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PDF.js version 1.0.582

master v1.0.582
Yury Delendik 11 years ago
parent
4ce2a61043
commit
1edfa04554
5 changed files with 906 additions and 194 deletions
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  1. 2
      bower.json
  2. 546
      build/pdf.combined.js
  3. 4
      build/pdf.js
  4. 546
      build/pdf.worker.js
  5. 2
      package.json

2
bower.json
Unescape View File

@ -1,6 +1,6 @@ @@ -1,6 +1,6 @@
{
"name": "pdfjs-dist",
"version": "1.0.579",
"version": "1.0.582",
"keywords": [
"Mozilla",
"pdf",

546
build/pdf.combined.js
Unescape View File

@ -22,8 +22,8 @@ if (typeof PDFJS === 'undefined') { @@ -22,8 +22,8 @@ if (typeof PDFJS === 'undefined') {
(typeof window !== 'undefined' ? window : this).PDFJS = {};
}
PDFJS.version = '1.0.579';
PDFJS.build = '12b5048';
PDFJS.version = '1.0.582';
PDFJS.build = 'cb4a847';
(function pdfjsWrapper() {
// Use strict in our context only - users might not want it
@ -10155,6 +10155,24 @@ var PDFFunction = (function PDFFunctionClosure() { @@ -10155,6 +10155,24 @@ var PDFFunction = (function PDFFunctionClosure() {
return this.fromIR(IR);
},
parseArray: function PDFFunction_parseArray(xref, fnObj) {
if (!isArray(fnObj)) {
// not an array -- parsing as regular function
return this.parse(xref, fnObj);
}
var fnArray = [];
for (var j = 0, jj = fnObj.length; j < jj; j++) {
var obj = xref.fetchIfRef(fnObj[j]);
fnArray.push(PDFFunction.parse(xref, obj));
}
return function (src, srcOffset, dest, destOffset) {
for (var i = 0, ii = fnArray.length; i < ii; i++) {
fnArray[i](src, srcOffset, dest, destOffset + i);
}
};
},
constructSampled: function PDFFunction_constructSampled(str, dict) {
function toMultiArray(arr) {
var inputLength = arr.length;
@ -10219,7 +10237,8 @@ var PDFFunction = (function PDFFunctionClosure() { @@ -10219,7 +10237,8 @@ var PDFFunction = (function PDFFunctionClosure() {
return ymin + ((x - xmin) * ((ymax - ymin) / (xmax - xmin)));
}
return function constructSampledFromIRResult(args) {
return function constructSampledFromIRResult(src, srcOffset,
dest, destOffset) {
// See chapter 3, page 110 of the PDF reference.
var m = IR[1];
var domain = IR[2];
@ -10231,13 +10250,6 @@ var PDFFunction = (function PDFFunctionClosure() { @@ -10231,13 +10250,6 @@ var PDFFunction = (function PDFFunctionClosure() {
//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;
@ -10254,7 +10266,8 @@ var PDFFunction = (function PDFFunctionClosure() { @@ -10254,7 +10266,8 @@ var PDFFunction = (function PDFFunctionClosure() {
// 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);
var xi = Math.min(Math.max(src[srcOffset +i], domain_2i),
domain_2i_1);
// e_i = Interpolate(x_i', Domain_2i, Domain_2i+1,
// Encode_2i, Encode_2i+1)
@ -10285,7 +10298,6 @@ var PDFFunction = (function PDFFunctionClosure() { @@ -10285,7 +10298,6 @@ var PDFFunction = (function PDFFunctionClosure() {
pos <<= 1;
}
var y = new Float64Array(n);
for (j = 0; j < n; ++j) {
// Sum all cube vertices' samples portions
var rj = 0;
@ -10298,10 +10310,9 @@ var PDFFunction = (function PDFFunctionClosure() { @@ -10298,10 +10310,9 @@ var PDFFunction = (function PDFFunctionClosure() {
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]);
dest[destOffset + j] = Math.min(Math.max(rj, range[j][0]),
range[j][1]);
}
return y;
};
},
@ -10332,16 +10343,13 @@ var PDFFunction = (function PDFFunctionClosure() { @@ -10332,16 +10343,13 @@ var PDFFunction = (function PDFFunctionClosure() {
var length = diff.length;
return function constructInterpolatedFromIRResult(args) {
var x = (n === 1 ? args[0] : Math.pow(args[0], n));
return function constructInterpolatedFromIRResult(src, srcOffset,
dest, destOffset) {
var x = n === 1 ? src[srcOffset] : Math.pow(src[srcOffset], n);
var out = [];
for (var j = 0; j < length; ++j) {
out.push(c0[j] + (x * diff[j]));
dest[destOffset + j] = c0[j] + (x * diff[j]);
}
return out;
};
},
@ -10375,12 +10383,14 @@ var PDFFunction = (function PDFFunctionClosure() { @@ -10375,12 +10383,14 @@ var PDFFunction = (function PDFFunctionClosure() {
var encode = IR[3];
var fnsIR = IR[4];
var fns = [];
var tmpBuf = new Float32Array(1);
for (var i = 0, ii = fnsIR.length; i < ii; i++) {
fns.push(PDFFunction.fromIR(fnsIR[i]));
}
return function constructStichedFromIRResult(args) {
return function constructStichedFromIRResult(src, srcOffset,
dest, destOffset) {
var clip = function constructStichedFromIRClip(v, min, max) {
if (v > max) {
v = max;
@ -10391,7 +10401,7 @@ var PDFFunction = (function PDFFunctionClosure() { @@ -10391,7 +10401,7 @@ var PDFFunction = (function PDFFunctionClosure() {
};
// clip to domain
var v = clip(args[0], domain[0], domain[1]);
var v = clip(src[srcOffset], 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]) {
@ -10412,10 +10422,10 @@ var PDFFunction = (function PDFFunctionClosure() { @@ -10412,10 +10422,10 @@ var PDFFunction = (function PDFFunctionClosure() {
var rmin = encode[2 * i];
var rmax = encode[2 * i + 1];
var v2 = rmin + (v - dmin) * (rmax - rmin) / (dmax - dmin);
tmpBuf[0] = rmin + (v - dmin) * (rmax - rmin) / (dmax - dmin);
// call the appropriate function
return fns[i]([v2]);
fns[i](tmpBuf, 0, dest, destOffset);
};
},
@ -10444,6 +10454,18 @@ var PDFFunction = (function PDFFunctionClosure() { @@ -10444,6 +10454,18 @@ var PDFFunction = (function PDFFunctionClosure() {
var domain = IR[1];
var range = IR[2];
var code = IR[3];
var compiled = (new PostScriptCompiler()).compile(code, domain, range);
if (compiled) {
// Compiled function consists of simple expressions such as addition,
// subtraction, Math.max, and also contains 'var' and 'return'
// statements. See the generation in the PostScriptCompiler below.
