/** * @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"; var _primitives = require("../../core/primitives.js"); var _parser = require("../../core/parser.js"); var _util = require("../../shared/util.js"); var _stream = require("../../core/stream.js"); describe("parser", function () { describe("Parser", function () { describe("inlineStreamSkipEI", function () { it("should skip over the EI marker if it is found", function () { const string = "q 1 0 0 1 0 0 cm BI /W 10 /H 10 /BPC 1 " + "/F /A85 ID abc123~> EI Q"; const input = new _stream.StringStream(string); const parser = new _parser.Parser({ lexer: new _parser.Lexer(input), xref: null, allowStreams: true }); parser.inlineStreamSkipEI(input); expect(input.pos).toEqual(string.indexOf("Q")); expect(input.peekByte()).toEqual(0x51); }); it("should skip to the end of stream if the EI marker is not found", function () { const string = "q 1 0 0 1 0 0 cm BI /W 10 /H 10 /BPC 1 /F /A85 ID abc123~> Q"; const input = new _stream.StringStream(string); const parser = new _parser.Parser({ lexer: new _parser.Lexer(input), xref: null, allowStreams: true }); parser.inlineStreamSkipEI(input); expect(input.pos).toEqual(string.length); expect(input.peekByte()).toEqual(-1); }); }); }); describe("Lexer", function () { describe("nextChar", function () { it("should return and set -1 when the end of the stream is reached", function () { const input = new _stream.StringStream(""); const lexer = new _parser.Lexer(input); expect(lexer.nextChar()).toEqual(-1); expect(lexer.currentChar).toEqual(-1); }); it("should return and set the character after the current position", function () { const input = new _stream.StringStream("123"); const lexer = new _parser.Lexer(input); expect(lexer.nextChar()).toEqual(0x32); expect(lexer.currentChar).toEqual(0x32); }); }); describe("peekChar", function () { it("should only return -1 when the end of the stream is reached", function () { const input = new _stream.StringStream(""); const lexer = new _parser.Lexer(input); expect(lexer.peekChar()).toEqual(-1); expect(lexer.currentChar).toEqual(-1); }); it("should only return the character after the current position", function () { const input = new _stream.StringStream("123"); const lexer = new _parser.Lexer(input); expect(lexer.peekChar()).toEqual(0x32); expect(lexer.currentChar).toEqual(0x31); }); }); describe("getNumber", function () { it("should stop parsing numbers at the end of stream", function () { const input = new _stream.StringStream("11.234"); const lexer = new _parser.Lexer(input); expect(lexer.getNumber()).toEqual(11.234); }); it("should parse PostScript numbers", function () { const numbers = ["-.002", "34.5", "-3.62", "123.6e10", "1E-5", "-1.", "0.0", "123", "-98", "43445", "0", "+17"]; for (const number of numbers) { const input = new _stream.StringStream(number); const lexer = new _parser.Lexer(input); const result = lexer.getNumber(), expected = parseFloat(number); if (result !== expected && Math.abs(result - expected) < 1e-15) { console.error(`Fuzzy matching "${result}" with "${expected}" to ` + "work-around rounding bugs in Chromium browsers."); expect(true).toEqual(true); continue; } expect(result).toEqual(expected); } }); it("should ignore double negative before number", function () { const input = new _stream.StringStream("--205.88"); const lexer = new _parser.Lexer(input); expect(lexer.getNumber()).toEqual(-205.88); }); it("should ignore minus signs in the middle of number", function () { const input = new _stream.StringStream("205--.88"); const lexer = new _parser.Lexer(input); expect(lexer.getNumber()).toEqual(205.88); }); it("should ignore line-breaks between operator and digit in number", function () { const minusInput = new _stream.StringStream("-\r\n205.88"); const minusLexer = new _parser.Lexer(minusInput); expect(minusLexer.getNumber()).toEqual(-205.88); const plusInput = new _stream.StringStream("+\r\n205.88"); const plusLexer = new _parser.Lexer(plusInput); expect(plusLexer.getNumber()).toEqual(205.88); }); it("should treat a single decimal point, or minus sign, as zero", function () { const dotInput = new _stream.StringStream("."); const dotLexer = new _parser.Lexer(dotInput); expect(dotLexer.getNumber()).toEqual(0); const minusInput = new _stream.StringStream("-"); const minusLexer = new _parser.Lexer(minusInput); expect(minusLexer.getNumber()).toEqual(0); const numbers = ["..", "-.", "+.", "-\r\n.", "+\r\n."]; for (const number of numbers) { const invalidInput = new _stream.StringStream(number); const