lib/compilers/java.ts - compiler-explorer - Rivoreo Source Code Repositories

 // Copyright (c) 2019, Compiler Explorer Authors
 // All rights reserved.
 //
 // Redistribution and use in source and binary forms, with or without
 // modification, are permitted provided that the following conditions are met:
 //
 //     * Redistributions of source code must retain the above copyright notice,
 //       this list of conditions and the following disclaimer.
 //     * Redistributions in binary form must reproduce the above copyright
 //       notice, this list of conditions and the following disclaimer in the
 //       documentation and/or other materials provided with the distribution.
 //
 // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
 // AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 // IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 // ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
 // LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 // CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 // SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 // INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 // CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 // ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
 // POSSIBILITY OF SUCH DAMAGE.

 import path from 'path';

 import fs from 'fs-extra';

 import {ParsedAsmResult, ParsedAsmResultLine} from '../../types/asmresult/asmresult.interfaces';
 import {CompilerInfo} from '../../types/compiler.interfaces';
 import {ParseFiltersAndOutputOptions} from '../../types/features/filters.interfaces';
 import {unwrap} from '../assert';
 import {BaseCompiler} from '../base-compiler';
 import {logger} from '../logger';
 import * as utils from '../utils';

 import {JavaParser} from './argument-parsers';

 export class JavaCompiler extends BaseCompiler {
     static get key() {
         return 'java';
     }

     javaRuntime: string;
     mainRegex: RegExp;

     constructor(compilerInfo: CompilerInfo, env) {
         // Default is to disable all "cosmetic" filters
         if (!compilerInfo.disabledFilters) {
             compilerInfo.disabledFilters = ['labels', 'directives', 'commentOnly', 'trim'];
         }
         super(compilerInfo, env);
         this.javaRuntime = this.compilerProps<string>(`compiler.${this.compiler.id}.runtime`);
         this.mainRegex = /public static ?(.*?) void main\(java\.lang\.String\[]\)/;
     }

     override getSharedLibraryPathsAsArguments() {
         return [];
     }

     override async objdump(outputFilename, result: any, maxSize: number) {
         const dirPath = path.dirname(outputFilename);
         const files = await fs.readdir(dirPath);
         logger.verbose('Class files: ', files);
         const results = await Promise.all(
             files
                 .filter(f => f.endsWith('.class'))
                 .map(async classFile => {
                     const args = [
                         // Prints out disassembled code, i.e., the instructions that comprise the Java bytecodes,
                         // for each of the methods in the class.
                         '-c',
                         // Prints out line and local variable tables.
                         '-l',
                         // Private things
                         '-p',
                         // Final constants
                         '-constants',
                         // Verbose - ideally we'd enable this and then we get constant pools too. Needs work to parse.
                         //'-v',
                         classFile,
                     ];
                     const objResult = await this.exec(this.compiler.objdumper, args, {
                         maxOutput: maxSize,
                         customCwd: dirPath,
                     });
                     const oneResult: ParsedAsmResult = {
                         asm: [
                             {
                                 text: objResult.stdout,
                             },
                         ],
                     };

                     if (objResult.code === 0) {
                         oneResult.objdumpTime = objResult.execTime;
                     } else {
                         oneResult.asm = [
                             {
                                 text: `<No output: javap returned ${objResult.code}>`,
                             },
                         ];
                     }
                     return oneResult;
                 }),
         );

         const merged = {asm: [] as ParsedAsmResultLine[][]};
         for (const result of results) {
             const asmBackup = merged.asm;
             Object.assign(merged, result);
             merged.asm = asmBackup;
             merged.asm.push(result.asm);
         }

         result.asm = merged.asm;
         return result;
     }

     override optionsForFilter(filters: ParseFiltersAndOutputOptions) {
         // Forcibly enable javap
         filters.binary = true;