/*jshint -W054 */
return new Function('src', 'srcOffset', 'dest', 'destOffset', compiled);
}
info('Unable to compile PS function');
var numOutputs = range.length >> 1;
var numInputs = domain.length >> 1;
var evaluator = new PostScriptEvaluator(code);
@ -10454,22 +10476,26 @@ var PDFFunction = (function PDFFunctionClosure() { @@ -10454,22 +10476,26 @@ var PDFFunction = (function PDFFunctionClosure() {
// seen in our tests.
var MAX_CACHE_SIZE = 2048 * 4;
var cache_available = MAX_CACHE_SIZE;
return function constructPostScriptFromIRResult(args) {
var tmpBuf = new Float32Array(numInputs);
return function constructPostScriptFromIRResult(src, srcOffset,
dest, destOffset) {
var i, value;
var key = '';
var input = new Array(numInputs);
var input = tmpBuf;
for (i = 0; i < numInputs; i++) {
value = args[i];
value = src[srcOffset + i];
input[i] = value;
key += value + '_';
}
var cachedValue = cache[key];
if (cachedValue !== undefined) {
return cachedValue;
cachedValue.set(dest, destOffset);
return;
}
var output = new Array(numOutputs);
var output = new Float32Array(numOutputs);
var stack = evaluator.execute(input);
var stackIndex = stack.length - numOutputs;
for (i = 0; i < numOutputs; i++) {
@ -10489,7 +10515,7 @@ var PDFFunction = (function PDFFunctionClosure() { @@ -10489,7 +10515,7 @@ var PDFFunction = (function PDFFunctionClosure() {
cache_available--;
cache[key] = output;
}
return output;
output.set(dest, destOffset);
};
}
};
@ -10512,7 +10538,8 @@ function isPDFFunction(v) { @@ -10512,7 +10538,8 @@ function isPDFFunction(v) {
var PostScriptStack = (function PostScriptStackClosure() {
var MAX_STACK_SIZE = 100;
function PostScriptStack(initialStack) {
this.stack = initialStack || [];
this.stack = !initialStack ? [] :
Array.prototype.slice.call(initialStack, 0);
}
PostScriptStack.prototype = {
@ -10795,6 +10822,373 @@ var PostScriptEvaluator = (function PostScriptEvaluatorClosure() { @@ -10795,6 +10822,373 @@ var PostScriptEvaluator = (function PostScriptEvaluatorClosure() {
return PostScriptEvaluator;
})();
// Most of the PDFs functions consist of simple operations such as:
// roll, exch, sub, cvr, pop, index, dup, mul, if, gt, add.
//
// We can compile most of such programs, and at the same moment, we can
// optimize some expressions using basic math properties. Keeping track of
// min/max values will allow us to avoid extra Math.min/Math.max calls.
var PostScriptCompiler = (function PostScriptCompilerClosure() {
function AstNode(type) {
this.type = type;
}
AstNode.prototype.visit = function (visitor) {
throw new Error('abstract method');
};
function AstArgument(index, min, max) {
AstNode.call(this, 'args');
this.index = index;
this.min = min;
this.max = max;
}
AstArgument.prototype = Object.create(AstNode.prototype);
AstArgument.prototype.visit = function (visitor) {
visitor.visitArgument(this);
};
function AstLiteral(number) {
AstNode.call(this, 'literal');
this.number = number;
this.min = number;
this.max = number;
}
AstLiteral.prototype = Object.create(AstNode.prototype);
AstLiteral.prototype.visit = function (visitor) {
visitor.visitLiteral(this);
};
function AstBinaryOperation(op, arg1, arg2, min, max) {
AstNode.call(this, 'binary');
this.op = op;
this.arg1 = arg1;
this.arg2 = arg2;
this.min = min;
this.max = max;
}
AstBinaryOperation.prototype = Object.create(AstNode.prototype);
AstBinaryOperation.prototype.visit = function (visitor) {
visitor.visitBinaryOperation(this);
};
function AstMin(arg, max) {
AstNode.call(this, 'max');
this.arg = arg;
this.min = arg.min;
this.max = max;
}
AstMin.prototype = Object.create(AstNode.prototype);
AstMin.prototype.visit = function (visitor) {
visitor.visitMin(this);
};
function AstVariable(index, min, max) {
AstNode.call(this, 'var');
this.index = index;
this.min = min;
this.max = max;
}
AstVariable.prototype = Object.create(AstNode.prototype);
AstVariable.prototype.visit = function (visitor) {
visitor.visitVariable(this);
};
function AstVariableDefinition(variable, arg) {
AstNode.call(this, 'definition');
this.variable = variable;
this.arg = arg;
}
AstVariableDefinition.prototype = Object.create(AstNode.prototype);
AstVariableDefinition.prototype.visit = function (visitor) {
visitor.visitVariableDefinition(this);
};
function ExpressionBuilderVisitor() {
this.parts = [];
}
ExpressionBuilderVisitor.prototype = {
visitArgument: function (arg) {
this.parts.push('Math.max(', arg.min, ', Math.min(',
arg.max, ', src[srcOffset + ', arg.index, ']))');
},
visitVariable: function (variable) {
this.parts.push('v', variable.index);
},
visitLiteral: function (literal) {
this.parts.push(literal.number);
},
visitBinaryOperation: function (operation) {
this.parts.push('(');
operation.arg1.visit(this);
this.parts.push(' ', operation.op, ' ');
operation.arg2.visit(this);
this.parts.push(')');
},
visitVariableDefinition: function (definition) {
this.parts.push('var ');
definition.variable.visit(this);
this.parts.push(' = ');
definition.arg.visit(this);
this.parts.push(';');
},
visitMin: function (max) {
this.parts.push('Math.min(');
max.arg.visit(this);
this.parts.push(', ', max.max, ')');
},
toString: function () {
return this.parts.join('');
}
};
function buildAddOperation(num1, num2) {
if (num2.type === 'literal' && num2.number === 0) {
// optimization: second operand is 0
return num1;
}
if (num1.type === 'literal' && num1.number === 0) {
// optimization: first operand is 0
return num2;
}
if (num2.type === 'literal' && num1.type === 'literal') {
// optimization: operands operand are literals
return new AstLiteral(num1.number + num2.number);
}
return new AstBinaryOperation('+', num1, num2,
num1.min + num2.min, num1.max + num2.max);
}
function buildMulOperation(num1, num2) {
if (num2.type === 'literal') {
// optimization: second operands is a literal...
