Consumer6<A, B, C, D, E, F> class

Obtains Provider<T> from its ancestors and passes its value to builder.

The Consumer widget doesn't do any fancy work. It just calls Provider.of in a new widget, and delegates its build implementation to builder.

builder must not be null and may be called multiple times (such as when the provided value change).

The Consumer widget has two main purposes:

  • It allows obtaining a value from a provider when we don't have a BuildContext that is a descendant of said provider, and therefore cannot use Provider.of.

This scenario typically happens when the widget that creates the provider is also one of its consumers, like in the following example:

@override
Widget build(BuildContext context) {
  return ChangeNotifierProvider(
    create: (_) => Foo(),
    child: Text(Provider.of<Foo>(context).value),
  );
}

This example will throw a ProviderNotFoundException, because Provider.of is called with a BuildContext that is an ancestor of the provider.

Instead, we can use the Consumer widget, that will call Provider.of with its own BuildContext.

Using Consumer, the previous example will become:

@override
Widget build(BuildContext context) {
  return ChangeNotifierProvider(
    create: (_) => Foo(),
    child: Consumer<Foo>(
      builder: (_, foo, __) => Text(foo.value),
    },
  );
}

This won't throw a ProviderNotFoundException and will correctly build the Text. It will also update the Text whenever the value foo changes.

  • It helps with performance optimization by providing more granular rebuilds.

Unless listen: false is passed to Provider.of, the widget associated with the BuildContext passed to Provider.of will rebuild whenever the obtained value changes. This is the expected behavior, but sometimes it may rebuild more widgets than needed.

Here's an example:

 @override
 Widget build(BuildContext context) {
   return FooWidget(
     child: BarWidget(
       bar: Provider.of<Bar>(context),
     ),
   );
 }

In the above code, only BarWidget depends on the value returned by Provider.of. But when Bar changes, then both BarWidget and FooWidget will rebuild.

Ideally, only BarWidget should be rebuilt. One solution to achieve that is to use Consumer.

To do so, we will wrap only the widgets that depends on a provider into a Consumer:

 @override
 Widget build(BuildContext context) {
   return FooWidget(
     child: Consumer<Bar>(
       builder: (_, bar, __) => BarWidget(bar: bar),
     ),
   );
 }

In this situation, if Bar were to update, only BarWidget would rebuild.

But what if it was FooWidget that depended on a provider? Example:

 @override
 Widget build(BuildContext context) {
   return FooWidget(
     foo: Provider.of<Foo>(context),
     child: BarWidget(),
   );
 }

Using Consumer, we can handle this kind of scenario using the optional child argument:

 @override
 Widget build(BuildContext context) {
   return Consumer<Foo>(
     builder: (_, foo, child) => FooWidget(foo: foo, child: child),
     child: BarWidget(),
   );
 }

In that example, BarWidget is built outside of builder. Then, the BarWidget instance is passed to builder as the last parameter.

This means that when builder is called again with new values, a new instance of BarWidget will not be created. This lets Flutter know that it doesn't have to rebuild BarWidget. Therefore in such a configuration, only FooWidget will rebuild if Foo changes.

Note:

The Consumer widget can also be used inside MultiProvider. To do so, it must return the child passed to builder in the widget tree it creates.

MultiProvider(
  providers: [
    Provider(create: (_) => Foo()),
    Consumer<Foo>(
      builder: (context, foo, child) =>
        Provider.value(value: foo.bar, child: child),
    )
  ],
);

See also:

Inheritance

Constructors

Consumer6({Key? key, required Widget builder(BuildContext context, A value, B value2, C value3, D value4, E value5, F value6, Widget? child), Widget? child})
Consumes a Provider<T>

Properties

builder Widget Function(BuildContext context, A value, B value2, C value3, D value4, E value5, F value6, Widget? child)
Build a widget tree based on the value from a Provider<T>.
final
hashCode int
The hash code for this object.
no setterinherited
key Key?
Controls how one widget replaces another widget in the tree.
finalinherited
runtimeType Type
A representation of the runtime type of the object.
no setterinherited

Methods

build(BuildContext context) Widget
Describes the part of the user interface represented by this widget.
inherited
buildWithChild(BuildContext context, Widget? child) Widget
A build method that receives an extra child parameter.
override
createElement() SingleChildStatelessElement
Creates a StatelessElement to manage this widget's location in the tree.
inherited
debugDescribeChildren() List<DiagnosticsNode>
Returns a list of DiagnosticsNode objects describing this node's children.
inherited
debugFillProperties(DiagnosticPropertiesBuilder properties) → void
Add additional properties associated with the node.
inherited
noSuchMethod(Invocation invocation) → dynamic
Invoked when a nonexistent method or property is accessed.
inherited
toDiagnosticsNode({String? name, DiagnosticsTreeStyle? style}) DiagnosticsNode
Returns a debug representation of the object that is used by debugging tools and by DiagnosticsNode.toStringDeep.
inherited
toString({DiagnosticLevel minLevel = DiagnosticLevel.info}) String
A string representation of this object.
inherited
toStringDeep({String prefixLineOne = '', String? prefixOtherLines, DiagnosticLevel minLevel = DiagnosticLevel.debug}) String
Returns a string representation of this node and its descendants.
inherited
toStringShallow({String joiner = ', ', DiagnosticLevel minLevel = DiagnosticLevel.debug}) String
Returns a one-line detailed description of the object.
inherited
toStringShort() String
A short, textual description of this widget.
inherited

Operators

operator ==(Object other) bool
The equality operator.
inherited