test/base-compiler-tests.js - compiler-explorer - Rivoreo Source Code Repositories

 // Copyright (c) 2018, 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.

 const chai = require('chai');
 const sinon = require('sinon');
 const chaiAsPromised = require("chai-as-promised");
 const BaseCompiler = require('../lib/base-compiler');
 const fs = require('fs-extra');
 const exec = require('../lib/exec');
 const path = require('path');
 const {makeCompilationEnvironment} = require('./utils.js');

 chai.use(chaiAsPromised);
 const should = chai.should();

 const languages = {
     'c++': {id: 'c++'}
 };

 describe('Basic compiler invariants', function () {
     let ce, compiler;
     const info = {
         exe: null,
         remote: true,
         lang: languages['c++'].id,
         ldPath: []
     };

     before(() => {
         ce = makeCompilationEnvironment({ languages });
         compiler = new BaseCompiler(info, ce);
     });

     it('should recognize when optOutput has been request', () => {
         compiler.optOutputRequested(["please", "recognize", "-fsave-optimization-record"]).should.equal(true);
         compiler.optOutputRequested(["please", "don't", "recognize"]).should.equal(false);
     });
     // Overkill test, but now we're safer!
     it('should recognize cfg compilers', () => {
         compiler.isCfgCompiler("clang version 5.0.0 (https://github.com/asutton/clang.git 449c8c3e91355a3b2b6761e11d9fb5d3c125b791) (https://github.com/llvm-mirror/llvm.git 40b1e969f9cb2a0c697e247435193fb006ef1311)").should.equal(true);
         compiler.isCfgCompiler("clang version 4.0.0 (tags/RELEASE_400/final 299826)").should.equal(true);
         compiler.isCfgCompiler("clang version 7.0.0 (trunk 325868)").should.equal(true);
         compiler.isCfgCompiler("clang version 3.3 (tags/RELEASE_33/final)").should.equal(true);
         compiler.isCfgCompiler("clang version 6.0.0 (tags/RELEASE_600/final 327031) (llvm/tags/RELEASE_600/final 327028)").should.equal(true);

         compiler.isCfgCompiler("g++ (GCC-Explorer-Build) 4.9.4").should.equal(true);
         compiler.isCfgCompiler("g++ (GCC-Explorer-Build) 8.0.1 20180223 (experimental)").should.equal(true);
         compiler.isCfgCompiler("g++ (GCC-Explorer-Build) 8.0.1 20180223 (experimental)").should.equal(true);
         compiler.isCfgCompiler("g++ (GCC) 4.1.2").should.equal(true);

         compiler.isCfgCompiler("foo-bar-g++ (GCC-Explorer-Build) 4.9.4").should.equal(true);
         compiler.isCfgCompiler("foo-bar-gcc (GCC-Explorer-Build) 4.9.4").should.equal(true);
         compiler.isCfgCompiler("foo-bar-gdc (GCC-Explorer-Build) 4.9.4").should.equal(true);

         compiler.isCfgCompiler("fake-for-test (Based on g++)").should.equal(false);

         compiler.isCfgCompiler("gdc (crosstool-NG 203be35 - 20160205-2.066.1-e95a735b97) 5.2.0").should.equal(true);
         compiler.isCfgCompiler("gdc (crosstool-NG hg+unknown-20131212.080758 - 20140430-2.064.2-404a037d26) 4.8.2").should.equal(true);
         compiler.isCfgCompiler("gdc (crosstool-NG crosstool-ng-1.20.0-232-gc746732 - 20150830-2.066.1-d0dd4a83de) 4.9.3").should.equal(true);

         compiler.isCfgCompiler("fake-for-test (Based on gdc)").should.equal(false);
     });
     it('should allow comments next to includes (Bug #874)', () => {
         should.equal(compiler.checkSource("#include <cmath> // std::(sin, cos, ...)"), null);
         const badSource = compiler.checkSource("#include </dev/null..> //Muehehehe");
         should.exist(badSource);
         badSource.should.equal("<stdin>:1:1: no absolute or relative includes please");
     });
 });

 describe('Compiler execution', function () {
     let ce, compiler;
     const info = {
         exe: null,
         remote: true,
         lang: languages['c++'].id,
         ldPath: []
     };

     before(() => {
         ce = makeCompilationEnvironment({ languages });
         compiler = new BaseCompiler(info, ce);
     });

