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Extract Type1Parser from fonts.js

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This commit is contained in:
Jonas Jenwald 2016-04-01 13:37:00 +02:00
parent b961e1d21b
commit ef551e8266
4 changed files with 748 additions and 700 deletions
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695
src/core/fonts.js
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@ -22,26 +22,26 @@
'pdfjs/core/glyphlist', 'pdfjs/core/charsets',
'pdfjs/core/font_renderer', 'pdfjs/core/encodings',
'pdfjs/core/standard_fonts', 'pdfjs/core/unicode',
'pdfjs/core/cff_parser'], factory);
'pdfjs/core/type1_parser', 'pdfjs/core/cff_parser'], factory);
} else if (typeof exports !== 'undefined') {
factory(exports, require('../shared/util.js'), require('./primitives.js'),
require('./stream.js'), require('./parser.js'),
require('./glyphlist.js'), require('./charsets.js'),
require('./font_renderer.js'), require('./encodings.js'),
require('./standard_fonts'), require('./unicode.js'),
require('./cff_parser'));
require('./type1_parser'), require('./cff_parser'));
} else {
factory((root.pdfjsCoreFonts = {}), root.pdfjsSharedUtil,
root.pdfjsCorePrimitives, root.pdfjsCoreStream, root.pdfjsCoreParser,
root.pdfjsCoreGlyphList, root.pdfjsCoreCharsets,
root.pdfjsCoreFontRenderer, root.pdfjsCoreEncodings,
root.pdfjsCoreStandardFonts, root.pdfjsCoreUnicode,
root.pdfjsCoreCFFParser);
root.pdfjsCoreType1Parser, root.pdfjsCoreCFFParser);
}
}(this, function (exports, sharedUtil, corePrimitives, coreStream, coreParser,
coreGlyphList, coreCharsets, coreFontRenderer,
coreEncodings, coreStandardFonts, coreUnicode,
coreCFFParser) {
coreType1Parser, coreCFFParser) {
var FONT_IDENTITY_MATRIX = sharedUtil.FONT_IDENTITY_MATRIX;
var FontType = sharedUtil.FontType;
@ -82,6 +82,7 @@ var getSupplementalGlyphMapForArialBlack =
var getUnicodeRangeFor = coreUnicode.getUnicodeRangeFor;
var mapSpecialUnicodeValues = coreUnicode.mapSpecialUnicodeValues;
var getUnicodeForGlyph = coreUnicode.getUnicodeForGlyph;
var Type1Parser = coreType1Parser.Type1Parser;
var CFFStandardStrings = coreCFFParser.CFFStandardStrings;
var CFFParser = coreCFFParser.CFFParser;
var CFFCompiler = coreCFFParser.CFFCompiler;
@ -102,10 +103,6 @@ var SKIP_PRIVATE_USE_RANGE_F000_TO_F01F = false;
// except for Type 3 fonts
var PDF_GLYPH_SPACE_UNITS = 1000;
// Hinting is currently disabled due to unknown problems on windows
// in tracemonkey and various other pdfs with type1 fonts.
var HINTING_ENABLED = false;
// Accented charactars are not displayed properly on Windows, using this flag
// to control analysis of seac charstrings.
var SEAC_ANALYSIS_ENABLED = false;
@ -2885,681 +2882,6 @@ function type1FontGlyphMapping(properties, builtInEncoding, glyphNames) {
return charCodeToGlyphId;
}
/*
* CharStrings are encoded following the the CharString Encoding sequence
* describe in Chapter 6 of the "Adobe Type1 Font Format" specification.
* The value in a byte indicates a command, a number, or subsequent bytes
* that are to be interpreted in a special way.
*
* CharString Number Encoding:
* A CharString byte containing the values from 32 through 255 inclusive
* indicate an integer. These values are decoded in four ranges.
*
* 1. A CharString byte containing a value, v, between 32 and 246 inclusive,
* indicate the integer v - 139. Thus, the integer values from -107 through
* 107 inclusive may be encoded in single byte.
