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A Flutter package that helps implement the BLoC Design Pattern using the power of reactive streams.

This package is built to work with rx_bloc and rx_bloc_generator

Bloc Widgets

RxBlocBuilder is a Flutter widget which requires a RxBloc, a builder and a state function. RxBlocBuilder handles building the widget in response to new states. RxBlocBuilder is very similar to StreamBuilder but has a more simple API to reduce the amount of boilerplate code needed.

  • The builder function will potentially be called many times and should be a pure function that returns a widget in response to the state.
  • The state function determines which exact state of the bloc will be used.
  • If the bloc parameter is omitted, RxBlocBuilder will automatically perform a lookup using RxBlocProvider and the current BuildContext.

See RxBlocListener if you want to "do" anything in response to state changes such as navigation, showing a dialog, etc...

RxBlocBuilder<NewsBlocType, List<News>>( // At the first placeholder define what bloc you need, at the second define what type will be the state you want to listen. It needs to match the type of the stream in the state function below.
  state: (bloc) => bloc.states.news, // Determine which exact state of the bloc will be used for building the widget below. 
  builder: (context, state, bloc) {
    // return widget here based on BlocA's state
  }
)

Only specify the bloc if you wish to provide a bloc that will be scoped to a single widget and isn't accessible via a parent RxBlocProvider and the current BuildContext.

RxBlocBuilder<NewsBlocType, List<News>>(
  bloc: blocA, // provide the local bloc instance
  state: (bloc) => bloc.states.news, // Determine which exact state of the bloc will be used for building the widget below.
  builder: (context, state, bloc) {
    // return widget here based on BlocA's state
  }
)

RxResultBuilder is a Flutter widget which requires a state function, a set of callbacks buildSuccess, buildError and buildLoading, and an optional RxBloc. RxResultBuilder is similar to RxBlocBuilder, however it is meant as an easier way to handle Result states.

  • The buildSuccess, buildError and buildLoading functions will potentially be called many times and should be pure functions that return a widget in response to the state.
  • The state function determines which exact state of the bloc will be used.
  • If the bloc parameter is omitted, RxResultBuilder will automatically perform a lookup using RxBlocProvider and the current BuildContext.
/// At the first placeholder define what bloc you need, at the second define the type of the [Result] state you want to listen to.
/// It needs to match the type of the stream in the state function below.
RxResultBuilder<NewsBlocType, List<News>>( 
/// Determine which exact state of the bloc will be used for building the widget below. 
/// In this case the stream [bloc.states.news] should have a type of [Stream<Result<List<News>>>]
  state: (bloc) => bloc.states.news, 
  buildSuccess: (context, data, bloc) {
    ///here return a widget based on the data from the [Result]
  },
  buildLoading: (context, bloc) {
    ///here return a widget showing that we are waiting for the data, e.g. loading indicator
  },
  buildError: (context, error, bloc) {
    ///here return a widget showing what went wrong 
  },
)

Only specify the bloc if you wish to provide a bloc that will be scoped to a single widget and isn't accessible via a parent RxBlocProvider and the current BuildContext.

RxResultBuilder<NewsBlocType, List<News>>(
  bloc: blocA, // provide the local bloc instance
  state: (bloc) => bloc.states.news, // Determine which exact state of the bloc will be used for building the widget below.
  ...
)

RxBlocProvider is a Flutter widget which provides a bloc to its children via RxBlocProvider.of<T>(context). It is used as a dependency injection (DI) widget so that a single instance of a bloc can be provided to multiple widgets within a subtree.

In most cases, RxBlocProvider should be used to create new blocs which will be made available to the rest of the subtree. In this case, since RxBlocProvider is responsible for creating the bloc, it will automatically handle closing the bloc.

RxBlocProvider<BlocAType>(
  create: (BuildContext context) => BlocA(),
  child: ChildA(),
);

In some cases, RxBlocProvider can be used to provide an existing bloc to a new portion of the widget tree. This will be most commonly used when an existing bloc needs to be made available to a new route. In this case, RxBlocProvider will not automatically close the bloc since it did not create it.