if (num2.number === 0) {
return new AstLiteral(0); // and it's 0
} else if (num2.number === 1) {
return num1; // and it's 1
} else if (num1.type === 'literal') {
// ... and first operands is a literal too
return new AstLiteral(num1.number * num2.number);
}
}
if (num1.type === 'literal') {
// optimization: first operands is a literal...
if (num1.number === 0) {
return new AstLiteral(0); // and it's 0
} else if (num1.number === 1) {
return num2; // and it's 1
}
}
var min = Math.min(num1.min * num2.min, num1.min * num2.max,
num1.max * num2.min, num1.max * num2.max);
var max = Math.max(num1.min * num2.min, num1.min * num2.max,
num1.max * num2.min, num1.max * num2.max);
return new AstBinaryOperation('*', num1, num2, min, max);
}
function buildSubOperation(num1, num2) {
if (num2.type === 'literal') {
// optimization: second operands is a literal...
if (num2.number === 0) {
return num1; // ... and it's 0
} else if (num1.type === 'literal') {
// ... and first operands is a literal too
return new AstLiteral(num1.number - num2.number);
}
}
if (num2.type === 'binary' && num2.op === '-' &&
num1.type === 'literal' && num1.number === 1 &&
num2.arg1.type === 'literal' && num2.arg1.number === 1) {
// optimization for case: 1 - (1 - x)
return num2.arg2;
}
return new AstBinaryOperation('-', num1, num2,
num1.min - num2.max, num1.max - num2.min);
}
function buildMinOperation(num1, max) {
if (num1.min >= max) {
// optimization: num1 min value is not less than required max
return new AstLiteral(max); // just returning max
} else if (num1.max <= max) {
// optimization: num1 max value is not greater than required max
return num1; // just returning an argument
}
return new AstMin(num1, max);
}
function PostScriptCompiler() {}
PostScriptCompiler.prototype = {
compile: function PostScriptCompiler_compile(code, domain, range) {
var stack = [];
var i, ii;
var instructions = [];
var inputSize = domain.length >> 1, outputSize = range.length >> 1;
var lastRegister = 0;
var n, j, min, max;
var num1, num2, ast1, ast2, tmpVar, item;
for (i = 0; i < inputSize; i++) {
stack.push(new AstArgument(i, domain[i * 2], domain[i * 2 + 1]));
}
for (i = 0, ii = code.length; i < ii; i++) {
item = code[i];
if (typeof item === 'number') {
stack.push(new AstLiteral(item));
continue;
}
switch (item) {
case 'add':
if (stack.length < 2) {
return null;
}
num2 = stack.pop();
num1 = stack.pop();
stack.push(buildAddOperation(num1, num2));
break;
case 'cvr':
if (stack.length < 1) {
return null;
}
break;
case 'mul':
if (stack.length < 2) {
return null;
}
num2 = stack.pop();
num1 = stack.pop();
stack.push(buildMulOperation(num1, num2));
break;
case 'sub':
if (stack.length < 2) {
return null;
}
num2 = stack.pop();
num1 = stack.pop();
stack.push(buildSubOperation(num1, num2));
break;
case 'exch':
if (stack.length < 2) {
return null;
}
ast1 = stack.pop(); ast2 = stack.pop();
stack.push(ast1, ast2);
break;
case 'pop':
if (stack.length < 1) {
return null;
}
stack.pop();
break;
case 'index':
if (stack.length < 1) {
return null;
}
num1 = stack.pop();
if (num1.type !== 'literal') {
return null;
}
n = num1.number;
if (n < 0 || (n|0) !== n || stack.length < n) {
return null;
}
ast1 = stack[stack.length - n - 1];
if (ast1.type === 'literal' || ast1.type === 'var') {
stack.push(ast1);
break;
}
tmpVar = new AstVariable(lastRegister++, ast1.min, ast1.max);
stack[stack.length - n - 1] = tmpVar;
stack.push(tmpVar);
instructions.push(new AstVariableDefinition(tmpVar, ast1));
break;
case 'dup':
if (stack.length < 1) {
return null;
}
if (typeof code[i + 1] === 'number' && code[i + 2] === 'gt' &&
code[i + 3] === i + 7 && code[i + 4] === 'jz' &&
code[i + 5] === 'pop' && code[i + 6] === code[i + 1]) {
// special case of the commands sequence for the min operation
num1 = stack.pop();
stack.push(buildMinOperation(num1, code[i + 1]));
i += 6;
break;
}
ast1 = stack[stack.length - 1];
if (ast1.type === 'literal' || ast1.type === 'var') {
// we don't have to save into intermediate variable a literal or
// variable.