*
* 2. A CharString byte containing a value, v, between 247 and 250 inclusive,
* indicates an integer involving the next byte, w, according to the formula:
* [(v - 247) x 256] + w + 108
*
* 3. A CharString byte containing a value, v, between 251 and 254 inclusive,
* indicates an integer involving the next byte, w, according to the formula:
* -[(v - 251) * 256] - w - 108
*
* 4. A CharString containing the value 255 indicates that the next 4 bytes
* are a two complement signed integer. The first of these bytes contains the
* highest order bits, the second byte contains the next higher order bits
* and the fourth byte contain the lowest order bits.
*
*
* CharString Command Encoding:
* CharStrings commands are encoded in 1 or 2 bytes.
*
* Single byte commands are encoded in 1 byte that contains a value between
* 0 and 31 inclusive.
* If a command byte contains the value 12, then the value in the next byte
* indicates a command. This "escape" mechanism allows many extra commands
* to be encoded and this encoding technique helps to minimize the length of
* the charStrings.
*/
var Type1CharString = (function Type1CharStringClosure() {
var COMMAND_MAP = {
'hstem': [1],
'vstem': [3],
'vmoveto': [4],
'rlineto': [5],
'hlineto': [6],
'vlineto': [7],
'rrcurveto': [8],
'callsubr': [10],
'flex': [12, 35],
'drop' : [12, 18],
'endchar': [14],
'rmoveto': [21],
'hmoveto': [22],
'vhcurveto': [30],
'hvcurveto': [31]
};
function Type1CharString() {
this.width = 0;
this.lsb = 0;
this.flexing = false;
this.output = [];
this.stack = [];
}
Type1CharString.prototype = {
convert: function Type1CharString_convert(encoded, subrs) {
var count = encoded.length;
var error = false;
var wx, sbx, subrNumber;
for (var i = 0; i < count; i++) {
var value = encoded[i];
if (value < 32) {
if (value === 12) {
value = (value << 8) + encoded[++i];
}
switch (value) {
case 1: // hstem
if (!HINTING_ENABLED) {
this.stack = [];
break;
}
error = this.executeCommand(2, COMMAND_MAP.hstem);
break;
case 3: // vstem
if (!HINTING_ENABLED) {
this.stack = [];
break;
}
error = this.executeCommand(2, COMMAND_MAP.vstem);
break;
case 4: // vmoveto
if (this.flexing) {
if (this.stack.length < 1) {
error = true;
break;
}
// Add the dx for flex and but also swap the values so they are
// the right order.
var dy = this.stack.pop();
this.stack.push(0, dy);
break;
}
error = this.executeCommand(1, COMMAND_MAP.vmoveto);
break;
case 5: // rlineto
error = this.executeCommand(2, COMMAND_MAP.rlineto);
break;
case 6: // hlineto
error = this.executeCommand(1, COMMAND_MAP.hlineto);
break;
case 7: // vlineto
error = this.executeCommand(1, COMMAND_MAP.vlineto);
break;
case 8: // rrcurveto
error = this.executeCommand(6, COMMAND_MAP.rrcurveto);
break;
case 9: // closepath
// closepath is a Type1 command that does not take argument and is
// useless in Type2 and it can simply be ignored.
this.stack = [];
break;
case 10: // callsubr
if (this.stack.length < 1) {
error = true;
break;
}
subrNumber = this.stack.pop();
error = this.convert(subrs[subrNumber], subrs);
break;
case 11: // return
return error;
case 13: // hsbw
if (this.stack.length < 2) {
error = true;
break;
}
// To convert to type2 we have to move the width value to the
// first part of the charstring and then use hmoveto with lsb.
wx = this.stack.pop();
sbx = this.stack.pop();
this.lsb = sbx;
this.width = wx;
this.stack.push(wx, sbx);
error = this.executeCommand(2, COMMAND_MAP.hmoveto);
break;
case 14: // endchar
this.output.push(COMMAND_MAP.endchar[0]);
break;
case 21: // rmoveto
if (this.flexing) {
break;
}
error = this.executeCommand(2, COMMAND_MAP.rmoveto);
break;
case 22: // hmoveto
if (this.flexing) {
// Add the dy for flex.