         return ['-Xlint:all', '-encoding', 'utf8'];
     }

     override async handleInterpreting(key, executeParameters) {
         const compileResult = await this.getOrBuildExecutable(key);
         if (compileResult.code === 0) {
             executeParameters.args = [
                 '-Xss136K', // Reduce thread stack size
                 '-XX:CICompilerCount=2', // Reduce JIT compilation threads. 2 is minimum
                 '-XX:-UseDynamicNumberOfCompilerThreads',
                 '-XX:-UseDynamicNumberOfGCThreads',
                 '-XX:+UseSerialGC', // Disable parallell/concurrent garbage collector
                 await this.getMainClassName(compileResult.dirPath),
                 '-cp',
                 compileResult.dirPath,
                 ...executeParameters.args,
             ];
             const result = await this.runExecutable(this.javaRuntime, executeParameters, compileResult.dirPath);
             return {
                 ...result,
                 didExecute: true,
                 buildResult: compileResult,
             };
         } else {
             return {
                 stdout: compileResult.stdout,
                 stderr: compileResult.stderr,
                 code: compileResult.code,
                 didExecute: false,
                 buildResult: compileResult,
                 timedOut: false,
             };
         }
     }

     async getMainClassName(dirPath: string) {
         const maxSize = this.env.ceProps('max-asm-size', 64 * 1024 * 1024);
         const files = await fs.readdir(dirPath);
         const results = await Promise.all(
             files
                 .filter(f => f.endsWith('.class'))
                 .map(async classFile => {
                     const options = {
                         maxOutput: maxSize,
                         customCwd: dirPath,
                     };
                     const objResult = await this.exec(this.compiler.objdumper, [classFile], options);
                     if (objResult.code !== 0) {
                         return null;
                     }

                     if (this.mainRegex.test(objResult.stdout)) {
                         return classFile;
                     }
                     return null;
                 }),
         );

         const candidates = results.filter(file => file !== null);
         if (candidates.length > 0) {
             // In case of multiple candidates, we'll just take the first one.
             const fileName = unwrap(candidates[0]);
             return fileName.substring(0, fileName.lastIndexOf('.'));
         }
         // We were unable to find a main method, let's error out assuming "Main"
         return 'Main';
     }

     override getArgumentParser() {
         return JavaParser;
     }

     override getOutputFilename(dirPath: string) {
         return path.join(dirPath, `${path.basename(this.compileFilename, this.lang.extensions[0])}.class`);
     }

     filterUserOptionsWithArg(userOptions: string[], oneArgForbiddenList: Set<string>) {
         const filteredOptions: string[] = [];
         let toSkip = 0;

         for (const userOption of userOptions) {
             if (toSkip > 0) {
                 toSkip--;
                 continue;
             }
             if (oneArgForbiddenList.has(userOption)) {
                 toSkip = 1;
                 continue;
             }

             filteredOptions.push(userOption);
         }

         return filteredOptions;
     }

     override filterUserOptions(userOptions: string[]) {
         const oneArgForbiddenList = new Set([
             // -d directory
             // Sets the destination directory for class files.
             '-d',
             // -s directory
             // Specifies the directory used to place the generated source files.
             '-s',
             // --source-path path or -sourcepath path
             // Specifies where to find input source files.
             '--source-path',
             '-sourcepath',
         ]);

         return this.filterUserOptionsWithArg(userOptions, oneArgForbiddenList);
     }

     override processAsm(result) {
         // Handle "error" documents.
         if (!result.asm.includes('\n') && result.asm[0] === '<') {
             return [{text: result.asm, source: null}];
         }

         // result.asm is an array of javap stdouts
         const parseds = result.asm.map(asm => this.parseAsmForClass(asm));
         // Sort class file outputs according to first source line they reference
         parseds.sort((o1, o2) => o1.firstSourceLine - o2.firstSourceLine);

         const segments: ParsedAsmResultLine[] = [];
         for (const [classNumber, parsed] of parseds.entries()) {
             if (classNumber > 0) {
                 // Separate classes with two line breaks
                 segments.push({text: '', source: null}, {text: '', source: null});
             }
             for (let i = 0; i < parsed.textsBeforeMethod.length; i++) {
                 // Line-based highlighting doesn't work if some segments span multiple lines,
                 // even if they don't have a source line number
                 // -> split the lines and create segment for each separately
                 for (const line of utils.splitLines(parsed.textsBeforeMethod[i])) {
                     // javap output always starts with "Compiled from" on first line, discard these lines.
                     if (line.startsWith('Compiled from')) {
                         continue;
                     }
                     segments.push({
                         text: line,
                         source: null,
                     });
                 }

