sdk/lib/async/stream_transformers.dart - sdk.git - Git at Google

 // Copyright (c) 2013, the Dart project authors.  Please see the AUTHORS file
 // for details. All rights reserved. Use of this source code is governed by a
 // BSD-style license that can be found in the LICENSE file.

 part of dart.async;

 /// Wraps an [_EventSink] so it exposes only the [EventSink] interface.
 class _EventSinkWrapper<T> implements EventSink<T> {
   _EventSink<T> _sink;
   _EventSinkWrapper(this._sink);

   void add(T data) {
     _sink._add(data);
   }

   void addError(Object error, [StackTrace? stackTrace]) {
     _sink._addError(error, stackTrace ?? AsyncError.defaultStackTrace(error));
   }

   void close() {
     _sink._close();
   }
 }

 /// A StreamSubscription that pipes data through a sink.
 ///
 /// The constructor of this class takes a [_SinkMapper] which maps from
 /// [EventSink] to [EventSink]. The input to the mapper is the output of
 /// the transformation. The returned sink is the transformation's input.
 class _SinkTransformerStreamSubscription<S, T>
     extends _BufferingStreamSubscription<T> {
   /// The transformer's input sink.
   late EventSink<S> _transformerSink;

   /// The subscription to the input stream.
   StreamSubscription<S>? _subscription;

   _SinkTransformerStreamSubscription(
       Stream<S> source,
       _SinkMapper<S, T> mapper,
       void onData(T data)?,
       Function? onError,
       void onDone()?,
       bool cancelOnError)
       // We set the adapter's target only when the user is allowed to send data.
       : super(onData, onError, onDone, cancelOnError) {
     _transformerSink = mapper(_EventSinkWrapper<T>(this));
     _subscription =
         source.listen(_handleData, onError: _handleError, onDone: _handleDone);
   }

   // _EventSink interface.

   /// Adds an event to this subscriptions.
   ///
   /// Contrary to normal [_BufferingStreamSubscription]s we may receive
   /// events when the stream is already closed. Report them as state
   /// error.
   void _add(T data) {
     if (_isClosed) {
       throw StateError("Stream is already closed");
     }
     super._add(data);
   }

   /// Adds an error event to this subscriptions.
   ///
   /// Contrary to normal [_BufferingStreamSubscription]s we may receive
   /// events when the stream is already closed. Report them as state
   /// error.
   void _addError(Object error, StackTrace stackTrace) {
     if (_isClosed) {
       throw new StateError("Stream is already closed");
     }
     super._addError(error, stackTrace);
   }

   /// Adds a close event to this subscriptions.
   ///
   /// Contrary to normal [_BufferingStreamSubscription]s we may receive
   /// events when the stream is already closed. Report them as state
   /// error.
   void _close() {
     if (_isClosed) {
       throw new StateError("Stream is already closed");
     }
     super._close();
   }

   // _BufferingStreamSubscription hooks.

   void _onPause() {
     _subscription?.pause();
   }

   void _onResume() {
     _subscription?.resume();
   }

   Future<void>? _onCancel() {
     var subscription = _subscription;
     if (subscription != null) {
       _subscription = null;
       return subscription.cancel();
     }
     return null;
   }

   void _handleData(S data) {
     try {
       _transformerSink.add(data);
     } catch (e, s) {
       _addError(e, s);
     }
   }

   void _handleError(Object error, StackTrace stackTrace) {
     try {
       _transformerSink.addError(error, stackTrace);
     } catch (e, s) {
       if (identical(e, error)) {
         _addError(error, stackTrace);
       } else {
         _addError(e, s);
       }
     }
   }

   void _handleDone() {
     try {
       _subscription = null;
       _transformerSink.close();
     } catch (e, s) {
       _addError(e, s);
     }
   }
 }

 typedef EventSink<S> _SinkMapper<S, T>(EventSink<T> output);

 /// A [StreamTransformer] for [Sink]-mappers.
 ///
 /// A Sink-mapper takes an [EventSink] (its output) and returns another
 /// [EventSink] (its input).
 ///
 /// Note that this class can be `const`.
 class _StreamSinkTransformer<S, T> extends StreamTransformerBase<S, T> {
   final _SinkMapper<S, T> _sinkMapper;
   const _StreamSinkTransformer(this._sinkMapper);

