implab/implabjs-djx Files · djx/src/main/ts/observable/ObservableImpl.ts

Implemented subscription SubscriptionImpl, fixed subscription resource management

cin - - Load All Authors

File last commit:

r158:078eca3dc271 v1.10.3 default


                r158:078eca3dc271

v1.10.3 default

Download file

             ObservableImpl.ts
        
                    241 lines
            
             | 8.3 KiB
            
                | video/mp2t
            
             |
                TypeScriptLexer
            
             / djx / src / main / ts / observable / ObservableImpl.ts
          
                    History
                
                 |
                  Annotation
                 | Raw
                 |Copy content
                 |Copy permalink

      import { id as mid } from "module";

      import { AccumulatorFn, Observable, Observer, OperatorFn, Producer, Sink, Subscribable, Unsubscribable } from "./interfaces";

      import { TraceSource } from "@implab/core-amd/log/TraceSource";

      import { Predicate } from "@implab/core-amd/interfaces";

      import { Cancellation } from "@implab/core-amd/Cancellation";

      import { Subscription, SubscriptionImpl } from "./SubscriptionImpl";

      const trace = TraceSource.get(mid);

      const noop = () => { };

      const errorFallback = (e: unknown) => trace.error("Unhandled observable error: {0}", e);

      type FusedSink<T> = Omit<Sink<T>, "isClosed">;

      export const fuse = <T>(producer: Producer<T>) =>

          (sink: FusedSink<T>, subscription: Subscription): Unsubscribable => {

              subscription.teardown(producer({

                  next: subscription.around(sink.next),

                  complete: () => subscription.finalize() && sink.complete(),

                  error: err => subscription.finalize() && sink.error(err),

                  isClosed: subscription.isClosed.bind(subscription)

              }));

              return subscription;

          };

      type FusedProducer<T> = (sink: FusedSink<T>, subscription: Subscription) => void;

      export class ObservableImpl<T> implements Observable<T> {

          private readonly _producer: FusedProducer<T>;

          constructor(producer: FusedProducer<T>) {

              this._producer = producer;

          }

          subscribe(consumer: Observer<T> = {}): Unsubscribable {

              const error = (err: unknown) => consumer.error ? consumer.error(err) : errorFallback(err);

              const next = consumer.next ? consumer.next.bind(consumer) : noop;

              const complete = () => consumer.complete ? consumer.complete() : void (0);

              const subscription = new SubscriptionImpl();

              this._producer({ next, error, complete }, subscription);

              return subscription;

          }

          map<T2>(mapper: (value: T) => T2) {

              return new ObservableImpl<T2>(({ next, ...rest }, subscription) =>

                  (0, this._producer)(

                      {

                          next: next !== noop ? (v: T) => next(mapper(v)) : noop,

                          ...rest

                      }, subscription

                  ));

          }

          tap({ next: tapNext, complete: tapComplete, error: tapError }: Observer<T>) {

              return new ObservableImpl<T>(({ next, complete, error }, subscription) =>

                  (0, this._producer)(

                      {

                          next: tapNext ? (v => (tapNext(v), next(v))) : next,

                          complete: tapComplete ? (() => (tapComplete(), complete())) : complete,

                          error: tapError ? (e => (tapError(e), error(e))) : error

                      },

                      subscription

                  ));

          }

          filter(predicate: Predicate<T>) {

              return new ObservableImpl<T>(({ next, ...rest }, subscription) =>

                  (0, this._producer)(

                      {

                          next: next !== noop ? (v: T) => predicate(v) ? next(v) : void (0) : noop,

                          ...rest

                      },

                      subscription

                  ));

          }

          until(predicate: Predicate<T>) {

              return new ObservableImpl<T>(({ next, complete, ...rest }, subscription) =>

                  (0, this._producer)({

                      next: v => predicate(v) ? subscription.finalize() && complete() : next(v),

                      complete,

                      ...rest

                  }, subscription)

              );

          }

          while(predicate: Predicate<T>) {

              return new ObservableImpl<T>(({ next, complete, ...rest }, subscription) =>

                  (0, this._producer)({

                      next: v => predicate(v) ? next(v) : subscription.finalize() && complete(),

                      complete,

                      ...rest

                  }, subscription)

