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JavaScript
function carFactory(input) { const cars = {}; const children = {}; const printQueue = []; const factory = { create: (name) => { cars[name] = {}; }, set: (name, key, value) => { cars[name][key] = value; }, print: (name) => { console.log( Object.keys(cars[name]).map((key) => `${key}:${cars[name][key]}`).join(',') ) } } for (const entry of input) { const [operation, name, ...args] = entry.split(' '); if (operation == 'print') { printQueue.push(name); continue; } if (args[0] == 'inherit') { children[name] = args[1]; } factory[operation](name, args[0], args[1]); } for (const child of Object.keys(children)) { const parent = children[child]; Object.assign(cars[child], cars[parent]); } for (const printName of printQueue) { factory.print(printName); } }
function carFactory(input) { const cars = {}; const children = {}; const printQueue = []; const factory = { create: (name) => { cars[name] = {}; }, set: (name, key, value) => { cars[name][key] = value; }, print: (name) => { console.log( Object.keys(cars[name]).map((key) => `${key}:${cars[name][key]}`).join(',') ) } } for (const entry of input) { const [operation, name, ...args] = entry.split(' '); if (operation == 'print') { printQueue.push(name); continue; } if (args[0] == 'inherit') { children[name] = args[1]; } factory[operation](name, args[0], args[1]); } for (const child of Object.keys(children)) { const parent = children[child]; Object.assign(cars[child], cars[parent]); } for (const printName of printQueue) { factory.print(printName); } }
JavaScript
function maybeBind ( model, value, shouldBind ) { if ( shouldBind && isFunction( value ) && model.parent && model.parent.isRoot ) { if ( !model.boundValue ) { model.boundValue = bind$1( value._r_unbound || value, model.parent.ractive ); } return model.boundValue; } return value; }
function maybeBind ( model, value, shouldBind ) { if ( shouldBind && isFunction( value ) && model.parent && model.parent.isRoot ) { if ( !model.boundValue ) { model.boundValue = bind$1( value._r_unbound || value, model.parent.ractive ); } return model.boundValue; } return value; }
JavaScript
function rebindMatch ( template, next, previous, fragment ) { var keypath = template.r || template; // no valid keypath, go with next if ( !keypath || !isString( keypath ) ) { return next; } // completely contextual ref, go with next if ( keypath === '.' || keypath[0] === '@' || ( next || previous ).isKey || ( next || previous ).isKeypath ) { return next; } var parts = keypath.split( '/' ); var keys = splitKeypath( parts[ parts.length - 1 ] ); var last = keys[ keys.length - 1 ]; // check the keypath against the model keypath to see if it matches var model = next || previous; // check to see if this was an alias if ( model && keys.length === 1 && last !== model.key && fragment ) { keys = findAlias( last, fragment ) || keys; } var i = keys.length; var match = true; var shuffling = false; while ( model && i-- ) { if ( model.shuffling ) { shuffling = true; } // non-strict comparison to account for indices in keypaths if ( keys[i] != model.key ) { match = false; } model = model.parent; } // next is undefined, but keypath is shuffling and previous matches if ( !next && match && shuffling ) { return previous; } // next is defined, but doesn't match the keypath else if ( next && !match && shuffling ) { return previous; } else { return next; } }
function rebindMatch ( template, next, previous, fragment ) { var keypath = template.r || template; // no valid keypath, go with next if ( !keypath || !isString( keypath ) ) { return next; } // completely contextual ref, go with next if ( keypath === '.' || keypath[0] === '@' || ( next || previous ).isKey || ( next || previous ).isKeypath ) { return next; } var parts = keypath.split( '/' ); var keys = splitKeypath( parts[ parts.length - 1 ] ); var last = keys[ keys.length - 1 ]; // check the keypath against the model keypath to see if it matches var model = next || previous; // check to see if this was an alias if ( model && keys.length === 1 && last !== model.key && fragment ) { keys = findAlias( last, fragment ) || keys; } var i = keys.length; var match = true; var shuffling = false; while ( model && i-- ) { if ( model.shuffling ) { shuffling = true; } // non-strict comparison to account for indices in keypaths if ( keys[i] != model.key ) { match = false; } model = model.parent; } // next is undefined, but keypath is shuffling and previous matches if ( !next && match && shuffling ) { return previous; } // next is defined, but doesn't match the keypath else if ( next && !match && shuffling ) { return previous; } else { return next; } }
JavaScript
function readKey ( parser ) { var token; if ( token = readStringLiteral( parser ) ) { return identifier.test( token.v ) ? token.v : '"' + token.v.replace( /"/g, '\\"' ) + '"'; } if ( token = readNumberLiteral( parser ) ) { return token.v; } if ( token = parser.matchPattern( name ) ) { return token; } return null; }
function readKey ( parser ) { var token; if ( token = readStringLiteral( parser ) ) { return identifier.test( token.v ) ? token.v : '"' + token.v.replace( /"/g, '\\"' ) + '"'; } if ( token = readNumberLiteral( parser ) ) { return token.v; } if ( token = parser.matchPattern( name ) ) { return token; } return null; }
JavaScript
function isUsCounty(wofData) { return 'US' === wofData.properties['iso:country'] && 'county' === wofData.properties['wof:placetype'] && !_.isUndefined(wofData.properties['qs:a2_alt']); }
function isUsCounty(wofData) { return 'US' === wofData.properties['iso:country'] && 'county' === wofData.properties['wof:placetype'] && !_.isUndefined(wofData.properties['qs:a2_alt']); }
JavaScript
function LocalPipService(datapath, layers) { const self = this; createPipService(datapath, _.defaultTo(layers, []), false, (err, service) => { if (err) { throw err; } self.pipService = service; }); }
function LocalPipService(datapath, layers) { const self = this; createPipService(datapath, _.defaultTo(layers, []), false, (err, service) => { if (err) { throw err; } self.pipService = service; }); }
JavaScript
function readData(datapath, layer, localizedAdminNames, callback) { const features = []; readSqliteRecords(datapath,layer) .pipe(whosonfirst.recordHasIdAndProperties()) .pipe(whosonfirst.isActiveRecord()) .pipe(filterOutPointRecords.create()) .pipe(filterOutHierarchylessNeighbourhoods.create()) .pipe(filterOutCitylessNeighbourhoods.create()) .pipe(extractFields.create(localizedAdminNames)) .pipe(simplifyGeometry.create()) .pipe(sink.obj((feature) => { features.push(feature); })) .on('finish', function() { callback(features); }); }
function readData(datapath, layer, localizedAdminNames, callback) { const features = []; readSqliteRecords(datapath,layer) .pipe(whosonfirst.recordHasIdAndProperties()) .pipe(whosonfirst.isActiveRecord()) .pipe(filterOutPointRecords.create()) .pipe(filterOutHierarchylessNeighbourhoods.create()) .pipe(filterOutCitylessNeighbourhoods.create()) .pipe(extractFields.create(localizedAdminNames)) .pipe(simplifyGeometry.create()) .pipe(sink.obj((feature) => { features.push(feature); })) .on('finish', function() { callback(features); }); }
JavaScript
function calculateLayers(inputLayers) { const allowedLayers = [ 'neighbourhood', 'borough', 'locality', 'localadmin', 'county', 'macrocounty', 'region', 'macroregion', 'dependency', 'country' ]; // if no input layers are specified, return all of the allowed layers if (!inputLayers) { inputLayers = allowedLayers; } return _.intersection(allowedLayers, inputLayers); }
function calculateLayers(inputLayers) { const allowedLayers = [ 'neighbourhood', 'borough', 'locality', 'localadmin', 'county', 'macrocounty', 'region', 'macroregion', 'dependency', 'country' ]; // if no input layers are specified, return all of the allowed layers if (!inputLayers) { inputLayers = allowedLayers; } return _.intersection(allowedLayers, inputLayers); }
JavaScript
function q1(){ var favorite_passtime; var favorite_passtime_correct_answer = 'y'; favorite_passtime = prompt('Do you think that rob obsessivly plays video games? Y or N'); console.log(favorite_passtime + ' y or n'); if(favorite_passtime === favorite_passtime_correct_answer){ alert('How could he not come on now');} else{ alert('Well your wrong because gaming is life!'); } }
function q1(){ var favorite_passtime; var favorite_passtime_correct_answer = 'y'; favorite_passtime = prompt('Do you think that rob obsessivly plays video games? Y or N'); console.log(favorite_passtime + ' y or n'); if(favorite_passtime === favorite_passtime_correct_answer){ alert('How could he not come on now');} else{ alert('Well your wrong because gaming is life!'); } }
JavaScript
_onNobleStateChange(state) { Logger.debug(`Noble state changed to ${state}`); if (state === 'poweredOn') { Logger.info('Searching for drones...'); this.noble.startScanning(); } }
_onNobleStateChange(state) { Logger.debug(`Noble state changed to ${state}`); if (state === 'poweredOn') { Logger.info('Searching for drones...'); this.noble.startScanning(); } }
JavaScript
_onPeripheralDiscovery(peripheral) { if (!this._validatePeripheral(peripheral)) { return; } Logger.info(`Peripheral found ${peripheral.advertisement.localName}`); this.noble.stopScanning(); peripheral.connect(error => { if (error) { throw error; } this._peripheral = peripheral; this._setupPeripheral(); }); }
_onPeripheralDiscovery(peripheral) { if (!this._validatePeripheral(peripheral)) { return; } Logger.info(`Peripheral found ${peripheral.advertisement.localName}`); this.noble.stopScanning(); peripheral.connect(error => { if (error) { throw error; } this._peripheral = peripheral; this._setupPeripheral(); }); }
JavaScript
_validatePeripheral(peripheral) { if (!peripheral) { return false; } const localName = peripheral.advertisement.localName; const manufacturer = peripheral.advertisement.manufacturerData; const matchesFilter = !this.droneFilter || localName === this.droneFilter; const localNameMatch = matchesFilter || DRONE_PREFIXES.some( prefix => localName && localName.indexOf(prefix) >= 0 ); const manufacturerMatch = manufacturer && MANUFACTURER_SERIALS.indexOf(manufacturer) >= 0; // Is TRUE according to droneFilter or if empty, for EITHER an "RS_" name OR manufacturer code. return localNameMatch || manufacturerMatch; }
_validatePeripheral(peripheral) { if (!peripheral) { return false; } const localName = peripheral.advertisement.localName; const manufacturer = peripheral.advertisement.manufacturerData; const matchesFilter = !this.droneFilter || localName === this.droneFilter; const localNameMatch = matchesFilter || DRONE_PREFIXES.some( prefix => localName && localName.indexOf(prefix) >= 0 ); const manufacturerMatch = manufacturer && MANUFACTURER_SERIALS.indexOf(manufacturer) >= 0; // Is TRUE according to droneFilter or if empty, for EITHER an "RS_" name OR manufacturer code. return localNameMatch || manufacturerMatch; }
JavaScript
_setupPeripheral() { this.peripheral.discoverAllServicesAndCharacteristics( (err, services, characteristics) => { if (err) { throw err; } // @todo // Parse characteristics and only store the ones needed // also validate that they're also present this.characteristics = characteristics; Logger.debug('Preforming handshake'); for (const uuid of handshakeUuids) { const target = this.getCharacteristic(uuid); target.subscribe(); } Logger.debug('Adding listeners'); for (const uuid of characteristicReceiveUuids.values()) { const target = this.getCharacteristic(`fb${uuid}`); target.subscribe(); target.on('data', data => this._handleIncoming(uuid, data)); } Logger.info( `Device connected ${this.peripheral.advertisement.localName}` ); // Register some event handlers /** * Drone disconnected event * Fired when the bluetooth connection has been disconnected * * @event DroneCommand#disconnected */ this.noble.on('disconnect', () => this.emit('disconnected')); setTimeout(() => { /** * Drone connected event * You can control the drone once this event has been triggered. * * @event DroneCommand#connected */ this.emit('connected'); }, 200); } ); }
_setupPeripheral() { this.peripheral.discoverAllServicesAndCharacteristics( (err, services, characteristics) => { if (err) { throw err; } // @todo // Parse characteristics and only store the ones needed // also validate that they're also present this.characteristics = characteristics; Logger.debug('Preforming handshake'); for (const uuid of handshakeUuids) { const target = this.getCharacteristic(uuid); target.subscribe(); } Logger.debug('Adding listeners'); for (const uuid of characteristicReceiveUuids.values()) { const target = this.getCharacteristic(`fb${uuid}`); target.subscribe(); target.on('data', data => this._handleIncoming(uuid, data)); } Logger.info( `Device connected ${this.peripheral.advertisement.localName}` ); // Register some event handlers /** * Drone disconnected event * Fired when the bluetooth connection has been disconnected * * @event DroneCommand#disconnected */ this.noble.on('disconnect', () => this.emit('disconnected')); setTimeout(() => { /** * Drone connected event * You can control the drone once this event has been triggered. * * @event DroneCommand#connected */ this.emit('connected'); }, 200); } ); }
JavaScript
runCommand(command) { Logger.debug('SEND: ', command.toString()); const buffer = command.toBuffer(); const messageId = this._getStep(command.bufferType); buffer.writeIntLE(messageId, 1); // console.log(command.bufferType, 'type'); this.getCharacteristic(command.sendCharacteristicUuid).write(buffer, true); }
runCommand(command) { Logger.debug('SEND: ', command.toString()); const buffer = command.toBuffer(); const messageId = this._getStep(command.bufferType); buffer.writeIntLE(messageId, 1); // console.log(command.bufferType, 'type'); this.getCharacteristic(command.sendCharacteristicUuid).write(buffer, true); }
JavaScript
get sendCharacteristicUuid() { const t = bufferCharTranslationMap[this.bufferType] || 'SEND_WITH_ACK'; return `fa${characteristicSendUuids[t]}`; }
get sendCharacteristicUuid() { const t = bufferCharTranslationMap[this.bufferType] || 'SEND_WITH_ACK'; return `fa${characteristicSendUuids[t]}`; }
JavaScript
toBuffer() { const bufferLength = 6 + this.arguments.reduce((acc, val) => val.getValueSize() + acc, 0); const buffer = new Buffer(bufferLength); buffer.fill(0); buffer.writeUInt16LE(this.bufferFlag, 0); // Skip command counter (offset 1) because it's set in DroneConnection::runCommand buffer.writeUInt16LE(this.projectId, 2); buffer.writeUInt16LE(this.classId, 3); buffer.writeUInt16LE(this.commandId, 4); // two bytes let bufferOffset = 6; for (const arg of this.arguments) { const valueSize = arg.getValueSize(); switch (arg.type) { case 'u8': case 'u16': case 'u32': case 'u64': buffer.writeUIntLE(Math.floor(arg.value), bufferOffset, valueSize); break; case 'i8': case 'i16': case 'i32': case 'i64': case 'enum': buffer.writeIntLE(Math.floor(arg.value), bufferOffset, valueSize); break; case 'string': buffer.write(arg.value, bufferOffset, valueSize, 'ascii'); break; case 'float': buffer.writeFloatLE(arg.value, bufferOffset); break; case 'double': buffer.writeDoubleLE(arg.value, bufferOffset); break; default: throw new TypeError( `Can't encode buffer: unknown data type "${ arg.type }" for argument "${arg.name}" in ${this.getToken()}` ); } bufferOffset += valueSize; } return buffer; }
toBuffer() { const bufferLength = 6 + this.arguments.reduce((acc, val) => val.getValueSize() + acc, 0); const buffer = new Buffer(bufferLength); buffer.fill(0); buffer.writeUInt16LE(this.bufferFlag, 0); // Skip command counter (offset 1) because it's set in DroneConnection::runCommand buffer.writeUInt16LE(this.projectId, 2); buffer.writeUInt16LE(this.classId, 3); buffer.writeUInt16LE(this.commandId, 4); // two bytes let bufferOffset = 6; for (const arg of this.arguments) { const valueSize = arg.getValueSize(); switch (arg.type) { case 'u8': case 'u16': case 'u32': case 'u64': buffer.writeUIntLE(Math.floor(arg.value), bufferOffset, valueSize); break; case 'i8': case 'i16': case 'i32': case 'i64': case 'enum': buffer.writeIntLE(Math.floor(arg.value), bufferOffset, valueSize); break; case 'string': buffer.write(arg.value, bufferOffset, valueSize, 'ascii'); break; case 'float': buffer.writeFloatLE(arg.value, bufferOffset); break; case 'double': buffer.writeDoubleLE(arg.value, bufferOffset); break; default: throw new TypeError( `Can't encode buffer: unknown data type "${ arg.type }" for argument "${arg.name}" in ${this.getToken()}` ); } bufferOffset += valueSize; } return buffer; }
JavaScript
static async load(config, modulePath) { let filePath; let isESM; try { ({ isESM, filePath } = ModuleLoader.resolvePath(config, modulePath)); // It is important to await on _importDynamic to catch the error code. return isESM ? await _importDynamic(url.pathToFileURL(filePath)) : require(filePath); } catch (error) { if (error.code === 'MODULE_NOT_FOUND' || error.code === 'ERR_MODULE_NOT_FOUND') { throw new module_load_error_1.ModuleLoadError(`${isESM ? 'import()' : 'require'} failed to load ${filePath || modulePath}`); } throw error; } }
static async load(config, modulePath) { let filePath; let isESM; try { ({ isESM, filePath } = ModuleLoader.resolvePath(config, modulePath)); // It is important to await on _importDynamic to catch the error code. return isESM ? await _importDynamic(url.pathToFileURL(filePath)) : require(filePath); } catch (error) { if (error.code === 'MODULE_NOT_FOUND' || error.code === 'ERR_MODULE_NOT_FOUND') { throw new module_load_error_1.ModuleLoadError(`${isESM ? 'import()' : 'require'} failed to load ${filePath || modulePath}`); } throw error; } }
JavaScript
static async loadWithData(config, modulePath) { let filePath; let isESM; try { ({ isESM, filePath } = ModuleLoader.resolvePath(config, modulePath)); const module = isESM ? await _importDynamic(url.pathToFileURL(filePath)) : require(filePath); return { isESM, module, filePath }; } catch (error) { if (error.code === 'MODULE_NOT_FOUND' || error.code === 'ERR_MODULE_NOT_FOUND') { throw new module_load_error_1.ModuleLoadError(`${isESM ? 'import()' : 'require'} failed to load ${filePath || modulePath}`); } throw error; } }