RxBlocProvider<BlocAType>.value(
  value: RxBlocProvider.of<BlocAType>(context),
  child: ScreenA(),
);

then from either ChildA, or ScreenA we can retrieve BlocA with:

RxBlocProvider.of<BlocAType>(context)

RxMultiBlocProvider is a Flutter widget that merges multiple RxBlocProvider widgets into one. RxMultiBlocProvider improves the readability and eliminates the need to nest multiple RxBlocProviders. By using RxMultiBlocProvider we can go from:

RxBlocProvider<BlocAType>(
  create: (BuildContext context) => BlocA(),
  child: RxBlocProvider<BlocBType>(
    create: (BuildContext context) => BlocB(),
    child: RxBlocProvider<BlocCType>(
      create: (BuildContext context) => BlocC(),
      child: ChildA(),
    )
  )
)

to:

RxMultiBlocProvider(
  providers: [
    RxBlocProvider<BlocAType>(
      create: (BuildContext context) => BlocA(),
    ),
    RxBlocProvider<BlocBType>(
      create: (BuildContext context) => BlocB(),
    ),
    RxBlocProvider<BlocCType>(
      create: (BuildContext context) => BlocC(),
    ),
  ],
  child: ChildA(),
)

RxBlocListener is a Flutter widget which takes a RxBlocWidgetListener and an optional RxBloc and invokes the listener in response to state changes in the bloc. It should be used for functionality that needs to occur once per state change such as navigation, showing a SnackBar, showing a Dialog, etc...

listener is only called once for each state change (NOT including initialState) unlike builder in RxBlocBuilder and is a void function.

If the bloc parameter is omitted, RxBlocListener will automatically perform a lookup using RxBlocProvider and the current BuildContext.

RxBlocListener<NewsBlocType, bool>( // Specify the type of the bloc and its state type
    state: (bloc) => bloc.states.isLoading, // pick a specific state you want to listen for
    listener: (context, state) {
      // do stuff here based on NewsBloc's state
    }
)

Only specify the bloc if you wish to provide a bloc that is otherwise not accessible via BlocProvider and the current BuildContext.

RxBlocListener<NewsBlocType, bool>( // Specify the type of the bloc and its state type
    bloc: bloc,
    state: (bloc) => bloc.states.isLoading, // pick a specific state you want to listen for
    listener: (context, state) {
      // do stuff here based on NewsBloc's state
    }
)

If you want fine-grained control over when the listener function is called you can provide an optional condition to RxBlocListener. The condition takes the previous bloc state and current bloc state and returns a boolean. If condition returns true, listener will be called with state. If condition returns false, listener will not be called with state.

RxBlocListener<BlocAType, bool>(
  state: (bloc) => bloc.states.isLoading, // pick a specific state you want to listen for
  condition: (previousState, state) {
    // return true/false to determine whether or not
    // to call listener with state
  },
  listener: (context, state) {
    // do stuff here based on BlocA's state
  }
  child: Container(),
)

Usage

Lets take a look at how to use RxBlocBuilder to hook up a CounterPage widget to a CounterBloc.

CounterBloc

/// This BloC and its event and state contracts usually
/// resides in counter_bloc.dart

/// A contract class containing all events.
abstract class CounterBlocEvents {
  /// Increment the count
  void increment();

  /// Decrement the count
  void decrement();
}

/// A contract class containing all states for our multi state BloC.
abstract class CounterBlocStates {
  /// The count of the Counter
  ///
  /// It can be controlled by executing [CounterBlocEvents.increment] and
  /// [CounterBlocEvents.decrement]
  ///
  Stream<int> get count;

  /// Loading state
  Stream<bool> get isLoading;

  /// Error messages
  Stream<String> get errors;
}

/// A BloC responsible for count calculations
@RxBloc()
class CounterBloc extends $CounterBloc {
  /// Default constructor
  CounterBloc(this._repository);

  final CounterRepository _repository;

  /// Map increment and decrement events to `count` state
  @override
  Stream<int> _mapToCountState() => Rx.merge<Result<int>>([
        // On increment.
        _$incrementEvent
            .flatMap((_) => _repository.increment().asResultStream()),
        // On decrement.
        _$decrementEvent
            .flatMap((_) => _repository.decrement().asResultStream()),
      ])
          // This automatically handles the error and loading state.
          .setResultStateHandler(this)
          // Provide success response only.
          .whereSuccess()
          //emit 0 as initial value
          .startWith(0);

  @override
  Stream<String> _mapToErrorsState() =>
      errorState.map((Exception error) => error.toString());

