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denoland-deno/js/compiler_test.ts
Kitson Kelly a21a5ad2fa Add Deno global namespace (#1748)
Resolves #1705

This PR adds the Deno APIs as a global namespace named `Deno`. For backwards
compatibility, the ability to `import * from "deno"` is preserved. I have tried
to convert every test and internal code the references the module to use the
namespace instead, but because I didn't break compatibility I am not sure.

On the REPL, `deno` no longer exists, replaced only with `Deno` to align with
the regular runtime.

The runtime type library includes both the namespace and module. This means it
duplicates the whole type information. When we remove the functionality from the
runtime, it will be a one line change to the library generator to remove the
module definition from the type library.

I marked a `TODO` in a couple places where to remove the `"deno"` module, but
there are additional places I know I didn't mark.
2019-02-12 10:08:56 -05:00

690 lines
17 KiB
TypeScript

// Copyright 2018-2019 the Deno authors. All rights reserved. MIT license.
import { test, assert, assertEqual } from "./test_util.ts";
// We use a silly amount of `any` in these tests...
// tslint:disable:no-any
const { Compiler, jsonEsmTemplate } = (Deno as any)._compiler;
interface ModuleInfo {
moduleName: string | undefined;
filename: string | undefined;
mediaType: MediaType | undefined;
sourceCode: string | undefined;
outputCode: string | undefined;
sourceMap: string | undefined;
}
// Since we can't/don't want to import all of TypeScript for this one enum, we
// we will replicate it from TypeScript. This does mean that if other script
// kinds are added in the future we would need to add them manually to the tests
enum ScriptKind {
Unknown = 0,
JS = 1,
JSX = 2,
TS = 3,
TSX = 4,
External = 5,
JSON = 6,
Deferred = 7
}
const compilerInstance = Compiler.instance();
// References to original items we are going to mock
const originals = {
_log: (compilerInstance as any)._log,
_os: (compilerInstance as any)._os,
_ts: (compilerInstance as any)._ts,
_service: (compilerInstance as any)._service
};
enum MediaType {
JavaScript = 0,
TypeScript = 1,
Json = 2,
Unknown = 3
}
function mockModuleInfo(
moduleName: string | undefined,
filename: string | undefined,
mediaType: MediaType | undefined,
sourceCode: string | undefined,
outputCode: string | undefined,
sourceMap: string | undefined
): ModuleInfo {
return {
moduleName,
filename,
mediaType,
sourceCode,
outputCode,
sourceMap
};
}
// Some fixtures we will use in testing
const fooBarTsSource = `import * as deno from "deno";
console.log(deno);
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",
MediaType.TypeScript,
modASource,
undefined,
undefined
);
const modBSource = `import { A } from "./modA.ts";
export class B {
a = new A();
};
`;
const modBModuleInfo = mockModuleInfo(
"modB",
"/root/project/modB.ts",
MediaType.TypeScript,
modBSource,
undefined,
undefined
);
// tslint:disable:max-line-length
const fooBarTsOutput = `import * as deno from "deno";
console.log(deno);
export const foo = "bar";
//# sourceMappingURL=bar.js.map
//# sourceURL=/root/project/foo/bar.ts`;
const fooBarTsSourcemap = `{"version":3,"file":"bar.js","sourceRoot":"","sources":["file:///root/project/foo/bar.ts"],"names":[],"mappings":"AAAA,OAAO,KAAK,IAAI,MAAM,MAAM,CAAC;AAC7B,OAAO,CAAC,GAAG,CAAC,IAAI,CAAC,CAAC;AAClB,MAAM,CAAC,MAAM,GAAG,GAAG,KAAK,CAAC"}`;
const loadConfigSource = `import * as config from "./config.json";
console.log(config.foo.baz);
`;
const configJsonSource = `{"foo":{"bar": true,"baz": ["qat", 1]}}`;
// 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",
MediaType.TypeScript,
fooBarTsSource,
null,
null
),
"foo/baz.ts": mockModuleInfo(
"/root/project/foo/baz.ts",
"/root/project/foo/baz.ts",
MediaType.TypeScript,
fooBazTsSource,
null,
null
),
"modA.ts": modAModuleInfo,
"some.txt": mockModuleInfo(
"/root/project/some.txt",
"/root/project/some.text",
MediaType.Unknown,
"console.log();",
null,
null
),
"loadConfig.ts": mockModuleInfo(
"/root/project/loadConfig.ts",
"/root/project/loadConfig.ts",
MediaType.TypeScript,
loadConfigSource,
null,
null
)
},
"/root/project/foo/baz.ts": {
"./bar.ts": mockModuleInfo(
"/root/project/foo/bar.ts",
"/root/project/foo/bar.ts",
MediaType.TypeScript,