static async loadWithData(config, modulePath) { let filePath; let isESM; try { ({ isESM, filePath } = ModuleLoader.resolvePath(config, modulePath)); const module = isESM ? await _importDynamic(url.pathToFileURL(filePath)) : require(filePath); return { isESM, module, filePath }; } catch (error) { if (error.code === 'MODULE_NOT_FOUND' || error.code === 'ERR_MODULE_NOT_FOUND') { throw new module_load_error_1.ModuleLoadError(`${isESM ? 'import()' : 'require'} failed to load ${filePath || modulePath}`); } throw error; } }
JavaScript
static resolvePath(config, modulePath) { let isESM; let filePath; try { filePath = require.resolve(modulePath); isESM = ModuleLoader.isPathModule(filePath); } catch (error) { filePath = ts_node_1.tsPath(config.root, modulePath); // Try all supported extensions. if (!fs.existsSync(filePath)) { for (const extension of s_EXTENSIONS) { const testPath = `${filePath}${extension}`; if (fs.existsSync(testPath)) { filePath = testPath; break; } } } isESM = ModuleLoader.isPathModule(filePath); } return { isESM, filePath }; }
static resolvePath(config, modulePath) { let isESM; let filePath; try { filePath = require.resolve(modulePath); isESM = ModuleLoader.isPathModule(filePath); } catch (error) { filePath = ts_node_1.tsPath(config.root, modulePath); // Try all supported extensions. if (!fs.existsSync(filePath)) { for (const extension of s_EXTENSIONS) { const testPath = `${filePath}${extension}`; if (fs.existsSync(testPath)) { filePath = testPath; break; } } } isESM = ModuleLoader.isPathModule(filePath); } return { isESM, filePath }; }
JavaScript
function compose(...fns) { return (...args) => { return fns.reduceRight((leftFn, rightFn) => { return leftFn instanceof Promise ? Promise.resolve(leftFn).then(rightFn) : rightFn(leftFn); }, args[0]); }; }
function compose(...fns) { return (...args) => { return fns.reduceRight((leftFn, rightFn) => { return leftFn instanceof Promise ? Promise.resolve(leftFn).then(rightFn) : rightFn(leftFn); }, args[0]); }; }
JavaScript
function deferNetworkRequestsUntil(predicatePromise) { // Defer any `XMLHttpRequest` requests until the Service Worker is ready. const originalXhrSend = window.XMLHttpRequest.prototype.send; window.XMLHttpRequest.prototype.send = function (...args) { // Keep this function synchronous to comply with `XMLHttpRequest.prototype.send`, // because that method is always synchronous. lib.until(() => predicatePromise).then(() => { window.XMLHttpRequest.prototype.send = originalXhrSend; this.send(...args); }); }; // Defer any `fetch` requests until the Service Worker is ready. const originalFetch = window.fetch; window.fetch = (...args) => __awaiter(this, void 0, void 0, function* () { yield lib.until(() => predicatePromise); window.fetch = originalFetch; return window.fetch(...args); }); }
function deferNetworkRequestsUntil(predicatePromise) { // Defer any `XMLHttpRequest` requests until the Service Worker is ready. const originalXhrSend = window.XMLHttpRequest.prototype.send; window.XMLHttpRequest.prototype.send = function (...args) { // Keep this function synchronous to comply with `XMLHttpRequest.prototype.send`, // because that method is always synchronous. lib.until(() => predicatePromise).then(() => { window.XMLHttpRequest.prototype.send = originalXhrSend; this.send(...args); }); }; // Defer any `fetch` requests until the Service Worker is ready. const originalFetch = window.fetch; window.fetch = (...args) => __awaiter(this, void 0, void 0, function* () { yield lib.until(() => predicatePromise); window.fetch = originalFetch; return window.fetch(...args); }); }
JavaScript
function start(options) { const resolvedOptions = mergeRight(DEFAULT_START_OPTIONS, options || {}); const startWorkerInstance = () => __awaiter(this, void 0, void 0, function* () { if (!('serviceWorker' in navigator)) { console.error(`[MSW] Failed to register a Service Worker: this browser does not support Service Workers (see https://caniuse.com/serviceworkers), or your application is running on an insecure host (consider using HTTPS for custom hostnames).`); return null; } // Remove all previously existing event listeners. // This way none of the listeners persists between Fast refresh // of the application's code. context.events.removeAllListeners(); context.events.addListener(navigator.serviceWorker, 'message', handleRequestWith(context, resolvedOptions)); const [, instance] = yield lib.until(() => getWorkerInstance(resolvedOptions.serviceWorker.url, resolvedOptions.serviceWorker.options, resolvedOptions.findWorker)); if (!instance) { return null; } const [worker, registration] = instance; if (!worker) { if (options === null || options === void 0 ? void 0 : options.findWorker) { console.error(`\ [MSW] Failed to locate the Service Worker registration using a custom "findWorker" predicate. Please ensure that the custom predicate properly locates the Service Worker registration at "${resolvedOptions.serviceWorker.url}". More details: https://mswjs.io/docs/api/setup-worker/start#findworker `); } else { console.error(`\ [MSW] Failed to locate the Service Worker registration. This most likely means that the worker script URL "${resolvedOptions.serviceWorker.url}" cannot resolve against the actual public hostname (${location.host}). This may happen if your application runs behind a proxy, or has a dynamic hostname. Please consider using a custom "serviceWorker.url" option to point to the actual worker script location, or a custom "findWorker" option to resolve the Service Worker registration manually. More details: https://mswjs.io/docs/api/setup-worker/start`); } return null; } context.worker = worker; context.registration = registration; context.events.addListener(window, 'beforeunload', () => { if (worker.state !== 'redundant') { // Notify the Service Worker that this client has closed. // Internally, it's similar to disabling the mocking, only // client close event has a handler that self-terminates // the Service Worker when there are no open clients. worker.postMessage('CLIENT_CLOSED'); } // Make sure we're always clearing the interval - there are reports that not doing this can // cause memory leaks in headless browser environments. window.clearInterval(context.keepAliveInterval); }); // Check if the active Service Worker is the latest published one const [integrityError] = yield lib.until(() => requestIntegrityCheck(context, worker)); if (integrityError) { console.error(`\ [MSW] Detected outdated Service Worker: ${integrityError.message} The mocking is still enabled, but it's highly recommended that you update your Service Worker by running: $ npx msw init <PUBLIC_DIR> This is necessary to ensure that the Service Worker is in sync with the library to guarantee its stability. If this message still persists after updating, please report an issue: https://github.com/open-draft/msw/issues\ `); } // Signal the Service Worker to enable requests interception const [activationError] = yield lib.until(() => activateMocking(context, options)); if (activationError) { console.error('Failed to enable mocking', activationError); return null; } context.keepAliveInterval = window.setInterval(() => worker.postMessage('KEEPALIVE_REQUEST'), 5000); return registration; }); const workerRegistration = startWorkerInstance(); // Defer any network requests until the Service Worker instance is ready. // This prevents a race condition between the Service Worker registration // and application's runtime requests (i.e. requests on mount). if (resolvedOptions.waitUntilReady) { deferNetworkRequestsUntil(workerRegistration); } return workerRegistration; }
function start(options) { const resolvedOptions = mergeRight(DEFAULT_START_OPTIONS, options || {}); const startWorkerInstance = () => __awaiter(this, void 0, void 0, function* () { if (!('serviceWorker' in navigator)) { console.error(`[MSW] Failed to register a Service Worker: this browser does not support Service Workers (see https://caniuse.com/serviceworkers), or your application is running on an insecure host (consider using HTTPS for custom hostnames).`); return null; } // Remove all previously existing event listeners. // This way none of the listeners persists between Fast refresh // of the application's code. context.events.removeAllListeners(); context.events.addListener(navigator.serviceWorker, 'message', handleRequestWith(context, resolvedOptions)); const [, instance] = yield lib.until(() => getWorkerInstance(resolvedOptions.serviceWorker.url, resolvedOptions.serviceWorker.options, resolvedOptions.findWorker)); if (!instance) { return null; } const [worker, registration] = instance; if (!worker) { if (options === null || options === void 0 ? void 0 : options.findWorker) { console.error(`\ [MSW] Failed to locate the Service Worker registration using a custom "findWorker" predicate. Please ensure that the custom predicate properly locates the Service Worker registration at "${resolvedOptions.serviceWorker.url}". More details: https://mswjs.io/docs/api/setup-worker/start#findworker `); } else { console.error(`\ [MSW] Failed to locate the Service Worker registration. This most likely means that the worker script URL "${resolvedOptions.serviceWorker.url}" cannot resolve against the actual public hostname (${location.host}). This may happen if your application runs behind a proxy, or has a dynamic hostname. Please consider using a custom "serviceWorker.url" option to point to the actual worker script location, or a custom "findWorker" option to resolve the Service Worker registration manually. More details: https://mswjs.io/docs/api/setup-worker/start`); } return null; } context.worker = worker; context.registration = registration; context.events.addListener(window, 'beforeunload', () => { if (worker.state !== 'redundant') { // Notify the Service Worker that this client has closed. // Internally, it's similar to disabling the mocking, only // client close event has a handler that self-terminates // the Service Worker when there are no open clients. worker.postMessage('CLIENT_CLOSED'); } // Make sure we're always clearing the interval - there are reports that not doing this can // cause memory leaks in headless browser environments. window.clearInterval(context.keepAliveInterval); }); // Check if the active Service Worker is the latest published one const [integrityError] = yield lib.until(() => requestIntegrityCheck(context, worker)); if (integrityError) { console.error(`\ [MSW] Detected outdated Service Worker: ${integrityError.message} The mocking is still enabled, but it's highly recommended that you update your Service Worker by running: $ npx msw init <PUBLIC_DIR> This is necessary to ensure that the Service Worker is in sync with the library to guarantee its stability. If this message still persists after updating, please report an issue: https://github.com/open-draft/msw/issues\ `); } // Signal the Service Worker to enable requests interception const [activationError] = yield lib.until(() => activateMocking(context, options)); if (activationError) { console.error('Failed to enable mocking', activationError); return null; } context.keepAliveInterval = window.setInterval(() => worker.postMessage('KEEPALIVE_REQUEST'), 5000); return registration; }); const workerRegistration = startWorkerInstance(); // Defer any network requests until the Service Worker instance is ready. // This prevents a race condition between the Service Worker registration // and application's runtime requests (i.e. requests on mount). if (resolvedOptions.waitUntilReady) { deferNetworkRequestsUntil(workerRegistration); } return workerRegistration; }
JavaScript
function stop() { var _a; (_a = context.worker) === null || _a === void 0 ? void 0 : _a.postMessage('MOCK_DEACTIVATE'); context.events.removeAllListeners(); window.clearInterval(context.keepAliveInterval); }
function stop() { var _a; (_a = context.worker) === null || _a === void 0 ? void 0 : _a.postMessage('MOCK_DEACTIVATE'); context.events.removeAllListeners(); window.clearInterval(context.keepAliveInterval); }
JavaScript
function isNodeProcess() { // Check browser environment. if (typeof global !== 'object') { return false; } // Check nodejs or React Native environment. if (Object.prototype.toString.call(global.process) === '[object process]' || navigator.product === 'ReactNative') { return true; } }
function isNodeProcess() { // Check browser environment. if (typeof global !== 'object') { return false; } // Check nodejs or React Native environment. if (Object.prototype.toString.call(global.process) === '[object process]' || navigator.product === 'ReactNative') { return true; } }
JavaScript
function parseBody(body, headers) { var _a; if (body) { // If the intercepted request's body has a JSON Content-Type // parse it into an object, otherwise leave as-is. const hasJsonContent = (_a = headers === null || headers === void 0 ? void 0 : headers.get('content-type')) === null || _a === void 0 ? void 0 : _a.includes('json'); if (hasJsonContent && typeof body !== 'object') { return jsonParse(body) || body; } return body; } // Return whatever falsey body value is given. return body; }
function parseBody(body, headers) { var _a; if (body) { // If the intercepted request's body has a JSON Content-Type // parse it into an object, otherwise leave as-is. const hasJsonContent = (_a = headers === null || headers === void 0 ? void 0 : headers.get('content-type')) === null || _a === void 0 ? void 0 : _a.includes('json'); if (hasJsonContent && typeof body !== 'object') { return jsonParse(body) || body; } return body; } // Return whatever falsey body value is given. return body; }
JavaScript
function urlFormat(obj) { // ensure it's an object, and not a string url. // If it's an obj, this is a no-op. // this way, you can call url_format() on strings // to clean up potentially wonky urls. if (util$1.isString(obj)) obj = urlParse(obj); if (!(obj instanceof Url)) return Url.prototype.format.call(obj); return obj.format(); }
function urlFormat(obj) { // ensure it's an object, and not a string url. // If it's an obj, this is a no-op. // this way, you can call url_format() on strings // to clean up potentially wonky urls. if (util$1.isString(obj)) obj = urlParse(obj); if (!(obj instanceof Url)) return Url.prototype.format.call(obj); return obj.format(); }
JavaScript
function createSetupServer(...interceptors) { return function setupServer(...requestHandlers) { requestHandlers.forEach((handler) => { if (Array.isArray(handler)) throw new Error(`[MSW] Failed to call "setupServer" given an Array of request handlers (setupServer([a, b])), expected to receive each handler individually: setupServer(a, b).`); }); const interceptor = new nodeRequestInterceptor.RequestInterceptor(interceptors); // Error when attempting to run this function in a browser environment. if (!isNodeProcess()) { throw new Error('[MSW] Failed to execute `setupServer` in the environment that is not NodeJS (i.e. a browser). Consider using `setupWorker` instead.'); } // Store the list of request handlers for the current server instance, // so it could be modified at a runtime. let currentHandlers = [...requestHandlers]; return { listen(options) { const resolvedOptions = Object.assign({}, DEFAULT_LISTEN_OPTIONS, options); interceptor.use((req) => __awaiter(this, void 0, void 0, function* () { const requestHeaders = new lib.Headers(lib.flattenHeadersObject(req.headers || {})); const requestCookieString = requestHeaders.get('cookie'); const mockedRequest = { url: req.url, method: req.method, // Parse the request's body based on the "Content-Type" header. body: parseBody(req.body, requestHeaders), headers: requestHeaders, cookies: {}, params: {}, redirect: 'manual', referrer: '', keepalive: false, cache: 'default', mode: 'cors', referrerPolicy: 'no-referrer', integrity: '', destination: 'document', bodyUsed: false, credentials: 'same-origin', }; if (requestCookieString) { // Set mocked request cookies from the `cookie` header of the original request. // No need to take `credentials` into account, because in NodeJS requests are intercepted // _after_ they happen. Request issuer should have already taken care of sending relevant cookies. // Unlike browser, where interception is on the worker level, _before_ the request happens. mockedRequest.cookies = parse_1(requestCookieString); } if (mockedRequest.headers.get('x-msw-bypass')) { return; } const { response } = yield getResponse(mockedRequest, currentHandlers); if (!response) { onUnhandledRequest(mockedRequest, resolvedOptions.onUnhandledRequest); return; } return new Promise((resolve) => { var _a; // the node build will use the timers module to ensure @sinon/fake-timers or jest fake timers // don't affect this timeout. setTimeout(() => { resolve({ status: response.status, statusText: response.statusText, headers: response.headers.getAllHeaders(), body: response.body, }); }, (_a = response.delay) !== null && _a !== void 0 ? _a : 0); }); })); }, use(...handlers) { use(currentHandlers, ...handlers); }, restoreHandlers() { restoreHandlers(currentHandlers); }, resetHandlers(...nextHandlers) { currentHandlers = resetHandlers(requestHandlers, ...nextHandlers); }, /** * Prints the list of currently active request handlers. */ printHandlers() { currentHandlers.forEach((handler) => { const meta = handler.getMetaInfo(); console.log(`\ ${source.bold(meta.header)} Declaration: ${meta.callFrame} `); }); }, /** * Stops requests interception by restoring all augmented modules. */ close() { interceptor.restore(); }, }; }; }