  @override
  Stream<bool> _mapToIsLoadingState() => loadingState;
}

CounterWidget

class CounterWidget extends StatelessWidget {
  const CounterWidget({
    Key? key,
  }) : super(key: key);

  @override
  Widget build(BuildContext context) {
    return Scaffold(
      appBar: AppBar(title: const Text('Counter widget')),
      body: Center(
        child: Column(
          mainAxisAlignment: MainAxisAlignment.center,
          children: <Widget>[
            RxBlocListener<CounterBlocType, String>(
              state: (bloc) => bloc.states.errors,
              listener: (context, errorMessage) =>
                  ScaffoldMessenger.of(context).showSnackBar(
                SnackBar(
                  content: Text(errorMessage ?? 'Unknown error'),
                  behavior: SnackBarBehavior.floating,
                ),
              ),
            ),
            RxBlocBuilder<CounterBlocType, int>(
              state: (bloc) => bloc.states.count,
              builder: (context, snapshot, bloc) => snapshot.hasData
                  ? Text(
                      snapshot.data.toString(),
                      style: Theme.of(context).textTheme.headline4,
                    )
                  : Container(),
            ),
          ],
        ),
      ),
      floatingActionButton: _buildActionButtons(),
    );
  }

  Widget _buildActionButtons() => RxBlocBuilder<CounterBlocType, bool>(
        state: (bloc) => bloc.states.isLoading,
        builder: (context, loadingState, bloc) => Row(
          mainAxisAlignment: MainAxisAlignment.end,
          children: [
            if (loadingState.isLoading)
              const Padding(
                padding: EdgeInsets.only(right: 16),
                child: CircularProgressIndicator(),
              ),
            FloatingActionButton(
              backgroundColor: loadingState.buttonColor,
              onPressed: loadingState.isLoading ? null : bloc.events.increment,
              tooltip: 'Increment',
              child: const Icon(Icons.add),
            ),
            const SizedBox(width: 16),
            FloatingActionButton(
              backgroundColor: loadingState.buttonColor,
              onPressed: loadingState.isLoading ? null : bloc.events.decrement,
              tooltip: 'Decrement',
              child: const Icon(Icons.remove),
            ),
          ],
        ),
      );
}

Rx Form Field Builder Widgets

RxFormFieldBuilder is a convenience widget, which makes it easier to build and update responsive form fields with reactive Streams.

This is an example of a drop down menu form field.

Widget build(BuildContext context) =>
    RxFormFieldBuilder<ColorSelectionBlocType, ColorEnum>(
      state: (bloc) => bloc.states.color,
      showErrorState: (bloc) => bloc.states.showErrors,
      builder: (fieldState) => Column(
        children: [
          Center(
            child: DropdownButton<ColorEnum>(
              value: fieldState.value,
              onChanged: fieldState.bloc.events.setColor,
              items: ColorEnum.values
                  .map(
                    (color) => DropdownMenuItem<ColorEnum>(
                      value: color,
                      child: Text(
                        color.toString(),
                      ),
                    ),
                  )
                  .toList(),
            ),
          ),
          //show errors, say for instance the user tries to save the
          //changes to the form, but they forgot to select a color.
          if (fieldState.showError)
            Row(
              children: [
                Text(
                  fieldState.error,
                ),
              ],
            ),
        ],
       ),
    );

RxTextFormFieldBuilder specializes in building text form fields with reactive streams, it handles the most important parts of managing a text field's state.

This example shows general use.

Widget build(BuildContext context) =>
  RxTextFormFieldBuilder<EditProfileBlocType>(
    state: (bloc) => bloc.states.name,
    showErrorState: (bloc) => bloc.states.showErrors,
    onChanged: (bloc, value) => bloc.events.setName(value),
    builder: (fieldState) => TextFormField(
      //use the controller from the fieldState
      controller: fieldState.controller,
      //copy the decoration generated by the builder widget, which
      //contains stuff like when to show errors, with additional
      //decoration
      decoration: fieldState.decoration
          .copyWithDecoration(InputStyles.textFieldDecoration),
    ),
  );

This example shows how to create a password field.

