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Fixed circular dependency TraceSource<->Registry
Fixed circular dependency TraceSource<->Registry
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safe.ts
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/ src / main / ts / safe.ts
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import { ICancellable, Constructor, IDestroyable, PromiseOrValue } from "./interfaces";
import { Cancellation } from "./Cancellation";
let _nextOid = 0;
const _oid = typeof Symbol === "function" ?
Symbol("__implab__oid__") :
"__implab__oid__";
export function oid(instance: null | undefined): undefined;
export function oid(instance: NonNullable<any>): string;
export function oid(instance: any): string | undefined {
if (isNull(instance))
return undefined;
if (_oid in instance)
return instance[_oid];
else
return (instance[_oid] = "oid_" + (++_nextOid));
}
export function keys<T>(arg: T): (Extract<keyof T, string>)[] {
return isObject(arg) && arg ? Object.keys(arg) as (Extract<keyof T, string>)[] : [];
}
export function isKeyof<T>(k: string, target: T): k is Extract<keyof T, string> {
return target && typeof target === "object" && k in target;
}
export function argumentNotNull(arg: any, name: string) {
if (arg === null || arg === undefined)
throw new Error("The argument " + name + " can't be null or undefined");
}
export function argumentNotEmptyString(arg: any, name: string) {
if (typeof (arg) !== "string" || !arg.length)
throw new Error("The argument '" + name + "' must be a not empty string");
}
export function argumentNotEmptyArray(arg: any, name: string) {
if (!(arg instanceof Array) || !arg.length)
throw new Error("The argument '" + name + "' must be a not empty array");
}
export function argumentOfType(arg: any, type: Constructor<{}>, name: string) {
if (!(arg instanceof type))
throw new Error("The argument '" + name + "' type doesn't match");
}
export function isObject(val: any): val is object {
return typeof val === "object";
}
export function isNull(val: any): val is null | undefined {
return (val === null || val === undefined);
}
export type primitive = symbol | string | number | boolean | undefined | null;
export function isPrimitive(val: any): val is primitive {
return (val === null || val === undefined || typeof (val) === "string" ||
typeof (val) === "number" || typeof (val) === "boolean");
}
export function isInteger(val: any): val is number {
return parseInt(val, 10) === val;
}
export function isNumber(val: any): val is number {
return parseFloat(val) === val;
}
export function isString(val: any): val is string {
return typeof (val) === "string" || val instanceof String;
}
export function isPromise<T = any>(val: any): val is PromiseLike<T> {
return val && typeof val.then === "function";
}
export function isCancellable(val: any): val is ICancellable {
return val && typeof val.cancel === "function";
}
export function isNullOrEmptyString(val: any): val is ("" | null | undefined) {
return (val === null || val === undefined ||
((typeof (val) === "string" || val instanceof String) && val.length === 0));
}
export function isNotEmptyArray<T = any>(arg: any): arg is T[] {
return (arg instanceof Array && arg.length > 0);
}
function _isStrictMode(this: any) {
return !this;
}
function _getNonStrictGlobal(this: any) {
return this;
}
export function getGlobal() {
// in es3 we can't use indirect call to eval, since it will
// be executed in the current call context.
if (!_isStrictMode()) {
return _getNonStrictGlobal();
} else {
// tslint:disable-next-line:no-eval
return eval.call(null, "this");
}
}
export function get(member: string, context?: object) {
argumentNotEmptyString(member, "member");
let that = context || getGlobal();
const parts = member.split(".");
for (const m of parts) {
if (!m)
continue;
if (isNull(that = that[m]))
break;
}
return that;
}
/**
* Выполняет метод для каждого элемента массива, останавливается, когда
* либо достигнут конец массива, либо функция <c>cb</c> вернула
* значение.
*
* @param {Array | Object} obj массив элементов для просмотра
* @param {Function} cb функция, вызываемая для каждого элемента
* @param {Object} thisArg значение, которое будет передано в качестве
* <c>this</c> в <c>cb</c>.
* @returns {void}
*/
export function each<T>(obj: T, cb: <X extends keyof T>(v: NonNullable<T[X]>, k: X) => void): void;
export function each<T>(array: T[], cb: (v: T, i: number) => void): void;
export function each(obj: any, cb: any, thisArg?: any): any;
export function each(obj: any, cb: any, thisArg?: any) {
argumentNotNull(cb, "cb");
if (obj instanceof Array) {
let v: any;
for (let i = 0; i < obj.length; i++) {
v = obj[i];
if (v !== undefined)
cb.call(thisArg, v, i);
}
} else {
Object.keys(obj).forEach(k => obj[k] !== undefined && cb.call(thisArg, obj[k], k));
}
}
/** Copies property values from a source object to the destination and returns
* the destination object.
