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denoland-deno/js/compiler_test.ts
2018-09-25 17:02:49 -04:00

602 lines
17 KiB
TypeScript

// Copyright 2018 the Deno authors. All rights reserved. MIT license.
import { test, assert, assertEqual } from "./test_util.ts";
import * as compiler from "compiler";
import * as ts from "typescript";
// We use a silly amount of `any` in these tests...
// tslint:disable:no-any
const { DenoCompiler } = compiler;
interface ModuleInfo {
moduleName: string | null;
filename: string | null;
sourceCode: string | null;
outputCode: string | null;
}
const compilerInstance = DenoCompiler.instance();
// References to orignal items we are going to mock
const originals = {
_globalEval: (compilerInstance as any)._globalEval,
_log: (compilerInstance as any)._log,
_os: (compilerInstance as any)._os,
_ts: (compilerInstance as any)._ts,
_service: (compilerInstance as any)._service,
_window: (compilerInstance as any)._window
};
function mockModuleInfo(
moduleName: string | null,
filename: string | null,
sourceCode: string | null,
outputCode: string | null
): ModuleInfo {
return {
moduleName,
filename,
sourceCode,
outputCode
};
}
// Some fixtures we will us in testing
const fooBarTsSource = `import * as compiler from "compiler";
console.log(compiler);
export const foo = "bar";
`;
const fooBazTsSource = `import { foo } from "./bar.ts";
console.log(foo);
`;
const modASource = `import { B } from "./modB.ts";
export class A {
b = new B();
};
`;
const modAModuleInfo = mockModuleInfo(
"modA",
"/root/project/modA.ts",
modASource,
undefined
);
const modBSource = `import { A } from "./modA.ts";
export class B {
a = new A();
};
`;
const modBModuleInfo = mockModuleInfo(
"modB",
"/root/project/modB.ts",
modBSource,
undefined
);
// TODO(#23) Remove source map strings from fooBarTsOutput.
// tslint:disable:max-line-length
const fooBarTsOutput = `define(["require", "exports", "compiler"], function (require, exports, compiler) {
"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
console.log(compiler);
exports.foo = "bar";
});
//# sourceMappingURL=data:application/json;base64,eyJ2ZXJzaW9uIjozLCJmaWxlIjoiYmFyLmpzIiwic291cmNlUm9vdCI6IiIsInNvdXJjZXMiOlsiZmlsZTovLy9yb290L3Byb2plY3QvZm9vL2Jhci50cyJdLCJuYW1lcyI6W10sIm1hcHBpbmdzIjoiOzs7SUFDQSxPQUFPLENBQUMsR0FBRyxDQUFDLFFBQVEsQ0FBQyxDQUFDO0lBQ1QsUUFBQSxHQUFHLEdBQUcsS0FBSyxDQUFDIiwic291cmNlc0NvbnRlbnQiOlsiaW1wb3J0ICogYXMgY29tcGlsZXIgZnJvbSBcImNvbXBpbGVyXCI7XG5jb25zb2xlLmxvZyhjb21waWxlcik7XG5leHBvcnQgY29uc3QgZm9vID0gXCJiYXJcIjtcbiJdfQ==
//# sourceURL=/root/project/foo/bar.ts`;
// TODO(#23) Remove source map strings from fooBazTsOutput.
const fooBazTsOutput = `define(["require", "exports", "./bar.ts"], function (require, exports, bar_ts_1) {
"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
console.log(bar_ts_1.foo);
});
//# sourceMappingURL=data:application/json;base64,eyJ2ZXJzaW9uIjozLCJmaWxlIjoiYmF6LmpzIiwic291cmNlUm9vdCI6IiIsInNvdXJjZXMiOlsiZmlsZTovLy9yb290L3Byb2plY3QvZm9vL2Jhei50cyJdLCJuYW1lcyI6W10sIm1hcHBpbmdzIjoiOzs7SUFDQSxPQUFPLENBQUMsR0FBRyxDQUFDLFlBQUcsQ0FBQyxDQUFDIiwic291cmNlc0NvbnRlbnQiOlsiaW1wb3J0IHsgZm9vIH0gZnJvbSBcIi4vYmFyLnRzXCI7XG5jb25zb2xlLmxvZyhmb28pO1xuIl19
//# sourceURL=/root/project/foo/baz.ts`;
// tslint:enable:max-line-length
const moduleMap: {
[containFile: string]: { [moduleSpecifier: string]: ModuleInfo };
} = {
"/root/project": {
"foo/bar.ts": mockModuleInfo(
"/root/project/foo/bar.ts",
"/root/project/foo/bar.ts",
fooBarTsSource,
null
),
"foo/baz.ts": mockModuleInfo(
"/root/project/foo/baz.ts",
"/root/project/foo/baz.ts",
fooBazTsSource,
fooBazTsOutput
),
"modA.ts": modAModuleInfo
},
"/root/project/foo/baz.ts": {
"./bar.ts": mockModuleInfo(
"/root/project/foo/bar.ts",
"/root/project/foo/bar.ts",
fooBarTsSource,
fooBarTsOutput
)
},
"/root/project/modA.ts": {
"./modB.ts": modBModuleInfo
},
"/root/project/modB.ts": {
"./modA.ts": modAModuleInfo
}
};
const moduleCache: {
[fileName: string]: ModuleInfo;
} = {
"/root/project/modA.ts": modAModuleInfo,
"/root/project/modB.ts": modBModuleInfo
};
const emittedFiles = {
"/root/project/foo/qat.ts": "console.log('foo');"
};
let globalEvalStack: string[] = [];
let getEmitOutputStack: string[] = [];