   Stream<T> bind(Stream<S> stream) =>
       new _BoundSinkStream<S, T>(stream, _sinkMapper);
 }

 /// The result of binding a [StreamTransformer] for [Sink]-mappers.
 ///
 /// It contains the bound Stream and the sink-mapper. Only when the user starts
 /// listening to this stream is the sink-mapper invoked. The result is used
 /// to create a StreamSubscription that transforms events.
 class _BoundSinkStream<S, T> extends Stream<T> {
   final _SinkMapper<S, T> _sinkMapper;
   final Stream<S> _stream;

   bool get isBroadcast => _stream.isBroadcast;

   _BoundSinkStream(this._stream, this._sinkMapper);

   StreamSubscription<T> listen(void onData(T event)?,
       {Function? onError, void onDone()?, bool? cancelOnError}) {
     StreamSubscription<T> subscription =
         _SinkTransformerStreamSubscription<S, T>(_stream, _sinkMapper, onData,
             onError, onDone, cancelOnError ?? false);
     return subscription;
   }
 }

 /// Data-handler coming from [StreamTransformer.fromHandlers].
 typedef void _TransformDataHandler<S, T>(S data, EventSink<T> sink);

 /// Error-handler coming from [StreamTransformer.fromHandlers].
 typedef void _TransformErrorHandler<T>(
     Object error, StackTrace stackTrace, EventSink<T> sink);

 /// Done-handler coming from [StreamTransformer.fromHandlers].
 typedef void _TransformDoneHandler<T>(EventSink<T> sink);

 /// Wraps handlers (from [StreamTransformer.fromHandlers]) into an `EventSink`.
 ///
 /// This way we can reuse the code from [_StreamSinkTransformer].
 class _HandlerEventSink<S, T> implements EventSink<S> {
   final _TransformDataHandler<S, T>? _handleData;
   final _TransformErrorHandler<T>? _handleError;
   final _TransformDoneHandler<T>? _handleDone;

   /// The output sink where the handlers should send their data into.
   /// Set to `null` when closed.
   EventSink<T>? _sink;

   _HandlerEventSink(this._handleData, this._handleError, this._handleDone,
       EventSink<T> this._sink);

   void add(S data) {
     var sink = _sink;
     if (sink == null) {
       throw StateError("Sink is closed");
     }
     var handleData = _handleData;
     if (handleData != null) {
       handleData(data, sink);
     } else {
       sink.add(data as T);
     }
   }

   void addError(Object error, [StackTrace? stackTrace]) {
     checkNotNullable(error, "error");
     var sink = _sink;
     if (sink == null) {
       throw StateError("Sink is closed");
     }
     var handleError = _handleError;
     stackTrace ??= AsyncError.defaultStackTrace(error);
     if (handleError != null) {
       handleError(error, stackTrace, sink);
     } else {
       sink.addError(error, stackTrace);
     }
   }

   void close() {
     var sink = _sink;
     if (sink == null) return;
     _sink = null;
     var handleDone = _handleDone;
     if (handleDone != null) {
       handleDone(sink);
     } else {
       sink.close();
     }
   }
 }

 /// A StreamTransformer that transformers events with the given handlers.
 ///
 /// Note that this transformer can only be used once.
 class _StreamHandlerTransformer<S, T> extends _StreamSinkTransformer<S, T> {
   _StreamHandlerTransformer(
       {void handleData(S data, EventSink<T> sink)?,
       void handleError(Object error, StackTrace stackTrace, EventSink<T> sink)?,
       void handleDone(EventSink<T> sink)?})
       : super((EventSink<T> outputSink) {
           return new _HandlerEventSink<S, T>(
               handleData, handleError, handleDone, outputSink);
         });

   Stream<T> bind(Stream<S> stream) {
     return super.bind(stream);
   }
 }

 /// A StreamTransformer that overrides [StreamTransformer.bind] with a callback.
 class _StreamBindTransformer<S, T> extends StreamTransformerBase<S, T> {
   final Stream<T> Function(Stream<S>) _bind;
   _StreamBindTransformer(this._bind);