stack.push(ast1);
break;
}
tmpVar = new AstVariable(lastRegister++, ast1.min, ast1.max);
stack[stack.length - 1] = tmpVar;
stack.push(tmpVar);
instructions.push(new AstVariableDefinition(tmpVar, ast1));
break;
case 'roll':
if (stack.length < 2) {
return null;
}
num2 = stack.pop();
num1 = stack.pop();
if (num2.type !== 'literal' || num1.type !== 'literal') {
// both roll operands must be numbers
return null;
}
j = num2.number;
n = num1.number;
if (n <= 0 || (n|0) !== n || (j|0) !== j || stack.length < n) {
// ... and integers
return null;
}
j = ((j % n) + n) % n;
if (j === 0) {
break; // just skipping -- there are nothing to rotate
}
Array.prototype.push.apply(stack,
stack.splice(stack.length - n, n - j));
break;
default:
return null; // unsupported operator
}
}
if (stack.length !== outputSize) {
return null;
}
var result = [];
instructions.forEach(function (instruction) {
var statementBuilder = new ExpressionBuilderVisitor();
instruction.visit(statementBuilder);
result.push(statementBuilder.toString());
});
stack.forEach(function (expr, i) {
var statementBuilder = new ExpressionBuilderVisitor();
expr.visit(statementBuilder);
var min = range[i * 2], max = range[i * 2 + 1];
var out = [statementBuilder.toString()];
if (min > expr.min) {
out.unshift('Math.max(', min, ', ');
out.push(')');
}
if (max < expr.max) {
out.unshift('Math.min(', max, ', ');
out.push(')');
}
out.unshift('dest[destOffset + ', i, '] = ');
out.push(';');
result.push(out.join(''));
});
return result.join('\n');
}
};
return PostScriptCompiler;
})();
var ColorSpace = (function ColorSpaceClosure() {
// Constructor should define this.numComps, this.defaultColor, this.name
@ -11157,23 +11551,20 @@ var AlternateCS = (function AlternateCSClosure() { @@ -11157,23 +11551,20 @@ var AlternateCS = (function AlternateCSClosure() {
}
this.base = base;
this.tintFn = tintFn;
this.tmpBuf = new Float32Array(base.numComps);
}
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);
var tmpBuf = this.tmpBuf;
this.tintFn(src, srcOffset, tmpBuf, 0);
this.base.getRgbItem(tmpBuf, 0, dest, destOffset);
},
getRgbBuffer: function AlternateCS_getRgbBuffer(src, srcOffset, count,
dest, destOffset, bits,
alpha01) {
var tinted;
var tintFn = this.tintFn;
var base = this.base;
var scale = 1 / ((1 << bits) - 1);
@ -11186,13 +11577,14 @@ var AlternateCS = (function AlternateCSClosure() { @@ -11186,13 +11577,14 @@ var AlternateCS = (function AlternateCSClosure() {
var numComps = this.numComps;
var scaled = new Float32Array(numComps);
var tinted = new Float32Array(baseNumComps);
var i, j;
if (usesZeroToOneRange) {
for (i = 0; i < count; i++) {
for (j = 0; j < numComps; j++) {
scaled[j] = src[srcOffset++] * scale;
}
tinted = tintFn(scaled);
tintFn(scaled, 0, tinted, 0);
for (j = 0; j < baseNumComps; j++) {
baseBuf[pos++] = tinted[j] * 255;
}
@ -11202,7 +11594,7 @@ var AlternateCS = (function AlternateCSClosure() { @@ -11202,7 +11594,7 @@ var AlternateCS = (function AlternateCSClosure() {
for (j = 0; j < numComps; j++) {
scaled[j] = src[srcOffset++] * scale;
}
tinted = tintFn(scaled);
tintFn(scaled, 0, tinted, 0);
base.getRgbItem(tinted, 0, baseBuf, pos);
pos += baseNumComps;
}
@ -13822,29 +14214,7 @@ Shadings.RadialAxial = (function RadialAxialClosure() { @@ -13822,29 +14214,7 @@ Shadings.RadialAxial = (function RadialAxialClosure() {
this.extendEnd = extendEnd;
var fnObj = dict.get('Function');
var fn;
if (isArray(fnObj)) {
var fnArray = [];
for (var j = 0, jj = fnObj.length; j < jj; j++) {
var obj = xref.fetchIfRef(fnObj[j]);
if (!isPDFFunction(obj)) {
error('Invalid function');
}
fnArray.push(PDFFunction.parse(xref, obj));
}
fn = function radialAxialColorFunction(arg) {
var out = [];
for (var i = 0, ii = fnArray.length; i < ii; i++) {
out.push(fnArray[i](arg)[0]);
}
return out;
};
} else {
if (!isPDFFunction(fnObj)) {
error('Invalid function');
}
fn = PDFFunction.parse(xref, fnObj);
}
var fn = PDFFunction.parseArray(xref, fnObj);
// 10 samples seems good enough for now, but probably won't work
// if there are sharp color changes. Ideally, we would implement
@ -13862,9 +14232,12 @@ Shadings.RadialAxial = (function RadialAxialClosure() { @@ -13862,9 +14232,12 @@ Shadings.RadialAxial = (function RadialAxialClosure() {
return;
}
var color = new Float32Array(cs.numComps), ratio = new Float32Array(1);
var rgbColor;
for (var i = t0; i <= t1; i += step) {
rgbColor = cs.getRgb(fn([i]), 0);
ratio[0] = i;
fn(ratio, 0, color, 0);
rgbColor = cs.getRgb(color, 0);
var cssColor = Util.makeCssRgb(rgbColor);
colorStops.push([(i - t0) / diff, cssColor]);
}
@ -13932,6 +14305,12 @@ Shadings.Mesh = (function MeshClosure() { @@ -13932,6 +14305,12 @@ Shadings.Mesh = (function MeshClosure() {
this.context = context;
this.buffer = 0;
this.bufferLength = 0;
var numComps = context.numComps;
this.tmpCompsBuf = new Float32Array(numComps);
var csNumComps = context.colorSpace;
this.tmpCsCompsBuf = context.colorFn ? new Float32Array(csNumComps) :
this.tmpCompsBuf;
}
MeshStreamReader.prototype = {
get hasData() {
@ -14002,15 +14381,16 @@ Shadings.Mesh = (function MeshClosure() { @@ -14002,15 +14381,16 @@ Shadings.Mesh = (function MeshClosure() {
var scale = bitsPerComponent < 32 ? 1 / ((1 << bitsPerComponent) - 1) :
2.3283064365386963e-10; // 2 ^ -32
var decode = this.context.decode;
var components = [];
var components = this.tmpCompsBuf;
for (var i = 0, j = 4; i < numComps; i++, j += 2) {
var ci = this.readBits(bitsPerComponent);
components.push(ci * scale * (decode[j + 1] - decode[j]) + decode[j]);
components[i] = ci * scale * (decode[j + 1] - decode[j]) + decode[j];
}
var color = this.tmpCsCompsBuf;
if (this.context.colorFn) {
components = this.context.colorFn(components);
this.context.colorFn(components, 0, color, 0);
}
return this.context.colorSpace.getRgb(components, 0);
return this.context.colorSpace.getRgb(color, 0);
}
};
@ -14416,31 +14796,7 @@ Shadings.Mesh = (function MeshClosure() { @@ -14416,31 +14796,7 @@ Shadings.Mesh = (function MeshClosure() {
cs.getRgb(dict.get('Background'), 0) : null;
var fnObj = dict.get('Function');
var fn;
if (!fnObj) {
fn = null;