let logStack: any[][] = [];
let codeCacheStack: Array<{
fileName: string;
sourceCode: string;
outputCode: string;
}> = [];
let codeFetchStack: Array<{
moduleSpecifier: string;
containingFile: string;
}> = [];
let mockDepsStack: string[][] = [];
let mockFactoryStack: compiler.AmdFactory[] = [];
function globalEvalMock(x: string): void {
globalEvalStack.push(x);
if (windowMock.define && mockDepsStack.length && mockFactoryStack.length) {
windowMock.define(mockDepsStack.pop(), mockFactoryStack.pop());
}
}
function logMock(...args: any[]): void {
logStack.push(args);
}
const osMock = {
codeCache(fileName: string, sourceCode: string, outputCode: string): void {
codeCacheStack.push({ fileName, sourceCode, outputCode });
if (fileName in moduleCache) {
moduleCache[fileName].sourceCode = sourceCode;
moduleCache[fileName].outputCode = outputCode;
} else {
moduleCache[fileName] = mockModuleInfo(
fileName,
fileName,
sourceCode,
outputCode
);
}
},
codeFetch(moduleSpecifier: string, containingFile: string): ModuleInfo {
codeFetchStack.push({ moduleSpecifier, containingFile });
if (containingFile in moduleMap) {
if (moduleSpecifier in moduleMap[containingFile]) {
return moduleMap[containingFile][moduleSpecifier];
}
}
return mockModuleInfo(null, null, null, null);
},
exit(code: number): never {
throw new Error(`os.exit(${code})`);
}
};
const tsMock = {
createLanguageService(host: ts.LanguageServiceHost): ts.LanguageService {
return {} as ts.LanguageService;
},
formatDiagnosticsWithColorAndContext(
diagnostics: ReadonlyArray<ts.Diagnostic>,
host: ts.FormatDiagnosticsHost
): string {
return "";
}
};
const getEmitOutputPassThrough = true;
const serviceMock = {
getCompilerOptionsDiagnostics(): ts.Diagnostic[] {
return originals._service.getCompilerOptionsDiagnostics.call(
originals._service
);
},
getEmitOutput(fileName: string): ts.EmitOutput {
getEmitOutputStack.push(fileName);
if (getEmitOutputPassThrough) {
return originals._service.getEmitOutput.call(
originals._service,
fileName
);
}
if (fileName in emittedFiles) {
return {
outputFiles: [{ text: emittedFiles[fileName] }] as any,
emitSkipped: false
};
}
return { outputFiles: [], emitSkipped: false };
},
getSemanticDiagnostics(fileName: string): ts.Diagnostic[] {
return originals._service.getSemanticDiagnostics.call(
originals._service,
fileName
);
},
getSyntacticDiagnostics(fileName: string): ts.Diagnostic[] {
return originals._service.getSyntacticDiagnostics.call(
originals._service,
fileName
);
}
};
const windowMock: { define?: compiler.AmdDefine } = {};
const mocks = {
_globalEval: globalEvalMock,
_log: logMock,
_os: osMock,
_ts: tsMock,
_service: serviceMock,
_window: windowMock
};
/**
* Setup the mocks for a test
*/
function setup() {
// monkey patch mocks on instance
Object.assign(compilerInstance, mocks);
}
/**
* Teardown the mocks for a test
*/
function teardown() {
// reset compiler internal state
(compilerInstance as any)._moduleMetaDataMap.clear();
(compilerInstance as any)._fileNamesMap.clear();
// reset mock states
codeFetchStack = [];
codeCacheStack = [];
logStack = [];
getEmitOutputStack = [];
globalEvalStack = [];
assertEqual(mockDepsStack.length, 0);
assertEqual(mockFactoryStack.length, 0);
mockDepsStack = [];
mockFactoryStack = [];
// restore original properties and methods
Object.assign(compilerInstance, originals);
}
test(function compilerInstance() {
assert(DenoCompiler != null);
assert(DenoCompiler.instance() != null);
});
// Testing the internal APIs
test(function compilerRun() {
// equal to `deno foo/bar.ts`
setup();
let factoryRun = false;
mockDepsStack.push(["require", "exports", "compiler"]);
mockFactoryStack.push((_require, _exports, _compiler) => {
factoryRun = true;
assertEqual(typeof _require, "function");
assertEqual(typeof _exports, "object");
assert(_compiler === compiler);
_exports.foo = "bar";
});
const moduleMetaData = compilerInstance.run("foo/bar.ts", "/root/project");
assert(factoryRun);
assert(moduleMetaData.hasRun);
assertEqual(moduleMetaData.sourceCode, fooBarTsSource);
assertEqual(moduleMetaData.outputCode, fooBarTsOutput);
assertEqual(moduleMetaData.exports, { foo: "bar" });
assertEqual(
codeFetchStack.length,
1,
"Module should have only been fetched once."