this.stack.push(0);
break;
}
error = this.executeCommand(1, COMMAND_MAP.hmoveto);
break;
case 30: // vhcurveto
error = this.executeCommand(4, COMMAND_MAP.vhcurveto);
break;
case 31: // hvcurveto
error = this.executeCommand(4, COMMAND_MAP.hvcurveto);
break;
case (12 << 8) + 0: // dotsection
// dotsection is a Type1 command to specify some hinting feature
// for dots that do not take a parameter and it can safely be
// ignored for Type2.
this.stack = [];
break;
case (12 << 8) + 1: // vstem3
if (!HINTING_ENABLED) {
this.stack = [];
break;
}
// [vh]stem3 are Type1 only and Type2 supports [vh]stem with
// multiple parameters, so instead of returning [vh]stem3 take a
// shortcut and return [vhstem] instead.
error = this.executeCommand(2, COMMAND_MAP.vstem);
break;
case (12 << 8) + 2: // hstem3
if (!HINTING_ENABLED) {
this.stack = [];
break;
}
// See vstem3.
error = this.executeCommand(2, COMMAND_MAP.hstem);
break;
case (12 << 8) + 6: // seac
// seac is like type 2's special endchar but it doesn't use the
// first argument asb, so remove it.
if (SEAC_ANALYSIS_ENABLED) {
this.seac = this.stack.splice(-4, 4);
error = this.executeCommand(0, COMMAND_MAP.endchar);
} else {
error = this.executeCommand(4, COMMAND_MAP.endchar);
}
break;
case (12 << 8) + 7: // sbw
if (this.stack.length < 4) {
error = true;
break;
}
// To convert to type2 we have to move the width value to the
// first part of the charstring and then use rmoveto with
// (dx, dy). The height argument will not be used for vmtx and
// vhea tables reconstruction -- ignoring it.
var wy = this.stack.pop();
wx = this.stack.pop();
var sby = this.stack.pop();
sbx = this.stack.pop();
this.lsb = sbx;
this.width = wx;
this.stack.push(wx, sbx, sby);
error = this.executeCommand(3, COMMAND_MAP.rmoveto);
break;
case (12 << 8) + 12: // div
if (this.stack.length < 2) {
error = true;
break;
}
var num2 = this.stack.pop();
var num1 = this.stack.pop();
this.stack.push(num1 / num2);
break;
case (12 << 8) + 16: // callothersubr
if (this.stack.length < 2) {
error = true;
break;
}
subrNumber = this.stack.pop();
var numArgs = this.stack.pop();
if (subrNumber === 0 && numArgs === 3) {
var flexArgs = this.stack.splice(this.stack.length - 17, 17);
this.stack.push(
flexArgs[2] + flexArgs[0], // bcp1x + rpx
flexArgs[3] + flexArgs[1], // bcp1y + rpy
flexArgs[4], // bcp2x
flexArgs[5], // bcp2y
flexArgs[6], // p2x
flexArgs[7], // p2y
flexArgs[8], // bcp3x
flexArgs[9], // bcp3y
flexArgs[10], // bcp4x
flexArgs[11], // bcp4y
flexArgs[12], // p3x
flexArgs[13], // p3y
flexArgs[14] // flexDepth
// 15 = finalx unused by flex
// 16 = finaly unused by flex
);
error = this.executeCommand(13, COMMAND_MAP.flex, true);
this.flexing = false;
this.stack.push(flexArgs[15], flexArgs[16]);
} else if (subrNumber === 1 && numArgs === 0) {
this.flexing = true;
}
break;
case (12 << 8) + 17: // pop
// Ignore this since it is only used with othersubr.
break;
case (12 << 8) + 33: // setcurrentpoint
// Ignore for now.