} else if (isArray(fnObj)) {
var fnArray = [];
for (var j = 0, jj = fnObj.length; j < jj; j++) {
var obj = xref.fetchIfRef(fnObj[j]);
if (!isPDFFunction(obj)) {
error('Invalid function');
}
fnArray.push(PDFFunction.parse(xref, obj));
}
fn = function radialAxialColorFunction(arg) {
var out = [];
for (var i = 0, ii = fnArray.length; i < ii; i++) {
out.push(fnArray[i](arg)[0]);
}
return out;
};
} else {
if (!isPDFFunction(fnObj)) {
error('Invalid function');
}
fn = PDFFunction.parse(xref, fnObj);
}
var fn = fnObj ? PDFFunction.parseArray(xref, fnObj) : null;
this.coords = [];
this.colors = [];

4
build/pdf.js
Unescape View File

@ -22,8 +22,8 @@ if (typeof PDFJS === 'undefined') { @@ -22,8 +22,8 @@ if (typeof PDFJS === 'undefined') {
(typeof window !== 'undefined' ? window : this).PDFJS = {};
}
PDFJS.version = '1.0.579';
PDFJS.build = '12b5048';
PDFJS.version = '1.0.582';
PDFJS.build = 'cb4a847';
(function pdfjsWrapper() {
// Use strict in our context only - users might not want it

546
build/pdf.worker.js vendored
Unescape View File

@ -22,8 +22,8 @@ if (typeof PDFJS === 'undefined') { @@ -22,8 +22,8 @@ if (typeof PDFJS === 'undefined') {
(typeof window !== 'undefined' ? window : this).PDFJS = {};
}
PDFJS.version = '1.0.579';
PDFJS.build = '12b5048';
PDFJS.version = '1.0.582';
PDFJS.build = 'cb4a847';
(function pdfjsWrapper() {
// Use strict in our context only - users might not want it
@ -5298,6 +5298,24 @@ var PDFFunction = (function PDFFunctionClosure() { @@ -5298,6 +5298,24 @@ var PDFFunction = (function PDFFunctionClosure() {
return this.fromIR(IR);
},
parseArray: function PDFFunction_parseArray(xref, fnObj) {
if (!isArray(fnObj)) {
// not an array -- parsing as regular function
return this.parse(xref, fnObj);
}
var fnArray = [];
for (var j = 0, jj = fnObj.length; j < jj; j++) {
var obj = xref.fetchIfRef(fnObj[j]);
fnArray.push(PDFFunction.parse(xref, obj));
}
return function (src, srcOffset, dest, destOffset) {
for (var i = 0, ii = fnArray.length; i < ii; i++) {
fnArray[i](src, srcOffset, dest, destOffset + i);
}
};
},
constructSampled: function PDFFunction_constructSampled(str, dict) {
function toMultiArray(arr) {
var inputLength = arr.length;
@ -5362,7 +5380,8 @@ var PDFFunction = (function PDFFunctionClosure() { @@ -5362,7 +5380,8 @@ var PDFFunction = (function PDFFunctionClosure() {
return ymin + ((x - xmin) * ((ymax - ymin) / (xmax - xmin)));
}
return function constructSampledFromIRResult(args) {
return function constructSampledFromIRResult(src, srcOffset,
dest, destOffset) {
// See chapter 3, page 110 of the PDF reference.
var m = IR[1];
var domain = IR[2];
@ -5374,13 +5393,6 @@ var PDFFunction = (function PDFFunctionClosure() { @@ -5374,13 +5393,6 @@ var PDFFunction = (function PDFFunctionClosure() {
//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;
@ -5397,7 +5409,8 @@ var PDFFunction = (function PDFFunctionClosure() { @@ -5397,7 +5409,8 @@ var PDFFunction = (function PDFFunctionClosure() {
// 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);
var xi = Math.min(Math.max(src[srcOffset +i], domain_2i),
domain_2i_1);
// e_i = Interpolate(x_i', Domain_2i, Domain_2i+1,
// Encode_2i, Encode_2i+1)
@ -5428,7 +5441,6 @@ var PDFFunction = (function PDFFunctionClosure() { @@ -5428,7 +5441,6 @@ var PDFFunction = (function PDFFunctionClosure() {
pos <<= 1;
}
var y = new Float64Array(n);
for (j = 0; j < n; ++j) {
// Sum all cube vertices' samples portions
var rj = 0;
@ -5441,10 +5453,9 @@ var PDFFunction = (function PDFFunctionClosure() { @@ -5441,10 +5453,9 @@ var PDFFunction = (function PDFFunctionClosure() {
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]);
dest[destOffset + j] = Math.min(Math.max(rj, range[j][0]),
range[j][1]);
}
return y;
};
},
@ -5475,16 +5486,13 @@ var PDFFunction = (function PDFFunctionClosure() { @@ -5475,16 +5486,13 @@ var PDFFunction = (function PDFFunctionClosure() {
var length = diff.length;
return function constructInterpolatedFromIRResult(args) {
var x = (n === 1 ? args[0] : Math.pow(args[0], n));
return function constructInterpolatedFromIRResult(src, srcOffset,
dest, destOffset) {
var x = n === 1 ? src[srcOffset] : Math.pow(src[srcOffset], n);
var out = [];
for (var j = 0; j < length; ++j) {
out.push(c0[j] + (x * diff[j]));
dest[destOffset + j] = c0[j] + (x * diff[j]);
}
return out;
};
},
@ -5518,12 +5526,14 @@ var PDFFunction = (function PDFFunctionClosure() { @@ -5518,12 +5526,14 @@ var PDFFunction = (function PDFFunctionClosure() {
var encode = IR[3];
var fnsIR = IR[4];
var fns = [];
var tmpBuf = new Float32Array(1);
for (var i = 0, ii = fnsIR.length; i < ii; i++) {
fns.push(PDFFunction.fromIR(fnsIR[i]));
}
return function constructStichedFromIRResult(args) {
return function constructStichedFromIRResult(src, srcOffset,
dest, destOffset) {
var clip = function constructStichedFromIRClip(v, min, max) {
if (v > max) {
v = max;
@ -5534,7 +5544,7 @@ var PDFFunction = (function PDFFunctionClosure() { @@ -5534,7 +5544,7 @@ var PDFFunction = (function PDFFunctionClosure() {
};
// clip to domain
var v = clip(args[0], domain[0], domain[1]);
var v = clip(src[srcOffset], 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]) {
@ -5555,10 +5565,10 @@ var PDFFunction = (function PDFFunctionClosure() { @@ -5555,10 +5565,10 @@ var PDFFunction = (function PDFFunctionClosure() {
var rmin = encode[2 * i];
var rmax = encode[2 * i + 1];
var v2 = rmin + (v - dmin) * (rmax - rmin) / (dmax - dmin);
tmpBuf[0] = rmin + (v - dmin) * (rmax - rmin) / (dmax - dmin);
// call the appropriate function
return fns[i]([v2]);
fns[i](tmpBuf, 0, dest, destOffset);
};
},
@ -5587,6 +5597,18 @@ var PDFFunction = (function PDFFunctionClosure() { @@ -5587,6 +5597,18 @@ var PDFFunction = (function PDFFunctionClosure() {
var domain = IR[1];
var range = IR[2];
var code = IR[3];
var compiled = (new PostScriptCompiler()).compile(code, domain, range);
if (compiled) {
// Compiled function consists of simple expressions such as addition,
// subtraction, Math.max, and also contains 'var' and 'return'
// statements. See the generation in the PostScriptCompiler below.