     afterEach(() => sinon.restore());

     function stubOutCallToExec(execStub, compiler, content, result, nthCall) {
         execStub.onCall(nthCall || 0).callsFake((compiler, args, options) => {
             const minusO = args.indexOf("-o");
             minusO.should.be.gte(0);
             const output = args[minusO + 1];
             // Maybe we should mock out the FS too; but that requires a lot more work.
             fs.writeFileSync(output, content);
             result.filenameTransform = x => x;
             return Promise.resolve(result);
         });
     }

     it('should compile', async () => {
         const execStub = sinon.stub(compiler, 'exec');
         stubOutCallToExec(execStub, compiler, "This is the output file", {
             code: 0,
             okToCache: true,
             stdout: 'stdout',
             stderr: 'stderr'
         });
         const result = await compiler.compile(
             "source",
             "options",
             {},
             {},
             false,
             [],
             {},
             []);
         result.code.should.equal(0);
         result.compilationOptions.should.contain("options");
         result.compilationOptions.should.contain(result.inputFilename);
         result.okToCache.should.be.true;
         result.asm.should.deep.equal([{source: null, text: "This is the output file", labels: []}]);
         result.stdout.should.deep.equal([{text: "stdout"}]);
         result.stderr.should.deep.equal([{text: "stderr"}]);
         result.popularArguments.should.deep.equal({});
         result.tools.should.deep.equal([]);
         execStub.called.should.be.true;
     });

     it('should handle compilation failures', async () => {
         const execStub = sinon.stub(compiler, 'exec');
         stubOutCallToExec(execStub, compiler, "This is the output file", {
             code: 1,
             okToCache: true,
             stdout: '',
             stderr: 'oh noes'
         });
         const result = await compiler.compile(
             "source",
             "options",
             {},
             {},
             false,
             [],
             {},
             []);
         result.code.should.equal(1);
         result.asm.should.deep.equal([{labels: [], source: null, text: "<Compilation failed>"}]);
     });

     it('should cache results (when asked)', async () => {
         const ceMock = sinon.mock(ce);
         const fakeExecResults = {
             code: 0,
             okToCache: true,
             stdout: 'stdout',
             stderr: 'stderr'
         };
         const execStub = sinon.stub(compiler, 'exec');
         stubOutCallToExec(execStub, compiler, "This is the output file", fakeExecResults);
         const source = "Some cacheable source";
         const options = "Some cacheable options";
         ceMock.expects('cachePut').withArgs(sinon.match({source, options}), sinon.match(fakeExecResults)).resolves();
         const uncachedResult = await compiler.compile(
             source,
             options,
             {},
             {},
             false,
             [],
             {},
             []);
         uncachedResult.code.should.equal(0);
         ceMock.verify();
     });

     it('should not cache results (when not asked)', async () => {
         const ceMock = sinon.mock(ce);
         const fakeExecResults = {
             code: 0,
             okToCache: false,
             stdout: 'stdout',
             stderr: 'stderr'
         };
         const execStub = sinon.stub(compiler, 'exec');
         stubOutCallToExec(execStub, compiler, "This is the output file", fakeExecResults);
         ceMock.expects("cachePut").never();
         const source = "Some cacheable source";
         const options = "Some cacheable options";
         const uncachedResult = await compiler.compile(
             source,
             options,
             {},
             {},
             false,
             [],
             {},
             []);
         uncachedResult.code.should.equal(0);
         ceMock.verify();
     });

     it('should read from the cache (when asked)', async () => {
         const ceMock = sinon.mock(ce);
         const source = "Some previously cached source";
         const options = "Some previously cached options";
         ceMock.expects('cacheGet').withArgs(sinon.match({source, options})).resolves({code: 123});
         const cachedResult = await compiler.compile(
             source,
             options,
             {},
             {},
             false,
             [],
             {},
             []);
         cachedResult.code.should.equal(123);
         ceMock.verify();
     });

     it('should note read from the cache (when bypassed)', async () => {
         const ceMock = sinon.mock(ce);
         const fakeExecResults = {
             code: 0,
             okToCache: true,
             stdout: 'stdout',
             stderr: 'stderr'
         };
         const source = "Some previously cached source";
         const options = "Some previously cached options";
         ceMock.expects('cacheGet').never();
         const execStub = sinon.stub(compiler, 'exec');
         stubOutCallToExec(execStub, compiler, "This is the output file", fakeExecResults);
         const uncachedResult = await compiler.compile(
             source,
             options,
             {},
             {},
             true,
             [],
             {},
             []);
         uncachedResult.code.should.equal(0);
         ceMock.verify();
     });