function createSetupServer(...interceptors) { return function setupServer(...requestHandlers) { requestHandlers.forEach((handler) => { if (Array.isArray(handler)) throw new Error(`[MSW] Failed to call "setupServer" given an Array of request handlers (setupServer([a, b])), expected to receive each handler individually: setupServer(a, b).`); }); const interceptor = new nodeRequestInterceptor.RequestInterceptor(interceptors); // Error when attempting to run this function in a browser environment. if (!isNodeProcess()) { throw new Error('[MSW] Failed to execute `setupServer` in the environment that is not NodeJS (i.e. a browser). Consider using `setupWorker` instead.'); } // Store the list of request handlers for the current server instance, // so it could be modified at a runtime. let currentHandlers = [...requestHandlers]; return { listen(options) { const resolvedOptions = Object.assign({}, DEFAULT_LISTEN_OPTIONS, options); interceptor.use((req) => __awaiter(this, void 0, void 0, function* () { const requestHeaders = new lib.Headers(lib.flattenHeadersObject(req.headers || {})); const requestCookieString = requestHeaders.get('cookie'); const mockedRequest = { url: req.url, method: req.method, // Parse the request's body based on the "Content-Type" header. body: parseBody(req.body, requestHeaders), headers: requestHeaders, cookies: {}, params: {}, redirect: 'manual', referrer: '', keepalive: false, cache: 'default', mode: 'cors', referrerPolicy: 'no-referrer', integrity: '', destination: 'document', bodyUsed: false, credentials: 'same-origin', }; if (requestCookieString) { // Set mocked request cookies from the `cookie` header of the original request. // No need to take `credentials` into account, because in NodeJS requests are intercepted // _after_ they happen. Request issuer should have already taken care of sending relevant cookies. // Unlike browser, where interception is on the worker level, _before_ the request happens. mockedRequest.cookies = parse_1(requestCookieString); } if (mockedRequest.headers.get('x-msw-bypass')) { return; } const { response } = yield getResponse(mockedRequest, currentHandlers); if (!response) { onUnhandledRequest(mockedRequest, resolvedOptions.onUnhandledRequest); return; } return new Promise((resolve) => { var _a; // the node build will use the timers module to ensure @sinon/fake-timers or jest fake timers // don't affect this timeout. setTimeout(() => { resolve({ status: response.status, statusText: response.statusText, headers: response.headers.getAllHeaders(), body: response.body, }); }, (_a = response.delay) !== null && _a !== void 0 ? _a : 0); }); })); }, use(...handlers) { use(currentHandlers, ...handlers); }, restoreHandlers() { restoreHandlers(currentHandlers); }, resetHandlers(...nextHandlers) { currentHandlers = resetHandlers(requestHandlers, ...nextHandlers); }, /** * Prints the list of currently active request handlers. */ printHandlers() { currentHandlers.forEach((handler) => { const meta = handler.getMetaInfo(); console.log(`\ ${source.bold(meta.header)} Declaration: ${meta.callFrame} `); }); }, /** * Stops requests interception by restoring all augmented modules. */ close() { interceptor.restore(); }, }; }; }
JavaScript
printHandlers() { currentHandlers.forEach((handler) => { const meta = handler.getMetaInfo(); console.log(`\ ${source.bold(meta.header)} Declaration: ${meta.callFrame} `); }); }
printHandlers() { currentHandlers.forEach((handler) => { const meta = handler.getMetaInfo(); console.log(`\ ${source.bold(meta.header)} Declaration: ${meta.callFrame} `); }); }
JavaScript
function prepareResponse(res) { const responseHeaders = lib.listToHeaders(res.headers); return Object.assign(Object.assign({}, res), { // Parse a response JSON body for preview in the logs body: parseBody(res.body, responseHeaders) }); }
function prepareResponse(res) { const responseHeaders = lib.listToHeaders(res.headers); return Object.assign(Object.assign({}, res), { // Parse a response JSON body for preview in the logs body: parseBody(res.body, responseHeaders) }); }
JavaScript
function matchRequestUrl(url, mask) { const resolvedMask = getUrlByMask(mask); const cleanMask = getCleanMask(resolvedMask); const cleanRequestUrl = getCleanUrl_1.getCleanUrl(url); return match(cleanMask, cleanRequestUrl); }
function matchRequestUrl(url, mask) { const resolvedMask = getUrlByMask(mask); const cleanMask = getCleanMask(resolvedMask); const cleanRequestUrl = getCleanUrl_1.getCleanUrl(url); return match(cleanMask, cleanRequestUrl); }
JavaScript
function stringToHeaders(str) { var lines = str.trim().split(/[\r\n]+/); return lines.reduce(function (headers, line) { var parts = line.split(': '); var name = parts.shift(); var value = parts.join(': '); headers.append(name, value); return headers; }, new Headers()); }
function stringToHeaders(str) { var lines = str.trim().split(/[\r\n]+/); return lines.reduce(function (headers, line) { var parts = line.split(': '); var name = parts.shift(); var value = parts.join(': '); headers.append(name, value); return headers; }, new Headers()); }
JavaScript
function objectToHeaders(obj) { return reduceHeadersObject_1.reduceHeadersObject(obj, function (headers, name, value) { var values = [].concat(value); values.forEach(function (value) { headers.append(name, value); }); return headers; }, new Headers()); }
function objectToHeaders(obj) { return reduceHeadersObject_1.reduceHeadersObject(obj, function (headers, name, value) { var values = [].concat(value); values.forEach(function (value) { headers.append(name, value); }); return headers; }, new Headers()); }
JavaScript
function parseBody(body, headers) { var _a; if (body) { // If the intercepted request's body has a JSON Content-Type // parse it into an object, otherwise leave as-is. const hasJsonContent = (_a = headers === null || headers === void 0 ? void 0 : headers.get('content-type')) === null || _a === void 0 ? void 0 : _a.includes('json'); if (hasJsonContent && typeof body !== 'object') { return jsonParse(body) || body; } return body; } // Return whatever falsey body value is given. return body; }
function parseBody(body, headers) { var _a; if (body) { // If the intercepted request's body has a JSON Content-Type // parse it into an object, otherwise leave as-is. const hasJsonContent = (_a = headers === null || headers === void 0 ? void 0 : headers.get('content-type')) === null || _a === void 0 ? void 0 : _a.includes('json'); if (hasJsonContent && typeof body !== 'object') { return jsonParse(body) || body; } return body; } // Return whatever falsey body value is given. return body; }
JavaScript
function deferNetworkRequestsUntil(predicatePromise) { // Defer any `XMLHttpRequest` requests until the Service Worker is ready. const originalXhrSend = window.XMLHttpRequest.prototype.send; window.XMLHttpRequest.prototype.send = function (...args) { // Keep this function synchronous to comply with `XMLHttpRequest.prototype.send`, // because that method is always synchronous. lib$1.until(() => predicatePromise).then(() => { window.XMLHttpRequest.prototype.send = originalXhrSend; this.send(...args); }); }; // Defer any `fetch` requests until the Service Worker is ready. const originalFetch = window.fetch; window.fetch = (...args) => __awaiter(this, void 0, void 0, function* () { yield lib$1.until(() => predicatePromise); window.fetch = originalFetch; return window.fetch(...args); }); }
function deferNetworkRequestsUntil(predicatePromise) { // Defer any `XMLHttpRequest` requests until the Service Worker is ready. const originalXhrSend = window.XMLHttpRequest.prototype.send; window.XMLHttpRequest.prototype.send = function (...args) { // Keep this function synchronous to comply with `XMLHttpRequest.prototype.send`, // because that method is always synchronous. lib$1.until(() => predicatePromise).then(() => { window.XMLHttpRequest.prototype.send = originalXhrSend; this.send(...args); }); }; // Defer any `fetch` requests until the Service Worker is ready. const originalFetch = window.fetch; window.fetch = (...args) => __awaiter(this, void 0, void 0, function* () { yield lib$1.until(() => predicatePromise); window.fetch = originalFetch; return window.fetch(...args); }); }
JavaScript
function start(options) { const resolvedOptions = mergeRight(DEFAULT_START_OPTIONS, options || {}); const startWorkerInstance = () => __awaiter(this, void 0, void 0, function* () { if (!('serviceWorker' in navigator)) { console.error(`[MSW] Failed to register a Service Worker: this browser does not support Service Workers (see https://caniuse.com/serviceworkers), or your application is running on an insecure host (consider using HTTPS for custom hostnames).`); return null; } // Remove all previously existing event listeners. // This way none of the listeners persists between Fast refresh // of the application's code. context.events.removeAllListeners(); context.events.addListener(navigator.serviceWorker, 'message', handleRequestWith(context, resolvedOptions)); const [, instance] = yield lib$1.until(() => getWorkerInstance(resolvedOptions.serviceWorker.url, resolvedOptions.serviceWorker.options, resolvedOptions.findWorker)); if (!instance) { return null; } const [worker, registration] = instance; if (!worker) { if (options === null || options === void 0 ? void 0 : options.findWorker) { console.error(`\ [MSW] Failed to locate the Service Worker registration using a custom "findWorker" predicate. Please ensure that the custom predicate properly locates the Service Worker registration at "${resolvedOptions.serviceWorker.url}". More details: https://mswjs.io/docs/api/setup-worker/start#findworker `); } else { console.error(`\ [MSW] Failed to locate the Service Worker registration. This most likely means that the worker script URL "${resolvedOptions.serviceWorker.url}" cannot resolve against the actual public hostname (${location.host}). This may happen if your application runs behind a proxy, or has a dynamic hostname. Please consider using a custom "serviceWorker.url" option to point to the actual worker script location, or a custom "findWorker" option to resolve the Service Worker registration manually. More details: https://mswjs.io/docs/api/setup-worker/start`); } return null; } context.worker = worker; context.registration = registration; context.events.addListener(window, 'beforeunload', () => { if (worker.state !== 'redundant') { // Notify the Service Worker that this client has closed. // Internally, it's similar to disabling the mocking, only // client close event has a handler that self-terminates // the Service Worker when there are no open clients. worker.postMessage('CLIENT_CLOSED'); } // Make sure we're always clearing the interval - there are reports that not doing this can // cause memory leaks in headless browser environments. window.clearInterval(context.keepAliveInterval); }); // Check if the active Service Worker is the latest published one const [integrityError] = yield lib$1.until(() => requestIntegrityCheck(context, worker)); if (integrityError) { console.error(`\ [MSW] Detected outdated Service Worker: ${integrityError.message} The mocking is still enabled, but it's highly recommended that you update your Service Worker by running: $ npx msw init <PUBLIC_DIR> This is necessary to ensure that the Service Worker is in sync with the library to guarantee its stability. If this message still persists after updating, please report an issue: https://github.com/open-draft/msw/issues\ `); } // Signal the Service Worker to enable requests interception const [activationError] = yield lib$1.until(() => activateMocking(context, options)); if (activationError) { console.error('Failed to enable mocking', activationError); return null; } context.keepAliveInterval = window.setInterval(() => worker.postMessage('KEEPALIVE_REQUEST'), 5000); return registration; }); const workerRegistration = startWorkerInstance(); // Defer any network requests until the Service Worker instance is ready. // This prevents a race condition between the Service Worker registration // and application's runtime requests (i.e. requests on mount). if (resolvedOptions.waitUntilReady) { deferNetworkRequestsUntil(workerRegistration); } return workerRegistration; }
function start(options) { const resolvedOptions = mergeRight(DEFAULT_START_OPTIONS, options || {}); const startWorkerInstance = () => __awaiter(this, void 0, void 0, function* () { if (!('serviceWorker' in navigator)) { console.error(`[MSW] Failed to register a Service Worker: this browser does not support Service Workers (see https://caniuse.com/serviceworkers), or your application is running on an insecure host (consider using HTTPS for custom hostnames).`); return null; } // Remove all previously existing event listeners. // This way none of the listeners persists between Fast refresh // of the application's code. context.events.removeAllListeners(); context.events.addListener(navigator.serviceWorker, 'message', handleRequestWith(context, resolvedOptions)); const [, instance] = yield lib$1.until(() => getWorkerInstance(resolvedOptions.serviceWorker.url, resolvedOptions.serviceWorker.options, resolvedOptions.findWorker)); if (!instance) { return null; } const [worker, registration] = instance; if (!worker) { if (options === null || options === void 0 ? void 0 : options.findWorker) { console.error(`\ [MSW] Failed to locate the Service Worker registration using a custom "findWorker" predicate. Please ensure that the custom predicate properly locates the Service Worker registration at "${resolvedOptions.serviceWorker.url}". More details: https://mswjs.io/docs/api/setup-worker/start#findworker `); } else { console.error(`\ [MSW] Failed to locate the Service Worker registration. This most likely means that the worker script URL "${resolvedOptions.serviceWorker.url}" cannot resolve against the actual public hostname (${location.host}). This may happen if your application runs behind a proxy, or has a dynamic hostname. Please consider using a custom "serviceWorker.url" option to point to the actual worker script location, or a custom "findWorker" option to resolve the Service Worker registration manually. More details: https://mswjs.io/docs/api/setup-worker/start`); } return null; } context.worker = worker; context.registration = registration; context.events.addListener(window, 'beforeunload', () => { if (worker.state !== 'redundant') { // Notify the Service Worker that this client has closed. // Internally, it's similar to disabling the mocking, only // client close event has a handler that self-terminates // the Service Worker when there are no open clients. worker.postMessage('CLIENT_CLOSED'); } // Make sure we're always clearing the interval - there are reports that not doing this can // cause memory leaks in headless browser environments. window.clearInterval(context.keepAliveInterval); }); // Check if the active Service Worker is the latest published one const [integrityError] = yield lib$1.until(() => requestIntegrityCheck(context, worker)); if (integrityError) { console.error(`\ [MSW] Detected outdated Service Worker: ${integrityError.message} The mocking is still enabled, but it's highly recommended that you update your Service Worker by running: $ npx msw init <PUBLIC_DIR> This is necessary to ensure that the Service Worker is in sync with the library to guarantee its stability. If this message still persists after updating, please report an issue: https://github.com/open-draft/msw/issues\ `); } // Signal the Service Worker to enable requests interception const [activationError] = yield lib$1.until(() => activateMocking(context, options)); if (activationError) { console.error('Failed to enable mocking', activationError); return null; } context.keepAliveInterval = window.setInterval(() => worker.postMessage('KEEPALIVE_REQUEST'), 5000); return registration; }); const workerRegistration = startWorkerInstance(); // Defer any network requests until the Service Worker instance is ready. // This prevents a race condition between the Service Worker registration // and application's runtime requests (i.e. requests on mount). if (resolvedOptions.waitUntilReady) { deferNetworkRequestsUntil(workerRegistration); } return workerRegistration; }
JavaScript
function stop() { var _a; (_a = context.worker) === null || _a === void 0 ? void 0 : _a.postMessage('MOCK_DEACTIVATE'); context.events.removeAllListeners(); window.clearInterval(context.keepAliveInterval); }
function stop() { var _a; (_a = context.worker) === null || _a === void 0 ? void 0 : _a.postMessage('MOCK_DEACTIVATE'); context.events.removeAllListeners(); window.clearInterval(context.keepAliveInterval); }
JavaScript
