/** * @licstart The following is the entire license notice for the * JavaScript code in this page * * Copyright 2022 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. * * @licend The above is the entire license notice for the * JavaScript code in this page */ "use strict"; Object.defineProperty(exports, "__esModule", { value: true }); exports.PostScriptEvaluator = exports.PostScriptCompiler = exports.PDFFunctionFactory = void 0; exports.isPDFFunction = isPDFFunction; var _primitives = require("./primitives.js"); var _util = require("../shared/util.js"); var _ps_parser = require("./ps_parser.js"); var _base_stream = require("./base_stream.js"); var _image_utils = require("./image_utils.js"); class PDFFunctionFactory { constructor({ xref, isEvalSupported = true }) { this.xref = xref; this.isEvalSupported = isEvalSupported !== false; } create(fn) { const cachedFunction = this.getCached(fn); if (cachedFunction) { return cachedFunction; } const parsedFunction = PDFFunction.parse({ xref: this.xref, isEvalSupported: this.isEvalSupported, fn: fn instanceof _primitives.Ref ? this.xref.fetch(fn) : fn }); this._cache(fn, parsedFunction); return parsedFunction; } createFromArray(fnObj) { const cachedFunction = this.getCached(fnObj); if (cachedFunction) { return cachedFunction; } const parsedFunction = PDFFunction.parseArray({ xref: this.xref, isEvalSupported: this.isEvalSupported, fnObj: fnObj instanceof _primitives.Ref ? this.xref.fetch(fnObj) : fnObj }); this._cache(fnObj, parsedFunction); return parsedFunction; } getCached(cacheKey) { let fnRef; if (cacheKey instanceof _primitives.Ref) { fnRef = cacheKey; } else if (cacheKey instanceof _primitives.Dict) { fnRef = cacheKey.objId; } else if (cacheKey instanceof _base_stream.BaseStream) { fnRef = cacheKey.dict && cacheKey.dict.objId; } if (fnRef) { const localFunction = this._localFunctionCache.getByRef(fnRef); if (localFunction) { return localFunction; } } return null; } _cache(cacheKey, parsedFunction) { if (!parsedFunction) { throw new Error('PDFFunctionFactory._cache - expected "parsedFunction" argument.'); } let fnRef; if (cacheKey instanceof _primitives.Ref) { fnRef = cacheKey; } else if (cacheKey instanceof _primitives.Dict) { fnRef = cacheKey.objId; } else if (cacheKey instanceof _base_stream.BaseStream) { fnRef = cacheKey.dict && cacheKey.dict.objId; } if (fnRef) { this._localFunctionCache.set(null, fnRef, parsedFunction); } } get _localFunctionCache() { return (0, _util.shadow)(this, "_localFunctionCache", new _image_utils.LocalFunctionCache()); } } exports.PDFFunctionFactory = PDFFunctionFactory; function toNumberArray(arr) { if (!Array.isArray(arr)) { return null; } const length = arr.length; for (let i = 0; i < length; i++) { if (typeof arr[i] !== "number") { const result = new Array(length); for (let j = 0; j < length; j++) { result[j] = +arr[j]; } return result; } } return arr; } class PDFFunction { static getSampleArray(size, outputSize, bps, stream) { let i, ii; let length = 1; for (i = 0, ii = size.length; i < ii; i++) { length *= size[i]; } length *= outputSize; const array = new Array(length); let codeSize = 0; let codeBuf = 0; const sampleMul = 1.0 / (2.0 ** bps - 1); const strBytes = stream.getBytes((length * bps + 7) / 8); let strIdx = 0; for (i = 0; i < length; i++) { while (codeSize < bps) { codeBuf <<= 8; codeBuf |= strBytes[strIdx++]; codeSize += 8; } codeSize -= bps; array[i] = (codeBuf >> codeSize) * sampleMul; codeBuf &= (1 << codeSize) - 1; } return array; } static parse({ xref, isEvalSupported, fn }) { const dict = fn.dict || fn; const typeNum = dict.get("FunctionType"); switch (typeNum) { case 0: return this.constructSampled({ xref, isEvalSupported, fn, dict }); case 1: break; case 2: return this.constructInterpolated({ xref, isEvalSupported, dict }); case 3: return this.constructStiched({ xref, isEvalSupported, dict }); case 4: return this.constructPostScript({ xref, isEvalSupported, fn, dict }); } throw new _util.FormatError("Unknown type of function"); } static parseArray({ xref, isEvalSupported, fnObj }) { if (!Array.isArray(fnObj)) { return this.parse({ xref, isEvalSupported, fn: fnObj }); } const fnArray = []; for (let j = 0, jj = fnObj.length; j < jj; j++) { fnArray.push(this.parse({ xref, isEvalSupported, fn: xref.fetchIfRef(fnObj[j]) })); } return function (src, srcOffset, dest, destOffset) { for (let i = 0, ii = fnArray.length; i < ii; i++) { fnArray[i](src, srcOffset, dest, destOffset + i); } }; } static constructSampled({ xref, isEvalSupported, fn, dict }) { function toMultiArray(arr) { const inputLength = arr.length; const out = []; let index = 0; for (let i = 0; i < inputLength; i += 2) { out[index++] = [arr[i], arr[i + 1]]; } return out; } function interpolate(x, xmin, xmax, ymin, ymax) { return ymin + (x - xmin) * ((ymax - ymin) / (xmax - xmin)); } let domain = toNumberArray(dict.getArray("Domain")); let range = toNumberArray(dict.getArray("Range")); if (!domain || !range) { throw new _util.FormatError("No domain or range"); } const inputSize = domain.length / 2; const outputSize = range.length / 2; domain = toMultiArray(domain); range = toMultiArray(range); const size = toNumberArray(dict.getArray("Size")); const bps = dict.get("BitsPerSample"); const order = dict.get("Order") || 1; if (order !== 1) { (0, _util.info)("No support for cubic spline interpolation: " + order); } let encode = toNumberArray(dict.getArray("Encode")); if (!encode) { encode = []; for (let i = 0; i < inputSize; ++i) { encode.push([0, size[i] - 1]); } } else { encode = toMultiArray(encode); } let decode = toNumberArray(dict.getArray("Decode")); if (!decode) { decode = range; } else { decode = toMultiArray(decode); } const samples = this.getSampleArray(size, outputSize, bps, fn); return function constructSampledFn(src, srcOffset, dest, destOffset) { const cubeVertices = 1 << inputSize; const cubeN = new Float64Array(cubeVertices); const cubeVertex = new Uint32Array(cubeVertices); let i, j; for (j = 0; j < cubeVertices; j++) { cubeN[j] = 1; } let k = outputSize, pos = 1; for (i = 0; i < inputSize; ++i) { const domain_2i = domain[i][0]; const domain_2i_1 = domain[i][1]; const xi = Math.min(Math.max(src[srcOffset + i], domain_2i), domain_2i_1); let e = interpolate(xi, domain_2i, domain_2i_1, encode[i][0], encode[i][1]); const size_i = size[i]; e = Math.min(Math.max(e, 0), size_i - 1); const e0 = e < size_i - 1 ? Math.floor(e) : e - 1; const n0 = e0 + 1 - e; const n1 = e - e0; const offset0 = e0 * k; const offset1 = offset0 + k; for (j = 0; j < cubeVertices; j++) { if (j & pos) { cubeN[j] *= n1; cubeVertex[j] += offset1; } else { cubeN[j] *= n0; cubeVertex[j] += offset0; } } k *= size_i; pos <<= 1; } for (j = 0; j < outputSize; ++j) { let rj = 0; for (i = 0; i < cubeVertices; i++) { rj += samples[cubeVertex[i] + j] * cubeN[i]; } rj = interpolate(rj, 0, 1, decode[j][0], decode[j][1]); dest[destOffset + j] = Math.min(Math.max(rj, range[j][0]), range[j][1]); } }; } static constructInterpolated({ xref, isEvalSupported, dict }) { const c0 = toNumberArray(dict.getArray("C0")) || [0]; const c1 = toNumberArray(dict.getArray("C1")) || [1]; const n = dict.get("N"); const diff = []; for (let i = 0, ii = c0.length; i < ii; ++i) { diff.push(c1[i] - c0[i]); } const length = diff.length; return function constructInterpolatedFn(src, srcOffset, dest, destOffset) { const x = n === 1 ? src[srcOffset] : src[srcOffset] ** n; for (let j = 0; j < length; ++j) { dest[destOffset + j] = c0[j] + x * diff[j]; } }; } static constructStiched({ xref, isEvalSupported, dict }) { const domain = toNumberArray(dict.getArray("Domain")); if (!domain) { throw new _util.FormatError("No domain"); } const inputSize = domain.length / 2; if (inputSize !