fooBarTsSource,
fooBarTsOutput,
fooBarTsSourcemap
)
},
"/root/project/modA.ts": {
"./modB.ts": modBModuleInfo
},
"/root/project/modB.ts": {
"./modA.ts": modAModuleInfo
},
"/root/project/loadConfig.ts": {
"./config.json": mockModuleInfo(
"/root/project/config.json",
"/root/project/config.json",
MediaType.Json,
configJsonSource,
null,
null
)
},
"/moduleKinds": {
"foo.ts": mockModuleInfo(
"foo",
"/moduleKinds/foo.ts",
MediaType.TypeScript,
"console.log('foo');",
undefined,
undefined
),
"foo.d.ts": mockModuleInfo(
"foo",
"/moduleKinds/foo.d.ts",
MediaType.TypeScript,
"console.log('foo');",
undefined,
undefined
),
"foo.js": mockModuleInfo(
"foo",
"/moduleKinds/foo.js",
MediaType.JavaScript,
"console.log('foo');",
undefined,
undefined
),
"foo.json": mockModuleInfo(
"foo",
"/moduleKinds/foo.json",
MediaType.Json,
"console.log('foo');",
undefined,
undefined
),
"foo.txt": mockModuleInfo(
"foo",
"/moduleKinds/foo.txt",
MediaType.JavaScript,
"console.log('foo');",
undefined,
undefined
),
"empty_file.ts": mockModuleInfo(
"/moduleKinds/empty_file.ts",
"/moduleKinds/empty_file.ts",
MediaType.TypeScript,
"",
undefined,
undefined
)
}
};
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 getEmitOutputStack: string[] = [];
let logStack: any[][] = [];
let codeCacheStack: Array<{
fileName: string;
sourceCode: string;
outputCode: string;
sourceMap: string;
}> = [];
let codeFetchStack: Array<{
moduleSpecifier: string;
containingFile: string;
}> = [];
let mockDepsStack: string[][] = [];
let mockFactoryStack: any[] = [];
function logMock(...args: any[]): void {
logStack.push(args);
}
const osMock = {
codeCache(
fileName: string,
sourceCode: string,
outputCode: string,
sourceMap: string
): void {
codeCacheStack.push({ fileName, sourceCode, outputCode, sourceMap });
if (fileName in moduleCache) {
moduleCache[fileName].sourceCode = sourceCode;
moduleCache[fileName].outputCode = outputCode;
moduleCache[fileName].sourceMap = sourceMap;
} else {
moduleCache[fileName] = mockModuleInfo(
fileName,
fileName,
MediaType.TypeScript,
sourceCode,
outputCode,
sourceMap
);
}
},
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, null, null);
},
exit(code: number): never {
throw new Error(`Unexpected call to os.exit(${code})`);
}
};
const tsMock = {
createLanguageService() {
return {} as any;
},
formatDiagnostics(diagnostics: ReadonlyArray<any>, _host: any): string {
return JSON.stringify(diagnostics.map(({ messageText }) => messageText));
},
formatDiagnosticsWithColorAndContext(
diagnostics: ReadonlyArray<any>,
_host: any
): string {
return JSON.stringify(diagnostics.map(({ messageText }) => messageText));
}
};
const serviceMock = {
getCompilerOptionsDiagnostics() {
return originals._service.getCompilerOptionsDiagnostics.call(
originals._service
);
},
getEmitOutput(fileName: string) {
getEmitOutputStack.push(fileName);
return originals._service.getEmitOutput.call(originals._service, fileName);
},
getSemanticDiagnostics(fileName: string) {
return originals._service.getSemanticDiagnostics.call(
originals._service,
fileName
);
},
getSyntacticDiagnostics(fileName: string) {
return originals._service.getSyntacticDiagnostics.call(
originals._service,
fileName
);
}
};
const mocks = {
_log: logMock,
_os: osMock,
_ts: tsMock,
_service: serviceMock
};
/**
* 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 = [];
assertEqual(mockDepsStack.length, 0);
assertEqual(mockFactoryStack.length, 0);
mockDepsStack = [];
mockFactoryStack = [];
// restore original properties and methods
Object.assign(compilerInstance, originals);
}
test(function testJsonEsmTemplate() {
const result = jsonEsmTemplate(
`{ "hello": "world", "foo": "bar" }`,
"/foo.ts"
);
assertEqual(
result,
`const _json = JSON.parse(\`{ "hello": "world", "foo": "bar" }\`)\n` +
`export default _json;\n` +
`//# sourceURL=/foo.ts`
);
});
test(function compilerInstance() {
assert(Compiler != null);
assert(Compiler.instance() != null);
});
// Testing the internal APIs
test(function compilerCompile() {
// equal to `deno foo/bar.ts`
setup();
const moduleMetaData = compilerInstance.compile(
"foo/bar.ts",
"/root/project"
);
assertEqual(moduleMetaData.sourceCode, fooBarTsSource);
assertEqual(moduleMetaData.outputCode, fooBarTsOutput);
assertEqual(
codeFetchStack.length,
1,
"Module should have only been fetched once."