function GraphQLError(message, nodes, source, positions, path, originalError, extensions) { var _locations2, _source2, _positions2, _extensions2; var _this; _classCallCheck(this, GraphQLError); _this = _super.call(this, message); // Compute list of blame nodes. var _nodes = Array.isArray(nodes) ? nodes.length !== 0 ? nodes : undefined : nodes ? [nodes] : undefined; // Compute locations in the source for the given nodes/positions. var _source = source; if (!_source && _nodes) { var _nodes$0$loc; _source = (_nodes$0$loc = _nodes[0].loc) === null || _nodes$0$loc === void 0 ? void 0 : _nodes$0$loc.source; } var _positions = positions; if (!_positions && _nodes) { _positions = _nodes.reduce(function (list, node) { if (node.loc) { list.push(node.loc.start); } return list; }, []); } if (_positions && _positions.length === 0) { _positions = undefined; } var _locations; if (positions && source) { _locations = positions.map(function (pos) { return getLocation(source, pos); }); } else if (_nodes) { _locations = _nodes.reduce(function (list, node) { if (node.loc) { list.push(getLocation(node.loc.source, node.loc.start)); } return list; }, []); } var _extensions = extensions; if (_extensions == null && originalError != null) { var originalExtensions = originalError.extensions; if (isObjectLike(originalExtensions)) { _extensions = originalExtensions; } } Object.defineProperties(_assertThisInitialized(_this), { name: { value: 'GraphQLError' }, message: { value: message, // By being enumerable, JSON.stringify will include `message` in the // resulting output. This ensures that the simplest possible GraphQL // service adheres to the spec. enumerable: true, writable: true }, locations: { // Coercing falsy values to undefined ensures they will not be included // in JSON.stringify() when not provided. value: (_locations2 = _locations) !== null && _locations2 !== void 0 ? _locations2 : undefined, // By being enumerable, JSON.stringify will include `locations` in the // resulting output. This ensures that the simplest possible GraphQL // service adheres to the spec. enumerable: _locations != null }, path: { // Coercing falsy values to undefined ensures they will not be included // in JSON.stringify() when not provided. value: path !== null && path !== void 0 ? path : undefined, // By being enumerable, JSON.stringify will include `path` in the // resulting output. This ensures that the simplest possible GraphQL // service adheres to the spec. enumerable: path != null }, nodes: { value: _nodes !== null && _nodes !== void 0 ? _nodes : undefined }, source: { value: (_source2 = _source) !== null && _source2 !== void 0 ? _source2 : undefined }, positions: { value: (_positions2 = _positions) !== null && _positions2 !== void 0 ? _positions2 : undefined }, originalError: { value: originalError }, extensions: { // Coercing falsy values to undefined ensures they will not be included // in JSON.stringify() when not provided. value: (_extensions2 = _extensions) !== null && _extensions2 !== void 0 ? _extensions2 : undefined, // By being enumerable, JSON.stringify will include `path` in the // resulting output. This ensures that the simplest possible GraphQL // service adheres to the spec. enumerable: _extensions != null } }); // Include (non-enumerable) stack trace. if (originalError === null || originalError === void 0 ? void 0 : originalError.stack) { Object.defineProperty(_assertThisInitialized(_this), 'stack', { value: originalError.stack, writable: true, configurable: true }); return _possibleConstructorReturn(_this); } // istanbul ignore next (See: 'https://github.com/graphql/graphql-js/issues/2317') if (Error.captureStackTrace) { Error.captureStackTrace(_assertThisInitialized(_this), GraphQLError); } else { Object.defineProperty(_assertThisInitialized(_this), 'stack', { value: Error().stack, writable: true, configurable: true }); } return _this; }
function GraphQLError(message, nodes, source, positions, path, originalError, extensions) { var _locations2, _source2, _positions2, _extensions2; var _this; _classCallCheck(this, GraphQLError); _this = _super.call(this, message); // Compute list of blame nodes. var _nodes = Array.isArray(nodes) ? nodes.length !== 0 ? nodes : undefined : nodes ? [nodes] : undefined; // Compute locations in the source for the given nodes/positions. var _source = source; if (!_source && _nodes) { var _nodes$0$loc; _source = (_nodes$0$loc = _nodes[0].loc) === null || _nodes$0$loc === void 0 ? void 0 : _nodes$0$loc.source; } var _positions = positions; if (!_positions && _nodes) { _positions = _nodes.reduce(function (list, node) { if (node.loc) { list.push(node.loc.start); } return list; }, []); } if (_positions && _positions.length === 0) { _positions = undefined; } var _locations; if (positions && source) { _locations = positions.map(function (pos) { return getLocation(source, pos); }); } else if (_nodes) { _locations = _nodes.reduce(function (list, node) { if (node.loc) { list.push(getLocation(node.loc.source, node.loc.start)); } return list; }, []); } var _extensions = extensions; if (_extensions == null && originalError != null) { var originalExtensions = originalError.extensions; if (isObjectLike(originalExtensions)) { _extensions = originalExtensions; } } Object.defineProperties(_assertThisInitialized(_this), { name: { value: 'GraphQLError' }, message: { value: message, // By being enumerable, JSON.stringify will include `message` in the // resulting output. This ensures that the simplest possible GraphQL // service adheres to the spec. enumerable: true, writable: true }, locations: { // Coercing falsy values to undefined ensures they will not be included // in JSON.stringify() when not provided. value: (_locations2 = _locations) !== null && _locations2 !== void 0 ? _locations2 : undefined, // By being enumerable, JSON.stringify will include `locations` in the // resulting output. This ensures that the simplest possible GraphQL // service adheres to the spec. enumerable: _locations != null }, path: { // Coercing falsy values to undefined ensures they will not be included // in JSON.stringify() when not provided. value: path !== null && path !== void 0 ? path : undefined, // By being enumerable, JSON.stringify will include `path` in the // resulting output. This ensures that the simplest possible GraphQL // service adheres to the spec. enumerable: path != null }, nodes: { value: _nodes !== null && _nodes !== void 0 ? _nodes : undefined }, source: { value: (_source2 = _source) !== null && _source2 !== void 0 ? _source2 : undefined }, positions: { value: (_positions2 = _positions) !== null && _positions2 !== void 0 ? _positions2 : undefined }, originalError: { value: originalError }, extensions: { // Coercing falsy values to undefined ensures they will not be included // in JSON.stringify() when not provided. value: (_extensions2 = _extensions) !== null && _extensions2 !== void 0 ? _extensions2 : undefined, // By being enumerable, JSON.stringify will include `path` in the // resulting output. This ensures that the simplest possible GraphQL // service adheres to the spec. enumerable: _extensions != null } }); // Include (non-enumerable) stack trace. if (originalError === null || originalError === void 0 ? void 0 : originalError.stack) { Object.defineProperty(_assertThisInitialized(_this), 'stack', { value: originalError.stack, writable: true, configurable: true }); return _possibleConstructorReturn(_this); } // istanbul ignore next (See: 'https://github.com/graphql/graphql-js/issues/2317') if (Error.captureStackTrace) { Error.captureStackTrace(_assertThisInitialized(_this), GraphQLError); } else { Object.defineProperty(_assertThisInitialized(_this), 'stack', { value: Error().stack, writable: true, configurable: true }); } return _this; }
JavaScript
function createGraphQLLink(uri) { return { operation: createGraphQLOperationHandler(uri), query: createGraphQLScopedHandler('query', uri), mutation: createGraphQLScopedHandler('mutation', uri), }; }
function createGraphQLLink(uri) { return { operation: createGraphQLOperationHandler(uri), query: createGraphQLScopedHandler('query', uri), mutation: createGraphQLScopedHandler('mutation', uri), }; }
JavaScript
function handleClick(index) { let currentColorHex Object.keys(colors).map((value, key) => { if (key === index) { currentColorHex = colors[value]; return } }); setCurrentColor(currentColorHex); router.push({pathname: "/colors/" + currentColorHex.name.substring(1)}, undefined, {scroll: false}); }
function handleClick(index) { let currentColorHex Object.keys(colors).map((value, key) => { if (key === index) { currentColorHex = colors[value]; return } }); setCurrentColor(currentColorHex); router.push({pathname: "/colors/" + currentColorHex.name.substring(1)}, undefined, {scroll: false}); }
JavaScript
function findXCodeproject(context, callback) { fs.readdir(iosFolder(context), function(err, data) { var projectFolder; var projectName; // Find the project folder by looking for *.xcodeproj if (data && data.length) { data.forEach(function(folder) { if (folder.match(/\.xcodeproj$/)) { projectFolder = path.join(iosFolder(context), folder); projectName = path.basename(folder, '.xcodeproj'); } }); } if (!projectFolder || !projectName) { throw redError('Could not find an .xcodeproj folder in: ' + iosFolder(context)); } if (err) { throw redError(err); } callback(projectFolder, projectName); }); }
function findXCodeproject(context, callback) { fs.readdir(iosFolder(context), function(err, data) { var projectFolder; var projectName; // Find the project folder by looking for *.xcodeproj if (data && data.length) { data.forEach(function(folder) { if (folder.match(/\.xcodeproj$/)) { projectFolder = path.join(iosFolder(context), folder); projectName = path.basename(folder, '.xcodeproj'); } }); } if (!projectFolder || !projectName) { throw redError('Could not find an .xcodeproj folder in: ' + iosFolder(context)); } if (err) { throw redError(err); } callback(projectFolder, projectName); }); }
JavaScript
function iosFolder(context) { return context.opts.cordova.project ? context.opts.cordova.project.root : path.join(context.opts.projectRoot, 'platforms/ios/'); }
function iosFolder(context) { return context.opts.cordova.project ? context.opts.cordova.project.root : path.join(context.opts.projectRoot, 'platforms/ios/'); }
JavaScript
function draw() { if (bg.ready) { ctx.drawImage(bg.image, 0, 0); } if (hero.ready) { ctx.drawImage(hero.image, hero.x, hero.y); } monsters.forEach((monster) => { if (monster.ready) { ctx.drawImage(monster.image, monster.x, monster.y); } }); let remainningTime = SECONDS_PER_ROUND - elapsedTime; timer.innerHTML = remainningTime; if (playerName.value !== ""){ ctx.fillText("Player: " + playerName.value,20,40) } playerName.value = ""; }
function draw() { if (bg.ready) { ctx.drawImage(bg.image, 0, 0); } if (hero.ready) { ctx.drawImage(hero.image, hero.x, hero.y); } monsters.forEach((monster) => { if (monster.ready) { ctx.drawImage(monster.image, monster.x, monster.y); } }); let remainningTime = SECONDS_PER_ROUND - elapsedTime; timer.innerHTML = remainningTime; if (playerName.value !== ""){ ctx.fillText("Player: " + playerName.value,20,40) } playerName.value = ""; }
JavaScript
function imageExists(image_url){ var http = new XMLHttpRequest(); http.open('HEAD', image_url, true); http.send(); return (http.status != 403); }
function imageExists(image_url){ var http = new XMLHttpRequest(); http.open('HEAD', image_url, true); http.send(); return (http.status != 403); }
JavaScript
function absoluteURI(uri, base) { if (uri.substr(0, 2) == './') uri = uri.substr(2); // absolute urls are left in tact if (uri.match(absUrlRegEx) || uri.match(protocolRegEx)) return uri; var baseParts = base.split('/'); var uriParts = uri.split('/'); baseParts.pop(); while (curPart = uriParts.shift()) if (curPart == '..') baseParts.pop(); else baseParts.push(curPart); return baseParts.join('/'); }
function absoluteURI(uri, base) { if (uri.substr(0, 2) == './') uri = uri.substr(2); // absolute urls are left in tact if (uri.match(absUrlRegEx) || uri.match(protocolRegEx)) return uri; var baseParts = base.split('/'); var uriParts = uri.split('/'); baseParts.pop(); while (curPart = uriParts.shift()) if (curPart == '..') baseParts.pop(); else baseParts.push(curPart); return baseParts.join('/'); }
JavaScript
function relativeURI(uri, base) { // reduce base and uri strings to just their difference string var baseParts = base.split('/'); baseParts.pop(); base = baseParts.join('/') + '/'; i = 0; while (base.substr(i, 1) == uri.substr(i, 1)) i++; while (base.substr(i, 1) != '/') i--; base = base.substr(i + 1); uri = uri.substr(i + 1); // each base folder difference is thus a backtrack baseParts = base.split('/'); var uriParts = uri.split('/'); out = ''; while (baseParts.shift()) out += '../'; // finally add uri parts while (curPart = uriParts.shift()) out += curPart + '/'; return out.substr(0, out.length - 1); }
function relativeURI(uri, base) { // reduce base and uri strings to just their difference string var baseParts = base.split('/'); baseParts.pop(); base = baseParts.join('/') + '/'; i = 0; while (base.substr(i, 1) == uri.substr(i, 1)) i++; while (base.substr(i, 1) != '/') i--; base = base.substr(i + 1); uri = uri.substr(i + 1); // each base folder difference is thus a backtrack baseParts = base.split('/'); var uriParts = uri.split('/'); out = ''; while (baseParts.shift()) out += '../'; // finally add uri parts while (curPart = uriParts.shift()) out += curPart + '/'; return out.substr(0, out.length - 1); }
JavaScript
function angularGridGlobalFunction(element, gridOptions) { // see if element is a query selector, or a real element var eGridDiv; if (typeof element === 'string') { eGridDiv = document.querySelector(element); if (!eGridDiv) { console.log('WARNING - was not able to find element ' + element + ' in the DOM, Angular Grid initialisation aborted.'); return; } } new Grid(eGridDiv, gridOptions, null, null); }
function angularGridGlobalFunction(element, gridOptions) { // see if element is a query selector, or a real element var eGridDiv; if (typeof element === 'string') { eGridDiv = document.querySelector(element); if (!eGridDiv) { console.log('WARNING - was not able to find element ' + element + ' in the DOM, Angular Grid initialisation aborted.'); return; } } new Grid(eGridDiv, gridOptions, null, null); }
JavaScript
function httpConfig(action, data, additionalConfig) { var config = { method: methods[action].toLowerCase(), url: paths[action] }; if (data) { if (resourceName) { config.data = {}; config.data[resourceName] = data; } else { config.data = data; } } angular.extend(config, additionalConfig); return config; }
function httpConfig(action, data, additionalConfig) { var config = { method: methods[action].toLowerCase(), url: paths[action] }; if (data) { if (resourceName) { config.data = {}; config.data[resourceName] = data; } else { config.data = data; } } angular.extend(config, additionalConfig); return config; }
JavaScript
function configure(obj, suffix) { angular.forEach(obj, function(v, action) { this[action + suffix] = function(param) { if (param === undefined) { return obj[action]; } obj[action] = param; return this; }; }, this); }
function configure(obj, suffix) { angular.forEach(obj, function(v, action) { this[action + suffix] = function(param) { if (param === undefined) { return obj[action]; } obj[action] = param; return this; }; }, this); }
JavaScript
moveTo(x, y) { //Collect Variables this.planning.start = new Vector(this.x, this.y); let endPoint = this.scene.tilemap.getPosition(x, y); this.planning.end = new Vector(endPoint.x, endPoint.y); let pathVector = this.planning.end.subtract(this.planning.start); this.planning.distance = pathVector.getLength(); this.planning.direction = pathVector.normalize(); //Start Moving Animation this.planning.moving = true; }
moveTo(x, y) { //Collect Variables this.planning.start = new Vector(this.x, this.y); let endPoint = this.scene.tilemap.getPosition(x, y); this.planning.end = new Vector(endPoint.x, endPoint.y); let pathVector = this.planning.end.subtract(this.planning.start); this.planning.distance = pathVector.getLength(); this.planning.direction = pathVector.normalize(); //Start Moving Animation this.planning.moving = true; }
JavaScript
function installSyncSaveDev(packages) { if (Array.isArray(packages)) { packages = packages.join(" "); } shell.execSync("npm i --save-dev " + packages, {stdio: "inherit"}); }
function installSyncSaveDev(packages) { if (Array.isArray(packages)) { packages = packages.join(" "); } shell.execSync("npm i --save-dev " + packages, {stdio: "inherit"}); }
JavaScript
function check(packages, opt) { var deps = []; var pkgJson = findPackageJson(); if (!pkgJson) { throw new Error("Could not find a package.json file"); } var fileJson = JSON.parse(fs.readFileSync(pkgJson, "utf8")); if (opt.devDependencies) { deps = deps.concat(Object.keys(fileJson.devDependencies)); } if (opt.dependencies) { deps = deps.concat(Object.keys(fileJson.dependencies)); } return packages.reduce(function(status, pkg) { status[pkg] = deps.indexOf(pkg) !== -1; return status; }, {}); }
function check(packages, opt) { var deps = []; var pkgJson = findPackageJson(); if (!pkgJson) { throw new Error("Could not find a package.json file"); } var fileJson = JSON.parse(fs.readFileSync(pkgJson, "utf8")); if (opt.devDependencies) { deps = deps.concat(Object.keys(fileJson.devDependencies)); } if (opt.dependencies) { deps = deps.concat(Object.keys(fileJson.dependencies)); } return packages.reduce(function(status, pkg) { status[pkg] = deps.indexOf(pkg) !== -1; return status; }, {}); }
JavaScript
function writeTempConfigFile(config, filename, existingTmpDir) { var tmpFileDir = existingTmpDir || tmp.dirSync({prefix: "eslint-tests-"}).name, tmpFilePath = path.join(tmpFileDir, filename), tmpFileContents = JSON.stringify(config); fs.writeFileSync(tmpFilePath, tmpFileContents); return tmpFilePath; }
function writeTempConfigFile(config, filename, existingTmpDir) { var tmpFileDir = existingTmpDir || tmp.dirSync({prefix: "eslint-tests-"}).name, tmpFilePath = path.join(tmpFileDir, filename), tmpFileContents = JSON.stringify(config); fs.writeFileSync(tmpFilePath, tmpFileContents); return tmpFilePath; }
JavaScript
function checkForBreakAfter(node, msg) { var paren = context.getTokenAfter(node); while (paren.value === ")") { paren = context.getTokenAfter(paren); } if (paren.loc.start.line !== node.loc.end.line) { context.report(node, paren.loc.start, msg, { char: paren.value }); } }
function checkForBreakAfter(node, msg) { var paren = context.getTokenAfter(node); while (paren.value === ")") { paren = context.getTokenAfter(paren); } if (paren.loc.start.line !== node.loc.end.line) { context.report(node, paren.loc.start, msg, { char: paren.value }); } }
JavaScript
function processText(text, configHelper, filename, fix, allowInlineConfig) { // clear all existing settings for a new file eslint.reset(); var filePath, config, messages, stats, fileExtension = path.extname(filename), processor, loadedPlugins, fixedResult; if (filename) { filePath = path.resolve(filename); } filename = filename || "<text>"; debug("Linting " + filename); config = configHelper.getConfig(filePath); if (config.plugins) { Plugins.loadAll(config.plugins); } loadedPlugins = Plugins.getAll(); for (var plugin in loadedPlugins) { if (loadedPlugins[plugin].processors && Object.keys(loadedPlugins[plugin].processors).indexOf(fileExtension) >= 0) { processor = loadedPlugins[plugin].processors[fileExtension]; break; } } if (processor) { debug("Using processor"); var parsedBlocks = processor.preprocess(text, filename); var unprocessedMessages = []; parsedBlocks.forEach(function(block) { unprocessedMessages.push(eslint.verify(block, config, { filename: filename, allowInlineConfig: allowInlineConfig })); }); // TODO(nzakas): Figure out how fixes might work for processors messages = processor.postprocess(unprocessedMessages, filename); } else { messages = eslint.verify(text, config, { filename: filename, allowInlineConfig: allowInlineConfig }); if (fix) { debug("Generating fixed text for " + filename); fixedResult = SourceCodeFixer.applyFixes(eslint.getSourceCode(), messages); messages = fixedResult.messages; } } stats = calculateStatsPerFile(messages); var result = { filePath: filename, messages: messages, errorCount: stats.errorCount, warningCount: stats.warningCount }; if (fixedResult && fixedResult.fixed) { result.output = fixedResult.output; } return result; }