);
assertEqual(
codeCacheStack.length,
1,
"Compiled code should have only been cached once."
);
teardown();
});
test(function compilerRunMultiModule() {
// equal to `deno foo/baz.ts`
setup();
const factoryStack: string[] = [];
const bazDeps = ["require", "exports", "./bar.ts"];
const bazFactory = (_require, _exports, _bar) => {
factoryStack.push("baz");
assertEqual(_bar.foo, "bar");
};
const barDeps = ["require", "exports", "compiler"];
const barFactory = (_require, _exports, _compiler) => {
factoryStack.push("bar");
_exports.foo = "bar";
};
mockDepsStack.push(barDeps);
mockFactoryStack.push(barFactory);
mockDepsStack.push(bazDeps);
mockFactoryStack.push(bazFactory);
compilerInstance.run("foo/baz.ts", "/root/project");
assertEqual(factoryStack, ["bar", "baz"]);
assertEqual(
codeFetchStack.length,
2,
"Modules should have only been fetched once."
);
assertEqual(codeCacheStack.length, 0, "No code should have been cached.");
teardown();
});
test(function compilerRunCircularDependency() {
setup();
const factoryStack: string[] = [];
const modADeps = ["require", "exports", "./modB.ts"];
const modAFactory = (_require, _exports, _modB) => {
assertEqual(_modB.foo, "bar");
factoryStack.push("modA");
_exports.bar = "baz";
_modB.assertModA();
};
const modBDeps = ["require", "exports", "./modA.ts"];
const modBFactory = (_require, _exports, _modA) => {
assertEqual(_modA, {});
factoryStack.push("modB");
_exports.foo = "bar";
_exports.assertModA = () => {
assertEqual(_modA, {
bar: "baz"
});
};
};
mockDepsStack.push(modBDeps);
mockFactoryStack.push(modBFactory);
mockDepsStack.push(modADeps);
mockFactoryStack.push(modAFactory);
compilerInstance.run("modA.ts", "/root/project");
assertEqual(factoryStack, ["modB", "modA"]);
teardown();
});
test(function compilerResolveModule() {
setup();
const moduleMetaData = compilerInstance.resolveModule(
"foo/baz.ts",
"/root/project"
);
assertEqual(moduleMetaData.sourceCode, fooBazTsSource);
assertEqual(moduleMetaData.outputCode, fooBazTsOutput);
assert(!moduleMetaData.hasRun);
assert(!moduleMetaData.deps);
assertEqual(moduleMetaData.exports, {});
assertEqual(moduleMetaData.scriptVersion, "1");
assertEqual(codeFetchStack.length, 1, "Only initial module is resolved.");
teardown();
});
test(function compilerGetModuleDependencies() {
setup();
const bazDeps = ["require", "exports", "./bar.ts"];
const bazFactory = () => {
throw new Error("Unexpected factory call");
};
const barDeps = ["require", "exports", "compiler"];
const barFactory = () => {
throw new Error("Unexpected factory call");
};
mockDepsStack.push(barDeps);
mockFactoryStack.push(barFactory);
mockDepsStack.push(bazDeps);
mockFactoryStack.push(bazFactory);
const deps = compilerInstance.getModuleDependencies(
"foo/baz.ts",
"/root/project"
);
assertEqual(deps, ["/root/project/foo/bar.ts", "/root/project/foo/baz.ts"]);
teardown();
});
// TypeScript LanguageServiceHost APIs
test(function compilerGetCompilationSettings() {
const result = compilerInstance.getCompilationSettings();
for (const key of [
"allowJs",
"module",
"outDir",
"inlineSourceMap",
"inlineSources",
"stripComments",
"target"
]) {
assert(key in result, `Expected "${key}" in compiler options.`);
}
});
test(function compilerGetNewLine() {
const result = compilerInstance.getNewLine();
assertEqual(result, "\n", "Expected newline value of '\\n'.");
});
test(function compilerGetScriptFileNames() {
setup();
compilerInstance.run("foo/bar.ts", "/root/project");
const result = compilerInstance.getScriptFileNames();
assertEqual(result.length, 1, "Expected only a single filename.");
assertEqual(result[0], "/root/project/foo/bar.ts");
teardown();
});
test(function compilerRecompileFlag() {
setup();
compilerInstance.run("foo/bar.ts", "/root/project");
assertEqual(
getEmitOutputStack.length,
1,
"Expected only a single emitted file."
