本文整理匯總了TypeScript中@angular/compiler-cli.createNgCompilerOptions函數的典型用法代碼示例。如果您正苦於以下問題:TypeScript createNgCompilerOptions函數的具體用法?TypeScript createNgCompilerOptions怎麽用?TypeScript createNgCompilerOptions使用的例子?那麽, 這裏精選的函數代碼示例或許可以為您提供幫助。
在下文中一共展示了createNgCompilerOptions函數的5個代碼示例,這些例子默認根據受歡迎程度排序。您可以為喜歡或者感覺有用的代碼點讚,您的評價將有助於係統推薦出更棒的TypeScript代碼示例。
示例1: runOneBuild
export function runOneBuild(args: string[], inputs?: {[path: string]: string}): boolean {
if (args[0] === '-p') args.shift();
// Strip leading at-signs, used to indicate a params file
const project = args[0].replace(/^@+/, '');
const [parsedOptions, errors] = parseTsconfig(project);
if (errors && errors.length) {
console.error(ng.formatDiagnostics(errors));
return false;
}
const {options: tsOptions, bazelOpts, files, config} = parsedOptions;
const expectedOuts = config['angularCompilerOptions']['expectedOut'];
const {basePath} = ng.calcProjectFileAndBasePath(project);
const compilerOpts = ng.createNgCompilerOptions(basePath, config, tsOptions);
const tsHost = ts.createCompilerHost(compilerOpts, true);
const {diagnostics} = compile({
allowNonHermeticReads: ALLOW_NON_HERMETIC_READS,
allDepsCompiledWithBazel: ALL_DEPS_COMPILED_WITH_BAZEL,
compilerOpts,
tsHost,
bazelOpts,
files,
inputs,
expectedOuts
});
if (diagnostics.length) {
console.error(ng.formatDiagnostics(diagnostics));
}
return diagnostics.every(d => d.category !== ts.DiagnosticCategory.Error);
}
示例2: main
function main(args: string[]) {
const project = args[1];
const [{options: tsOptions, bazelOpts, files, config}] = parseTsconfig(project);
const {basePath} = calcProjectFileAndBasePath(project);
const ngOptions = createNgCompilerOptions(basePath, config, tsOptions);
const {diagnostics} = performCompilation(files, ngOptions);
if (diagnostics.length) {
console.error(formatDiagnostics(ngOptions, diagnostics));
}
return diagnostics.some(d => d.category === ts.DiagnosticCategory.Error) ? 1 : 0;
}
示例3: runOneBuild
function runOneBuild(args: string[], inputs?: {[path: string]: string}): boolean {
if (args[0] === '-p') args.shift();
// Strip leading at-signs, used to indicate a params file
const project = args[0].replace(/^@+/, '');
const [{options: tsOptions, bazelOpts, files, config}] = parseTsconfig(project);
const expectedOuts = config['angularCompilerOptions']['expectedOut'];
const {basePath} = ng.calcProjectFileAndBasePath(project);
const compilerOpts = ng.createNgCompilerOptions(basePath, config, tsOptions);
const tsHost = ts.createCompilerHost(compilerOpts, true);
const {diagnostics} = compile({
allowNonHermeticReads: ALLOW_NON_HERMETIC_READS,
compilerOpts,
tsHost,
bazelOpts,
files,
inputs,
expectedOuts
});
return diagnostics.every(d => d.category !== ts.DiagnosticCategory.Error);
}
示例4: runOneBuild
function runOneBuild(args: string[], inputs?: {[path: string]: string}): boolean {
if (args[0] === '-p') args.shift();
// Strip leading at-signs, used to indicate a params file
const project = args[0].replace(/^@+/, '');
let fileLoader: FileLoader;
if (inputs) {
fileLoader = new CachedFileLoader(fileCache, ALLOW_NON_HERMETIC_READS);
// Resolve the inputs to absolute paths to match TypeScript internals
const resolvedInputs: {[path: string]: string} = {};
for (const key of Object.keys(inputs)) {
resolvedInputs[path.resolve(key)] = inputs[key];
}
fileCache.updateCache(resolvedInputs);
} else {
fileLoader = new UncachedFileLoader();
}
const [{options: tsOptions, bazelOpts, files, config}] = parseTsconfig(project);
const expectedOuts = config['angularCompilerOptions']['expectedOut'];
const {basePath} = ng.calcProjectFileAndBasePath(project);
const compilerOpts = ng.createNgCompilerOptions(basePath, config, tsOptions);
const {diagnostics} = compile({fileLoader, compilerOpts, bazelOpts, files, expectedOuts});
return diagnostics.every(d => d.category !== ts.DiagnosticCategory.Error);
}
示例5: runOneBuild
export function runOneBuild(args: string[], inputs?: {[path: string]: string}): boolean {
if (args[0] === '-p') args.shift();
// Strip leading at-signs, used to indicate a params file
const project = args[0].replace(/^@+/, '');
const [parsedOptions, errors] = parseTsconfig(project);
if (errors && errors.length) {
console.error(ng.formatDiagnostics(errors));
return false;
}
const {options: tsOptions, bazelOpts, files, config} = parsedOptions;
const angularCompilerOptions: {[k: string]: unknown} = config['angularCompilerOptions'] || {};
// Allow Bazel users to control some of the bazel options.