     it('should execute', async () => {
         const execMock = sinon.mock(exec);
         const execStub = sinon.stub(compiler, 'exec');
         stubOutCallToExec(execStub, compiler, "This is the output asm file", {
             code: 0,
             okToCache: true,
             stdout: 'asm stdout',
             stderr: 'asm stderr'
         }, 0);
         stubOutCallToExec(execStub, compiler, "This is the output binary file", {
             code: 0,
             okToCache: true,
             stdout: 'binary stdout',
             stderr: 'binary stderr'
         }, 1);
         execMock.expects("sandbox").withArgs(sinon.match.string, sinon.match.array, sinon.match.object).resolves({
             code: 0,
             stdout: 'exec stdout',
             stderr: 'exec stderr'
         });
         const result = await compiler.compile(
             "source",
             "options",
             {},
             {execute: true},
             false,
             [],
             {},
             []);
         result.code.should.equal(0);
         result.execResult.didExecute.should.be.true;
         result.stdout.should.deep.equal([{text: "asm stdout"}]);
         result.execResult.stdout.should.deep.equal([{text: "exec stdout"}]);
         result.execResult.buildResult.stdout.should.deep.equal([{text: "binary stdout"}]);
         result.stderr.should.deep.equal([{text: "asm stderr"}]);
         result.execResult.stderr.should.deep.equal([{text: "exec stderr"}]);
         result.execResult.buildResult.stderr.should.deep.equal([{text: "binary stderr"}]);
     });

     it('should demangle', async () => {
         const withDemangler = {...info, demangler: 'demangler-exe', demanglerClassFile: './demangler-cpp'};
         const compiler = new BaseCompiler(withDemangler, ce);
         const execStub = sinon.stub(compiler, 'exec');
         stubOutCallToExec(execStub, compiler, "someMangledSymbol:\n", {
             code: 0,
             okToCache: true,
             stdout: 'stdout',
             stderr: 'stderr'
         });
         execStub.onCall(1).callsFake((demangler, args, options) => {
             demangler.should.equal("demangler-exe");
             options.input.should.equal("someMangledSymbol");
             return Promise.resolve({
                 code: 0,
                 filenameTransform: x => x,
                 stdout: 'someDemangledSymbol\n',
                 stderr: ''
             });
         });
         const result = await compiler.compile(
             "source",
             "options",
             {},
             {demangle: true},
             false,
             [],
             {},
             []);
         result.code.should.equal(0);
         result.asm.should.deep.equal([{source: null, labels: [], text: "someDemangledSymbol:"}]);
         // TODO all with demangle: false
     });

     it('should run objdump properly', async () => {
         const withDemangler = {...info, objdumper: 'objdump-exe'};
         const compiler = new BaseCompiler(withDemangler, ce);
         const execStub = sinon.stub(compiler, 'exec');
         execStub.onCall(0).callsFake((objdumper, args, options) => {
             objdumper.should.equal("objdump-exe");
             args.should.deep.equal([
                 "-d", "output",
                 "-l", "--insn-width=16",
                 "-C", "-M", "intel"]);
             options.maxOutput.should.equal(123456);
             return Promise.resolve({
                 code: 0,
                 filenameTransform: x => x,
                 stdout: 'the output',
                 stderr: ''
             });
         });
         compiler.supportsObjdump().should.be.true;
         const result = await compiler.objdump(
             "output",
             {},
             123456,
             true,
             true);
         result.asm.should.deep.equal("the output");
     });

     it('should run process opt output', async () => {
         const test = `--- !Missed
 Pass: inline
 Name: NeverInline
 DebugLoc: { File: example.cpp, Line: 4, Column: 21 }
 Function: main
 Args: []
 ...
 `;
         const dirPath = await compiler.newTempDir();
         const optPath = path.join(dirPath, "temp.out");
         await fs.writeFile(optPath, test);
         const a = await compiler.processOptOutput(optPath);
         a.should.deep.equal([{
             Args: [],
             DebugLoc: {Column: 21, File: "example.cpp", Line: 4},
             Function: "main",
             Name: "NeverInline",
             Pass: "inline",
             displayString: "",
             optType: "Missed"
         }]);
     });
 });
	// Copyright (c) 2018, 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.