function processText(text, configHelper, filename, fix, allowInlineConfig) { // clear all existing settings for a new file eslint.reset(); var filePath, config, messages, stats, fileExtension = path.extname(filename), processor, loadedPlugins, fixedResult; if (filename) { filePath = path.resolve(filename); } filename = filename || "<text>"; debug("Linting " + filename); config = configHelper.getConfig(filePath); if (config.plugins) { Plugins.loadAll(config.plugins); } loadedPlugins = Plugins.getAll(); for (var plugin in loadedPlugins) { if (loadedPlugins[plugin].processors && Object.keys(loadedPlugins[plugin].processors).indexOf(fileExtension) >= 0) { processor = loadedPlugins[plugin].processors[fileExtension]; break; } } if (processor) { debug("Using processor"); var parsedBlocks = processor.preprocess(text, filename); var unprocessedMessages = []; parsedBlocks.forEach(function(block) { unprocessedMessages.push(eslint.verify(block, config, { filename: filename, allowInlineConfig: allowInlineConfig })); }); // TODO(nzakas): Figure out how fixes might work for processors messages = processor.postprocess(unprocessedMessages, filename); } else { messages = eslint.verify(text, config, { filename: filename, allowInlineConfig: allowInlineConfig }); if (fix) { debug("Generating fixed text for " + filename); fixedResult = SourceCodeFixer.applyFixes(eslint.getSourceCode(), messages); messages = fixedResult.messages; } } stats = calculateStatsPerFile(messages); var result = { filePath: filename, messages: messages, errorCount: stats.errorCount, warningCount: stats.warningCount }; if (fixedResult && fixedResult.fixed) { result.output = fixedResult.output; } return result; }
JavaScript
function processFile(filename, configHelper, options) { var text = fs.readFileSync(path.resolve(filename), "utf8"), result = processText(text, configHelper, filename, options.fix, options.allowInlineConfig); return result; }
function processFile(filename, configHelper, options) { var text = fs.readFileSync(path.resolve(filename), "utf8"), result = processText(text, configHelper, filename, options.fix, options.allowInlineConfig); return result; }
JavaScript
function CLIEngine(options) { options = assign(Object.create(null), defaultOptions, options); /** * Stored options for this instance * @type {Object} */ this.options = options; var cacheFile = getCacheFile(this.options.cacheLocation || this.options.cacheFile, this.options.cwd); /** * cache used to not operate on files that haven't changed since last successful * execution (e.g. file passed with no errors and no warnings * @type {Object} */ this._fileCache = fileEntryCache.create(cacheFile); if (!this.options.cache) { this._fileCache.destroy(); } // load in additional rules if (this.options.rulePaths) { var cwd = this.options.cwd; this.options.rulePaths.forEach(function(rulesdir) { debug("Loading rules from " + rulesdir); rules.load(rulesdir, cwd); }); } Object.keys(this.options.rules || {}).forEach(function(name) { validator.validateRuleOptions(name, this.options.rules[name], "CLI"); }.bind(this)); }
function CLIEngine(options) { options = assign(Object.create(null), defaultOptions, options); /** * Stored options for this instance * @type {Object} */ this.options = options; var cacheFile = getCacheFile(this.options.cacheLocation || this.options.cacheFile, this.options.cwd); /** * cache used to not operate on files that haven't changed since last successful * execution (e.g. file passed with no errors and no warnings * @type {Object} */ this._fileCache = fileEntryCache.create(cacheFile); if (!this.options.cache) { this._fileCache.destroy(); } // load in additional rules if (this.options.rulePaths) { var cwd = this.options.cwd; this.options.rulePaths.forEach(function(rulesdir) { debug("Loading rules from " + rulesdir); rules.load(rulesdir, cwd); }); } Object.keys(this.options.rules || {}).forEach(function(name) { validator.validateRuleOptions(name, this.options.rules[name], "CLI"); }.bind(this)); }
JavaScript
function hashOfConfigFor(filename) { var config = configHelper.getConfig(filename); if (!prevConfig) { prevConfig = {}; } // reuse the previously hashed config if the config hasn't changed if (prevConfig.config !== config) { // config changed so we need to calculate the hash of the config // and the hash of the plugins being used prevConfig.config = config; var eslintVersion = pkg.version; prevConfig.hash = md5Hash(eslintVersion + "_" + stringify(config)); } return prevConfig.hash; }
function hashOfConfigFor(filename) { var config = configHelper.getConfig(filename); if (!prevConfig) { prevConfig = {}; } // reuse the previously hashed config if the config hasn't changed if (prevConfig.config !== config) { // config changed so we need to calculate the hash of the config // and the hash of the plugins being used prevConfig.config = config; var eslintVersion = pkg.version; prevConfig.hash = md5Hash(eslintVersion + "_" + stringify(config)); } return prevConfig.hash; }
JavaScript
function executeOnFile(filename, warnIgnored) { var hashOfConfig; if (options.ignore !== false) { if (ignoredPaths.contains(filename, "custom")) { if (warnIgnored) { results.push(createIgnoreResult(filename)); } return; } if (ignoredPaths.contains(filename, "default")) { return; } } filename = path.resolve(filename); if (processed[filename]) { return; } if (options.cache) { // get the descriptor for this file // with the metadata and the flag that determines if // the file has changed var descriptor = fileCache.getFileDescriptor(filename); var meta = descriptor.meta || {}; hashOfConfig = hashOfConfigFor(filename); var changed = descriptor.changed || meta.hashOfConfig !== hashOfConfig; if (!changed) { debug("Skipping file since hasn't changed: " + filename); // Adding the filename to the processed hashmap // so the reporting is not affected (showing a warning about .eslintignore being used // when it is not really used) processed[filename] = true; // Add the the cached results (always will be 0 error and 0 warnings) // cause we don't save to cache files that failed // to guarantee that next execution will process those files as well results.push(descriptor.meta.results); // move to the next file return; } } debug("Processing " + filename); processed[filename] = true; var res = processFile(filename, configHelper, options); if (options.cache) { // if a file contains errors or warnings we don't want to // store the file in the cache so we can guarantee that // next execution will also operate on this file if ( res.errorCount > 0 || res.warningCount > 0 ) { debug("File has problems, skipping it: " + filename); // remove the entry from the cache fileCache.removeEntry( filename ); } else { // since the file passed we store the result here // TODO: check this as we might not need to store the // successful runs as it will always should be 0 error 0 warnings descriptor.meta.hashOfConfig = hashOfConfig; descriptor.meta.results = res; } } results.push(res); }
function executeOnFile(filename, warnIgnored) { var hashOfConfig; if (options.ignore !== false) { if (ignoredPaths.contains(filename, "custom")) { if (warnIgnored) { results.push(createIgnoreResult(filename)); } return; } if (ignoredPaths.contains(filename, "default")) { return; } } filename = path.resolve(filename); if (processed[filename]) { return; } if (options.cache) { // get the descriptor for this file // with the metadata and the flag that determines if // the file has changed var descriptor = fileCache.getFileDescriptor(filename); var meta = descriptor.meta || {}; hashOfConfig = hashOfConfigFor(filename); var changed = descriptor.changed || meta.hashOfConfig !== hashOfConfig; if (!changed) { debug("Skipping file since hasn't changed: " + filename); // Adding the filename to the processed hashmap // so the reporting is not affected (showing a warning about .eslintignore being used // when it is not really used) processed[filename] = true; // Add the the cached results (always will be 0 error and 0 warnings) // cause we don't save to cache files that failed // to guarantee that next execution will process those files as well results.push(descriptor.meta.results); // move to the next file return; } } debug("Processing " + filename); processed[filename] = true; var res = processFile(filename, configHelper, options); if (options.cache) { // if a file contains errors or warnings we don't want to // store the file in the cache so we can guarantee that // next execution will also operate on this file if ( res.errorCount > 0 || res.warningCount > 0 ) { debug("File has problems, skipping it: " + filename); // remove the entry from the cache fileCache.removeEntry( filename ); } else { // since the file passed we store the result here // TODO: check this as we might not need to store the // successful runs as it will always should be 0 error 0 warnings descriptor.meta.hashOfConfig = hashOfConfig; descriptor.meta.results = res; } } results.push(res); }
JavaScript
function generateFormatterExamples(formatterInfo, prereleaseVersion) { var output = ejs.render(cat("./templates/formatter-examples.md.ejs"), formatterInfo), filename = "../eslint.github.io/docs/user-guide/formatters/index.md", htmlFilename = "../eslint.github.io/docs/user-guide/formatters/html-formatter-example.html"; if (prereleaseVersion) { filename = filename.replace("/docs", "/docs/" + prereleaseVersion); htmlFilename = htmlFilename.replace("/docs", "/docs/" + prereleaseVersion); } output.to(filename); formatterInfo.formatterResults.html.result.to(htmlFilename); }
function generateFormatterExamples(formatterInfo, prereleaseVersion) { var output = ejs.render(cat("./templates/formatter-examples.md.ejs"), formatterInfo), filename = "../eslint.github.io/docs/user-guide/formatters/index.md", htmlFilename = "../eslint.github.io/docs/user-guide/formatters/html-formatter-example.html"; if (prereleaseVersion) { filename = filename.replace("/docs", "/docs/" + prereleaseVersion); htmlFilename = htmlFilename.replace("/docs", "/docs/" + prereleaseVersion); } output.to(filename); formatterInfo.formatterResults.html.result.to(htmlFilename); }
JavaScript
function calculateReleaseInfo() { // get most recent tag var tags = getVersionTags(), lastTag = tags[tags.length - 1], commitFlagPattern = /([a-z]+):/i, releaseInfo = {}; // get log statements var logs = execSilent("git log --no-merges --pretty=format:\"* %h %s (%an)\" " + lastTag + "..HEAD").split(/\n/g); // arrange change types into categories logs.forEach(function(log) { var flag = log.match(commitFlagPattern)[1].toLowerCase(); if (!releaseInfo["changelog_" + flag]) { releaseInfo["changelog_" + flag] = []; } releaseInfo["changelog_" + flag].push(log); }); var output = logs.join("\n"); // and join it into a string releaseInfo.raw = output; if (releaseInfo.changelog_breaking) { releaseInfo.releaseType = "major"; } else if (releaseInfo.changelog_new || releaseInfo.changelog_update) { releaseInfo.releaseType = "minor"; } else { releaseInfo.releaseType = "patch"; } // increment version from current version releaseInfo.version = "v" + semver.inc(require("./package.json").version, releaseInfo.releaseType); return releaseInfo; }
function calculateReleaseInfo() { // get most recent tag var tags = getVersionTags(), lastTag = tags[tags.length - 1], commitFlagPattern = /([a-z]+):/i, releaseInfo = {}; // get log statements var logs = execSilent("git log --no-merges --pretty=format:\"* %h %s (%an)\" " + lastTag + "..HEAD").split(/\n/g); // arrange change types into categories logs.forEach(function(log) { var flag = log.match(commitFlagPattern)[1].toLowerCase(); if (!releaseInfo["changelog_" + flag]) { releaseInfo["changelog_" + flag] = []; } releaseInfo["changelog_" + flag].push(log); }); var output = logs.join("\n"); // and join it into a string releaseInfo.raw = output; if (releaseInfo.changelog_breaking) { releaseInfo.releaseType = "major"; } else if (releaseInfo.changelog_new || releaseInfo.changelog_update) { releaseInfo.releaseType = "minor"; } else { releaseInfo.releaseType = "patch"; } // increment version from current version releaseInfo.version = "v" + semver.inc(require("./package.json").version, releaseInfo.releaseType); return releaseInfo; }
JavaScript
function release() { echo("Updating dependencies"); exec("npm install && npm prune"); echo("Running tests"); target.test(); echo("Calculating changes for release"); var releaseInfo = calculateReleaseInfo(); echo("Release is " + releaseInfo.version); echo("Generating changelog"); writeChangelog(releaseInfo); exec("git add ."); exec("git commit -m \"Docs: Autogenerated changelog for " + releaseInfo.version + "\""); echo("Generating " + releaseInfo.version); execSilent("npm version " + releaseInfo.version); // push all the things echo("Publishing to git"); exec("git push origin master --tags"); echo("Publishing to npm"); getPackageInfo().files.filter(function(dirPath) { return fs.lstatSync(dirPath).isDirectory(); }).forEach(nodeCLI.exec.bind(nodeCLI, "linefix")); exec("npm publish"); echo("Generating site"); target.gensite(); generateBlogPost(releaseInfo); target.publishsite(); }
function release() { echo("Updating dependencies"); exec("npm install && npm prune"); echo("Running tests"); target.test(); echo("Calculating changes for release"); var releaseInfo = calculateReleaseInfo(); echo("Release is " + releaseInfo.version); echo("Generating changelog"); writeChangelog(releaseInfo); exec("git add ."); exec("git commit -m \"Docs: Autogenerated changelog for " + releaseInfo.version + "\""); echo("Generating " + releaseInfo.version); execSilent("npm version " + releaseInfo.version); // push all the things echo("Publishing to git"); exec("git push origin master --tags"); echo("Publishing to npm"); getPackageInfo().files.filter(function(dirPath) { return fs.lstatSync(dirPath).isDirectory(); }).forEach(nodeCLI.exec.bind(nodeCLI, "linefix")); exec("npm publish"); echo("Generating site"); target.gensite(); generateBlogPost(releaseInfo); target.publishsite(); }
JavaScript
function prerelease(version) { if (!version) { echo("Missing prerelease version."); exit(1); } echo("Updating dependencies"); exec("npm install && npm prune"); echo("Running tests"); target.test(); echo("Calculating changes for release"); var releaseInfo = calculateReleaseInfo(); // override the version for prereleases releaseInfo.version = version[0] === "v" ? version : "v" + version; echo("Release is " + releaseInfo.version); echo("Generating changelog"); writeChangelog(releaseInfo); exec("git add ."); exec("git commit -m \"Docs: Autogenerated changelog for " + releaseInfo.version + "\""); echo("Generating " + releaseInfo.version); execSilent("npm version " + version); // push all the things echo("Publishing to git"); exec("git push origin master --tags"); // publish to npm echo("Publishing to npm"); getPackageInfo().files.filter(function(dirPath) { return fs.lstatSync(dirPath).isDirectory(); }).forEach(nodeCLI.exec.bind(nodeCLI, "linefix")); exec("npm publish --tag next"); echo("Generating site"); target.gensite(semver.inc(version, "major")); generateBlogPost(releaseInfo); echo("Site has not been pushed, please update blog post and push manually."); }
function prerelease(version) { if (!version) { echo("Missing prerelease version."); exit(1); } echo("Updating dependencies"); exec("npm install && npm prune"); echo("Running tests"); target.test(); echo("Calculating changes for release"); var releaseInfo = calculateReleaseInfo(); // override the version for prereleases releaseInfo.version = version[0] === "v" ? version : "v" + version; echo("Release is " + releaseInfo.version); echo("Generating changelog"); writeChangelog(releaseInfo); exec("git add ."); exec("git commit -m \"Docs: Autogenerated changelog for " + releaseInfo.version + "\""); echo("Generating " + releaseInfo.version); execSilent("npm version " + version); // push all the things echo("Publishing to git"); exec("git push origin master --tags"); // publish to npm echo("Publishing to npm"); getPackageInfo().files.filter(function(dirPath) { return fs.lstatSync(dirPath).isDirectory(); }).forEach(nodeCLI.exec.bind(nodeCLI, "linefix")); exec("npm publish --tag next"); echo("Generating site"); target.gensite(semver.inc(version, "major")); generateBlogPost(releaseInfo); echo("Site has not been pushed, please update blog post and push manually."); }
JavaScript
function createConfigForPerformanceTest() { var content = [ "root: true", "env:", " node: true", " es6: true", "rules:" ]; content.push.apply( content, ls("lib/rules").map(function(fileName) { return " " + path.basename(fileName, ".js") + ": 2"; }) ); content.join("\n").to(PERF_ESLINTRC); }
function createConfigForPerformanceTest() { var content = [ "root: true", "env:", " node: true", " es6: true", "rules:" ]; content.push.apply( content, ls("lib/rules").map(function(fileName) { return " " + path.basename(fileName, ".js") + ": 2"; }) ); content.join("\n").to(PERF_ESLINTRC); }
JavaScript