);
// running compiler against same file should use cached code
compilerInstance.run("foo/bar.ts", "/root/project");
assertEqual(
getEmitOutputStack.length,
1,
"Expected only a single emitted file."
);
compilerInstance.recompile = true;
compilerInstance.run("foo/bar.ts", "/root/project");
assertEqual(getEmitOutputStack.length, 2, "Expected two emitted file.");
assert(
getEmitOutputStack[0] === getEmitOutputStack[1],
"Expected same file to be emitted twice."
);
teardown();
});
test(function compilerGetScriptKind() {
assertEqual(compilerInstance.getScriptKind("foo.ts"), ts.ScriptKind.TS);
assertEqual(compilerInstance.getScriptKind("foo.d.ts"), ts.ScriptKind.TS);
assertEqual(compilerInstance.getScriptKind("foo.js"), ts.ScriptKind.JS);
assertEqual(compilerInstance.getScriptKind("foo.json"), ts.ScriptKind.JSON);
assertEqual(compilerInstance.getScriptKind("foo.txt"), ts.ScriptKind.JS);
});
test(function compilerGetScriptVersion() {
setup();
const moduleMetaData = compilerInstance.resolveModule(
"foo/bar.ts",
"/root/project"
);
compilerInstance.compile(moduleMetaData);
assertEqual(
compilerInstance.getScriptVersion(moduleMetaData.fileName),
"1",
"Expected known module to have script version of 1"
);
teardown();
});
test(function compilerGetScriptVersionUnknown() {
assertEqual(
compilerInstance.getScriptVersion("/root/project/unknown_module.ts"),
"",
"Expected unknown module to have an empty script version"
);
});
test(function compilerGetScriptSnapshot() {
setup();
const moduleMetaData = compilerInstance.resolveModule(
"foo/bar.ts",
"/root/project"
);
const result = compilerInstance.getScriptSnapshot(moduleMetaData.fileName);
assert(result != null, "Expected snapshot to be defined.");
assertEqual(result.getLength(), fooBarTsSource.length);
assertEqual(
result.getText(0, 6),
"import",
"Expected .getText() to equal 'import'"
);
assertEqual(result.getChangeRange(result), undefined);
// This is and optional part of the `IScriptSnapshot` API which we don't
// define, os checking for the lack of this property.
assert(!("dispose" in result));
assert(
result === moduleMetaData,
"result should strictly equal moduleMetaData"
);
teardown();
});
test(function compilerGetCurrentDirectory() {
assertEqual(compilerInstance.getCurrentDirectory(), "");
});
test(function compilerGetDefaultLibFileName() {
setup();
assertEqual(compilerInstance.getDefaultLibFileName(), "$asset$/globals.d.ts");
teardown();
});
test(function compilerUseCaseSensitiveFileNames() {
assertEqual(compilerInstance.useCaseSensitiveFileNames(), true);
});
test(function compilerReadFile() {
let doesThrow = false;
try {
compilerInstance.readFile("foobar.ts");
} catch (e) {
doesThrow = true;
assert(e.message.includes("Not implemented") === true);
}
assert(doesThrow);
});
test(function compilerFileExists() {
setup();
const moduleMetaData = compilerInstance.resolveModule(
"foo/bar.ts",
"/root/project"
);
assert(compilerInstance.fileExists(moduleMetaData.fileName));
assert(compilerInstance.fileExists("$asset$/globals.d.ts"));
assertEqual(
compilerInstance.fileExists("/root/project/unknown-module.ts"),
false
);
teardown();
});
test(function compilerResolveModuleNames() {
setup();
const results = compilerInstance.resolveModuleNames(
["foo/bar.ts", "foo/baz.ts", "deno"],
"/root/project"
);
assertEqual(results.length, 3);
const fixtures: Array<[string, boolean]> = [
["/root/project/foo/bar.ts", false],
["/root/project/foo/baz.ts", false],
["$asset$/globals.d.ts", true]
];
for (let i = 0; i < results.length; i++) {
const result = results[i];
const [resolvedFileName, isExternalLibraryImport] = fixtures[i];
assertEqual(result.resolvedFileName, resolvedFileName);
assertEqual(result.isExternalLibraryImport, isExternalLibraryImport);
}
teardown();
});