*
* @param dest The destination object into which properties from the source
* object will be copied.
* @param source The source of values which will be copied to the destination
* object.
* @param template An optional parameter specifies which properties should be
* copied from the source and how to map them to the destination. If the
* template is an array it contains the list of property names to copy from the
* source to the destination. In case of object the templates contains the map
* where keys are property names in the source and the values are property
* names in the destination object. If the template isn't specified then the
* own properties of the source are entirely copied to the destination.
*
*/
export function mixin<T extends object, S extends object>(dest: T, source: S, template?: (keyof S)[]): T & S;
export function mixin<T extends object, S extends object, R extends object = T>(dest: T, source: S, template: { [p in keyof S]?: keyof R; }): T & R;
export function mixin<T extends object, S extends object>(dest: T, source: S, template?: any): any {
argumentNotNull(dest, "dest");
const _res: any = dest as any;
if (isPrimitive(source))
return _res;
if (template instanceof Array) {
template.forEach(p => {
if (isKeyof(p, source))
_res[p] = source[p];
});
} else if (template) {
keys(source).forEach(p => {
if (isKeyof(p, template))
_res[template[p]] = source[p];
});
} else {
keys(source).forEach(p => _res[p] = source[p]);
}
return _res;
}
/** Wraps the specified function to emulate an asynchronous execution.
* @param{Object} thisArg [Optional] Object which will be passed as 'this' to the function.
* @param{Function|String} fn [Required] Function wich will be wrapped.
*/
export function async<T, F extends (...args: any[]) => T | PromiseLike<T>>(
fn: F,
thisArg?: ThisParameterType<F>
): (...args: Parameters<F>) => PromiseLike<T>;
export function async<T, M extends string, O extends { [m in M]?: (...args: any[]) => T | PromiseLike<T> }>(
fn: M,
thisArg: O
): (...args: Parameters<NonNullable<O[M]>>) => PromiseLike<T>;
export function async(_fn: any, thisArg: any): (...args: any[]) => PromiseLike<any> {
let fn = _fn;
if (arguments.length === 2 && !(fn instanceof Function))
fn = thisArg[fn];
if (fn == null)
throw new Error("The function must be specified");
function wrapresult(x: any, e?: any): PromiseLike<any> {
if (e) {
return {
then(cb, eb) {
try {
return eb ? wrapresult(eb(e)) : this;
} catch (e2) {
return wrapresult(null, e2);
}
}
};
} else {
if (x && x.then)
return x;
return {
then(cb) {
try {
return cb ? wrapresult(cb(x)) : this;
} catch (e2) {
return wrapresult(e2);
}
}
};
}
}
return (...args) => {
try {
return wrapresult(fn.apply(thisArg, args));
} catch (e) {
return wrapresult(null, e);
}
};
}
export function delegate<T extends object, F extends (this: T, ...args: any[]) => any>(
target: T,
method: F
): OmitThisParameter<F>;
export function delegate<M extends string, T extends { [m in M]?: (...args: any[]) => any; }>(
target: T,
method: M
): OmitThisParameter<T[M]>;
export function delegate(target: any, _method: any): (...args: any[]) => any {
let method: any;
if (!(_method instanceof Function)) {
argumentNotNull(target, "target");
method = target[_method];
if (!(method instanceof Function))
throw new Error("'method' argument must be a Function or a method name");
} else {
method = _method;
}
return (...args) => {
return method.apply(target, args);
};
}
export function delay(timeMs: number, ct = Cancellation.none) {
ct.throwIfRequested();
return new Promise((resolve, reject) => {
const h = ct.register(e => {
clearTimeout(id);
reject(e);
// we don't nedd to unregister h, since ct is already disposed
});
const id = setTimeout(() => {
h.destroy();
resolve();
}, timeMs);
});
}
/** Returns resolved promise, awaiting this method will cause the asynchronous
* completion of the rest of the code.
*/
export function fork() {
return Promise.resolve();
}
/** Always throws Error, can be used as a stub for the methods which should be
* assigned later and are required to be not null.
*/
export function notImplemented(): never {
throw new Error("Not implemeted");
}
/**
* Iterates over the specified array of items and calls the callback `cb`, if
* the result of the callback is a promise the next item from the array will be
* proceeded after the promise is resolved.