function sortTable(n, numeric=false) { var table, rows, switching, i, x, y, shouldSwitch, dir, switchcount = 0; table = document.getElementById("tournament_participants"); switching = true; // Set the sorting direction to ascending: dir = "asc"; /* Make a loop that will continue until no switching has been done: */ while (switching) { // Start by saying: no switching is done: switching = false; rows = table.rows; /* Loop through all table rows (except the first, which contains table headers): */ for (i = 1; i < (rows.length - 1); i++) { // Start by saying there should be no switching: shouldSwitch = false; /* Get the two elements you want to compare, one from current row and one from the next: */ x = rows[i].getElementsByTagName("TD")[n]; y = rows[i + 1].getElementsByTagName("TD")[n]; /* Check if the two rows should switch place, based on the direction, asc or desc: */ if (dir == "asc") { if (numeric){ x1 = Number(x.innerHTML) y1 = Number(y.innerHTML) if (x1 == 0 ) { x1 = 10000 } if (y1 == 0 ) { y1 = 10000 } if (x1 > y1) { shouldSwitch = true; break; } } else { if (x.innerHTML.toLowerCase() > y.innerHTML.toLowerCase()) { // If so, mark as a switch and break the loop: shouldSwitch = true; break; } } } else if (dir == "desc") { if (numeric){ x1 = Number(x.innerHTML) y1 = Number(y.innerHTML) if (x1 == 0 ) { x1 = -1000 } if (y1 == 0 ) { y1 = -1000 } if (x1 < y1) { shouldSwitch = true; break; } } else { if (x.innerHTML.toLowerCase() < y.innerHTML.toLowerCase()) { // If so, mark as a switch and break the loop: shouldSwitch = true; break; } } } } if (shouldSwitch) { /* If a switch has been marked, make the switch and mark that a switch has been done: */ rows[i].parentNode.insertBefore(rows[i + 1], rows[i]); switching = true; // Each time a switch is done, increase this count by 1: switchcount ++; } else { /* If no switching has been done AND the direction is "asc", set the direction to "desc" and run the while loop again. */ if (switchcount == 0 && dir == "asc") { dir = "desc"; switching = true; } } } }
function sortTable(n, numeric=false) { var table, rows, switching, i, x, y, shouldSwitch, dir, switchcount = 0; table = document.getElementById("tournament_participants"); switching = true; // Set the sorting direction to ascending: dir = "asc"; /* Make a loop that will continue until no switching has been done: */ while (switching) { // Start by saying: no switching is done: switching = false; rows = table.rows; /* Loop through all table rows (except the first, which contains table headers): */ for (i = 1; i < (rows.length - 1); i++) { // Start by saying there should be no switching: shouldSwitch = false; /* Get the two elements you want to compare, one from current row and one from the next: */ x = rows[i].getElementsByTagName("TD")[n]; y = rows[i + 1].getElementsByTagName("TD")[n]; /* Check if the two rows should switch place, based on the direction, asc or desc: */ if (dir == "asc") { if (numeric){ x1 = Number(x.innerHTML) y1 = Number(y.innerHTML) if (x1 == 0 ) { x1 = 10000 } if (y1 == 0 ) { y1 = 10000 } if (x1 > y1) { shouldSwitch = true; break; } } else { if (x.innerHTML.toLowerCase() > y.innerHTML.toLowerCase()) { // If so, mark as a switch and break the loop: shouldSwitch = true; break; } } } else if (dir == "desc") { if (numeric){ x1 = Number(x.innerHTML) y1 = Number(y.innerHTML) if (x1 == 0 ) { x1 = -1000 } if (y1 == 0 ) { y1 = -1000 } if (x1 < y1) { shouldSwitch = true; break; } } else { if (x.innerHTML.toLowerCase() < y.innerHTML.toLowerCase()) { // If so, mark as a switch and break the loop: shouldSwitch = true; break; } } } } if (shouldSwitch) { /* If a switch has been marked, make the switch and mark that a switch has been done: */ rows[i].parentNode.insertBefore(rows[i + 1], rows[i]); switching = true; // Each time a switch is done, increase this count by 1: switchcount ++; } else { /* If no switching has been done AND the direction is "asc", set the direction to "desc" and run the while loop again. */ if (switchcount == 0 && dir == "asc") { dir = "desc"; switching = true; } } } }
JavaScript
function extendArray(daddyArray, childArray) { for (var i = 0; i < childArray.length; i++) { daddyArray.push(childArray[i]); } }
function extendArray(daddyArray, childArray) { for (var i = 0; i < childArray.length; i++) { daddyArray.push(childArray[i]); } }
JavaScript
initNProgress() { $(document).ready(function () { if (this.isPjax) { $(document).on('pjax:send', function () { NProgress.start(); }); $(document).on('pjax:end', function () { NProgress.done(); }); } else { $(document).ajaxStart(function() { NProgress.start(); }); $(document).ajaxComplete(function() { NProgress.done(); }); } }); return this; }
initNProgress() { $(document).ready(function () { if (this.isPjax) { $(document).on('pjax:send', function () { NProgress.start(); }); $(document).on('pjax:end', function () { NProgress.done(); }); } else { $(document).ajaxStart(function() { NProgress.start(); }); $(document).ajaxComplete(function() { NProgress.done(); }); } }); return this; }
JavaScript
schema() { return { desc: this.desc }; }
schema() { return { desc: this.desc }; }
JavaScript
async applyDefaults() { const requiredOptions = { long: {}, short: {} }; const len = this.contexts.length; log(`Processing default options and environment variables for ${highlight(len)} ${pluralize('context', len)}`); this.env = {}; // loop through every context for (let i = len; i; i--) { const ctx = this.contexts[i - 1]; // init options for (const options of ctx.options.values()) { for (const option of options) { if (option.name) { const name = option.camelCase || ctx.get('camelCase') ? camelCase(option.name) : option.name; if (this.argv[name] === undefined) { let value = option.default; if (option.datatype === 'bool' && typeof value !== 'boolean') { value = !!option.negate; } else if (option.type === 'count') { value = 0; } if (option.multiple && !Array.isArray(value)) { value = value !== undefined ? [ value ] : []; } if (!this._fired.has(option) && typeof option.callback === 'function') { const newValue = await option.callback({ ctx, data: this.opts.data, exitCode: this.opts.exitCode, input: [ value ], name, async next() {}, opts: this.opts, option, parser: this, value }); if (newValue !== undefined) { value = newValue; } } this.argv[name] = value; } if (option.env && process.env[option.env] !== undefined) { this.env[name] = option.transform(process.env[option.env]); } } if (option.required) { if (option.long) { requiredOptions.long[option.long] = option; } if (option.short) { requiredOptions.short[option.short] = option; } } else { if (option.long) { delete requiredOptions.long[option.long]; } if (option.short) { delete requiredOptions.short[option.short]; } } } } // init arguments for (const arg of ctx.args) { if (arg.name) { const name = arg.camelCase || ctx.get('camelCase') ? camelCase(arg.name) : arg.name; if (this.argv[name] === undefined) { let value = arg.default; if (arg.multiple && !Array.isArray(value)) { value = value !== undefined ? [ value ] : []; } if (!this._fired.has(arg) && typeof arg.callback === 'function') { const newValue = await arg.callback({ arg, ctx, data: this.opts.data, exitCode: this.opts.exitCode, name, opts: this.opts, parser: this, value }); if (newValue !== undefined) { value = newValue; } } this.argv[name] = value; } if (arg.env && process.env[arg.env] !== undefined) { this.env[name] = arg.transform(process.env[arg.env]); } } } } this.required = new Set(Object.values(requiredOptions.long)); for (const option of Object.values(requiredOptions.short)) { this.required.add(option); } }
async applyDefaults() { const requiredOptions = { long: {}, short: {} }; const len = this.contexts.length; log(`Processing default options and environment variables for ${highlight(len)} ${pluralize('context', len)}`); this.env = {}; // loop through every context for (let i = len; i; i--) { const ctx = this.contexts[i - 1]; // init options for (const options of ctx.options.values()) { for (const option of options) { if (option.name) { const name = option.camelCase || ctx.get('camelCase') ? camelCase(option.name) : option.name; if (this.argv[name] === undefined) { let value = option.default; if (option.datatype === 'bool' && typeof value !== 'boolean') { value = !!option.negate; } else if (option.type === 'count') { value = 0; } if (option.multiple && !Array.isArray(value)) { value = value !== undefined ? [ value ] : []; } if (!this._fired.has(option) && typeof option.callback === 'function') { const newValue = await option.callback({ ctx, data: this.opts.data, exitCode: this.opts.exitCode, input: [ value ], name, async next() {}, opts: this.opts, option, parser: this, value }); if (newValue !== undefined) { value = newValue; } } this.argv[name] = value; } if (option.env && process.env[option.env] !== undefined) { this.env[name] = option.transform(process.env[option.env]); } } if (option.required) { if (option.long) { requiredOptions.long[option.long] = option; } if (option.short) { requiredOptions.short[option.short] = option; } } else { if (option.long) { delete requiredOptions.long[option.long]; } if (option.short) { delete requiredOptions.short[option.short]; } } } } // init arguments for (const arg of ctx.args) { if (arg.name) { const name = arg.camelCase || ctx.get('camelCase') ? camelCase(arg.name) : arg.name; if (this.argv[name] === undefined) { let value = arg.default; if (arg.multiple && !Array.isArray(value)) { value = value !== undefined ? [ value ] : []; } if (!this._fired.has(arg) && typeof arg.callback === 'function') { const newValue = await arg.callback({ arg, ctx, data: this.opts.data, exitCode: this.opts.exitCode, name, opts: this.opts, parser: this, value }); if (newValue !== undefined) { value = newValue; } } this.argv[name] = value; } if (arg.env && process.env[arg.env] !== undefined) { this.env[name] = arg.transform(process.env[arg.env]); } } } } this.required = new Set(Object.values(requiredOptions.long)); for (const option of Object.values(requiredOptions.short)) { this.required.add(option); } }
JavaScript
async parseWithContext(ctx) { // print the context's info log(`Context: ${highlight(ctx.name)}`); if (!ctx.lookup.empty) { log(ctx.lookup.toString()); } await this.parseArg(ctx, 0); }
async parseWithContext(ctx) { // print the context's info log(`Context: ${highlight(ctx.name)}`); if (!ctx.lookup.empty) { log(ctx.lookup.toString()); } await this.parseArg(ctx, 0); }
JavaScript
generateHelp() { const entries = []; for (const ctxName of Array.from(this.keys())) { const { aliases, clikitHelp, desc, hidden, name } = this.get(ctxName).exports[ctxName]; if (!hidden && !clikitHelp) { const labels = new Set([ name ]); for (const [ alias, display ] of Object.entries(aliases)) { if (display === 'visible') { labels.add(alias); } } entries.push({ name, desc, label: Array.from(labels).sort((a, b) => { return a.length === b.length ? a.localeCompare(b) : a.length - b.length; }).join(', '), aliases: aliases ? Object.keys(aliases) : null }); } } entries.sort((a, b) => a.label.localeCompare(b.label)); return { count: entries.length, entries }; }
generateHelp() { const entries = []; for (const ctxName of Array.from(this.keys())) { const { aliases, clikitHelp, desc, hidden, name } = this.get(ctxName).exports[ctxName]; if (!hidden && !clikitHelp) { const labels = new Set([ name ]); for (const [ alias, display ] of Object.entries(aliases)) { if (display === 'visible') { labels.add(alias); } } entries.push({ name, desc, label: Array.from(labels).sort((a, b) => { return a.length === b.length ? a.localeCompare(b) : a.length - b.length; }).join(', '), aliases: aliases ? Object.keys(aliases) : null }); } } entries.sort((a, b) => a.label.localeCompare(b.label)); return { count: entries.length, entries }; }
JavaScript
add(format, params) { if (!format) { throw E.INVALID_ARGUMENT('Invalid option format or option', { name: 'format', scope: 'OptionMap.add', value: format }); } const results = []; let lastGroup = ''; let options = []; if (Array.isArray(format)) { options = format; } else if (typeof format === 'object' && format.clikit instanceof Set && (format.clikit.has('OptionList') || format.clikit.has('OptionMap'))) { for (const [ group, opts ] of format.entries()) { if (group && group !== lastGroup) { options.push(group); lastGroup = group; } options.push.apply(options, opts); } } else if (typeof format === 'object' && (format instanceof Option || !(format.clikit instanceof Set) || !format.clikit.has('Option'))) { options.push(format); } else { options.push(new Option(format, params)); } // reset group lastGroup = ''; const add = opt => { let opts = this.get(lastGroup); if (!opts) { this.set(lastGroup, opts = []); } opts.push(opt); results.push(opt); this.count++; }; // at this point we have a unified array of stuff for (const it of options) { if (typeof it === 'string') { lastGroup = it; continue; } if (typeof it !== 'object') { throw E.INVALID_ARGUMENT(`Expected option to be an object: ${it && it.name || it}`, { name: 'option', scope: 'OptionMap.add', value: it }); } if (it instanceof Option) { add(it); } else if (it.clikit instanceof Set) { add(new Option(it)); } else { // it is a format-params object for (const [ format, params ] of Object.entries(it)) { add(params instanceof Option ? params : new Option(format, params)); } } } return results; }
add(format, params) { if (!format) { throw E.INVALID_ARGUMENT('Invalid option format or option', { name: 'format', scope: 'OptionMap.add', value: format }); } const results = []; let lastGroup = ''; let options = []; if (Array.isArray(format)) { options = format; } else if (typeof format === 'object' && format.clikit instanceof Set && (format.clikit.has('OptionList') || format.clikit.has('OptionMap'))) { for (const [ group, opts ] of format.entries()) { if (group && group !== lastGroup) { options.push(group); lastGroup = group; } options.push.apply(options, opts); } } else if (typeof format === 'object' && (format instanceof Option || !(format.clikit instanceof Set) || !format.clikit.has('Option'))) { options.push(format); } else { options.push(new Option(format, params)); } // reset group lastGroup = ''; const add = opt => { let opts = this.get(lastGroup); if (!opts) { this.set(lastGroup, opts = []); } opts.push(opt); results.push(opt); this.count++; }; // at this point we have a unified array of stuff for (const it of options) { if (typeof it === 'string') { lastGroup = it; continue; } if (typeof it !== 'object') { throw E.INVALID_ARGUMENT(`Expected option to be an object: ${it && it.name || it}`, { name: 'option', scope: 'OptionMap.add', value: it }); } if (it instanceof Option) { add(it); } else if (it.clikit instanceof Set) { add(new Option(it)); } else { // it is a format-params object for (const [ format, params ] of Object.entries(it)) { add(params instanceof Option ? params : new Option(format, params)); } } } return results; }
JavaScript
generateHelp() { let count = 0; const groups = {}; const sortFn = (a, b) => { return a.order < b.order ? -1 : a.order > b.order ? 1 : a.long.localeCompare(b.long); }; for (const [ groupName, options ] of this.entries()) { const group = groups[groupName] = []; for (const opt of options.sort(sortFn)) { if (!opt.hidden) { const label = `${opt.short ? `-${opt.short}, ` : ''}` + `--${opt.negate ? 'no-' : ''}${opt.long}` + `${opt.isFlag ? '' : ` ${opt.required ? '<' : '['}${opt.hint || 'value'}${opt.required ? '>' : ']'}`}`; group.push({ aliases: Object.keys(opt.aliases).filter(a => opt.aliases[a]), datatype: opt.datatype, default: opt.default, desc: opt.desc, hint: opt.hint, isFlag: opt.isFlag, label, long: opt.long, max: opt.max, min: opt.min, name: opt.name, negate: opt.negate, required: opt.required, short: opt.short }); count++; } } } return { count, groups }; }
generateHelp() { let count = 0; const groups = {}; const sortFn = (a, b) => { return a.order < b.order ? -1 : a.order > b.order ? 1 : a.long.localeCompare(b.long); }; for (const [ groupName, options ] of this.entries()) { const group = groups[groupName] = []; for (const opt of options.sort(sortFn)) { if (!opt.hidden) { const label = `${opt.short ? `-${opt.short}, ` : ''}` + `--${opt.negate ? 'no-' : ''}${opt.long}` + `${opt.isFlag ? '' : ` ${opt.required ? '<' : '['}${opt.hint || 'value'}${opt.required ? '>' : ']'}`}`; group.push({ aliases: Object.keys(opt.aliases).filter(a => opt.aliases[a]), datatype: opt.datatype, default: opt.default, desc: opt.desc, hint: opt.hint, isFlag: opt.isFlag, label, long: opt.long, max: opt.max, min: opt.min, name: opt.name, negate: opt.negate, required: opt.required, short: opt.short }); count++; } } } return { count, groups }; }
JavaScript
function split(str) { if (typeof str !== 'string') { return str; } const results = []; const re = /\x07|\x1b(?:[a-z\d]|\[\?25[hl]|\[[A-Za-z]|\[\d+[A-Za-z]|\[\d+;\d+H|\]\d+[^\x07]+\x07)/; let m; while (m = re.exec(str)) { results.push(m.index ? str.substring(0, m.index) : ''); results.push(str.substr(m.index, m[0].length)); str = str.substring(m.index + m[0].length); } if (str) { results.push(str); } return results; }
function split(str) { if (typeof str !== 'string') { return str; } const results = []; const re = /\x07|\x1b(?:[a-z\d]|\[\?25[hl]|\[[A-Za-z]|\[\d+[A-Za-z]|\[\d+;\d+H|\]\d+[^\x07]+\x07)/; let m; while (m = re.exec(str)) { results.push(m.index ? str.substring(0, m.index) : ''); results.push(str.substr(m.index, m[0].length)); str = str.substring(m.index + m[0].length); } if (str) { results.push(str); } return results; }
JavaScript
function escapeTildes(str) { let state = [ 0 ]; let s = ''; for (let i = 0, l = str.length; i < l; i++) { switch (state[0]) { case 0: // not in an expression if ((i === 0 || str[i - 1] !== '\\') && str[i] === '$' && str[i + 1] === '{') { s += str[i++]; // $ s += str[i]; // { state.unshift(1); } else if (str[i] === '`') { s += '\\`'; } else { s += str[i]; } break; case 1: // in an expression if (str[i] === '}') { state.shift(); } else if (str[i] === '`') { state.unshift(2); } s += str[i]; break; case 2: // in template literal if (str[i] === '`') { state.shift(); } s += str[i]; break; } } return s; }
function escapeTildes(str) { let state = [ 0 ]; let s = ''; for (let i = 0, l = str.length; i < l; i++) { switch (state[0]) { case 0: // not in an expression if ((i === 0 || str[i - 1] !== '\\') && str[i] === '$' && str[i + 1] === '{') { s += str[i++]; // $ s += str[i]; // { state.unshift(1); } else if (str[i] === '`') { s += '\\`'; } else { s += str[i]; } break; case 1: // in an expression if (str[i] === '}') { state.shift(); } else if (str[i] === '`') { state.unshift(2); } s += str[i]; break; case 2: // in template literal if (str[i] === '`') { state.shift(); } s += str[i]; break; } } return s; }