Widget build(BuildContext context) =>
  RxTextFormFieldBuilder<LoginBlocType>(
    state: (bloc) => bloc.states.password,
    showErrorState: (bloc) => bloc.states.showErrors,
    onChanged: (bloc, value) => bloc.events.setPassword(value),
    decorationData: InputStyles.passwordFieldDecorationData, //optional extra decoration for the field
    obscureText: true, //tell the password field that it should be obscured
    builder: (fieldState) => TextFormField(
      //use the controller from the fieldState
      controller: fieldState.controller,
      //use the isTextObscured field from fieldState to determine
      //when the text should be obscured. The isTextObscured field
      //automatically changes in response to taps on the suffix icon.
      //how the suffix icon looks is determined by the iconVisibility
      //and iconVisibilityOff properties of the decorationData.
      obscureText: fieldState.isTextObscured,
      //copy the decoration generated by the builder widget, which
      //contains stuff like when to show errors, with additional
      //decoration
      decoration: fieldState.decoration
          .copyWithDecoration(InputStyles.passwordFieldDecoration),
    ),
  );

The following example shows how to create a type ahead field:

TypeAheadPage

class TypeAheadFormPage extends StatelessWidget {

  @override
  Widget build(BuildContext context) => Scaffold(
        body: SafeArea(
          child: Column(
            children: [
              RxTextFormFieldBuilder<TypeAheadBlocType>(
                state: (bloc) => bloc.states.choice,
                showErrorState: (bloc) => bloc.states.showErrors,
                onChanged: (bloc, value) => bloc.events.findLike(value),
                //we change the cursor behavior so that it doesn't jump
                //to the beginning of the text field when we choose
                cursorBehaviour: RxTextFormFieldCursorBehaviour.end,
                builder: (fieldState) => TextFormField(
                  controller: fieldState.controller,
                  decoration: fieldState.decoration,
                ),
              ),
              RxBlocBuilder<TypeAheadBlocType, List<String>>(
                state: (bloc) => bloc.states.choices,
                builder: (context, snapshot, bloc) => ConstrainedBox(
                  constraints: const BoxConstraints(maxHeight: 300),
                  child: ListView.builder(
                    shrinkWrap: true,
                    itemCount: max(1, (snapshot.data ?? const []).length),
                    itemBuilder: (context, index) =>
                        (snapshot.data ?? []).isEmpty
                            ? const ListTile(
                                title: Text(
                                  'No results for that query',
                                ),
                              )
                            : GestureDetector(
                                onTap: () => bloc.events.choose(snapshot.data![index]),
                                child: ListTile(
                                  title: Text(
                                    snapshot.data![index],
                                  ),
                                ),
                              ),
                  ),
                ),
              ),
            ],
          ),
        ),
      );
      
}

TypeAheadBloc

abstract class TypeAheadBlocEvents {
  void findLike(String like);

  void choose(String choice);
}

abstract class TypeAheadBlocStates {
  Stream<String> get choice;

  Stream<List<String>> get choices;

  Stream<bool> get showErrors;
}

@RxBloc()
class TypeAheadBloc extends $TypeAheadBloc {
  SelectionBoxBloc(this.repository);

  final SelectionBoxRepository repository;

  @override
  Stream<String> _mapToChoiceState() => MergeStream([
        _$findLikeEvent,
        _$chooseEvent,
      ]).shareReplay(maxSize: 1);

  @override
  Stream<List<String>> _mapToChoicesState() => choice
      .switchMap((like) => repository.findLike(like).asStream())
      .shareReplay(maxSize: 1);

  @override
  Stream<bool> _mapToShowErrorsState() => BehaviorSubject.seeded(false);
}

UI Integration tests using Flutter Driver

Integration tests work as a pair: first, deploy an instrumented application to a real device or emulator and then “drive” the application from a separate test suite, checking to make sure everything is correct along the way.

To create this test pair, use the flutter_driver package. It provides tools to create instrumented apps and drive those apps from a test suite

For more information and how-to check:

FAQ

What is the main advantage of rx_bloc

  • Comparing with the other libraries facilitating the BloC Pattern, rx_bloc supports multiple output streams (states) per BloC. As shown in the example above, CounterBlocStates consist of four different states, as each of them do its specific job.
  1. count shows the current count
  2. incrementEnabled manages enable/disable state of the increment button
  3. decrementEnabled manages enable/disable state of the decrement button
  4. infoMessage shows info message

Doing so, the BloC it's not overloaded and follows Single Responsibility Principle

On what package is based flutter_rx_bloc