	const chai = require('chai');
	const sinon = require('sinon');
	const chaiAsPromised = require("chai-as-promised");
	const BaseCompiler = require('../lib/base-compiler');
	const fs = require('fs-extra');
	const exec = require('../lib/exec');
	const path = require('path');
	const {makeCompilationEnvironment} = require('./utils.js');

	chai.use(chaiAsPromised);
	const should = chai.should();

	const languages = {
	'c++': {id: 'c++'}
	};

	describe('Basic compiler invariants', function () {
	let ce, compiler;
	const info = {
	exe: null,
	remote: true,
	lang: languages['c++'].id,
	ldPath: []
	};

	before(() => {
	ce = makeCompilationEnvironment({ languages });
	compiler = new BaseCompiler(info, ce);
	});

	it('should recognize when optOutput has been request', () => {
	compiler.optOutputRequested(["please", "recognize", "-fsave-optimization-record"]).should.equal(true);
	compiler.optOutputRequested(["please", "don't", "recognize"]).should.equal(false);
	});
	// Overkill test, but now we're safer!
	it('should recognize cfg compilers', () => {
	compiler.isCfgCompiler("clang version 5.0.0 (https://github.com/asutton/clang.git 449c8c3e91355a3b2b6761e11d9fb5d3c125b791) (https://github.com/llvm-mirror/llvm.git 40b1e969f9cb2a0c697e247435193fb006ef1311)").should.equal(true);
	compiler.isCfgCompiler("clang version 4.0.0 (tags/RELEASE_400/final 299826)").should.equal(true);
	compiler.isCfgCompiler("clang version 7.0.0 (trunk 325868)").should.equal(true);
	compiler.isCfgCompiler("clang version 3.3 (tags/RELEASE_33/final)").should.equal(true);
	compiler.isCfgCompiler("clang version 6.0.0 (tags/RELEASE_600/final 327031) (llvm/tags/RELEASE_600/final 327028)").should.equal(true);

	compiler.isCfgCompiler("g++ (GCC-Explorer-Build) 4.9.4").should.equal(true);
	compiler.isCfgCompiler("g++ (GCC-Explorer-Build) 8.0.1 20180223 (experimental)").should.equal(true);
	compiler.isCfgCompiler("g++ (GCC-Explorer-Build) 8.0.1 20180223 (experimental)").should.equal(true);
	compiler.isCfgCompiler("g++ (GCC) 4.1.2").should.equal(true);

	compiler.isCfgCompiler("foo-bar-g++ (GCC-Explorer-Build) 4.9.4").should.equal(true);
	compiler.isCfgCompiler("foo-bar-gcc (GCC-Explorer-Build) 4.9.4").should.equal(true);
	compiler.isCfgCompiler("foo-bar-gdc (GCC-Explorer-Build) 4.9.4").should.equal(true);

	compiler.isCfgCompiler("fake-for-test (Based on g++)").should.equal(false);

	compiler.isCfgCompiler("gdc (crosstool-NG 203be35 - 20160205-2.066.1-e95a735b97) 5.2.0").should.equal(true);
	compiler.isCfgCompiler("gdc (crosstool-NG hg+unknown-20131212.080758 - 20140430-2.064.2-404a037d26) 4.8.2").should.equal(true);
	compiler.isCfgCompiler("gdc (crosstool-NG crosstool-ng-1.20.0-232-gc746732 - 20150830-2.066.1-d0dd4a83de) 4.9.3").should.equal(true);

	compiler.isCfgCompiler("fake-for-test (Based on gdc)").should.equal(false);
	});
	it('should allow comments next to includes (Bug #874)', () => {
	should.equal(compiler.checkSource("#include <cmath> // std::(sin, cos, ...)"), null);
	const badSource = compiler.checkSource("#include </dev/null..> //Muehehehe");
	should.exist(badSource);
	badSource.should.equal("<stdin>:1:1: no absolute or relative includes please");
	});
	});

	describe('Compiler execution', function () {
	let ce, compiler;
	const info = {
	exe: null,
	remote: true,
	lang: languages['c++'].id,
	ldPath: []
	};

	before(() => {
	ce = makeCompilationEnvironment({ languages });
	compiler = new BaseCompiler(info, ce);
	});

	afterEach(() => sinon.restore());