JavaScript
onOutput(cb) { if (this.outputCallbacks) { this.outputCallbacks.push(cb); } else { cb(this.outputResolution); } return this; }
onOutput(cb) { if (this.outputCallbacks) { this.outputCallbacks.push(cb); } else { cb(this.outputResolution); } return this; }
JavaScript
registerExtension(name, meta, params) { log(`Registering extension command: ${highlight(`${this.name}:${name}`)}`); const cmd = new Command(name, { parent: this, ...params }); this.exports[name] = Object.assign(cmd, meta); cmd.isExtension = true; if (meta?.pkg?.clikit) { cmd.isCLIKitExtension = true; cmd.load = async function load() { log(`Requiring cli-kit extension: ${highlight(this.name)} -> ${highlight(meta.pkg.main)}`); let ctx; try { ctx = require(meta.pkg.main); if (!ctx || (typeof ctx !== 'object' && typeof ctx !== 'function')) { throw new Error('Extension must export an object or function'); } // if this is an ES6 module, grab the default export if (ctx.__esModule) { ctx = ctx.default; } // if the export was a function, call it now to get its CLI definition if (typeof ctx === 'function') { ctx = await ctx(this); } if (!ctx || typeof ctx !== 'object') { throw new Error('Extension does not resolve an object'); } } catch (err) { throw E.INVALID_EXTENSION(`Bad extension "${this.name}": ${err.message}`, { name: this.name, scope: 'Extension.load', value: err }); } this.aliases = ctx.aliases; this.camelCase = ctx.camelCase; this.defaultCommand = ctx.defaultCommand; this.help = ctx.help; this.remoteHelp = ctx.remoteHelp; this.treatUnknownOptionsAsArguments = ctx.treatUnknownOptionsAsArguments; this.version = ctx.version; this.init({ args: ctx.args, banner: ctx.banner, commands: ctx.commands, desc: ctx.desc || this.desc, extensions: ctx.extensions, name: this.name || ctx.name, options: ctx.options, parent: this.parent, title: ctx.title !== 'Global' && ctx.title || this.name }); const versionOption = this.version && this.lookup.long.version; if (versionOption && typeof versionOption.callback !== 'function') { versionOption.callback = async ({ exitCode, opts, next }) => { if (await next()) { let { version } = this; if (typeof version === 'function') { version = await version(opts); } (opts.terminal || this.get('terminal')).stdout.write(`${version}\n`); exitCode(0); return false; } }; } if (typeof ctx.action === 'function') { this.action = ctx.action; } else { this.action = async parser => { if (this.defaultCommand !== 'help' || !this.get('help')) { const defcmd = this.defaultCommand && this.commands[this.defaultCommand]; if (defcmd) { return await defcmd.action.call(defcmd, parser); } } return await helpCommand.action.call(helpCommand, parser); }; } }.bind(cmd); } }
registerExtension(name, meta, params) { log(`Registering extension command: ${highlight(`${this.name}:${name}`)}`); const cmd = new Command(name, { parent: this, ...params }); this.exports[name] = Object.assign(cmd, meta); cmd.isExtension = true; if (meta?.pkg?.clikit) { cmd.isCLIKitExtension = true; cmd.load = async function load() { log(`Requiring cli-kit extension: ${highlight(this.name)} -> ${highlight(meta.pkg.main)}`); let ctx; try { ctx = require(meta.pkg.main); if (!ctx || (typeof ctx !== 'object' && typeof ctx !== 'function')) { throw new Error('Extension must export an object or function'); } // if this is an ES6 module, grab the default export if (ctx.__esModule) { ctx = ctx.default; } // if the export was a function, call it now to get its CLI definition if (typeof ctx === 'function') { ctx = await ctx(this); } if (!ctx || typeof ctx !== 'object') { throw new Error('Extension does not resolve an object'); } } catch (err) { throw E.INVALID_EXTENSION(`Bad extension "${this.name}": ${err.message}`, { name: this.name, scope: 'Extension.load', value: err }); } this.aliases = ctx.aliases; this.camelCase = ctx.camelCase; this.defaultCommand = ctx.defaultCommand; this.help = ctx.help; this.remoteHelp = ctx.remoteHelp; this.treatUnknownOptionsAsArguments = ctx.treatUnknownOptionsAsArguments; this.version = ctx.version; this.init({ args: ctx.args, banner: ctx.banner, commands: ctx.commands, desc: ctx.desc || this.desc, extensions: ctx.extensions, name: this.name || ctx.name, options: ctx.options, parent: this.parent, title: ctx.title !== 'Global' && ctx.title || this.name }); const versionOption = this.version && this.lookup.long.version; if (versionOption && typeof versionOption.callback !== 'function') { versionOption.callback = async ({ exitCode, opts, next }) => { if (await next()) { let { version } = this; if (typeof version === 'function') { version = await version(opts); } (opts.terminal || this.get('terminal')).stdout.write(`${version}\n`); exitCode(0); return false; } }; } if (typeof ctx.action === 'function') { this.action = ctx.action; } else { this.action = async parser => { if (this.defaultCommand !== 'help' || !this.get('help')) { const defcmd = this.defaultCommand && this.commands[this.defaultCommand]; if (defcmd) { return await defcmd.action.call(defcmd, parser); } } return await helpCommand.action.call(helpCommand, parser); }; } }.bind(cmd); } }
JavaScript
schema() { return { ...super.schema, path: this.path }; }
schema() { return { ...super.schema, path: this.path }; }
JavaScript
argument(arg) { this.args.add(arg); this.rev++; return this; }
argument(arg) { this.args.add(arg); this.rev++; return this; }
JavaScript
command(cmd, params, clone) { const cmds = this.commands.add(cmd, params, clone); for (const cmd of cmds) { log(`Adding command: ${highlight(cmd.name)} ${note(`(${this.name})`)}`); this.register(cmd); } this.rev++; return this; }
command(cmd, params, clone) { const cmds = this.commands.add(cmd, params, clone); for (const cmd of cmds) { log(`Adding command: ${highlight(cmd.name)} ${note(`(${this.name})`)}`); this.register(cmd); } this.rev++; return this; }
JavaScript
extension(ext, name, clone) { const exts = this.extensions.add(ext, name, clone); for (const ext of exts) { log(`Adding extension: ${highlight(ext.name)} ${note(`(${this.name})`)}`); this.register(ext); } this.rev++; return this; }
extension(ext, name, clone) { const exts = this.extensions.add(ext, name, clone); for (const ext of exts) { log(`Adding extension: ${highlight(ext.name)} ${note(`(${this.name})`)}`); this.register(ext); } this.rev++; return this; }
JavaScript
init(params, clone) { if (!params || typeof params !== 'object' || (params.clikit instanceof Set && !params.clikit.has('Context'))) { throw E.INVALID_ARGUMENT('Expected parameters to be an object or Context', { name: 'params', scope: 'Context.init', value: params }); } if (params.clikit instanceof Set && !params.clikit.has('Context')) { throw E.INVALID_ARGUMENT('Expected parameters to be an object or Context', { name: 'params', scope: 'Context.init', value: params }); } this.args = new ArgumentList(); this.autoHideBanner = params.autoHideBanner; this.banner = params.banner; this.commands = new CommandMap(); this.defaultCommand = params.defaultCommand; this.desc = params.desc; this.errorIfUnknownCommand = params.errorIfUnknownCommand; this.extensions = new ExtensionMap(); this.helpExitCode = params.helpExitCode; this.helpTemplateFile = params.helpTemplateFile; this.hideNoBannerOption = params.hideNoBannerOption; this.hideNoColorOption = params.hideNoColorOption; this.lookup = new Lookup(); this.name = params.name; this.nodeVersion = params.nodeVersion; this.options = new OptionMap(); this.parent = params.parent; this.rev = 0; this.showBannerForExternalCLIs = params.showBannerForExternalCLIs; this.showHelpOnError = params.showHelpOnError; this.title = params.title || params.name; this.treatUnknownOptionsAsArguments = !!params.treatUnknownOptionsAsArguments; this.version = params.version; params.args && this.argument(params.args); params.commands && this.command(params.commands, null, clone); params.extensions && this.extension(params.extensions, null, clone); params.options && this.option(params.options); return this; }
init(params, clone) { if (!params || typeof params !== 'object' || (params.clikit instanceof Set && !params.clikit.has('Context'))) { throw E.INVALID_ARGUMENT('Expected parameters to be an object or Context', { name: 'params', scope: 'Context.init', value: params }); } if (params.clikit instanceof Set && !params.clikit.has('Context')) { throw E.INVALID_ARGUMENT('Expected parameters to be an object or Context', { name: 'params', scope: 'Context.init', value: params }); } this.args = new ArgumentList(); this.autoHideBanner = params.autoHideBanner; this.banner = params.banner; this.commands = new CommandMap(); this.defaultCommand = params.defaultCommand; this.desc = params.desc; this.errorIfUnknownCommand = params.errorIfUnknownCommand; this.extensions = new ExtensionMap(); this.helpExitCode = params.helpExitCode; this.helpTemplateFile = params.helpTemplateFile; this.hideNoBannerOption = params.hideNoBannerOption; this.hideNoColorOption = params.hideNoColorOption; this.lookup = new Lookup(); this.name = params.name; this.nodeVersion = params.nodeVersion; this.options = new OptionMap(); this.parent = params.parent; this.rev = 0; this.showBannerForExternalCLIs = params.showBannerForExternalCLIs; this.showHelpOnError = params.showHelpOnError; this.title = params.title || params.name; this.treatUnknownOptionsAsArguments = !!params.treatUnknownOptionsAsArguments; this.version = params.version; params.args && this.argument(params.args); params.commands && this.command(params.commands, null, clone); params.extensions && this.extension(params.extensions, null, clone); params.options && this.option(params.options); return this; }
JavaScript
register(it) { let cmds; let dest; if (it.clikit.has('Extension')) { cmds = Object.values(it.exports); dest = 'extensions'; } else if (it.clikit.has('Command')) { cmds = [ it ]; dest = 'commands'; } if (!cmds) { return; } it.parent = this; for (const cmd of cmds) { this.lookup[dest][cmd.name] = cmd; if (cmd.aliases) { for (const alias of Object.keys(cmd.aliases)) { if (!this[dest].has(alias)) { this.lookup[dest][alias] = cmd; } } } } }
register(it) { let cmds; let dest; if (it.clikit.has('Extension')) { cmds = Object.values(it.exports); dest = 'extensions'; } else if (it.clikit.has('Command')) { cmds = [ it ]; dest = 'commands'; } if (!cmds) { return; } it.parent = this; for (const cmd of cmds) { this.lookup[dest][cmd.name] = cmd; if (cmd.aliases) { for (const alias of Object.keys(cmd.aliases)) { if (!this[dest].has(alias)) { this.lookup[dest][alias] = cmd; } } } } }
JavaScript
generateHelp() { const entries = []; for (const { desc, hidden, hint, multiple, name, required } of this) { if (!hidden) { entries.push({ desc, hint, multiple, name, required }); } } return { count: entries.length, entries }; }
generateHelp() { const entries = []; for (const { desc, hidden, hint, multiple, name, required } of this) { if (!hidden) { entries.push({ desc, hint, multiple, name, required }); } } return { count: entries.length, entries }; }
JavaScript
add(cmd, params, clone) { if (!cmd) { throw E.INVALID_ARGUMENT('Invalid command', { name: 'cmd', scope: 'CommandMap.add', value: cmd }); } if (!Command) { Command = require('./command').default; } if (params !== undefined && params !== null) { if (typeof cmd !== 'string') { throw E.INVALID_ARGUMENT('Command parameters are only allowed when command is a string', { name: 'cmd', scope: 'CommandMap.add', value: { cmd, params } }); } else if (typeof params === 'function') { params = { action: params }; } else if (typeof params !== 'object') { throw E.INVALID_ARGUMENT('Expected command parameters to be an object or function', { name: 'params', scope: 'CommandMap.add', value: { cmd, params } }); } cmd = new Command(cmd, params); } const results = []; const commands = typeof cmd === 'object' && cmd.clikit instanceof Set && (cmd.clikit.has('CommandList') || cmd.clikit.has('CommandMap')) ? cmd.values() : Array.isArray(cmd) ? cmd : [ cmd ]; for (let it of commands) { cmd = null; if (!clone && it instanceof Command) { cmd = it; } else if (typeof it === 'string') { // path it = path.resolve(it); try { const files = fs.statSync(it).isDirectory() ? fs.readdirSync(it).map(filename => path.join(it, filename)) : [ it ]; for (const file of files) { if (jsRegExp.test(file)) { cmd = new Command(file); this.set(cmd.name, cmd); results.push(cmd); } } } catch (e) { if (e.code === 'ENOENT') { throw E.FILE_NOT_FOUND(`Command path does not exist: ${it}`, { name: 'command', scope: 'CommandMap.add', value: it }); } throw e; } continue; } else if (it && typeof it === 'object') { // ctor params or Command-like if (it.clikit instanceof Set) { if (it.clikit.has('Extension')) { // actions and extensions not supported here continue; } else if (it.clikit.has('Command')) { cmd = new Command(it.name, it); } else { throw E.INVALID_COMMAND(`Invalid command: cli-kit type "${Array.from(it.clikit)[0]}" not supported`, { name: 'command', scope: 'CommandMap.add', value: it }); } } else if (it.name && typeof it.name === 'string') { // the object is command ctor params cmd = new Command(it.name, it); } else { // an object of command names to a path, ctor params, Command object, or Command-like object for (const [ name, value ] of Object.entries(it)) { cmd = new Command(name, value); this.set(cmd.name, cmd); results.push(cmd); } continue; } } if (cmd instanceof Command) { this.set(cmd.name, cmd); results.push(cmd); } else { throw E.INVALID_ARGUMENT(`Invalid command "${it}", expected an object`, { name: 'command', scope: 'CommandMap.add', value: it }); } } return results; }
add(cmd, params, clone) { if (!cmd) { throw E.INVALID_ARGUMENT('Invalid command', { name: 'cmd', scope: 'CommandMap.add', value: cmd }); } if (!Command) { Command = require('./command').default; } if (params !== undefined && params !== null) { if (typeof cmd !== 'string') { throw E.INVALID_ARGUMENT('Command parameters are only allowed when command is a string', { name: 'cmd', scope: 'CommandMap.add', value: { cmd, params } }); } else if (typeof params === 'function') { params = { action: params }; } else if (typeof params !== 'object') { throw E.INVALID_ARGUMENT('Expected command parameters to be an object or function', { name: 'params', scope: 'CommandMap.add', value: { cmd, params } }); } cmd = new Command(cmd, params); } const results = []; const commands = typeof cmd === 'object' && cmd.clikit instanceof Set && (cmd.clikit.has('CommandList') || cmd.clikit.has('CommandMap')) ? cmd.values() : Array.isArray(cmd) ? cmd : [ cmd ]; for (let it of commands) { cmd = null; if (!clone && it instanceof Command) { cmd = it; } else if (typeof it === 'string') { // path it = path.resolve(it); try { const files = fs.statSync(it).isDirectory() ? fs.readdirSync(it).map(filename => path.join(it, filename)) : [ it ]; for (const file of files) { if (jsRegExp.test(file)) { cmd = new Command(file); this.set(cmd.name, cmd); results.push(cmd); } } } catch (e) { if (e.code === 'ENOENT') { throw E.FILE_NOT_FOUND(`Command path does not exist: ${it}`, { name: 'command', scope: 'CommandMap.add', value: it }); } throw e; } continue; } else if (it && typeof it === 'object') { // ctor params or Command-like if (it.clikit instanceof Set) { if (it.clikit.has('Extension')) { // actions and extensions not supported here continue; } else if (it.clikit.has('Command')) { cmd = new Command(it.name, it); } else { throw E.INVALID_COMMAND(`Invalid command: cli-kit type "${Array.from(it.clikit)[0]}" not supported`, { name: 'command', scope: 'CommandMap.add', value: it }); } } else if (it.name && typeof it.name === 'string') { // the object is command ctor params cmd = new Command(it.name, it); } else { // an object of command names to a path, ctor params, Command object, or Command-like object for (const [ name, value ] of Object.entries(it)) { cmd = new Command(name, value); this.set(cmd.name, cmd); results.push(cmd); } continue; } } if (cmd instanceof Command) { this.set(cmd.name, cmd); results.push(cmd); } else { throw E.INVALID_ARGUMENT(`Invalid command "${it}", expected an object`, { name: 'command', scope: 'CommandMap.add', value: it }); } } return results; }
JavaScript
generateHelp() { const entries = []; for (const cmd of Array.from(this.keys())) { const { aliases, clikitHelp, desc, hidden, name } = this.get(cmd); if (!hidden && !clikitHelp) { const labels = new Set([ name ]); for (const [ alias, display ] of Object.entries(aliases)) { if (display === 'visible') { labels.add(alias); } } entries.push({ name, desc, label: Array.from(labels).sort((a, b) => { return a.length === b.length ? a.localeCompare(b) : a.length - b.length; }).join(', '), aliases: aliases ? Object.keys(aliases) : null }); } } entries.sort((a, b) => a.label.localeCompare(b.label)); return { count: entries.length, entries }; }
generateHelp() { const entries = []; for (const cmd of Array.from(this.keys())) { const { aliases, clikitHelp, desc, hidden, name } = this.get(cmd); if (!hidden && !clikitHelp) { const labels = new Set([ name ]); for (const [ alias, display ] of Object.entries(aliases)) { if (display === 'visible') { labels.add(alias); } } entries.push({ name, desc, label: Array.from(labels).sort((a, b) => { return a.length === b.length ? a.localeCompare(b) : a.length - b.length; }).join(', '), aliases: aliases ? Object.keys(aliases) : null }); } } entries.sort((a, b) => a.label.localeCompare(b.label)); return { count: entries.length, entries }; }
JavaScript
async function namedEntityRecognition(data) { const result = await makeModelRequest(data, "dslim/bert-large-NER"); if (result && result.length > 0) { if (result[0].entity_group === 'PER') { return 'Alive Object'; } else { return 'Location'; } } else { return 'Not Alive Object'; } }