/*jshint -W054 */
return new Function('src', 'srcOffset', 'dest', 'destOffset', compiled);
}
info('Unable to compile PS function');
var numOutputs = range.length >> 1;
var numInputs = domain.length >> 1;
var evaluator = new PostScriptEvaluator(code);
@ -5597,22 +5619,26 @@ var PDFFunction = (function PDFFunctionClosure() { @@ -5597,22 +5619,26 @@ var PDFFunction = (function PDFFunctionClosure() {
// seen in our tests.
var MAX_CACHE_SIZE = 2048 * 4;
var cache_available = MAX_CACHE_SIZE;
return function constructPostScriptFromIRResult(args) {
var tmpBuf = new Float32Array(numInputs);
return function constructPostScriptFromIRResult(src, srcOffset,
dest, destOffset) {
var i, value;
var key = '';
var input = new Array(numInputs);
var input = tmpBuf;
for (i = 0; i < numInputs; i++) {
value = args[i];
value = src[srcOffset + i];
input[i] = value;
key += value + '_';
}
var cachedValue = cache[key];
if (cachedValue !== undefined) {
return cachedValue;
cachedValue.set(dest, destOffset);
return;
}
var output = new Array(numOutputs);
var output = new Float32Array(numOutputs);
var stack = evaluator.execute(input);
var stackIndex = stack.length - numOutputs;
for (i = 0; i < numOutputs; i++) {
@ -5632,7 +5658,7 @@ var PDFFunction = (function PDFFunctionClosure() { @@ -5632,7 +5658,7 @@ var PDFFunction = (function PDFFunctionClosure() {
cache_available--;
cache[key] = output;
}
return output;
output.set(dest, destOffset);
};
}
};
@ -5655,7 +5681,8 @@ function isPDFFunction(v) { @@ -5655,7 +5681,8 @@ function isPDFFunction(v) {
var PostScriptStack = (function PostScriptStackClosure() {
var MAX_STACK_SIZE = 100;
function PostScriptStack(initialStack) {
this.stack = initialStack || [];
this.stack = !initialStack ? [] :
Array.prototype.slice.call(initialStack, 0);
}
PostScriptStack.prototype = {
@ -5938,6 +5965,373 @@ var PostScriptEvaluator = (function PostScriptEvaluatorClosure() { @@ -5938,6 +5965,373 @@ var PostScriptEvaluator = (function PostScriptEvaluatorClosure() {
return PostScriptEvaluator;
})();
// Most of the PDFs functions consist of simple operations such as:
// roll, exch, sub, cvr, pop, index, dup, mul, if, gt, add.
//
// We can compile most of such programs, and at the same moment, we can
// optimize some expressions using basic math properties. Keeping track of
// min/max values will allow us to avoid extra Math.min/Math.max calls.
var PostScriptCompiler = (function PostScriptCompilerClosure() {
function AstNode(type) {
this.type = type;
}
AstNode.prototype.visit = function (visitor) {
throw new Error('abstract method');
};
function AstArgument(index, min, max) {
AstNode.call(this, 'args');
this.index = index;
this.min = min;
this.max = max;
}
AstArgument.prototype = Object.create(AstNode.prototype);
AstArgument.prototype.visit = function (visitor) {
visitor.visitArgument(this);
};
function AstLiteral(number) {
AstNode.call(this, 'literal');
this.number = number;
this.min = number;
this.max = number;
}
AstLiteral.prototype = Object.create(AstNode.prototype);
AstLiteral.prototype.visit = function (visitor) {
visitor.visitLiteral(this);
};
function AstBinaryOperation(op, arg1, arg2, min, max) {
AstNode.call(this, 'binary');
this.op = op;
this.arg1 = arg1;
this.arg2 = arg2;
this.min = min;
this.max = max;
}
AstBinaryOperation.prototype = Object.create(AstNode.prototype);
AstBinaryOperation.prototype.visit = function (visitor) {
visitor.visitBinaryOperation(this);
};
function AstMin(arg, max) {
AstNode.call(this, 'max');
this.arg = arg;
this.min = arg.min;
this.max = max;
}
AstMin.prototype = Object.create(AstNode.prototype);
AstMin.prototype.visit = function (visitor) {
visitor.visitMin(this);
};
function AstVariable(index, min, max) {
AstNode.call(this, 'var');
this.index = index;
this.min = min;
this.max = max;
}
AstVariable.prototype = Object.create(AstNode.prototype);
AstVariable.prototype.visit = function (visitor) {
visitor.visitVariable(this);
};
function AstVariableDefinition(variable, arg) {
AstNode.call(this, 'definition');
this.variable = variable;
this.arg = arg;
}
AstVariableDefinition.prototype = Object.create(AstNode.prototype);
AstVariableDefinition.prototype.visit = function (visitor) {
visitor.visitVariableDefinition(this);
};
function ExpressionBuilderVisitor() {
this.parts = [];
}
ExpressionBuilderVisitor.prototype = {
visitArgument: function (arg) {
this.parts.push('Math.max(', arg.min, ', Math.min(',
arg.max, ', src[srcOffset + ', arg.index, ']))');
},
visitVariable: function (variable) {
this.parts.push('v', variable.index);
},
visitLiteral: function (literal) {
this.parts.push(literal.number);
},
visitBinaryOperation: function (operation) {
this.parts.push('(');
operation.arg1.visit(this);
this.parts.push(' ', operation.op, ' ');
operation.arg2.visit(this);
this.parts.push(')');
},
visitVariableDefinition: function (definition) {
this.parts.push('var ');
definition.variable.visit(this);
this.parts.push(' = ');
definition.arg.visit(this);
this.parts.push(';');
},
visitMin: function (max) {
this.parts.push('Math.min(');
max.arg.visit(this);
this.parts.push(', ', max.max, ')');
},
toString: function () {
return this.parts.join('');
}
};
function buildAddOperation(num1, num2) {
if (num2.type === 'literal' && num2.number === 0) {
// optimization: second operand is 0
return num1;
}
if (num1.type === 'literal' && num1.number === 0) {
// optimization: first operand is 0
return num2;
}
if (num2.type === 'literal' && num1.type === 'literal') {
// optimization: operands operand are literals
return new AstLiteral(num1.number + num2.number);
}
return new AstBinaryOperation('+', num1, num2,
num1.min + num2.min, num1.max + num2.max);
}
function buildMulOperation(num1, num2) {
if (num2.type === 'literal') {
// optimization: second operands is a literal...