                 // textsBeforeMethod[last] is actually *after* the last method.
                 // Check whether there is a method following the text block
                 if (i < parsed.methods.length) {
                     for (const {text, sourceLine} of parsed.methods[i].instructions) {
                         segments.push({text: text, source: {file: null, line: sourceLine}});
                     }
                 }
             }
         }
         return {asm: segments};
     }

     parseAsmForClass(javapOut) {
         const textsBeforeMethod: string[] = [];
         const methods: {instructions: any[]; startLine?: number}[] = [];
         // javap output puts `    Code:` after every signature. (Line will not be shown to user)
         // We use this to find the individual methods.
         // Before the first `Code:` occurrence, there is the method signature as well as the name of the class.
         // Subsequent matches are always followed by lists of assembly instructions as well as line info mappings

         // Regex idea: make sure `Code:` is the only thing on the line. Also consume trailing line ending!
         const [classNameAndFirstMethodSignature, ...codeAndLineNumberTables] = javapOut.split(/^\s+Code:\s*$\r?\n/m);
         textsBeforeMethod.push(classNameAndFirstMethodSignature.trimEnd()); // possible trailing \r on windows

         for (const codeAndLineNumberTable of codeAndLineNumberTables) {
             const method = {
                 instructions: [],
             } as typeof methods[0];
             methods.push(method);

             for (const codeLineCandidate of utils.splitLines(codeAndLineNumberTable)) {
                 // Match
                 //       1: invokespecial #1                  // Method java/lang/Object."<init>":()V
                 // Or match the "default: <code>" block inside a lookupswitch instruction
                 const match = codeLineCandidate.match(/\s+(\d+|default): (.*)/);
                 if (match) {
                     const instrOffset = Number.parseInt(match[1]);
                     method.instructions.push({
                         instrOffset: instrOffset,
                         // Should an instruction ever not be followed by a line number table,
                         // it might contain a trailing \r on Windows -> trim it, otherwise this would not be necessary
                         text: codeLineCandidate.trimEnd(),
                     });
                 } else {
                     // Attempt to match the closing } of a lookupswitch. If we don't include the closing bracket, then
                     // the brackets will be misaligned, and it may be confusing to read.
                     const isClosingCurlyBrace = codeLineCandidate.match(/\s+}/);
                     if (isClosingCurlyBrace) {
                         // Put closing curly brace in asm output
                         method.instructions.push({
                             text: codeLineCandidate.trimEnd(),
                         });
                         continue;
                     }
                     break;
                 }
             }

             const lineRegex = /line\s*(\d+):\s*(\d+)/g;
             let m;
             let currentInstr = 0;
             let currentSourceLine = -1;
             let lastIndex = -1;
             do {
                 m = lineRegex.exec(codeAndLineNumberTable);
                 if (m) {
                     // If exec doesn't find a match anymore, lineRegex.lastIndex will be reset to 0
                     // therefore, cache value here on match
                     lastIndex = lineRegex.lastIndex;
                     const [, sourceLineS, instructionS] = m;
                     logger.verbose('Found source mapping: ', sourceLineS, 'to instruction', instructionS);
                     const instrOffset = Number.parseInt(instructionS);

                     // Some instructions don't receive an explicit line number.
                     // They are all assigned to the previous explicit line number,
                     // because the line consists of multiple instructions.
                     while (
                         currentInstr < method.instructions.length &&
                         method.instructions[currentInstr].instrOffset !== instrOffset
                     ) {
                         if (currentSourceLine === -1) {
                             logger.error('Skipping over instruction even though currentSourceLine == -1');
                         } else {
                             // instructions without explicit line number get assigned the last explicit/same line number
                             method.instructions[currentInstr].sourceLine = currentSourceLine;
                         }
                         currentInstr++;
                     }

                     const sourceLine = Number.parseInt(sourceLineS);
                     currentSourceLine = sourceLine;
                     if (method.instructions[currentInstr]) {
                         method.instructions[currentInstr].sourceLine = currentSourceLine;
                     }

                     if (method.startLine === undefined) {
                         method.startLine = sourceLine;
                     }
                     // method.instructions.push({sourceLine: instrOffset});
                 }
             } while (m);
             if (lastIndex !== -1) {
                 // Get "interesting" text after the LineNumbers table (header of next method/tail of file)
                 // trimRight() because of trailing \r on Windows
                 textsBeforeMethod.push(codeAndLineNumberTable.substr(lastIndex).trimEnd());
             }