              );

          }

          scan<A>(accumulator: AccumulatorFn<T, A>, initial: A): Observable<A>;

          scan(accumulator: AccumulatorFn<T, T>): Observable<T>;

          scan<A>(...args: [AccumulatorFn<T, A>, A] | [AccumulatorFn<T, T>]) {

              if (args.length === 1) {

                  const [accumulator] = args;

                  return new ObservableImpl<T | A>(({ next, ...rest }, subscription) => {

                      let _acc: T;

                      let index = 0;

                      (0, this._producer)({

                          next: next !== noop ? (v: T) => next(

                              index++ === 0 ? _acc = v : _acc = accumulator(_acc, v)

                          ) : noop,

                          ...rest

                      }, subscription);

                  });

              } else {

                  const [accumulator, initial] = args;

                  return new ObservableImpl<T | A>(({ next, ...rest }, subscription) => {

                      let _acc = initial;

                      (0, this._producer)({

                          next: next !== noop ? (v: T) => next(_acc = accumulator(_acc, v)) : noop,

                          ...rest

                      }, subscription);

                  });

              }

          }

          reduce<A>(accumulator: AccumulatorFn<T, A>, initial: A): Observable<A>;

          reduce(accumulator: AccumulatorFn<T, T>): Observable<T>;

          reduce<A>(...args: [AccumulatorFn<T, A>, A] | [AccumulatorFn<T, T>]) {

              if (args.length === 1) {

                  const [accumulator] = args;

                  return new ObservableImpl<T>(({ next, complete, error }, subscription) => {

                      let _acc: T;

                      let index = 0;

                      (0, this._producer)({

                          next: next !== noop ? (v: T) => {

                              _acc = index++ === 0 ? v : accumulator(_acc, v);

                          } : noop,

                          complete: () => {

                              if (index === 0) {

                                  error(new Error("The sequence can't be empty"));

                              } else {

                                  next(_acc);

                                  complete();

                              }

                          },

                          error

                      }, subscription);

                  });

              } else {

                  const [accumulator, initial] = args;

                  return new ObservableImpl<A>(({ next, complete, error }, subscription) => {

                      let _acc = initial;

                      (0, this._producer)({

                          next: next !== noop ? (v: T) => {

                              _acc = accumulator(_acc, v);

                          } : noop,

                          complete: () => {

                              next(_acc);

                              complete();

                          },

                          error

                      }, subscription);

                  });

              }

          }

          cat(...seq: Subscribable<T>[]) {

              return new ObservableImpl<T>(({ next, complete: final, ...rest }, subscription) => {

                  const len = seq.length;

                  const complete = (i: number) => i < len ?

                      () => {

                          h = seq[i].subscribe({ next, complete: complete(i + 1), ...rest });

                      } : () => subscription.finalize() && final();

                  let h = this.subscribe({ next, complete: complete(0), ...rest });

                  subscription.teardown(() => h.unsubscribe());

              });

          }

          pipe<U>(op: OperatorFn<T, U>): Observable<U> {

              return op(this);

          }

          next(ct = Cancellation.none) {

              return new Promise<T>((resolve, reject) => {

                  ct.throwIfRequested();

                  const subscription = new SubscriptionImpl();

                  subscription.cancellable(ct, reject);

                  (0, this._producer)({

                      next: resolve,

                      complete: () => reject(new Error("The sequence is empty")),

                      error: reject,

                  }, subscription);

              });

          }

          collect(ct = Cancellation.none) {

              return new Promise<T[]>((resolve, reject) => {

                  ct.throwIfRequested();

                  const subscription = new SubscriptionImpl();

                  subscription.cancellable(ct, reject);

                  const acc: T[] = [];

                  (0, this._producer)({

                      next: (item: T) => acc.push(item),

                      complete: () => resolve(acc),

                      error: reject

                  }, subscription);

              });

          }

          forEach(next: (item: T) => void, ct = Cancellation.none): Promise<void> {

              return new Promise<void>((resolve, reject) => {

                  ct.throwIfRequested();

                  const subscription = new SubscriptionImpl();

                  subscription.cancellable(ct, reject);