if (num2.number === 0) {
return new AstLiteral(0); // and it's 0
} else if (num2.number === 1) {
return num1; // and it's 1
} else if (num1.type === 'literal') {
// ... and first operands is a literal too
return new AstLiteral(num1.number * num2.number);
}
}
if (num1.type === 'literal') {
// optimization: first operands is a literal...
if (num1.number === 0) {
return new AstLiteral(0); // and it's 0
} else if (num1.number === 1) {
return num2; // and it's 1
}
}
var min = Math.min(num1.min * num2.min, num1.min * num2.max,
num1.max * num2.min, num1.max * num2.max);
var max = Math.max(num1.min * num2.min, num1.min * num2.max,
num1.max * num2.min, num1.max * num2.max);
return new AstBinaryOperation('*', num1, num2, min, max);
}
function buildSubOperation(num1, num2) {
if (num2.type === 'literal') {
// optimization: second operands is a literal...
if (num2.number === 0) {
return num1; // ... and it's 0
} else if (num1.type === 'literal') {
// ... and first operands is a literal too
return new AstLiteral(num1.number - num2.number);
}
}
if (num2.type === 'binary' && num2.op === '-' &&
num1.type === 'literal' && num1.number === 1 &&
num2.arg1.type === 'literal' && num2.arg1.number === 1) {
// optimization for case: 1 - (1 - x)
return num2.arg2;
}
return new AstBinaryOperation('-', num1, num2,
num1.min - num2.max, num1.max - num2.min);
}
function buildMinOperation(num1, max) {
if (num1.min >= max) {
// optimization: num1 min value is not less than required max
return new AstLiteral(max); // just returning max
} else if (num1.max <= max) {
// optimization: num1 max value is not greater than required max
return num1; // just returning an argument
}
return new AstMin(num1, max);
}
function PostScriptCompiler() {}
PostScriptCompiler.prototype = {
compile: function PostScriptCompiler_compile(code, domain, range) {
var stack = [];
var i, ii;
var instructions = [];
var inputSize = domain.length >> 1, outputSize = range.length >> 1;
var lastRegister = 0;
var n, j, min, max;
var num1, num2, ast1, ast2, tmpVar, item;
for (i = 0; i < inputSize; i++) {
stack.push(new AstArgument(i, domain[i * 2], domain[i * 2 + 1]));
}
for (i = 0, ii = code.length; i < ii; i++) {
item = code[i];
if (typeof item === 'number') {
stack.push(new AstLiteral(item));
continue;
}
switch (item) {
case 'add':
if (stack.length < 2) {
return null;
}
num2 = stack.pop();
num1 = stack.pop();
stack.push(buildAddOperation(num1, num2));
break;
case 'cvr':
if (stack.length < 1) {
return null;
}
break;
case 'mul':
if (stack.length < 2) {
return null;
}
num2 = stack.pop();
num1 = stack.pop();
stack.push(buildMulOperation(num1, num2));
break;
case 'sub':
if (stack.length < 2) {
return null;
}
num2 = stack.pop();
num1 = stack.pop();
stack.push(buildSubOperation(num1, num2));
break;
case 'exch':
if (stack.length < 2) {
return null;
}
ast1 = stack.pop(); ast2 = stack.pop();
stack.push(ast1, ast2);
break;
case 'pop':
if (stack.length < 1) {
return null;
}
stack.pop();
break;
case 'index':
if (stack.length < 1) {
return null;
}
num1 = stack.pop();
if (num1.type !== 'literal') {
return null;
}
n = num1.number;
if (n < 0 || (n|0) !== n || stack.length < n) {
return null;
}
ast1 = stack[stack.length - n - 1];
if (ast1.type === 'literal' || ast1.type === 'var') {
stack.push(ast1);
break;
}
tmpVar = new AstVariable(lastRegister++, ast1.min, ast1.max);
stack[stack.length - n - 1] = tmpVar;
stack.push(tmpVar);
instructions.push(new AstVariableDefinition(tmpVar, ast1));
break;
case 'dup':
if (stack.length < 1) {
return null;
}
if (typeof code[i + 1] === 'number' && code[i + 2] === 'gt' &&
code[i + 3] === i + 7 && code[i + 4] === 'jz' &&
code[i + 5] === 'pop' && code[i + 6] === code[i + 1]) {
// special case of the commands sequence for the min operation
num1 = stack.pop();
stack.push(buildMinOperation(num1, code[i + 1]));
i += 6;
break;
}
ast1 = stack[stack.length - 1];
if (ast1.type === 'literal' || ast1.type === 'var') {
// we don't have to save into intermediate variable a literal or
// variable.
stack.push(ast1);
break;
}
tmpVar = new AstVariable(lastRegister++, ast1.min, ast1.max);
stack[stack.length - 1] = tmpVar;
stack.push(tmpVar);
instructions.push(new AstVariableDefinition(tmpVar, ast1));
break;
case 'roll':
if (stack.length < 2) {
return null;
}
num2 = stack.pop();
num1 = stack.pop();
if (num2.type !== 'literal' || num1.type !== 'literal') {
// both roll operands must be numbers
return null;
}
j = num2.number;
n = num1.number;
if (n <= 0 || (n|0) !== n || (j|0) !== j || stack.length < n) {
// ... and integers
return null;
}
j = ((j % n) + n) % n;
if (j === 0) {
break; // just skipping -- there are nothing to rotate
}
Array.prototype.push.apply(stack,
stack.splice(stack.length - n, n - j));
break;
default:
return null; // unsupported operator
}
}
if (stack.length !== outputSize) {
return null;
}
var result = [];
instructions.forEach(function (instruction) {
var statementBuilder = new ExpressionBuilderVisitor();
instruction.visit(statementBuilder);
result.push(statementBuilder.toString());
});
stack.forEach(function (expr, i) {
var statementBuilder = new ExpressionBuilderVisitor();
expr.visit(statementBuilder);
var min = range[i * 2], max = range[i * 2 + 1];
var out = [statementBuilder.toString()];
if (min > expr.min) {
out.unshift('Math.max(', min, ', ');
out.push(')');
}
if (max < expr.max) {
out.unshift('Math.min(', max, ', ');
out.push(')');
}
out.unshift('dest[destOffset + ', i, '] = ');
out.push(';');
result.push(out.join(''));