invalidLexer = new _parser.Lexer(invalidInput); expect(function () { return invalidLexer.getNumber(); }).toThrowError(_util.FormatError, /^Invalid number:\s/); } }); it("should handle glued numbers and operators", function () { const input = new _stream.StringStream("123ET"); const lexer = new _parser.Lexer(input); expect(lexer.getNumber()).toEqual(123); expect(lexer.currentChar).toEqual(0x45); }); }); describe("getString", function () { it("should stop parsing strings at the end of stream", function () { const input = new _stream.StringStream("(1$4)"); input.getByte = function (super_getByte) { const ch = super_getByte.call(input); return ch === 0x24 ? -1 : ch; }.bind(input, input.getByte); const lexer = new _parser.Lexer(input); expect(lexer.getString()).toEqual("1"); }); it("should ignore escaped CR and LF", function () { const input = new _stream.StringStream("(\\101\\\r\n\\102\\\r\\103\\\n\\104)"); const lexer = new _parser.Lexer(input); expect(lexer.getString()).toEqual("ABCD"); }); }); describe("getHexString", function () { it("should not throw exception on bad input", function () { const input = new _stream.StringStream("<7 0 2 15 5 2 2 2 4 3 2 4>"); const lexer = new _parser.Lexer(input); expect(lexer.getHexString()).toEqual('p!U"$2'); }); }); describe("getName", function () { it("should handle Names with invalid usage of NUMBER SIGN (#)", function () { const inputNames = ["/# 680 0 R", "/#AQwerty", "/#A<>\n" + "endobj"); expect(_parser.Linearization.create(stream1)).toEqual(null); const stream2 = new _stream.StringStream("1 0 obj\n" + "<<\n" + "/Linearized 0\n" + ">>\n" + "endobj"); expect(_parser.Linearization.create(stream2)).toEqual(null); }); it("should accept a valid linearization dictionary", function () { const stream = new _stream.StringStream("131 0 obj\n" + "<<\n" + "/Linearized 1\n" + "/O 133\n" + "/H [ 1388 863 ]\n" + "/L 90\n" + "/E 43573\n" + "/N 18\n" + "/T 193883\n" + ">>\n" + "endobj"); const expectedLinearizationDict = { length: 90, hints: [1388, 863], objectNumberFirst: 133, endFirst: 43573, numPages: 18, mainXRefEntriesOffset: 193883, pageFirst: 0 }; expect(_parser.Linearization.create(stream)).toEqual(expectedLinearizationDict); }); it("should reject a linearization dictionary with invalid " + "integer parameters", function () { const stream1 = new _stream.StringStream("1 0 obj\n" + "<<\n" + "/Linearized 1\n" + "/O 133\n" + "/H [ 1388 863 ]\n" + "/L 196622\n" + "/E 43573\n" + "/N 18\n" + "/T 193883\n" + ">>\n" + "endobj"); expect(function () { return _parser.Linearization.create(stream1); }).toThrow(new Error('The "L" parameter in the linearization ' + "dictionary does not equal the stream length.")); const stream2 = new _stream.StringStream("1 0 obj\n" + "<<\n" + "/Linearized 1\n" + "/O 133\n" + "/H [ 1388 863 ]\n" + "/L 84\n" + "/E 0\n" + "/N 18\n" + "/T 193883\n" + ">>\n" + "endobj"); expect(function () { return _parser.Linearization.create(stream2); }).toThrow(new Error('The "E" parameter in the linearization dictionary is invalid.')); const stream3 = new _stream.StringStream("1 0 obj\n" + "<<\n" + "/Linearized 1\n" + "/O /abc\n" + "/H [ 1388 863 ]\n" + "/L 89\n" + "/E 43573\n" + "/N 18\n" + "/T 193883\n" + ">>\n" + "endobj"); expect(function () { return _parser.Linearization.create(stream3); }).toThrow(new Error('The "O" parameter in the linearization dictionary is invalid.')); }); it("should reject a linearization dictionary with invalid hint parameters", function () { const stream1 = new _stream.StringStream("1 0 obj\n" + "<<\n" + "/Linearized 1\n" + "/O 133\n" + "/H 1388\n" + "/L 80\n" + "/E 43573\n" + "/N 18\n" + "/T 193883\n" + ">>\n" + "endobj"); expect(function () { return _parser.Linearization.create(stream1); }).toThrow(new Error("Hint array in the linearization dictionary is invalid.")); const stream2 = new _stream.StringStream("1 0 obj\n" + "<<\n" + "/Linearized 1\n" + "/O 133\n" + "/H [ 1388 ]\n" + "/L 84\n" + "/E 43573\n" + "/N 18\n" + "/T 193883\n" + ">>\n" + "endobj"); expect(function () { return _parser.Linearization.create(stream2); }).toThrow(new Error("Hint array in the linearization dictionary is invalid.")); const stream3 = new _stream.StringStream("1 0 obj\n" + "<<\n" + "/Linearized 1\n" + "/O 133\n" + "/H [ 1388 863 0 234]\n" + "/L 93\n" + "/E 43573\n" + "/N 18\n" + "/T 193883\n" + ">>\n" + "endobj"); expect(function () { return _parser.Linearization.create(stream3); }).toThrow(new Error("Hint (2) in the linearization dictionary is invalid.")); }); }); });