   Stream<T> bind(Stream<S> stream) => _bind(stream);
 }

 /// A closure mapping a stream and cancelOnError to a StreamSubscription.
 typedef StreamSubscription<T> _SubscriptionTransformer<S, T>(
     Stream<S> stream, bool cancelOnError);

 /// A [StreamTransformer] that minimizes the number of additional classes.
 ///
 /// Instead of implementing three classes: a [StreamTransformer], a [Stream]
 /// (as the result of a `bind` call) and a [StreamSubscription] (which does the
 /// actual work), this class only requires a function that is invoked when the
 /// last bit (the subscription) of the transformer-workflow is needed.
 ///
 /// The given transformer function maps from Stream and cancelOnError to a
 /// `StreamSubscription`. As such it can also act on `cancel` events, making it
 /// fully general.
 class _StreamSubscriptionTransformer<S, T> extends StreamTransformerBase<S, T> {
   final _SubscriptionTransformer<S, T> _onListen;

   const _StreamSubscriptionTransformer(this._onListen);

   Stream<T> bind(Stream<S> stream) =>
       new _BoundSubscriptionStream<S, T>(stream, _onListen);
 }

 /// A stream transformed by a [_StreamSubscriptionTransformer].
 ///
 /// When this stream is listened to it invokes the [_onListen] function with
 /// the stored [_stream]. Usually the transformer starts listening at this
 /// moment.
 class _BoundSubscriptionStream<S, T> extends Stream<T> {
   final _SubscriptionTransformer<S, T> _onListen;
   final Stream<S> _stream;

   bool get isBroadcast => _stream.isBroadcast;

   _BoundSubscriptionStream(this._stream, this._onListen);

   StreamSubscription<T> listen(void onData(T event)?,
       {Function? onError, void onDone()?, bool? cancelOnError}) {
     StreamSubscription<T> result = _onListen(_stream, cancelOnError ?? false);
     result.onData(onData);
     result.onError(onError);
     result.onDone(onDone);
     return result;
   }
 }
	// Copyright (c) 2013, the Dart project authors. Please see the AUTHORS file
	// for details. All rights reserved. Use of this source code is governed by a
	// BSD-style license that can be found in the LICENSE file.

	part of dart.async;

	/// Wraps an [_EventSink] so it exposes only the [EventSink] interface.
	class _EventSinkWrapper<T> implements EventSink<T> {
	_EventSink<T> _sink;
	_EventSinkWrapper(this._sink);

	void add(T data) {
	_sink._add(data);
	}

	void addError(Object error, [StackTrace? stackTrace]) {
	_sink._addError(error, stackTrace ?? AsyncError.defaultStackTrace(error));
	}

	void close() {
	_sink._close();
	}
	}

	/// A StreamSubscription that pipes data through a sink.
	///
	/// The constructor of this class takes a [_SinkMapper] which maps from
	/// [EventSink] to [EventSink]. The input to the mapper is the output of
	/// the transformation. The returned sink is the transformation's input.
	class _SinkTransformerStreamSubscription<S, T>
	extends _BufferingStreamSubscription<T> {
	/// The transformer's input sink.
	late EventSink<S> _transformerSink;

	/// The subscription to the input stream.
	StreamSubscription<S>? _subscription;

	_SinkTransformerStreamSubscription(
	Stream<S> source,
	_SinkMapper<S, T> mapper,
	void onData(T data)?,
	Function? onError,
	void onDone()?,
	bool cancelOnError)
	// We set the adapter's target only when the user is allowed to send data.
	: super(onData, onError, onDone, cancelOnError) {
	_transformerSink = mapper(_EventSinkWrapper<T>(this));
	_subscription =
	source.listen(_handleData, onError: _handleError, onDone: _handleDone);
	}

	// _EventSink interface.