);
assertEqual(
codeCacheStack.length,
1,
"Compiled code should have only been cached once."
);
const [codeCacheCall] = codeCacheStack;
assertEqual(codeCacheCall.fileName, "/root/project/foo/bar.ts");
assertEqual(codeCacheCall.sourceCode, fooBarTsSource);
assertEqual(codeCacheCall.outputCode, fooBarTsOutput);
assertEqual(codeCacheCall.sourceMap, fooBarTsSourcemap);
teardown();
});
test(function compilerCompilerMultiModule() {
// equal to `deno foo/baz.ts`
setup();
compilerInstance.compile("foo/baz.ts", "/root/project");
assertEqual(codeFetchStack.length, 2, "Two modules fetched.");
assertEqual(codeCacheStack.length, 1, "Only one module compiled.");
teardown();
});
test(function compilerLoadJsonModule() {
setup();
compilerInstance.compile("loadConfig.ts", "/root/project");
assertEqual(codeFetchStack.length, 2, "Two modules fetched.");
assertEqual(codeCacheStack.length, 1, "Only one module compiled.");
teardown();
});
test(function compilerResolveModule() {
setup();
const moduleMetaData = compilerInstance.resolveModule(
"foo/baz.ts",
"/root/project"
);
console.log(moduleMetaData);
assertEqual(moduleMetaData.sourceCode, fooBazTsSource);
assertEqual(moduleMetaData.outputCode, null);
assertEqual(moduleMetaData.sourceMap, null);
assertEqual(moduleMetaData.scriptVersion, "1");
assertEqual(codeFetchStack.length, 1, "Only initial module is resolved.");
teardown();
});
test(function compilerResolveModuleUnknownMediaType() {
setup();
let didThrow = false;
try {
compilerInstance.resolveModule("some.txt", "/root/project");
} catch (e) {
assert(e instanceof Error);
assertEqual(
e.message,
`Unknown media type for: "some.txt" from "/root/project".`
);
didThrow = true;
}
assert(didThrow);
teardown();
});
test(function compilerRecompileFlag() {
setup();
compilerInstance.compile("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.compile("foo/bar.ts", "/root/project");
assertEqual(
getEmitOutputStack.length,
1,
"Expected only a single emitted file."
);
compilerInstance.recompile = true;
compilerInstance.compile("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();
});
// TypeScript LanguageServiceHost APIs
test(function compilerGetCompilationSettings() {
const expectedKeys = [
"allowJs",
"checkJs",
"esModuleInterop",
"module",
"outDir",
"resolveJsonModule",
"sourceMap",
"stripComments",
"target"
];
const result = compilerInstance.getCompilationSettings();
for (const key of expectedKeys) {
assert(key in result, `Expected "${key}" in compiler options.`);
}
assertEqual(Object.keys(result).length, expectedKeys.length);
});
test(function compilerGetNewLine() {
const result = compilerInstance.getNewLine();
assertEqual(result, "\n", "Expected newline value of '\\n'.");
});
test(function compilerGetScriptFileNames() {
setup();
compilerInstance.compile("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 compilerGetScriptKind() {
setup();
compilerInstance.resolveModule("foo.ts", "/moduleKinds");
compilerInstance.resolveModule("foo.d.ts", "/moduleKinds");
compilerInstance.resolveModule("foo.js", "/moduleKinds");
compilerInstance.resolveModule("foo.json", "/moduleKinds");
compilerInstance.resolveModule("foo.txt", "/moduleKinds");
assertEqual(
compilerInstance.getScriptKind("/moduleKinds/foo.ts"),
ScriptKind.TS
);
assertEqual(
compilerInstance.getScriptKind("/moduleKinds/foo.d.ts"),
ScriptKind.TS
);
assertEqual(
compilerInstance.getScriptKind("/moduleKinds/foo.js"),
ScriptKind.JS
);
assertEqual(
compilerInstance.getScriptKind("/moduleKinds/foo.json"),
ScriptKind.JSON
);
assertEqual(
compilerInstance.getScriptKind("/moduleKinds/foo.txt"),
ScriptKind.JS
);
teardown();
});
test(function compilerGetScriptVersion() {
setup();
const moduleMetaData = compilerInstance.compile(
"foo/bar.ts",
"/root/project"
);
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(),
"$asset$/lib.deno_runtime.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("$asset$/lib.deno_runtime.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],
["$asset$/lib.deno_runtime.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();
});
test(function compilerResolveEmptyFile() {
setup();
const result = compilerInstance.resolveModuleNames(
["empty_file.ts"],
"/moduleKinds"
);
assertEqual(result[0].resolvedFileName, "/moduleKinds/empty_file.ts");
teardown();
});