== 1) { throw new _util.FormatError("Bad domain for stiched function"); } const fnRefs = dict.get("Functions"); const fns = []; for (let i = 0, ii = fnRefs.length; i < ii; ++i) { fns.push(this.parse({ xref, isEvalSupported, fn: xref.fetchIfRef(fnRefs[i]) })); } const bounds = toNumberArray(dict.getArray("Bounds")); const encode = toNumberArray(dict.getArray("Encode")); const tmpBuf = new Float32Array(1); return function constructStichedFn(src, srcOffset, dest, destOffset) { const clip = function constructStichedFromIRClip(v, min, max) { if (v > max) { v = max; } else if (v < min) { v = min; } return v; }; const v = clip(src[srcOffset], domain[0], domain[1]); const length = bounds.length; let i; for (i = 0; i < length; ++i) { if (v < bounds[i]) { break; } } let dmin = domain[0]; if (i > 0) { dmin = bounds[i - 1]; } let dmax = domain[1]; if (i < bounds.length) { dmax = bounds[i]; } const rmin = encode[2 * i]; const rmax = encode[2 * i + 1]; tmpBuf[0] = dmin === dmax ? rmin : rmin + (v - dmin) * (rmax - rmin) / (dmax - dmin); fns[i](tmpBuf, 0, dest, destOffset); }; } static constructPostScript({ xref, isEvalSupported, fn, dict }) { const domain = toNumberArray(dict.getArray("Domain")); const range = toNumberArray(dict.getArray("Range")); if (!domain) { throw new _util.FormatError("No domain."); } if (!range) { throw new _util.FormatError("No range."); } const lexer = new _ps_parser.PostScriptLexer(fn); const parser = new _ps_parser.PostScriptParser(lexer); const code = parser.parse(); if (isEvalSupported && _util.FeatureTest.isEvalSupported) { const compiled = new PostScriptCompiler().compile(code, domain, range); if (compiled) { return new Function("src", "srcOffset", "dest", "destOffset", compiled); } } (0, _util.info)("Unable to compile PS function"); const numOutputs = range.length >> 1; const numInputs = domain.length >> 1; const evaluator = new PostScriptEvaluator(code); const cache = Object.create(null); const MAX_CACHE_SIZE = 2048 * 4; let cache_available = MAX_CACHE_SIZE; const tmpBuf = new Float32Array(numInputs); return function constructPostScriptFn(src, srcOffset, dest, destOffset) { let i, value; let key = ""; const input = tmpBuf; for (i = 0; i < numInputs; i++) { value = src[srcOffset + i]; input[i] = value; key += value + "_"; } const cachedValue = cache[key]; if (cachedValue !== undefined) { dest.set(cachedValue, destOffset); return; } const output = new Float32Array(numOutputs); const stack = evaluator.execute(input); const stackIndex = stack.length - numOutputs; for (i = 0; i < numOutputs; i++) { value = stack[stackIndex + i]; let bound = range[i * 2]; if (value < bound) { value = bound; } else { bound = range[i * 2 + 1]; if (value > bound) { value = bound; } } output[i] = value; } if (cache_available > 0) { cache_available--; cache[key] = output; } dest.set(output, destOffset); }; } } function isPDFFunction(v) { let fnDict; if (typeof v !== "object") { return false; } else if (v instanceof _primitives.Dict) { fnDict = v; } else if (v instanceof _base_stream.BaseStream) { fnDict = v.dict; } else { return false; } return fnDict.has("FunctionType"); } class PostScriptStack { static get MAX_STACK_SIZE() { return (0, _util.shadow)(this, "MAX_STACK_SIZE", 100); } constructor(initialStack) { this.stack = !initialStack ? [] : Array.prototype.slice.call(initialStack, 0); } push(value) { if (this.stack.length >= PostScriptStack.MAX_STACK_SIZE) { throw new Error("PostScript function stack overflow."); } this.stack.push(value); } pop() { if (this.stack.length <= 0) { throw new Error("PostScript function stack underflow."); } return this.stack.pop(); } copy(n) { if (this.stack.length + n >= PostScriptStack.MAX_STACK_SIZE) { throw new Error("PostScript function stack overflow."); } const stack = this.stack; for (let i = stack.length - n, j = n - 1; j >= 0; j--, i++) { stack.push(stack[i]); } } index(n) { this.push(this.stack[this.stack.length - n - 1]); } roll(n, p) { const stack = this.stack; const l = stack.length - n; const r = stack.length - 1; const c = l + (p - Math.floor(p / n) * n); for (let i = l, j = r; i < j; i++, j--) { const t = stack[i]; stack[i] = stack[j]; stack[j] = t; } for (let i = l, j = c - 1; i < j; i++, j--) { const t = stack[i]; stack[i] = stack[j]; stack[j] = t; } for (let i = c, j = r; i < j; i++, j--) { const t = stack[i]; stack[i] = stack[j]; stack[j] = t; } } } class PostScriptEvaluator { constructor(operators) { this.operators = operators; } execute(initialStack) { const stack = new PostScriptStack(initialStack); let counter = 0; const operators = this.operators; const length = operators.length; let operator, a, b; while (counter < length) { operator = operators[counter++]; if (typeof operator === "number") { stack.push(operator); continue; } switch (operator) { case "jz": b = stack.pop(); a = stack.pop(); if (!a) { counter = b; } break; case "j": a = stack.pop(); counter = a; break; case "abs": a = stack.pop(); stack.push(Math.abs(a)); break; case "add": b = stack.pop(); a = stack.pop(); stack.push(a + b); break; case "and": b = stack.pop(); a = stack.pop(); if (typeof a === "boolean" && typeof b === "boolean") { stack.push(a && b); } else { stack.push(a & b); } break; case "atan": a = stack.pop(); stack.push(Math.atan(a)); break; case "bitshift": b = stack.pop(); a = stack.pop(); if (a > 0) { stack.push(a << b); } else { stack.push(a >> b); } break; case "ceiling": a = stack.pop(); stack.push(Math.ceil(a)); break; case "copy": a = stack.pop(); stack.copy(a); break; case "cos": a = stack.pop(); stack.push(Math.cos(a)); break; case "cvi": a = stack.pop() | 0; stack.push(a); break; case "cvr": break; case "div": b = stack.pop(); a = stack.pop(); stack.push(a / b); break; case "dup": stack.copy(1); break; case "eq": b = stack.pop(); a = stack.pop(); stack.push(a === b); break; case "exch": stack.roll(2, 1); break; case "exp": b = stack.pop(); a = stack.pop(); stack.push(a ** b); break; case "false": stack.push(false); break; case "floor": a = stack.pop(); stack.push(Math.floor(a)); break; case "ge": b = stack.pop(); a = stack.pop(); stack.push(a >= b); break; case "gt": b = stack.pop(); a = stack.pop(); stack.push(a > b); break; case "idiv": b = stack.pop(); a = stack.pop(); stack.push(a / b | 0); break; case "index": a = stack.pop(); stack.index(a); break; case "le": b = stack.pop(); a = stack.pop(); stack.push(a <= b); break; case "ln": a = stack.pop(); stack.push(Math.log(a)); break; case "log": a = stack.pop(); stack.push(Math.log(a) / Math.LN10); break; case "lt": b = stack.pop(); a = stack.pop(); stack.push(a < b); break; case "mod": b = stack.pop(); a = stack.pop(); stack.push(a % b); break; case "mul": b = stack.pop(); a = stack.pop(); stack.push(a * b); break; case "ne": b = stack.pop(); a = stack.pop(); stack.push(a !== b); break; case "neg": a = stack.pop(); stack.push(-a); break; case "not": a = stack.pop(); if (typeof a === "boolean") { stack.push(!a); } else { stack.push(~a); } break; case "or": b = stack.pop(); a = stack.pop(); if (typeof a === "boolean" && typeof b === "boolean") { stack.push(a || b); } else { stack.push(a | b); } break; case "pop": stack.pop(); break; case "roll": b = stack.pop(); a = stack.pop(); stack.roll(a, b); break; case "round": a = stack.pop(); stack.push(Math.round(a)); break; case "sin": a = stack.pop(); stack.push(Math.sin(a)); break; case "sqrt": a = stack.pop(); stack.push(Math.sqrt(a)); break; case "sub": b = stack.pop(); a = stack.pop(); stack.push(a - b); break; case "true": stack.push(true); break; case "truncate": a = stack.pop(); a = a < 0 ? Math.ceil(a) : Math.floor(a); stack.push(a); break; case "xor": b = stack.pop(); a = stack.pop(); if (typeof a === "boolean" && typeof b === "boolean") { stack.push(a !== b); } else { stack.push(a ^ b); } break; default: throw new _util.FormatError(`Unknown operator ${operator}`); } } return stack.stack; } } exports.PostScriptEvaluator = PostScriptEvaluator; class AstNode { constructor(type) { this.type = type; } visit(visitor) { (0, _util.unreachable)("abstract method"); } } class AstArgument extends AstNode { constructor(index, min, max) { super("args"); this.index = index; this.min = min; this.max = max; } visit(visitor) { visitor.visitArgument(this); } } class AstLiteral extends AstNode { constructor(number) { super("literal"); this.number = number; this.min = number; this.max = number; } visit(visitor) { visitor.visitLiteral(this); } } class AstBinaryOperation extends AstNode { constructor(op, arg1, arg2, min, max) { super("binary"); this.op = op; this.arg1 = arg1; this.arg2 = arg2; this.min = min; this.max = max; } visit(visitor) { visitor.visitBinaryOperation(this); } } class AstMin extends AstNode { constructor(arg, max) { super("max"); this.arg = arg; this.min = arg.min; this.max = max; } visit(visitor) { visitor.visitMin(this); } } class AstVariable extends AstNode { constructor(index, min, max) { super("var"); this.index = index; this.min = min; this.max = max; } visit(visitor) { visitor.visitVariable(this); } } class AstVariableDefinition extends AstNode { constructor(variable, arg) { super("definition"); this.variable = variable; this.arg = arg; } visit(visitor) { visitor.visitVariableDefinition(this); } } class ExpressionBuilderVisitor { constructor() { this.parts = []; } visitArgument(arg) { this.parts.push("Math.max(", arg.min, ", Math.min(", arg.max, ", src[srcOffset + ", arg.index, "]))"); } visitVariable(variable) { this.parts.push("v", variable.index); } visitLiteral(literal) { this.parts.push(literal.number); } visitBinaryOperation(operation) { this.parts.push("("); operation.arg1.visit(this); this.parts.push(" ", operation.op, " "); operation.arg2.visit(this); this.parts.push(")"); } visitVariableDefinition(definition) { this.parts.push("var "); definition.variable.visit(this); this.parts.push(" = "); definition.arg.visit(this); this.parts.push(";"); } visitMin(max) { this.parts.push("Math.min("); max.arg.visit(this); this.parts.push(", ", max.max, ")"); } toString() { return this.parts.join(""); } } function buildAddOperation(num1, num2) { if (num2.type === "literal" && num2.number === 0) { return num1; } if (num1.type === "literal" && num1.number === 0) { return num2; } if (num2.type === "literal" && num1.type === "literal") { 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") { if (num2.number === 0) { return new AstLiteral(0); } else if (num2.number === 1) { return num1; } else if (num1.type === "literal") { return new AstLiteral(num1.number * num2.number); } } if (num1.type === "literal") { if (num1.number === 0) { return new AstLiteral(0); } else if (num1.number === 1) { return num2; } } const min = Math.min(num1.min * num2.min, num1.min * num2.max, num1.max * num2.min, num1.max * num2.max); const 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") { if (num2.number === 0) { return num1; } else if (num1.type === "literal") { 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) { return num2.arg2; } return new AstBinaryOperation("-", num1, num2, num1.min - num2.max, num1.max - num2.min); } function buildMinOperation(num1, max) { if (num1.min >= max) { return new AstLiteral(max); } else if (num1.max <= max) { return num1; } return new AstMin(num1, max); } class PostScriptCompiler { compile(code, domain, range) { const stack = []; const instructions = []; const inputSize = domain.length >> 1, outputSize = range.length >> 1; let lastRegister = 0; let n, j; let num1, num2, ast1, ast2, tmpVar, item; for (let i = 0; i < inputSize; i++) { stack.push(new AstArgument(i, domain[i * 2], domain[i * 2 + 1])); } for (let 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 || !Number.isInteger(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]) { num1 = stack.pop(); stack.push(buildMinOperation(num1, code[i + 1])); i += 6; break; } ast1 = stack.at(-1); if (ast1.type === "literal" || ast1.type === "var") { 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") { return null; } j = num2.number; n = num1.number; if (n <= 0 || !Number.isInteger(n) || !Number.isInteger(j) || stack.length < n) { return null; } j = (j % n + n) % n; if (j === 0) { break; } Array.prototype.push.apply(stack, stack.splice(stack.length - n, n - j)); break; default: return null; } } if (stack.length !== outputSize) { return null; } const result = []; for (const instruction of instructions) { const statementBuilder = new ExpressionBuilderVisitor(); instruction.visit(statementBuilder); result.push(statementBuilder.toString()); } for (let i = 0, ii = stack.length; i < ii; i++) { const expr = stack[i], statementBuilder = new ExpressionBuilderVisitor(); expr.visit(statementBuilder); const min = range[i * 2], max = range[i * 2 + 1]; const 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"); } } exports.PostScriptCompiler = PostScriptCompiler;