	/// Adds an event to this subscriptions.
	///
	/// Contrary to normal [_BufferingStreamSubscription]s we may receive
	/// events when the stream is already closed. Report them as state
	/// error.
	void _add(T data) {
	if (_isClosed) {
	throw StateError("Stream is already closed");
	}
	super._add(data);
	}

	/// Adds an error event to this subscriptions.
	///
	/// Contrary to normal [_BufferingStreamSubscription]s we may receive
	/// events when the stream is already closed. Report them as state
	/// error.
	void _addError(Object error, StackTrace stackTrace) {
	if (_isClosed) {
	throw new StateError("Stream is already closed");
	}
	super._addError(error, stackTrace);
	}

	/// Adds a close event to this subscriptions.
	///
	/// Contrary to normal [_BufferingStreamSubscription]s we may receive
	/// events when the stream is already closed. Report them as state
	/// error.
	void _close() {
	if (_isClosed) {
	throw new StateError("Stream is already closed");
	}
	super._close();
	}

	// _BufferingStreamSubscription hooks.

	void _onPause() {
	_subscription?.pause();
	}

	void _onResume() {
	_subscription?.resume();
	}

	Future<void>? _onCancel() {
	var subscription = _subscription;
	if (subscription != null) {
	_subscription = null;
	return subscription.cancel();
	}
	return null;
	}

	void _handleData(S data) {
	try {
	_transformerSink.add(data);
	} catch (e, s) {
	_addError(e, s);
	}
	}

	void _handleError(Object error, StackTrace stackTrace) {
	try {
	_transformerSink.addError(error, stackTrace);
	} catch (e, s) {
	if (identical(e, error)) {
	_addError(error, stackTrace);
	} else {
	_addError(e, s);
	}
	}
	}

	void _handleDone() {
	try {
	_subscription = null;
	_transformerSink.close();
	} catch (e, s) {
	_addError(e, s);
	}
	}
	}

	typedef EventSink<S> _SinkMapper<S, T>(EventSink<T> output);

	/// A [StreamTransformer] for [Sink]-mappers.
	///
	/// A Sink-mapper takes an [EventSink] (its output) and returns another
	/// [EventSink] (its input).
	///
	/// Note that this class can be `const`.
	class _StreamSinkTransformer<S, T> extends StreamTransformerBase<S, T> {
	final _SinkMapper<S, T> _sinkMapper;
	const _StreamSinkTransformer(this._sinkMapper);

	Stream<T> bind(Stream<S> stream) =>
	new _BoundSinkStream<S, T>(stream, _sinkMapper);
	}

	/// The result of binding a [StreamTransformer] for [Sink]-mappers.
	///
	/// It contains the bound Stream and the sink-mapper. Only when the user starts
	/// listening to this stream is the sink-mapper invoked. The result is used
	/// to create a StreamSubscription that transforms events.
	class _BoundSinkStream<S, T> extends Stream<T> {
	final _SinkMapper<S, T> _sinkMapper;
	final Stream<S> _stream;

	bool get isBroadcast => _stream.isBroadcast;

	_BoundSinkStream(this._stream, this._sinkMapper);

	StreamSubscription<T> listen(void onData(T event)?,
	{Function? onError, void onDone()?, bool? cancelOnError}) {
	StreamSubscription<T> subscription =
	_SinkTransformerStreamSubscription<S, T>(_stream, _sinkMapper, onData,
	onError, onDone, cancelOnError ?? false);
	return subscription;
	}
	}

	/// Data-handler coming from [StreamTransformer.fromHandlers].
	typedef void _TransformDataHandler<S, T>(S data, EventSink<T> sink);

	/// Error-handler coming from [StreamTransformer.fromHandlers].
	typedef void _TransformErrorHandler<T>(
	Object error, StackTrace stackTrace, EventSink<T> sink);

	/// Done-handler coming from [StreamTransformer.fromHandlers].
	typedef void _TransformDoneHandler<T>(EventSink<T> sink);

	/// Wraps handlers (from [StreamTransformer.fromHandlers]) into an `EventSink`.
	///
	/// This way we can reuse the code from [_StreamSinkTransformer].
	class _HandlerEventSink<S, T> implements EventSink<S> {
	final _TransformDataHandler<S, T>? _handleData;
	final _TransformErrorHandler<T>? _handleError;
	final _TransformDoneHandler<T>? _handleDone;