             if (currentSourceLine !== -1) {
                 // Assign remaining instructions to the same source line
                 while (currentInstr + 1 < method.instructions.length) {
                     currentInstr++;
                     method.instructions[currentInstr].sourceLine = currentSourceLine;
                 }
             }
         }
         return {
             // Used for sorting
             firstSourceLine: methods.reduce(
                 (p, m) => (p === -1 ? unwrap(m.startLine) : Math.min(p, unwrap(m.startLine))),
                 -1,
             ),
             methods: methods,
             textsBeforeMethod,
         };
     }
 }
	// Copyright (c) 2019, Compiler Explorer Authors
	// All rights reserved.
	//
	// Redistribution and use in source and binary forms, with or without
	// modification, are permitted provided that the following conditions are met:
	//
	// * Redistributions of source code must retain the above copyright notice,
	// this list of conditions and the following disclaimer.
	// * Redistributions in binary form must reproduce the above copyright
	// notice, this list of conditions and the following disclaimer in the
	// documentation and/or other materials provided with the distribution.
	//
	// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
	// AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
	// IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
	// ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
	// LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
	// CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
	// SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
	// INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
	// CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
	// ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
	// POSSIBILITY OF SUCH DAMAGE.

	import path from 'path';

	import fs from 'fs-extra';

	import {ParsedAsmResult, ParsedAsmResultLine} from '../../types/asmresult/asmresult.interfaces';
	import {CompilerInfo} from '../../types/compiler.interfaces';
	import {ParseFiltersAndOutputOptions} from '../../types/features/filters.interfaces';
	import {unwrap} from '../assert';
	import {BaseCompiler} from '../base-compiler';
	import {logger} from '../logger';
	import * as utils from '../utils';

	import {JavaParser} from './argument-parsers';

	export class JavaCompiler extends BaseCompiler {
	static get key() {
	return 'java';
	}

	javaRuntime: string;
	mainRegex: RegExp;

	constructor(compilerInfo: CompilerInfo, env) {
	// Default is to disable all "cosmetic" filters
	if (!compilerInfo.disabledFilters) {
	compilerInfo.disabledFilters = ['labels', 'directives', 'commentOnly', 'trim'];
	}
	super(compilerInfo, env);
	this.javaRuntime = this.compilerProps<string>(`compiler.${this.compiler.id}.runtime`);
	this.mainRegex = /public static ?(.*?) void main\(java\.lang\.String\[]\)/;
	}

	override getSharedLibraryPathsAsArguments() {
	return [];
	}

	override async objdump(outputFilename, result: any, maxSize: number) {
	const dirPath = path.dirname(outputFilename);
	const files = await fs.readdir(dirPath);
	logger.verbose('Class files: ', files);
	const results = await Promise.all(
	files
	.filter(f => f.endsWith('.class'))
	.map(async classFile => {
	const args = [
	// Prints out disassembled code, i.e., the instructions that comprise the Java bytecodes,
	// for each of the methods in the class.
	'-c',
	// Prints out line and local variable tables.
	'-l',
	// Private things
	'-p',
	// Final constants
	'-constants',
	// Verbose - ideally we'd enable this and then we get constant pools too. Needs work to parse.
	//'-v',
	classFile,
	];
	const objResult = await this.exec(this.compiler.objdumper, args, {
	maxOutput: maxSize,
	customCwd: dirPath,
	});
	const oneResult: ParsedAsmResult = {
	asm: [
	{
	text: objResult.stdout,
	},
	],
	};

	if (objResult.code === 0) {
	oneResult.objdumpTime = objResult.execTime;
	} else {
	oneResult.asm = [
	{
	text: `<No output: javap returned ${objResult.code}>`,
	},
	];
	}
	return oneResult;
	}),
	);

	const merged = {asm: [] as ParsedAsmResultLine[][]};
	for (const result of results) {
	const asmBackup = merged.asm;
	Object.assign(merged, result);
	merged.asm = asmBackup;
	merged.asm.push(result.asm);
	}

	result.asm = merged.asm;
	return result;
	}

	override optionsForFilter(filters: ParseFiltersAndOutputOptions) {
	// Forcibly enable javap
	filters.binary = true;