*
*/
export function pmap<T, T2>(
items: ArrayLike<T> | PromiseLike<ArrayLike<T>>,
cb: (item: T, i: number) => T2 | PromiseLike<T2>
): T2[] | PromiseLike<T2[]> {
argumentNotNull(cb, "cb");
if (isPromise(items)) {
return items.then(data => pmap(data, cb));
} else {
if (isNull(items) || !items.length)
return [];
let i = 0;
const result = new Array<T2>();
const next = (): any => {
while (i < items.length) {
const r = cb(items[i], i);
const ri = i;
i++;
if (isPromise(r)) {
return r.then(x => {
result[ri] = x;
return next();
});
} else {
result[ri] = r;
}
}
return result;
};
return next();
}
}
export function pfor<T>(
items: ArrayLike<T> | PromiseLike<ArrayLike<T>>,
cb: (item: T, i: number) => any
): void | PromiseLike<void> {
argumentNotNull(cb, "cb");
if (isPromise(items)) {
return items.then(data => pfor(data, cb));
} else {
if (isNull(items) || !items.length)
return;
let i = 0;
const next = (): any => {
while (i < items.length) {
const r = cb(items[i], i);
i++;
if (isPromise(r))
return r.then(next);
}
};
return next();
}
}
export function first<T>(sequence: ArrayLike<T>): T;
export function first<T>(sequence: PromiseLike<ArrayLike<T>>): PromiseLike<T>;
export function first<T>(
sequence: ArrayLike<T> | PromiseLike<ArrayLike<T>>,
cb?: (x: T) => void,
err?: (x: Error) => void
): void;
/**
* Выбирает первый элемент из последовательности, или обещания, если в
* качестве параметра используется обещание, оно должно вернуть массив.
*
* @param {Function} cb обработчик результата, ему будет передан первый
* элемент последовательности в случае успеха
* @param {Function} err обработчик исключения, если массив пустой, либо
* не массив
*
* @remarks Если не указаны ни cb ни err, тогда функция вернет либо
* обещание, либо первый элемент.
* @async
*/
export function first<T>(
sequence: ArrayLike<T> | PromiseLike<ArrayLike<T>>,
cb?: (x: T) => void,
err?: (x: Error) => void
) {
if (isPromise(sequence)) {
return sequence.then(res => first(res, cb as any /* force to pass undefined cb */, err));
} else if (sequence && "length" in sequence) {
if (sequence.length === 0) {
if (err)
return err(new Error("The sequence is empty"));
else
throw new Error("The sequence is empty");
} else if (cb) {
return cb(sequence[0]);
} else {
return sequence[0];
}
} else {
if (err)
return err(new Error("The sequence is required"));
else
throw new Error("The sequence is required");
}
}
export function firstWhere<T>(
sequence: ArrayLike<T>,
predicate: (x: T) => boolean
): T;
export function firstWhere<T>(
sequence: PromiseLike<ArrayLike<T>>,
predicate: (x: T) => boolean
): PromiseLike<T>;
export function firstWhere<T>(
sequence: ArrayLike<T> | PromiseLike<ArrayLike<T>>,
predicate: (x: T) => boolean,
cb: (x: T) => void,
err?: (x: Error) => void
): void;
export function firstWhere<T>(
sequence: ArrayLike<T> | PromiseLike<ArrayLike<T>>,
predicate?: (x: T) => boolean,
cb?: (x: T) => any,
err?: (x: Error) => any
) {
if (isPromise(sequence)) {
return sequence.then(res => firstWhere(
res,
predicate as any /* force to pass undefined predicate */,
cb as any /* force to pass undefined cb */,
err)
);
} else if (sequence && "length" in sequence) {
if (sequence.length === 0) {
if (err)
err(new Error("The sequence is empty"));
else
throw new Error("The sequence is empty");
} else {
if (!predicate) {
return cb ? cb(sequence[0]) && void (0) : sequence[0];
} else {
for (let i = 0; i < sequence.length; i++) {
const v = sequence[i];
if (predicate(v))
return cb ? cb(v) : v;
}
if (err)
err(new Error("The sequence doesn't contain matching items"));
else
throw new Error("The sequence doesn't contain matching items");
}
}
} else {
if (err)
err(new Error("The sequence is required"));
else
throw new Error("The sequence is required");
}
}
export function isDestroyable(d: any): d is IDestroyable {
if (d && "destroy" in d && typeof (destroy) === "function")
return true;
return false;
}
export function destroy(d: any) {
if (d && "destroy" in d)
d.destroy();
}
/**
* Used to mark that the async operation isn't awaited intentionally.
* @param p The promise which represents the async operation.
*/
export function nowait(p: Promise<any>) {
}
/** represents already destroyed object.
*/
export const destroyed = {
/** Calling to this method doesn't affect anything, noop.
*/
destroy() {
}
};