this.stack = [];
break;
default:
warn('Unknown type 1 charstring command of "' + value + '"');
break;
}
if (error) {
break;
}
continue;
} else if (value <= 246) {
value = value - 139;
} else if (value <= 250) {
value = ((value - 247) * 256) + encoded[++i] + 108;
} else if (value <= 254) {
value = -((value - 251) * 256) - encoded[++i] - 108;
} else {
value = (encoded[++i] & 0xff) << 24 | (encoded[++i] & 0xff) << 16 |
(encoded[++i] & 0xff) << 8 | (encoded[++i] & 0xff) << 0;
}
this.stack.push(value);
}
return error;
},
executeCommand: function(howManyArgs, command, keepStack) {
var stackLength = this.stack.length;
if (howManyArgs > stackLength) {
return true;
}
var start = stackLength - howManyArgs;
for (var i = start; i < stackLength; i++) {
var value = this.stack[i];
if (value === (value | 0)) { // int
this.output.push(28, (value >> 8) & 0xff, value & 0xff);
} else { // fixed point
value = (65536 * value) | 0;
this.output.push(255,
(value >> 24) & 0xFF,
(value >> 16) & 0xFF,
(value >> 8) & 0xFF,
value & 0xFF);
}
}
this.output.push.apply(this.output, command);
if (keepStack) {
this.stack.splice(start, howManyArgs);
} else {
this.stack.length = 0;
}
return false;
}
};
return Type1CharString;
})();
/*
* Type1Parser encapsulate the needed code for parsing a Type1 font
* program. Some of its logic depends on the Type2 charstrings
* structure.
* Note: this doesn't really parse the font since that would require evaluation
* of PostScript, but it is possible in most cases to extract what we need
* without a full parse.
*/
var Type1Parser = (function Type1ParserClosure() {
/*
* Decrypt a Sequence of Ciphertext Bytes to Produce the Original Sequence
* of Plaintext Bytes. The function took a key as a parameter which can be
* for decrypting the eexec block of for decoding charStrings.
*/
var EEXEC_ENCRYPT_KEY = 55665;
var CHAR_STRS_ENCRYPT_KEY = 4330;
function isHexDigit(code) {
return code >= 48 && code <= 57 || // '0'-'9'
code >= 65 && code <= 70 || // 'A'-'F'
code >= 97 && code <= 102; // 'a'-'f'
}
function decrypt(data, key, discardNumber) {
if (discardNumber >= data.length) {
return new Uint8Array(0);
}
var r = key | 0, c1 = 52845, c2 = 22719, i, j;
for (i = 0; i < discardNumber; i++) {
r = ((data[i] + r) * c1 + c2) & ((1 << 16) - 1);
}
var count = data.length - discardNumber;
var decrypted = new Uint8Array(count);
for (i = discardNumber, j = 0; j < count; i++, j++) {
var value = data[i];
decrypted[j] = value ^ (r >> 8);
r = ((value + r) * c1 + c2) & ((1 << 16) - 1);
}
return decrypted;
}
function decryptAscii(data, key, discardNumber) {
var r = key | 0, c1 = 52845, c2 = 22719;
var count = data.length, maybeLength = count >>> 1;
var decrypted = new Uint8Array(maybeLength);
var i, j;
for (i = 0, j = 0; i < count; i++) {
var digit1 = data[i];
if (!isHexDigit(digit1)) {
continue;
}
i++;
var digit2;
while (i < count && !isHexDigit(digit2 = data[i])) {
i++;
}
if (i < count) {
var value = parseInt(String.fromCharCode(digit1, digit2), 16);
decrypted[j++] = value ^ (r >> 8);
r = ((value + r) * c1 + c2) & ((1 << 16) - 1);
}
}
return Array.prototype.slice.call(decrypted, discardNumber, j);
}
function isSpecial(c) {
return c === 0x2F || // '/'
c === 0x5B || c === 0x5D || // '[', ']'
c === 0x7B || c === 0x7D || // '{', '}'
c === 0x28 || c === 0x29; // '(', ')'
}
function Type1Parser(stream, encrypted) {
if (encrypted) {
var data = stream.getBytes();
var isBinary = !(isHexDigit(data[0]) && isHexDigit(data[1]) &&
isHexDigit(data[2]) && isHexDigit(data[3]));
stream = new Stream(isBinary ? decrypt(data, EEXEC_ENCRYPT_KEY, 4) :
decryptAscii(data, EEXEC_ENCRYPT_KEY, 4));
}
this.stream = stream;
this.nextChar();
}
Type1Parser.prototype = {
readNumberArray: function Type1Parser_readNumberArray() {
this.getToken(); // read '[' or '{' (arrays can start with either)
var array = [];
while (true) {
var token = this.getToken();
if (token === null || token === ']' || token === '}') {
break;
}
array.push(parseFloat(token || 0));
}
return array;
},
readNumber: function Type1Parser_readNumber() {
var token = this.getToken();
return parseFloat(token || 0);
},
readInt: function Type1Parser_readInt() {
// Use '| 0' to prevent setting a double into length such as the double
// does not flow into the loop variable.