	return ['-Xlint:all', '-encoding', 'utf8'];
	}

	override async handleInterpreting(key, executeParameters) {
	const compileResult = await this.getOrBuildExecutable(key);
	if (compileResult.code === 0) {
	executeParameters.args = [
	'-Xss136K', // Reduce thread stack size
	'-XX:CICompilerCount=2', // Reduce JIT compilation threads. 2 is minimum
	'-XX:-UseDynamicNumberOfCompilerThreads',
	'-XX:-UseDynamicNumberOfGCThreads',
	'-XX:+UseSerialGC', // Disable parallell/concurrent garbage collector
	await this.getMainClassName(compileResult.dirPath),
	'-cp',
	compileResult.dirPath,
	...executeParameters.args,
	];
	const result = await this.runExecutable(this.javaRuntime, executeParameters, compileResult.dirPath);
	return {
	...result,
	didExecute: true,
	buildResult: compileResult,
	};
	} else {
	return {
	stdout: compileResult.stdout,
	stderr: compileResult.stderr,
	code: compileResult.code,
	didExecute: false,
	buildResult: compileResult,
	timedOut: false,
	};
	}
	}

	async getMainClassName(dirPath: string) {
	const maxSize = this.env.ceProps('max-asm-size', 64 * 1024 * 1024);
	const files = await fs.readdir(dirPath);
	const results = await Promise.all(
	files
	.filter(f => f.endsWith('.class'))
	.map(async classFile => {
	const options = {
	maxOutput: maxSize,
	customCwd: dirPath,
	};
	const objResult = await this.exec(this.compiler.objdumper, [classFile], options);
	if (objResult.code !== 0) {
	return null;
	}

	if (this.mainRegex.test(objResult.stdout)) {
	return classFile;
	}
	return null;
	}),
	);

	const candidates = results.filter(file => file !== null);
	if (candidates.length > 0) {
	// In case of multiple candidates, we'll just take the first one.
	const fileName = unwrap(candidates[0]);
	return fileName.substring(0, fileName.lastIndexOf('.'));
	}
	// We were unable to find a main method, let's error out assuming "Main"
	return 'Main';
	}

	override getArgumentParser() {
	return JavaParser;
	}

	override getOutputFilename(dirPath: string) {
	return path.join(dirPath, `${path.basename(this.compileFilename, this.lang.extensions[0])}.class`);
	}

	filterUserOptionsWithArg(userOptions: string[], oneArgForbiddenList: Set<string>) {
	const filteredOptions: string[] = [];
	let toSkip = 0;

	for (const userOption of userOptions) {
	if (toSkip > 0) {
	toSkip--;
	continue;
	}
	if (oneArgForbiddenList.has(userOption)) {
	toSkip = 1;
	continue;
	}

	filteredOptions.push(userOption);
	}

	return filteredOptions;
	}

	override filterUserOptions(userOptions: string[]) {
	const oneArgForbiddenList = new Set([
	// -d directory
	// Sets the destination directory for class files.
	'-d',
	// -s directory
	// Specifies the directory used to place the generated source files.
	'-s',
	// --source-path path or -sourcepath path
	// Specifies where to find input source files.
	'--source-path',
	'-sourcepath',
	]);

	return this.filterUserOptionsWithArg(userOptions, oneArgForbiddenList);
	}

	override processAsm(result) {
	// Handle "error" documents.
	if (!result.asm.includes('\n') && result.asm[0] === '<') {
	return [{text: result.asm, source: null}];
	}

	// result.asm is an array of javap stdouts
	const parseds = result.asm.map(asm => this.parseAsmForClass(asm));
	// Sort class file outputs according to first source line they reference
	parseds.sort((o1, o2) => o1.firstSourceLine - o2.firstSourceLine);

	const segments: ParsedAsmResultLine[] = [];
	for (const [classNumber, parsed] of parseds.entries()) {
	if (classNumber > 0) {
	// Separate classes with two line breaks
	segments.push({text: '', source: null}, {text: '', source: null});
	}
	for (let i = 0; i < parsed.textsBeforeMethod.length; i++) {
	// Line-based highlighting doesn't work if some segments span multiple lines,
	// even if they don't have a source line number
	// -> split the lines and create segment for each separately
	for (const line of utils.splitLines(parsed.textsBeforeMethod[i])) {
	// javap output always starts with "Compiled from" on first line, discard these lines.
	if (line.startsWith('Compiled from')) {
	continue;
	}
	segments.push({
	text: line,
	source: null,
	});
	}

	// textsBeforeMethod[last] is actually after the last method.
	// Check whether there is a method following the text block
	if (i < parsed.methods.length) {
	for (const {text, sourceLine} of parsed.methods[i].instructions) {
	segments.push({text: text, source: {file: null, line: sourceLine}});
	}
	}
	}
	}
	return {asm: segments};
	}

	parseAsmForClass(javapOut) {
	const textsBeforeMethod: string[] = [];
	const methods: {instructions: any[]; startLine?: number}[] = [];
	// javap output puts ` Code:` after every signature. (Line will not be shown to user)
	// We use this to find the individual methods.
	// Before the first `Code:` occurrence, there is the method signature as well as the name of the class.
	// Subsequent matches are always followed by lists of assembly instructions as well as line info mappings