                  (0, this._producer)({

                      next,

                      complete: resolve,

                      error: reject

                  }, subscription);

              });

          }

      }

	Site-wide shortcuts
/	Use quick search box
g h	Goto home page
g g	Goto my private gists page
g G	Goto my public gists page
g 0-9	Goto bookmarked items from 0-9
n r	New repository page
n g	New gist page

	Repositories
g s	Goto summary page
g c	Goto changelog page
g f	Goto files page
g F	Goto files page with file search activated
g p	Goto pull requests page
g o	Goto repository settings
g O	Goto repository access permissions settings
t s	Toggle sidebar on some pages

				import { id as mid } from "module";
				import { AccumulatorFn, Observable, Observer, OperatorFn, Producer, Sink, Subscribable, Unsubscribable } from "./interfaces";
				import { TraceSource } from "@implab/core-amd/log/TraceSource";
				import { Predicate } from "@implab/core-amd/interfaces";
				import { Cancellation } from "@implab/core-amd/Cancellation";
				import { Subscription, SubscriptionImpl } from "./SubscriptionImpl";

				const trace = TraceSource.get(mid);

				const noop = () => { };

				const errorFallback = (e: unknown) => trace.error("Unhandled observable error: {0}", e);


				type FusedSink<T> = Omit<Sink<T>, "isClosed">;

				export const fuse = <T>(producer: Producer<T>) =>
				(sink: FusedSink<T>, subscription: Subscription): Unsubscribable => {

				subscription.teardown(producer({
				next: subscription.around(sink.next),
				complete: () => subscription.finalize() && sink.complete(),
				error: err => subscription.finalize() && sink.error(err),
				isClosed: subscription.isClosed.bind(subscription)
				}));

				return subscription;
				};

				type FusedProducer<T> = (sink: FusedSink<T>, subscription: Subscription) => void;

				export class ObservableImpl<T> implements Observable<T> {

				private readonly _producer: FusedProducer<T>;

				constructor(producer: FusedProducer<T>) {
				this._producer = producer;
				}

				subscribe(consumer: Observer<T> = {}): Unsubscribable {
				const error = (err: unknown) => consumer.error ? consumer.error(err) : errorFallback(err);
				const next = consumer.next ? consumer.next.bind(consumer) : noop;
				const complete = () => consumer.complete ? consumer.complete() : void (0);

				const subscription = new SubscriptionImpl();

				this._producer({ next, error, complete }, subscription);

				return subscription;
				}

				map<T2>(mapper: (value: T) => T2) {
				return new ObservableImpl<T2>(({ next, ...rest }, subscription) =>
				(0, this._producer)(
				{
				next: next !== noop ? (v: T) => next(mapper(v)) : noop,
				...rest
				}, subscription
				));
				}

				tap({ next: tapNext, complete: tapComplete, error: tapError }: Observer<T>) {
				return new ObservableImpl<T>(({ next, complete, error }, subscription) =>
				(0, this._producer)(
				{
				next: tapNext ? (v => (tapNext(v), next(v))) : next,
				complete: tapComplete ? (() => (tapComplete(), complete())) : complete,
				error: tapError ? (e => (tapError(e), error(e))) : error
				},
				subscription
				));
				}

				filter(predicate: Predicate<T>) {
				return new ObservableImpl<T>(({ next, ...rest }, subscription) =>
				(0, this._producer)(
				{
				next: next !== noop ? (v: T) => predicate(v) ? next(v) : void (0) : noop,
				...rest
				},
				subscription
				));
				}

				until(predicate: Predicate<T>) {
				return new ObservableImpl<T>(({ next, complete, ...rest }, subscription) =>
				(0, this._producer)({
				next: v => predicate(v) ? subscription.finalize() && complete() : next(v),
				complete,
				...rest
				}, subscription)
				);
				}

				while(predicate: Predicate<T>) {
				return new ObservableImpl<T>(({ next, complete, ...rest }, subscription) =>
				(0, this._producer)({
				next: v => predicate(v) ? next(v) : subscription.finalize() && complete(),
				complete,
				...rest
				}, subscription)
				);
				}