// Since TypeScript's "extends" mechanism applies only to "compilerOptions"
// we have to repeat some of their logic to get the user's "angularCompilerOptions".
if (config['extends']) {
// Load the user's config file
// Note: this doesn't handle recursive extends so only a user's top level
// `angularCompilerOptions` will be considered. As this code is going to be
// removed with Ivy, the added complication of handling recursive extends
// is likely not needed.
let userConfigFile = resolveNormalizedPath(path.dirname(project), config['extends']);
if (!userConfigFile.endsWith('.json')) userConfigFile += '.json';
const {config: userConfig, error} = ts.readConfigFile(userConfigFile, ts.sys.readFile);
if (error) {
console.error(ng.formatDiagnostics([error]));
return false;
}
// All user angularCompilerOptions values that a user has control
// over should be collected here
if (userConfig.angularCompilerOptions) {
angularCompilerOptions.diagnostics =
angularCompilerOptions.diagnostics || userConfig.angularCompilerOptions.diagnostics;
angularCompilerOptions.trace =
angularCompilerOptions.trace || userConfig.angularCompilerOptions.trace;
angularCompilerOptions.disableExpressionLowering =
angularCompilerOptions.disableExpressionLowering ||
userConfig.angularCompilerOptions.disableExpressionLowering;
angularCompilerOptions.disableTypeScriptVersionCheck =
angularCompilerOptions.disableTypeScriptVersionCheck ||
userConfig.angularCompilerOptions.disableTypeScriptVersionCheck;
angularCompilerOptions.i18nOutLocale =
angularCompilerOptions.i18nOutLocale || userConfig.angularCompilerOptions.i18nOutLocale;
angularCompilerOptions.i18nOutFormat =
angularCompilerOptions.i18nOutFormat || userConfig.angularCompilerOptions.i18nOutFormat;
angularCompilerOptions.i18nOutFile =
angularCompilerOptions.i18nOutFile || userConfig.angularCompilerOptions.i18nOutFile;
angularCompilerOptions.i18nInFormat =
angularCompilerOptions.i18nInFormat || userConfig.angularCompilerOptions.i18nInFormat;
angularCompilerOptions.i18nInLocale =
angularCompilerOptions.i18nInLocale || userConfig.angularCompilerOptions.i18nInLocale;
angularCompilerOptions.i18nInFile =
angularCompilerOptions.i18nInFile || userConfig.angularCompilerOptions.i18nInFile;
angularCompilerOptions.i18nInMissingTranslations =
angularCompilerOptions.i18nInMissingTranslations ||
userConfig.angularCompilerOptions.i18nInMissingTranslations;
angularCompilerOptions.i18nUseExternalIds = angularCompilerOptions.i18nUseExternalIds ||
userConfig.angularCompilerOptions.i18nUseExternalIds;
angularCompilerOptions.preserveWhitespaces = angularCompilerOptions.preserveWhitespaces ||
userConfig.angularCompilerOptions.preserveWhitespaces;
}
}
const expectedOuts = config['angularCompilerOptions']['expectedOut'];
const {basePath} = ng.calcProjectFileAndBasePath(project);
const compilerOpts = ng.createNgCompilerOptions(basePath, config, tsOptions);
const tsHost = ts.createCompilerHost(compilerOpts, true);
const {diagnostics} = compile({
allDepsCompiledWithBazel: ALL_DEPS_COMPILED_WITH_BAZEL,
compilerOpts,
tsHost,
bazelOpts,
files,
inputs,
expectedOuts
});
if (diagnostics.length) {
console.error(ng.formatDiagnostics(diagnostics));
}
return diagnostics.every(d => d.category !== ts.DiagnosticCategory.Error);
}