async function namedEntityRecognition(data) { const result = await makeModelRequest(data, "dslim/bert-large-NER"); if (result && result.length > 0) { if (result[0].entity_group === 'PER') { return 'Alive Object'; } else { return 'Location'; } } else { return 'Not Alive Object'; } }
JavaScript
async function evaluateTerminalCommands(message, speaker, agent, res, client, channel) { if (message === "/reset") { // If the user types /reset into the console... // If there is a response (i.e. this came from a web client, not local terminal) if (res) { const result = { result: `${agent} has been reset` }; // Add the status 200 message (message OK) res.status(200) // Send the message as JSON .send(JSON.stringify(result)); } else { log(`${agent} has been reset`); } await database.instance.clearConversations(); return true; } else if (message === "/dump") { // If a user types dump, show them logs of convo // Read conversation history const conversation = await database.instance.getConversation(agent, speaker, client, channel, false); // If there is a response (i.e. this came from a web client, not local terminal) const result = { result: conversation }; if (res) { // Add the status 200 message (message OK) res.status(200) // Send the message as JSON .send(JSON.stringify(result)); } else { log(conversation); } return true; } else if (message === "GET_AGENT_NAME") { if (res) res.status(200).send(JSON.stringify({ result: agent })); else log({ result: agent }); return true; } }
async function evaluateTerminalCommands(message, speaker, agent, res, client, channel) { if (message === "/reset") { // If the user types /reset into the console... // If there is a response (i.e. this came from a web client, not local terminal) if (res) { const result = { result: `${agent} has been reset` }; // Add the status 200 message (message OK) res.status(200) // Send the message as JSON .send(JSON.stringify(result)); } else { log(`${agent} has been reset`); } await database.instance.clearConversations(); return true; } else if (message === "/dump") { // If a user types dump, show them logs of convo // Read conversation history const conversation = await database.instance.getConversation(agent, speaker, client, channel, false); // If there is a response (i.e. this came from a web client, not local terminal) const result = { result: conversation }; if (res) { // Add the status 200 message (message OK) res.status(200) // Send the message as JSON .send(JSON.stringify(result)); } else { log(conversation); } return true; } else if (message === "GET_AGENT_NAME") { if (res) res.status(200).send(JSON.stringify({ result: agent })); else log({ result: agent }); return true; } }
JavaScript
async function archiveConversation(speaker, agent, _conversation, client, channel) { // Get configuration settings for agent const { conversationWindowSize } = await getConfigurationSettingsForAgent(agent); const conversation = (await database.instance.getConversation(agent, speaker, client, channel, false)).toString().trim(); const conversationLines = conversation.split('\n'); if (conversationLines.length > conversationWindowSize) { const oldConversationLines = conversationLines.slice(0, Math.max(0, conversationLines.length - conversationWindowSize)); const newConversationLines = conversationLines.slice(Math.min(conversationLines.length - conversationWindowSize)); for(let i = 0; i < oldConversationLines.length; i++) { await database.instance.setConversation(agent, client, channel, speaker, oldConversationLines[i], true); } /*for(let i = 0; i < newConversationLines.length; i++) { await database.instance.setConversation(agent, client, channel, speaker, newConversationLines[i], false); }*/ } }
async function archiveConversation(speaker, agent, _conversation, client, channel) { // Get configuration settings for agent const { conversationWindowSize } = await getConfigurationSettingsForAgent(agent); const conversation = (await database.instance.getConversation(agent, speaker, client, channel, false)).toString().trim(); const conversationLines = conversation.split('\n'); if (conversationLines.length > conversationWindowSize) { const oldConversationLines = conversationLines.slice(0, Math.max(0, conversationLines.length - conversationWindowSize)); const newConversationLines = conversationLines.slice(Math.min(conversationLines.length - conversationWindowSize)); for(let i = 0; i < oldConversationLines.length; i++) { await database.instance.setConversation(agent, client, channel, speaker, oldConversationLines[i], true); } /*for(let i = 0; i < newConversationLines.length; i++) { await database.instance.setConversation(agent, client, channel, speaker, newConversationLines[i], false); }*/ } }
JavaScript
async function generateContext(speaker, agent, conversation, message) { let keywords = [] if (!isInFastMode) { keywords = keywordExtractor(message, agent); } const pr = await Promise.all([keywords, database.instance.getSpeakersFacts(agent, speaker), database.instance.getAgentFacts(agent), database.instance.getRoom(agent), database.instance.getMorals(), database.instance.getEthics(agent), database.instance.getPersonality(agent), database.instance.getNeedsAndMotivations(agent), database.instance.getDialogue(agent), database.instance.getMonologue(agent), database.instance.getFacts(agent)]); pr[1] = pr[1].toString().trim().replaceAll('\n\n', '\n'); pr[2] = pr[2].toString().trim().replaceAll('\n\n', '\n'); let kdata = ''; if (!isInFastMode) { if (pr[0].length > 0) { kdata = "More context on the chat:\n"; for(let k in pr[0]) { kdata += 'Q: ' + capitalizeFirstLetter(pr[0][k].word) + '\nA: ' + pr[0][k].info + '\n\n'; } kdata += '\n'; } } // Return a complex context (this will be passed to the transformer for completion) return (await database.instance.getContext()).toString() .replaceAll('$room', pr[3].toString()) .replaceAll("$morals", pr[4].toString()) .replaceAll("$ethics", pr[5].toString()) .replaceAll("$personality", pr[6].toString()) .replaceAll("$needsAndMotivations", pr[7].toString()) .replaceAll("$exampleDialog", pr[8].toString()) .replaceAll("$monologue", pr[9].toString()) .replaceAll("$facts", pr[10].toString()) // .replaceAll("$actions", fs.readFileSync(rootAgent + 'actions.txt').toString()) .replaceAll("$speakerFacts", pr[1].toString()) .replaceAll("$agentFacts", pr[2].toString()) .replaceAll('$keywords', kdata) .replaceAll("$agent", agent) .replaceAll("$speaker", speaker) .replaceAll("$conversation", conversation).replaceAll('\\n', '\n').replaceAll('\\t', '\t'); }
async function generateContext(speaker, agent, conversation, message) { let keywords = [] if (!isInFastMode) { keywords = keywordExtractor(message, agent); } const pr = await Promise.all([keywords, database.instance.getSpeakersFacts(agent, speaker), database.instance.getAgentFacts(agent), database.instance.getRoom(agent), database.instance.getMorals(), database.instance.getEthics(agent), database.instance.getPersonality(agent), database.instance.getNeedsAndMotivations(agent), database.instance.getDialogue(agent), database.instance.getMonologue(agent), database.instance.getFacts(agent)]); pr[1] = pr[1].toString().trim().replaceAll('\n\n', '\n'); pr[2] = pr[2].toString().trim().replaceAll('\n\n', '\n'); let kdata = ''; if (!isInFastMode) { if (pr[0].length > 0) { kdata = "More context on the chat:\n"; for(let k in pr[0]) { kdata += 'Q: ' + capitalizeFirstLetter(pr[0][k].word) + '\nA: ' + pr[0][k].info + '\n\n'; } kdata += '\n'; } } // Return a complex context (this will be passed to the transformer for completion) return (await database.instance.getContext()).toString() .replaceAll('$room', pr[3].toString()) .replaceAll("$morals", pr[4].toString()) .replaceAll("$ethics", pr[5].toString()) .replaceAll("$personality", pr[6].toString()) .replaceAll("$needsAndMotivations", pr[7].toString()) .replaceAll("$exampleDialog", pr[8].toString()) .replaceAll("$monologue", pr[9].toString()) .replaceAll("$facts", pr[10].toString()) // .replaceAll("$actions", fs.readFileSync(rootAgent + 'actions.txt').toString()) .replaceAll("$speakerFacts", pr[1].toString()) .replaceAll("$agentFacts", pr[2].toString()) .replaceAll('$keywords', kdata) .replaceAll("$agent", agent) .replaceAll("$speaker", speaker) .replaceAll("$conversation", conversation).replaceAll('\\n', '\n').replaceAll('\\t', '\t'); }
JavaScript
async function handleInput(message, speaker, agent, res, clientName, channelId) { let start = Date.now() log("Handling input: " + message); agent = agent ?? defaultAgent //if the input is a command, it handles the command and doesn't respond according to the agent if (await evaluateTerminalCommands(message, speaker, agent, res, clientName, channelId)) return; const _meta = await database.instance.getMeta(agent, speaker); if (!_meta || _meta.length <= 0) { database.instance.setMeta(agent, speaker, JSON.stringify({ messages: 0 })); } // Get configuration settings for agent const { dialogFrequencyPenality, dialogPresencePenality, factsUpdateInterval, useProfanityFilter } = await getConfigurationSettingsForAgent(agent); // If the profanity filter is enabled in the agent's config... if (useProfanityFilter && !isInFastMode) { // Evaluate if the speaker's message is toxic const { isProfane, isSensitive, response } = await evaluateTextAndRespondIfToxic(speaker, agent, message); if ((isProfane || isSensitive) && response) { log(agent + ">>> " + response); if (res) res.status(200).send(JSON.stringify({ result: response })); return response; } } // Parse files into objects const meta = !_meta || _meta.length <= 0 ? { messages: 0 } : JSON.parse(_meta); let conversation = (await database.instance.getConversation(agent, speaker, clientName, channelId, false)).toString().replaceAll('\n\n', '\n'); conversation += '\n' + speaker + ': ' + message; // Increment the agent's conversation count for this speaker meta.messages = meta.messages + 1; // Archive previous conversation and facts to keep context window small archiveConversation(speaker, agent, conversation, clientName, channelId); archiveFacts(speaker, agent, conversation); let stop = Date.now() log(`Time Taken to execute load data = ${(stop - start)/1000} seconds`); start = Date.now() const context = (await generateContext(speaker, agent, conversation, message)).replace(/(\r\n|\r|\n)+/g, '$1'); console.log(context) // log('Context:'); // log(context) // TODO: Wikipedia? stop = Date.now() log(`Time Taken to execute create context = ${(stop - start)/1000} seconds`); start = Date.now() // searchWikipedia(text.Input) .then( (out) => { log("**** WEAVIATE: " + JSON.stringify(out)); currentState = states.READY; }); // Print the context to the console if running indev mode // if (process.env.DEBUG == "TRUE") { // log("*********************** CONTEXT"); // log(context); // log("***********************"); // }; // Create a data object to pass to the transformer API const data = { "prompt": context, "temperature": 0.9, // TODO -- this should be changeable "max_tokens": 100, // TODO -- this should be changeable "top_p": 1, // TODO -- this should be changeable "frequency_penalty": dialogFrequencyPenality, "presence_penalty": dialogPresencePenality, "stop": ["\"\"\"", `${speaker}:`, '\n'] }; // Call the transformer API const { success, choice } = await makeCompletionRequest(data, speaker, agent, "conversation"); stop = Date.now() log(`Time Taken to execute openai request = ${(stop - start)/1000} seconds`); start = Date.now() database.instance.setConversation(agent, clientName, channelId, speaker, message, false); // If it fails, tell speaker they had an error if (!success) { const error = "Sorry, I had an error"; return respondWithMessage(agent, error, res); }; if (useProfanityFilter && !isInFastMode) { // Check agent isn't about to say something offensive const { isProfane, response } = await evaluateTextAndRespondIfToxic(speaker, agent, choice.text, true); if (isProfane) { database.instance.setConversation(agent, clientName, channelId, agent, response, false); return respondWithMessage(agent, response, res); } } //every some messages it gets the facts for the user and the agent if (meta.messages % factsUpdateInterval == 0) { const conversation = (await database.instance.getConversation(agent, speaker, clientName, channelId, false)).toString().trim(); const conversationLines = conversation.split('\n'); const updatedConversationLines = conversationLines.filter(line => line != "" && line != "\n").slice(conversationLines.length - factsUpdateInterval * 2).join("\n"); console.log("Forming an opinion about speaker") formOpinionAboutSpeaker(speaker, agent, updatedConversationLines); console.log("Formed an opinion about speaker") summarizeAndStoreFactsAboutSpeaker(speaker, agent, updatedConversationLines); summarizeAndStoreFactsAboutAgent(speaker, agent, updatedConversationLines + choice.text); } database.instance.setMeta(agent, speaker, meta); let response = choice.text.split('\n')[0]; // Write to conversation to the database database.instance.setConversation(agent, clientName, channelId, agent, response, false); log("responding with message", response); stop = Date.now() log(`Time Taken to execute save data = ${(stop - start)/1000} seconds`); return respondWithMessage(agent, response, res); }
async function handleInput(message, speaker, agent, res, clientName, channelId) { let start = Date.now() log("Handling input: " + message); agent = agent ?? defaultAgent //if the input is a command, it handles the command and doesn't respond according to the agent if (await evaluateTerminalCommands(message, speaker, agent, res, clientName, channelId)) return; const _meta = await database.instance.getMeta(agent, speaker); if (!_meta || _meta.length <= 0) { database.instance.setMeta(agent, speaker, JSON.stringify({ messages: 0 })); } // Get configuration settings for agent const { dialogFrequencyPenality, dialogPresencePenality, factsUpdateInterval, useProfanityFilter } = await getConfigurationSettingsForAgent(agent); // If the profanity filter is enabled in the agent's config... if (useProfanityFilter && !isInFastMode) { // Evaluate if the speaker's message is toxic const { isProfane, isSensitive, response } = await evaluateTextAndRespondIfToxic(speaker, agent, message); if ((isProfane || isSensitive) && response) { log(agent + ">>> " + response); if (res) res.status(200).send(JSON.stringify({ result: response })); return response; } } // Parse files into objects const meta = !_meta || _meta.length <= 0 ? { messages: 0 } : JSON.parse(_meta); let conversation = (await database.instance.getConversation(agent, speaker, clientName, channelId, false)).toString().replaceAll('\n\n', '\n'); conversation += '\n' + speaker + ': ' + message; // Increment the agent's conversation count for this speaker meta.messages = meta.messages + 1; // Archive previous conversation and facts to keep context window small archiveConversation(speaker, agent, conversation, clientName, channelId); archiveFacts(speaker, agent, conversation); let stop = Date.now() log(`Time Taken to execute load data = ${(stop - start)/1000} seconds`); start = Date.now() const context = (await generateContext(speaker, agent, conversation, message)).replace(/(\r\n|\r|\n)+/g, '$1'); console.log(context) // log('Context:'); // log(context) // TODO: Wikipedia? stop = Date.now() log(`Time Taken to execute create context = ${(stop - start)/1000} seconds`); start = Date.now() // searchWikipedia(text.Input) .then( (out) => { log("**** WEAVIATE: " + JSON.stringify(out)); currentState = states.READY; }); // Print the context to the console if running indev mode // if (process.env.DEBUG == "TRUE") { // log("*********************** CONTEXT"); // log(context); // log("***********************"); // }; // Create a data object to pass to the transformer API const data = { "prompt": context, "temperature": 0.9, // TODO -- this should be changeable "max_tokens": 100, // TODO -- this should be changeable "top_p": 1, // TODO -- this should be changeable "frequency_penalty": dialogFrequencyPenality, "presence_penalty": dialogPresencePenality, "stop": ["\"\"\"", `${speaker}:`, '\n'] }; // Call the transformer API const { success, choice } = await makeCompletionRequest(data, speaker, agent, "conversation"); stop = Date.now() log(`Time Taken to execute openai request = ${(stop - start)/1000} seconds`); start = Date.now() database.instance.setConversation(agent, clientName, channelId, speaker, message, false); // If it fails, tell speaker they had an error if (!success) { const error = "Sorry, I had an error"; return respondWithMessage(agent, error, res); }; if (useProfanityFilter && !isInFastMode) { // Check agent isn't about to say something offensive const { isProfane, response } = await evaluateTextAndRespondIfToxic(speaker, agent, choice.text, true); if (isProfane) { database.instance.setConversation(agent, clientName, channelId, agent, response, false); return respondWithMessage(agent, response, res); } } //every some messages it gets the facts for the user and the agent if (meta.messages % factsUpdateInterval == 0) { const conversation = (await database.instance.getConversation(agent, speaker, clientName, channelId, false)).toString().trim(); const conversationLines = conversation.split('\n'); const updatedConversationLines = conversationLines.filter(line => line != "" && line != "\n").slice(conversationLines.length - factsUpdateInterval * 2).join("\n"); console.log("Forming an opinion about speaker") formOpinionAboutSpeaker(speaker, agent, updatedConversationLines); console.log("Formed an opinion about speaker") summarizeAndStoreFactsAboutSpeaker(speaker, agent, updatedConversationLines); summarizeAndStoreFactsAboutAgent(speaker, agent, updatedConversationLines + choice.text); } database.instance.setMeta(agent, speaker, meta); let response = choice.text.split('\n')[0]; // Write to conversation to the database database.instance.setConversation(agent, clientName, channelId, agent, response, false); log("responding with message", response); stop = Date.now() log(`Time Taken to execute save data = ${(stop - start)/1000} seconds`); return respondWithMessage(agent, response, res); }
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