				scan<A>(accumulator: AccumulatorFn<T, A>, initial: A): Observable<A>;
				scan(accumulator: AccumulatorFn<T, T>): Observable<T>;
				scan<A>(...args: [AccumulatorFn<T, A>, A] \| [AccumulatorFn<T, T>]) {
				if (args.length === 1) {
				const [accumulator] = args;

				return new ObservableImpl<T \| A>(({ next, ...rest }, subscription) => {
				let _acc: T;
				let index = 0;
				(0, this._producer)({
				next: next !== noop ? (v: T) => next(
				index++ === 0 ? _acc = v : _acc = accumulator(_acc, v)
				) : noop,
				...rest
				}, subscription);
				});
				} else {
				const [accumulator, initial] = args;
				return new ObservableImpl<T \| A>(({ next, ...rest }, subscription) => {
				let _acc = initial;
				(0, this._producer)({
				next: next !== noop ? (v: T) => next(_acc = accumulator(_acc, v)) : noop,
				...rest
				}, subscription);
				});
				}
				}

				reduce<A>(accumulator: AccumulatorFn<T, A>, initial: A): Observable<A>;
				reduce(accumulator: AccumulatorFn<T, T>): Observable<T>;
				reduce<A>(...args: [AccumulatorFn<T, A>, A] \| [AccumulatorFn<T, T>]) {

				if (args.length === 1) {
				const [accumulator] = args;
				return new ObservableImpl<T>(({ next, complete, error }, subscription) => {
				let _acc: T;
				let index = 0;
				(0, this._producer)({
				next: next !== noop ? (v: T) => {
				_acc = index++ === 0 ? v : accumulator(_acc, v);
				} : noop,
				complete: () => {
				if (index === 0) {
				error(new Error("The sequence can't be empty"));
				} else {
				next(_acc);
				complete();
				}
				},
				error
				}, subscription);
				});
				} else {
				const [accumulator, initial] = args;
				return new ObservableImpl<A>(({ next, complete, error }, subscription) => {
				let _acc = initial;
				(0, this._producer)({
				next: next !== noop ? (v: T) => {
				_acc = accumulator(_acc, v);
				} : noop,
				complete: () => {
				next(_acc);
				complete();
				},
				error
				}, subscription);
				});
				}
				}

				cat(...seq: Subscribable<T>[]) {
				return new ObservableImpl<T>(({ next, complete: final, ...rest }, subscription) => {
				const len = seq.length;
				const complete = (i: number) => i < len ?
				() => {
				h = seq[i].subscribe({ next, complete: complete(i + 1), ...rest });
				} : () => subscription.finalize() && final();


				let h = this.subscribe({ next, complete: complete(0), ...rest });
				subscription.teardown(() => h.unsubscribe());

				});
				}

				pipe<U>(op: OperatorFn<T, U>): Observable<U> {
				return op(this);
				}

				next(ct = Cancellation.none) {
				return new Promise<T>((resolve, reject) => {
				ct.throwIfRequested();

				const subscription = new SubscriptionImpl();
				subscription.cancellable(ct, reject);

				(0, this._producer)({
				next: resolve,
				complete: () => reject(new Error("The sequence is empty")),
				error: reject,
				}, subscription);

				});
				}

				collect(ct = Cancellation.none) {
				return new Promise<T[]>((resolve, reject) => {
				ct.throwIfRequested();

				const subscription = new SubscriptionImpl();
				subscription.cancellable(ct, reject);

				const acc: T[] = [];

				(0, this._producer)({
				next: (item: T) => acc.push(item),
				complete: () => resolve(acc),
				error: reject
				}, subscription);
				});
				}

				forEach(next: (item: T) => void, ct = Cancellation.none): Promise<void> {
				return new Promise<void>((resolve, reject) => {
				ct.throwIfRequested();

				const subscription = new SubscriptionImpl();
				subscription.cancellable(ct, reject);

				(0, this._producer)({
				next,
				complete: resolve,
				error: reject
				}, subscription);
				});
				}

				}