	function stubOutCallToExec(execStub, compiler, content, result, nthCall) {
	execStub.onCall(nthCall \|\| 0).callsFake((compiler, args, options) => {
	const minusO = args.indexOf("-o");
	minusO.should.be.gte(0);
	const output = args[minusO + 1];
	// Maybe we should mock out the FS too; but that requires a lot more work.
	fs.writeFileSync(output, content);
	result.filenameTransform = x => x;
	return Promise.resolve(result);
	});
	}

	it('should compile', async () => {
	const execStub = sinon.stub(compiler, 'exec');
	stubOutCallToExec(execStub, compiler, "This is the output file", {
	code: 0,
	okToCache: true,
	stdout: 'stdout',
	stderr: 'stderr'
	});
	const result = await compiler.compile(
	"source",
	"options",
	{},
	{},
	false,
	[],
	{},
	[]);
	result.code.should.equal(0);
	result.compilationOptions.should.contain("options");
	result.compilationOptions.should.contain(result.inputFilename);
	result.okToCache.should.be.true;
	result.asm.should.deep.equal([{source: null, text: "This is the output file", labels: []}]);
	result.stdout.should.deep.equal([{text: "stdout"}]);
	result.stderr.should.deep.equal([{text: "stderr"}]);
	result.popularArguments.should.deep.equal({});
	result.tools.should.deep.equal([]);
	execStub.called.should.be.true;
	});

	it('should handle compilation failures', async () => {
	const execStub = sinon.stub(compiler, 'exec');
	stubOutCallToExec(execStub, compiler, "This is the output file", {
	code: 1,
	okToCache: true,
	stdout: '',
	stderr: 'oh noes'
	});
	const result = await compiler.compile(
	"source",
	"options",
	{},
	{},
	false,
	[],
	{},
	[]);
	result.code.should.equal(1);
	result.asm.should.deep.equal([{labels: [], source: null, text: "<Compilation failed>"}]);
	});

	it('should cache results (when asked)', async () => {
	const ceMock = sinon.mock(ce);
	const fakeExecResults = {
	code: 0,
	okToCache: true,
	stdout: 'stdout',
	stderr: 'stderr'
	};
	const execStub = sinon.stub(compiler, 'exec');
	stubOutCallToExec(execStub, compiler, "This is the output file", fakeExecResults);
	const source = "Some cacheable source";
	const options = "Some cacheable options";
	ceMock.expects('cachePut').withArgs(sinon.match({source, options}), sinon.match(fakeExecResults)).resolves();
	const uncachedResult = await compiler.compile(
	source,
	options,
	{},
	{},
	false,
	[],
	{},
	[]);
	uncachedResult.code.should.equal(0);
	ceMock.verify();
	});

	it('should not cache results (when not asked)', async () => {
	const ceMock = sinon.mock(ce);
	const fakeExecResults = {
	code: 0,
	okToCache: false,
	stdout: 'stdout',
	stderr: 'stderr'
	};
	const execStub = sinon.stub(compiler, 'exec');
	stubOutCallToExec(execStub, compiler, "This is the output file", fakeExecResults);
	ceMock.expects("cachePut").never();
	const source = "Some cacheable source";
	const options = "Some cacheable options";
	const uncachedResult = await compiler.compile(
	source,
	options,
	{},
	{},
	false,
	[],
	{},
	[]);
	uncachedResult.code.should.equal(0);
	ceMock.verify();
	});

	it('should read from the cache (when asked)', async () => {
	const ceMock = sinon.mock(ce);
	const source = "Some previously cached source";
	const options = "Some previously cached options";
	ceMock.expects('cacheGet').withArgs(sinon.match({source, options})).resolves({code: 123});
	const cachedResult = await compiler.compile(
	source,
	options,
	{},
	{},
	false,
	[],
	{},
	[]);
	cachedResult.code.should.equal(123);
	ceMock.verify();
	});

	it('should note read from the cache (when bypassed)', async () => {
	const ceMock = sinon.mock(ce);
	const fakeExecResults = {
	code: 0,
	okToCache: true,
	stdout: 'stdout',
	stderr: 'stderr'
	};
	const source = "Some previously cached source";
	const options = "Some previously cached options";
	ceMock.expects('cacheGet').never();
	const execStub = sinon.stub(compiler, 'exec');
	stubOutCallToExec(execStub, compiler, "This is the output file", fakeExecResults);
	const uncachedResult = await compiler.compile(
	source,
	options,
	{},
	{},
	true,
	[],
	{},
	[]);
	uncachedResult.code.should.equal(0);
	ceMock.verify();
	});