	// Regex idea: make sure `Code:` is the only thing on the line. Also consume trailing line ending!
	const [classNameAndFirstMethodSignature, ...codeAndLineNumberTables] = javapOut.split(/^\s+Code:\s*$\r?\n/m);
	textsBeforeMethod.push(classNameAndFirstMethodSignature.trimEnd()); // possible trailing \r on windows

	for (const codeAndLineNumberTable of codeAndLineNumberTables) {
	const method = {
	instructions: [],
	} as typeof methods[0];
	methods.push(method);

	for (const codeLineCandidate of utils.splitLines(codeAndLineNumberTable)) {
	// Match
	// 1: invokespecial #1 // Method java/lang/Object."<init>":()V
	// Or match the "default: <code>" block inside a lookupswitch instruction
	const match = codeLineCandidate.match(/\s+(\d+\|default): (.*)/);
	if (match) {
	const instrOffset = Number.parseInt(match[1]);
	method.instructions.push({
	instrOffset: instrOffset,
	// Should an instruction ever not be followed by a line number table,
	// it might contain a trailing \r on Windows -> trim it, otherwise this would not be necessary
	text: codeLineCandidate.trimEnd(),
	});
	} else {
	// Attempt to match the closing } of a lookupswitch. If we don't include the closing bracket, then
	// the brackets will be misaligned, and it may be confusing to read.
	const isClosingCurlyBrace = codeLineCandidate.match(/\s+}/);
	if (isClosingCurlyBrace) {
	// Put closing curly brace in asm output
	method.instructions.push({
	text: codeLineCandidate.trimEnd(),
	});
	continue;
	}
	break;
	}
	}

	const lineRegex = /line\s(\d+):\s(\d+)/g;
	let m;
	let currentInstr = 0;
	let currentSourceLine = -1;
	let lastIndex = -1;
	do {
	m = lineRegex.exec(codeAndLineNumberTable);
	if (m) {
	// If exec doesn't find a match anymore, lineRegex.lastIndex will be reset to 0
	// therefore, cache value here on match
	lastIndex = lineRegex.lastIndex;
	const [, sourceLineS, instructionS] = m;
	logger.verbose('Found source mapping: ', sourceLineS, 'to instruction', instructionS);
	const instrOffset = Number.parseInt(instructionS);

	// Some instructions don't receive an explicit line number.
	// They are all assigned to the previous explicit line number,
	// because the line consists of multiple instructions.
	while (
	currentInstr < method.instructions.length &&
	method.instructions[currentInstr].instrOffset !== instrOffset
	) {
	if (currentSourceLine === -1) {
	logger.error('Skipping over instruction even though currentSourceLine == -1');
	} else {
	// instructions without explicit line number get assigned the last explicit/same line number
	method.instructions[currentInstr].sourceLine = currentSourceLine;
	}
	currentInstr++;
	}

	const sourceLine = Number.parseInt(sourceLineS);
	currentSourceLine = sourceLine;
	if (method.instructions[currentInstr]) {
	method.instructions[currentInstr].sourceLine = currentSourceLine;
	}

	if (method.startLine === undefined) {
	method.startLine = sourceLine;
	}
	// method.instructions.push({sourceLine: instrOffset});
	}
	} while (m);
	if (lastIndex !== -1) {
	// Get "interesting" text after the LineNumbers table (header of next method/tail of file)
	// trimRight() because of trailing \r on Windows
	textsBeforeMethod.push(codeAndLineNumberTable.substr(lastIndex).trimEnd());
	}

	if (currentSourceLine !== -1) {
	// Assign remaining instructions to the same source line
	while (currentInstr + 1 < method.instructions.length) {
	currentInstr++;
	method.instructions[currentInstr].sourceLine = currentSourceLine;
	}
	}
	}
	return {
	// Used for sorting
	firstSourceLine: methods.reduce(
	(p, m) => (p === -1 ? unwrap(m.startLine) : Math.min(p, unwrap(m.startLine))),
	-1,
	),
	methods: methods,
	textsBeforeMethod,
	};
	}
	}