});
return result.join('\n');
}
};
return PostScriptCompiler;
})();
var ColorSpace = (function ColorSpaceClosure() {
// Constructor should define this.numComps, this.defaultColor, this.name
@ -6300,23 +6694,20 @@ var AlternateCS = (function AlternateCSClosure() { @@ -6300,23 +6694,20 @@ var AlternateCS = (function AlternateCSClosure() {
}
this.base = base;
this.tintFn = tintFn;
this.tmpBuf = new Float32Array(base.numComps);
}
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);
var tmpBuf = this.tmpBuf;
this.tintFn(src, srcOffset, tmpBuf, 0);
this.base.getRgbItem(tmpBuf, 0, dest, destOffset);
},
getRgbBuffer: function AlternateCS_getRgbBuffer(src, srcOffset, count,
dest, destOffset, bits,
alpha01) {
var tinted;
var tintFn = this.tintFn;
var base = this.base;
var scale = 1 / ((1 << bits) - 1);
@ -6329,13 +6720,14 @@ var AlternateCS = (function AlternateCSClosure() { @@ -6329,13 +6720,14 @@ var AlternateCS = (function AlternateCSClosure() {
var numComps = this.numComps;
var scaled = new Float32Array(numComps);
var tinted = new Float32Array(baseNumComps);
var i, j;
if (usesZeroToOneRange) {
for (i = 0; i < count; i++) {
for (j = 0; j < numComps; j++) {
scaled[j] = src[srcOffset++] * scale;
}
tinted = tintFn(scaled);
tintFn(scaled, 0, tinted, 0);
for (j = 0; j < baseNumComps; j++) {
baseBuf[pos++] = tinted[j] * 255;
}
@ -6345,7 +6737,7 @@ var AlternateCS = (function AlternateCSClosure() { @@ -6345,7 +6737,7 @@ var AlternateCS = (function AlternateCSClosure() {
for (j = 0; j < numComps; j++) {
scaled[j] = src[srcOffset++] * scale;
}
tinted = tintFn(scaled);
tintFn(scaled, 0, tinted, 0);
base.getRgbItem(tinted, 0, baseBuf, pos);
pos += baseNumComps;
}
@ -8965,29 +9357,7 @@ Shadings.RadialAxial = (function RadialAxialClosure() { @@ -8965,29 +9357,7 @@ Shadings.RadialAxial = (function RadialAxialClosure() {
this.extendEnd = extendEnd;
var fnObj = dict.get('Function');
var fn;
if (isArray(fnObj)) {
var fnArray = [];
for (var j = 0, jj = fnObj.length; j < jj; j++) {
var obj = xref.fetchIfRef(fnObj[j]);
if (!isPDFFunction(obj)) {
error('Invalid function');
}
fnArray.push(PDFFunction.parse(xref, obj));
}
fn = function radialAxialColorFunction(arg) {
var out = [];
for (var i = 0, ii = fnArray.length; i < ii; i++) {
out.push(fnArray[i](arg)[0]);
}
return out;
};
} else {
if (!isPDFFunction(fnObj)) {
error('Invalid function');
}
fn = PDFFunction.parse(xref, fnObj);
}
var fn = PDFFunction.parseArray(xref, fnObj);
// 10 samples seems good enough for now, but probably won't work
// if there are sharp color changes. Ideally, we would implement
@ -9005,9 +9375,12 @@ Shadings.RadialAxial = (function RadialAxialClosure() { @@ -9005,9 +9375,12 @@ Shadings.RadialAxial = (function RadialAxialClosure() {
return;
}
var color = new Float32Array(cs.numComps), ratio = new Float32Array(1);
var rgbColor;
for (var i = t0; i <= t1; i += step) {
rgbColor = cs.getRgb(fn([i]), 0);
ratio[0] = i;
fn(ratio, 0, color, 0);
rgbColor = cs.getRgb(color, 0);
var cssColor = Util.makeCssRgb(rgbColor);
colorStops.push([(i - t0) / diff, cssColor]);
}
@ -9075,6 +9448,12 @@ Shadings.Mesh = (function MeshClosure() { @@ -9075,6 +9448,12 @@ Shadings.Mesh = (function MeshClosure() {
this.context = context;
this.buffer = 0;
this.bufferLength = 0;
var numComps = context.numComps;
this.tmpCompsBuf = new Float32Array(numComps);
var csNumComps = context.colorSpace;
this.tmpCsCompsBuf = context.colorFn ? new Float32Array(csNumComps) :
this.tmpCompsBuf;
}
MeshStreamReader.prototype = {
get hasData() {
@ -9145,15 +9524,16 @@ Shadings.Mesh = (function MeshClosure() { @@ -9145,15 +9524,16 @@ Shadings.Mesh = (function MeshClosure() {
var scale = bitsPerComponent < 32 ? 1 / ((1 << bitsPerComponent) - 1) :
2.3283064365386963e-10; // 2 ^ -32
var decode = this.context.decode;
var components = [];
var components = this.tmpCompsBuf;
for (var i = 0, j = 4; i < numComps; i++, j += 2) {
var ci = this.readBits(bitsPerComponent);
components.push(ci * scale * (decode[j + 1] - decode[j]) + decode[j]);
components[i] = ci * scale * (decode[j + 1] - decode[j]) + decode[j];
}
var color = this.tmpCsCompsBuf;
if (this.context.colorFn) {
components = this.context.colorFn(components);
this.context.colorFn(components, 0, color, 0);
}
return this.context.colorSpace.getRgb(components, 0);
return this.context.colorSpace.getRgb(color, 0);
}
};
@ -9559,31 +9939,7 @@ Shadings.Mesh = (function MeshClosure() { @@ -9559,31 +9939,7 @@ Shadings.Mesh = (function MeshClosure() {
cs.getRgb(dict.get('Background'), 0) : null;
var fnObj = dict.get('Function');
var fn;
if (!fnObj) {
fn = null;
} else if (isArray(fnObj)) {
var fnArray = [];
for (var j = 0, jj = fnObj.length; j < jj; j++) {
var obj = xref.fetchIfRef(fnObj[j]);
if (!isPDFFunction(obj)) {
error('Invalid function');
}
fnArray.push(PDFFunction.parse(xref, obj));
}
fn = function radialAxialColorFunction(arg) {
var out = [];
for (var i = 0, ii = fnArray.length; i < ii; i++) {
out.push(fnArray[i](arg)[0]);
}
return out;
};
} else {
if (!isPDFFunction(fnObj)) {
error('Invalid function');
}
fn = PDFFunction.parse(xref, fnObj);
}
var fn = fnObj ? PDFFunction.parseArray(xref, fnObj) : null;
this.coords = [];
this.colors = [];

2
package.json
Unescape View File

@ -1,6 +1,6 @@ @@ -1,6 +1,6 @@
{
"name": "pdfjs-dist",
"version": "1.0.579",
"version": "1.0.582",
"description": "Generic build of Mozilla's PDF.js library.",
"keywords": [
"Mozilla",

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