	it('should execute', async () => {
	const execMock = sinon.mock(exec);
	const execStub = sinon.stub(compiler, 'exec');
	stubOutCallToExec(execStub, compiler, "This is the output asm file", {
	code: 0,
	okToCache: true,
	stdout: 'asm stdout',
	stderr: 'asm stderr'
	}, 0);
	stubOutCallToExec(execStub, compiler, "This is the output binary file", {
	code: 0,
	okToCache: true,
	stdout: 'binary stdout',
	stderr: 'binary stderr'
	}, 1);
	execMock.expects("sandbox").withArgs(sinon.match.string, sinon.match.array, sinon.match.object).resolves({
	code: 0,
	stdout: 'exec stdout',
	stderr: 'exec stderr'
	});
	const result = await compiler.compile(
	"source",
	"options",
	{},
	{execute: true},
	false,
	[],
	{},
	[]);
	result.code.should.equal(0);
	result.execResult.didExecute.should.be.true;
	result.stdout.should.deep.equal([{text: "asm stdout"}]);
	result.execResult.stdout.should.deep.equal([{text: "exec stdout"}]);
	result.execResult.buildResult.stdout.should.deep.equal([{text: "binary stdout"}]);
	result.stderr.should.deep.equal([{text: "asm stderr"}]);
	result.execResult.stderr.should.deep.equal([{text: "exec stderr"}]);
	result.execResult.buildResult.stderr.should.deep.equal([{text: "binary stderr"}]);
	});

	it('should demangle', async () => {
	const withDemangler = {...info, demangler: 'demangler-exe', demanglerClassFile: './demangler-cpp'};
	const compiler = new BaseCompiler(withDemangler, ce);
	const execStub = sinon.stub(compiler, 'exec');
	stubOutCallToExec(execStub, compiler, "someMangledSymbol:\n", {
	code: 0,
	okToCache: true,
	stdout: 'stdout',
	stderr: 'stderr'
	});
	execStub.onCall(1).callsFake((demangler, args, options) => {
	demangler.should.equal("demangler-exe");
	options.input.should.equal("someMangledSymbol");
	return Promise.resolve({
	code: 0,
	filenameTransform: x => x,
	stdout: 'someDemangledSymbol\n',
	stderr: ''
	});
	});
	const result = await compiler.compile(
	"source",
	"options",
	{},
	{demangle: true},
	false,
	[],
	{},
	[]);
	result.code.should.equal(0);
	result.asm.should.deep.equal([{source: null, labels: [], text: "someDemangledSymbol:"}]);
	// TODO all with demangle: false
	});

	it('should run objdump properly', async () => {
	const withDemangler = {...info, objdumper: 'objdump-exe'};
	const compiler = new BaseCompiler(withDemangler, ce);
	const execStub = sinon.stub(compiler, 'exec');
	execStub.onCall(0).callsFake((objdumper, args, options) => {
	objdumper.should.equal("objdump-exe");
	args.should.deep.equal([
	"-d", "output",
	"-l", "--insn-width=16",
	"-C", "-M", "intel"]);
	options.maxOutput.should.equal(123456);
	return Promise.resolve({
	code: 0,
	filenameTransform: x => x,
	stdout: 'the output',
	stderr: ''
	});
	});
	compiler.supportsObjdump().should.be.true;
	const result = await compiler.objdump(
	"output",
	{},
	123456,
	true,
	true);
	result.asm.should.deep.equal("the output");
	});

	it('should run process opt output', async () => {
	const test = `--- !Missed
	Pass: inline
	Name: NeverInline
	DebugLoc: { File: example.cpp, Line: 4, Column: 21 }
	Function: main
	Args: []
	...
	`;
	const dirPath = await compiler.newTempDir();
	const optPath = path.join(dirPath, "temp.out");
	await fs.writeFile(optPath, test);
	const a = await compiler.processOptOutput(optPath);
	a.should.deep.equal([{
	Args: [],
	DebugLoc: {Column: 21, File: "example.cpp", Line: 4},
	Function: "main",
	Name: "NeverInline",
	Pass: "inline",
	displayString: "",
	optType: "Missed"
	}]);
	});
	});