict.get('DW') || 1000;
var widths = dict.get('W');
if (widths) {
var start = 0, end = 0;
for (var i = 0, ii = widths.length; i < ii; i++) {
var code = xref.fetchIfRef(widths[i]);
if (isArray(code)) {
for (var j = 0, jj = code.length; j < jj; j++)
glyphsWidths[start++] = code[j];
start = 0;
} else if (start) {
var width = widths[++i];
for (var j = start; j <= code; j++)
glyphsWidths[j] = width;
start = 0;
} else {
start = code;
}
}
}
} else {
var firstChar = properties.firstChar;
var widths = dict.get('Widths');
if (widths) {
var j = firstChar;
for (var i = 0, ii = widths.length; i < ii; i++)
glyphsWidths[j++] = widths[i];
defaultWidth = parseFloat(descriptor.get('MissingWidth')) || 0;
} else {
// Trying get the BaseFont metrics (see comment above).
var baseFontName = dict.get('BaseFont');
if (isName(baseFontName)) {
var metrics = this.getBaseFontMetrics(baseFontName.name);
glyphsWidths = metrics.widths;
defaultWidth = metrics.defaultWidth;
}
}
}
// Heuristic: detection of monospace font by checking all non-zero widths
var isMonospace = true, firstWidth = defaultWidth;
for (var glyph in glyphsWidths) {
var glyphWidth = glyphsWidths[glyph];
if (!glyphWidth)
continue;
if (!firstWidth) {
firstWidth = glyphWidth;
continue;
}
if (firstWidth != glyphWidth) {
isMonospace = false;
break;
}
}
if (isMonospace)
properties.flags |= FontFlags.FixedPitch;
properties.defaultWidth = defaultWidth;
properties.widths = glyphsWidths;
},
getBaseFontMetrics: function PartialEvaluator_getBaseFontMetrics(name) {
var defaultWidth = 0, widths = [], monospace = false;
var glyphWidths = Metrics[stdFontMap[name] || name];
if (isNum(glyphWidths)) {
defaultWidth = glyphWidths;
monospace = true;
} else {
widths = glyphWidths;
}
return {
defaultWidth: defaultWidth,
monospace: monospace,
widths: widths
};
},
translateFont: function PartialEvaluator_translateFont(dict,
xref,
resources,
dependency) {
var baseDict = dict;
var type = dict.get('Subtype');
assertWellFormed(isName(type), 'invalid font Subtype');
var composite = false;
if (type.name == 'Type0') {
// If font is a composite
// - get the descendant font
// - set the type according to the descendant font
// - get the FontDescriptor from the descendant font
var df = dict.get('DescendantFonts');
if (!df)
error('Descendant fonts are not specified');
dict = isArray(df) ? xref.fetchIfRef(df[0]) : df;
type = dict.get('Subtype');
assertWellFormed(isName(type), 'invalid font Subtype');
composite = true;
}
var maxCharIndex = composite ? 0xFFFF : 0xFF;
var descriptor = dict.get('FontDescriptor');
if (!descriptor) {
if (type.name == 'Type3') {
// FontDescriptor is only required for Type3 fonts when the document
// is a tagged pdf. Create a barbebones one to get by.
descriptor = new Dict();
descriptor.set('FontName', new Name(type.name));
} else {
// Before PDF 1.5 if the font was one of the base 14 fonts, having a
// FontDescriptor was not required.
// This case is here for compatibility.
var baseFontName = dict.get('BaseFont');
if (!isName(baseFontName))
error('Base font is not specified');
// Using base font name as a font name.
baseFontName = baseFontName.name.replace(/[,_]/g, '-');
var metrics = this.getBaseFontMetrics(baseFontName);
// Simulating descriptor flags attribute
var fontNameWoStyle = baseFontName.split('-')[0];
var flags = (serifFonts[fontNameWoStyle] ||
(fontNameWoStyle.search(/serif/gi) != -1) ? FontFlags.Serif : 0) |
(metrics.monospace ? FontFlags.FixedPitch : 0) |
(symbolsFonts[fontNameWoStyle] ? FontFlags.Symbolic :
FontFlags.Nonsymbolic);
var properties = {
type: type.name,
widths: metrics.widths,
defaultWidth: metrics.defaultWidth,
flags: flags,
firstChar: 0,
lastChar: maxCharIndex
};
this.extractDataStructures(dict, dict, xref, properties);
return new Font(baseFontName, null, properties);
}
}
// According to the spec if 'FontDescriptor' is declared, 'FirstChar',
// 'LastChar' and 'Widths' should exist too, but some PDF encoders seem
// to ignore this rule when a variant of a standart font is used.
// TODO Fill the width array depending on which of the base font this is
// a variant.
var firstChar = dict.get('FirstChar') || 0;
var lastChar = dict.get('LastChar') || maxCharIndex;
var fontName = descriptor.get('FontName');
// Some bad pdf's have a string as the font name.
if (isString(fontName))
fontName = new Name(fontName);
assertWellFormed(isName(fontName), 'invalid font name');
var fontFile = descriptor.get('FontFile', 'FontFile2', 'FontFile3');
if (fontFile) {
if (fontFile.dict) {
var subtype = fontFile.dict.get('Subtype');
if (subtype)
subtype = subtype.name;
var length1 = fontFile.dict.get('Length1');
var length2 = fontFile.dict.get('Length2');
}
}
var properties = {
type: type.name,
subtype: subtype,
file: fontFile,
length1: length1,
length2: length2,
loadedName: baseDict.loadedName,
composite: composite,
wideChars: composite,
fixedPitch: false,
fontMatrix: dict.get('FontMatrix') || IDENTITY_MATRIX,
firstChar: firstChar || 0,
lastChar: lastChar || maxCharIndex,
bbox: descriptor.get('FontBBox'),
ascent: descriptor.get('Ascent'),
descent: descriptor.get('Descent'),
xHeight: descriptor.get('XHeight'),
capHeight: descriptor.get('CapHeight'),
flags: descriptor.get('Flags'),
italicAngle: descriptor.get('ItalicAngle'),
coded: false
};
this.extractWidths(dict, xref, descriptor, properties);
this.extractDataStructures(dict, baseDict, xref, properties);
if (type.name === 'Type3') {
properties.coded = true;
}
return new Font(fontName.name, fontFile, properties);
}
};
return PartialEvaluator;
})();
var EvalState = (function EvalStateClosure() {
function EvalState() {
// Are soft masks and alpha values shapes or opacities?
this.alphaIsShape = false;
this.fontSize = 0;
this.textMatrix = IDENTITY_MATRIX;
this.leading = 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;
// Color spaces
this.fillColorSpace = null;
this.strokeColorSpace = null;
}
EvalState.prototype = {
};
return EvalState;
})();