var token = this.getToken();
return parseInt(token || 0, 10) | 0;
},
readBoolean: function Type1Parser_readBoolean() {
var token = this.getToken();
// Use 1 and 0 since that's what type2 charstrings use.
return token === 'true' ? 1 : 0;
},
nextChar : function Type1_nextChar() {
return (this.currentChar = this.stream.getByte());
},
getToken: function Type1Parser_getToken() {
// Eat whitespace and comments.
var comment = false;
var ch = this.currentChar;
while (true) {
if (ch === -1) {
return null;
}
if (comment) {
if (ch === 0x0A || ch === 0x0D) {
comment = false;
}
} else if (ch === 0x25) { // '%'
comment = true;
} else if (!Lexer.isSpace(ch)) {
break;
}
ch = this.nextChar();
}
if (isSpecial(ch)) {
this.nextChar();
return String.fromCharCode(ch);
}
var token = '';
do {
token += String.fromCharCode(ch);
ch = this.nextChar();
} while (ch >= 0 && !Lexer.isSpace(ch) && !isSpecial(ch));
return token;
},
/*
* Returns an object containing a Subrs array and a CharStrings
* array extracted from and eexec encrypted block of data
*/
extractFontProgram: function Type1Parser_extractFontProgram() {
var stream = this.stream;
var subrs = [], charstrings = [];
var privateData = Object.create(null);
privateData['lenIV'] = 4;
var program = {
subrs: [],
charstrings: [],
properties: {
'privateData': privateData
}
};
var token, length, data, lenIV, encoded;
while ((token = this.getToken()) !== null) {
if (token !== '/') {
continue;
}
token = this.getToken();
switch (token) {
case 'CharStrings':
// The number immediately following CharStrings must be greater or
// equal to the number of CharStrings.
this.getToken();
this.getToken(); // read in 'dict'
this.getToken(); // read in 'dup'
this.getToken(); // read in 'begin'
while(true) {
token = this.getToken();
if (token === null || token === 'end') {
break;
}
if (token !== '/') {
continue;
}
var glyph = this.getToken();
length = this.readInt();
this.getToken(); // read in 'RD' or '-|'
data = stream.makeSubStream(stream.pos, length);
lenIV = program.properties.privateData['lenIV'];
encoded = decrypt(data.getBytes(), CHAR_STRS_ENCRYPT_KEY, lenIV);
// Skip past the required space and binary data.
stream.skip(length);
this.nextChar();
token = this.getToken(); // read in 'ND' or '|-'
if (token === 'noaccess') {
this.getToken(); // read in 'def'
}
charstrings.push({
glyph: glyph,
encoded: encoded
});
}
break;
case 'Subrs':
var num = this.readInt();
this.getToken(); // read in 'array'
while ((token = this.getToken()) === 'dup') {
var index = this.readInt();
length = this.readInt();
this.getToken(); // read in 'RD' or '-|'
data = stream.makeSubStream(stream.pos, length);
lenIV = program.properties.privateData['lenIV'];
encoded = decrypt(data.getBytes(), CHAR_STRS_ENCRYPT_KEY, lenIV);
// Skip past the required space and binary data.
stream.skip(length);
this.nextChar();
token = this.getToken(); // read in 'NP' or '|'
if (token === 'noaccess') {
this.getToken(); // read in 'put'
}
subrs[index] = encoded;
}
break;
case 'BlueValues':
case 'OtherBlues':
case 'FamilyBlues':
case 'FamilyOtherBlues':
var blueArray = this.readNumberArray();
// *Blue* values may contain invalid data: disables reading of
// those values when hinting is disabled.