	/// The output sink where the handlers should send their data into.
	/// Set to `null` when closed.
	EventSink<T>? _sink;

	_HandlerEventSink(this._handleData, this._handleError, this._handleDone,
	EventSink<T> this._sink);

	void add(S data) {
	var sink = _sink;
	if (sink == null) {
	throw StateError("Sink is closed");
	}
	var handleData = _handleData;
	if (handleData != null) {
	handleData(data, sink);
	} else {
	sink.add(data as T);
	}
	}

	void addError(Object error, [StackTrace? stackTrace]) {
	checkNotNullable(error, "error");
	var sink = _sink;
	if (sink == null) {
	throw StateError("Sink is closed");
	}
	var handleError = _handleError;
	stackTrace ??= AsyncError.defaultStackTrace(error);
	if (handleError != null) {
	handleError(error, stackTrace, sink);
	} else {
	sink.addError(error, stackTrace);
	}
	}

	void close() {
	var sink = _sink;
	if (sink == null) return;
	_sink = null;
	var handleDone = _handleDone;
	if (handleDone != null) {
	handleDone(sink);
	} else {
	sink.close();
	}
	}
	}

	/// A StreamTransformer that transformers events with the given handlers.
	///
	/// Note that this transformer can only be used once.
	class _StreamHandlerTransformer<S, T> extends _StreamSinkTransformer<S, T> {
	_StreamHandlerTransformer(
	{void handleData(S data, EventSink<T> sink)?,
	void handleError(Object error, StackTrace stackTrace, EventSink<T> sink)?,
	void handleDone(EventSink<T> sink)?})
	: super((EventSink<T> outputSink) {
	return new _HandlerEventSink<S, T>(
	handleData, handleError, handleDone, outputSink);
	});

	Stream<T> bind(Stream<S> stream) {
	return super.bind(stream);
	}
	}

	/// A StreamTransformer that overrides [StreamTransformer.bind] with a callback.
	class _StreamBindTransformer<S, T> extends StreamTransformerBase<S, T> {
	final Stream<T> Function(Stream<S>) _bind;
	_StreamBindTransformer(this._bind);

	Stream<T> bind(Stream<S> stream) => _bind(stream);
	}

	/// A closure mapping a stream and cancelOnError to a StreamSubscription.
	typedef StreamSubscription<T> _SubscriptionTransformer<S, T>(
	Stream<S> stream, bool cancelOnError);

	/// A [StreamTransformer] that minimizes the number of additional classes.
	///
	/// Instead of implementing three classes: a [StreamTransformer], a [Stream]
	/// (as the result of a `bind` call) and a [StreamSubscription] (which does the
	/// actual work), this class only requires a function that is invoked when the
	/// last bit (the subscription) of the transformer-workflow is needed.
	///
	/// The given transformer function maps from Stream and cancelOnError to a
	/// `StreamSubscription`. As such it can also act on `cancel` events, making it
	/// fully general.
	class _StreamSubscriptionTransformer<S, T> extends StreamTransformerBase<S, T> {
	final _SubscriptionTransformer<S, T> _onListen;

	const _StreamSubscriptionTransformer(this._onListen);

	Stream<T> bind(Stream<S> stream) =>
	new _BoundSubscriptionStream<S, T>(stream, _onListen);
	}

	/// A stream transformed by a [_StreamSubscriptionTransformer].
	///
	/// When this stream is listened to it invokes the [_onListen] function with
	/// the stored [_stream]. Usually the transformer starts listening at this
	/// moment.
	class _BoundSubscriptionStream<S, T> extends Stream<T> {
	final _SubscriptionTransformer<S, T> _onListen;
	final Stream<S> _stream;

	bool get isBroadcast => _stream.isBroadcast;

	_BoundSubscriptionStream(this._stream, this._onListen);

	StreamSubscription<T> listen(void onData(T event)?,
	{Function? onError, void onDone()?, bool? cancelOnError}) {
	StreamSubscription<T> result = _onListen(_stream, cancelOnError ?? false);
	result.onData(onData);
	result.onError(onError);
	result.onDone(onDone);
	return result;
	}
	}