if (blueArray.length > 0 && (blueArray.length % 2) === 0 &&
HINTING_ENABLED) {
program.properties.privateData[token] = blueArray;
}
break;
case 'StemSnapH':
case 'StemSnapV':
program.properties.privateData[token] = this.readNumberArray();
break;
case 'StdHW':
case 'StdVW':
program.properties.privateData[token] =
this.readNumberArray()[0];
break;
case 'BlueShift':
case 'lenIV':
case 'BlueFuzz':
case 'BlueScale':
case 'LanguageGroup':
case 'ExpansionFactor':
program.properties.privateData[token] = this.readNumber();
break;
case 'ForceBold':
program.properties.privateData[token] = this.readBoolean();
break;
}
}
for (var i = 0; i < charstrings.length; i++) {
glyph = charstrings[i].glyph;
encoded = charstrings[i].encoded;
var charString = new Type1CharString();
var error = charString.convert(encoded, subrs);
var output = charString.output;
if (error) {
// It seems when FreeType encounters an error while evaluating a glyph
// that it completely ignores the glyph so we'll mimic that behaviour
// here and put an endchar to make the validator happy.
output = [14];
}
program.charstrings.push({
glyphName: glyph,
charstring: output,
width: charString.width,
lsb: charString.lsb,
seac: charString.seac
});
}
return program;
},
extractFontHeader: function Type1Parser_extractFontHeader(properties) {
var token;
while ((token = this.getToken()) !== null) {
if (token !== '/') {
continue;
}
token = this.getToken();
switch (token) {
case 'FontMatrix':
var matrix = this.readNumberArray();
properties.fontMatrix = matrix;
break;
case 'Encoding':
var encodingArg = this.getToken();
var encoding;
if (!/^\d+$/.test(encodingArg)) {
// encoding name is specified
encoding = getEncoding(encodingArg);
} else {
encoding = [];
var size = parseInt(encodingArg, 10) | 0;
this.getToken(); // read in 'array'
for (var j = 0; j < size; j++) {
token = this.getToken();
// skipping till first dup or def (e.g. ignoring for statement)
while (token !== 'dup' && token !== 'def') {
token = this.getToken();
if (token === null) {
return; // invalid header
}
}
if (token === 'def') {
break; // read all array data
}
var index = this.readInt();
this.getToken(); // read in '/'
var glyph = this.getToken();
encoding[index] = glyph;
this.getToken(); // read the in 'put'
}
}
properties.builtInEncoding = encoding;
break;
case 'FontBBox':
var fontBBox = this.readNumberArray();
// adjusting ascent/descent
properties.ascent = fontBBox[3];
properties.descent = fontBBox[1];
properties.ascentScaled = true;
break;
}
}
}
};
return Type1Parser;
})();
// Type1Font is also a CIDFontType0.
var Type1Font = (function Type1FontClosure() {
function findBlock(streamBytes, signature, startIndex) {
@ -3694,7 +3016,8 @@ var Type1Font = (function Type1FontClosure() {
// Get the data block containing glyphs and subrs informations
var headerBlock = getHeaderBlock(file, headerBlockLength);
headerBlockLength = headerBlock.length;
var headerBlockParser = new Type1Parser(headerBlock.stream);
var headerBlockParser = new Type1Parser(headerBlock.stream, false,
SEAC_ANALYSIS_ENABLED);
headerBlockParser.extractFontHeader(properties);
if (pfbHeaderPresent) {
@ -3706,7 +3029,8 @@ var Type1Font = (function Type1FontClosure() {
// Decrypt the data blocks and retrieve it's content
var eexecBlock = getEexecBlock(file, eexecBlockLength);
eexecBlockLength = eexecBlock.length;
var eexecBlockParser = new Type1Parser(eexecBlock.stream, true);
var eexecBlockParser = new Type1Parser(eexecBlock.stream, true,
SEAC_ANALYSIS_ENABLED);
var data = eexecBlockParser.extractFontProgram();
for (var info in data.properties) {
properties[info] = data.properties[info];
@ -3992,6 +3316,5 @@ exports.Font = Font;
exports.FontFlags = FontFlags;
exports.IdentityToUnicodeMap = IdentityToUnicodeMap;
exports.ToUnicodeMap = ToUnicodeMap;
exports.Type1Parser = Type1Parser;
exports.getFontType = getFontType;
}));