To use go_router_builder
, you need to have the following dependencies in
pubspec.yaml
.
dependencies:
# ...along with your other dependencies
go_router: ^7.0.0
dev_dependencies:
# ...along with your other dev-dependencies
build_runner: ^2.0.0
go_router_builder: ^2.0.0
Instructions below explain how to create and annotate types to use this builder.
Along with importing the go_router.dart
library, it's essential to also
include a part
directive that references the generated Dart file. The
generated file will always have the name [source_file].g.dart
.
import 'package:go_router/go_router.dart';
part 'this_file.g.dart';
To do a one-time build:
flutter pub run build_runner build
Read more about using
build_runner
on pub.dev.
go_router
fundamentally relies on the ability to match a string-based location
in a URI format into one or more page builders, each that require zero or more
arguments that are passed as path and query parameters as part of the location.
go_router
does a good job of making the path and query parameters available
via the pathParameters
and queryParameters
properties of the GoRouterState
object, but
often the page builder must first parse the parameters into types that aren't
String
s, e.g.
GoRoute(
path: ':authorId',
builder: (context, state) {
// require the authorId to be present and be an integer
final authorId = int.parse(state.pathParameters['authorId']!);
return AuthorDetailsScreen(authorId: authorId);
},
),
In this example, the authorId
parameter is a) required and b) must be an
int
. However, neither of these requirements are checked until run-time, making
it easy to write code that is not type-safe, e.g.
void _tap() => context.go('/author/a42'); // error: `a42` is not an `int`
Dart's type system allows mistakes to be caught at compile-time instead of
run-time. The goal of the routing is to provide a way to define the required and
optional parameters that a specific route consumes and to use code generation to
take out the drudgery of writing a bunch of go
, push
and location
boilerplate code implementations ourselves.
Define each route as a class extending GoRouteData
and overriding the build
method.
class HomeRoute extends GoRouteData {
const HomeRoute();
@override
Widget build(BuildContext context, GoRouterState state) => const HomeScreen();
}
Required parameters are pulled from the route's path
defined in the route
tree.
The tree of routes is defined as an attribute on each of the top-level routes:
@TypedGoRoute<HomeRoute>(
path: '/',
routes: <TypedGoRoute<GoRouteData>>[
TypedGoRoute<FamilyRoute>(
path: 'family/:familyId',
)
],
)
class HomeRoute extends GoRouteData {
const HomeRoute();
@override
Widget build(BuildContext context, GoRouterState state) => HomeScreen(families: familyData);
}
@TypedGoRoute<LoginRoute>(path: '/login')
class LoginRoute extends GoRouteData {...}
The code generator aggregates all top-level routes into a single list called
$appRoutes
for use in initializing the GoRouter
instance:
final _router = GoRouter(routes: $appRoutes);
One can use typed routes to provide an error builder as well:
class ErrorRoute extends GoRouteData {
ErrorRoute({required this.error});
final Exception error;
@override
Widget build(BuildContext context, GoRouterState state) => ErrorScreen(error: error);
}
With this in place, you can provide the errorBuilder
parameter like so:
final _router = GoRouter(
routes: $appRoutes,
errorBuilder: (c, s) => ErrorRoute(s.error!).build(c),
);
Navigate using the go
or push
methods provided by the code generator:
void _tap() => PersonRoute(fid: 'f2', pid: 'p1').go(context);
If you get this wrong, the compiler will complain:
// error: missing required parameter 'fid'
void _tap() => PersonRoute(pid: 'p1').go(context);
This is the point of typed routing: the error is found statically.
Starting from go_router
6.5.0, pushing a route and subsequently popping it, can produce
a return value. The generated routes also follow this functionality.
void _tap() async {
final result = await PersonRoute(pid: 'p1').go(context);
}
Optional parameters (named or positional) indicate query parameters:
class LoginRoute extends GoRouteData {
LoginRoute({this.from});
final String? from;
@override
Widget build(BuildContext context, GoRouterState state) => LoginScreen(from: from);
}
For query parameters with a non-nullable type, you can define a default value:
class MyRoute extends GoRouteData {
MyRoute({this.queryParameter = 'defaultValue'});
final String queryParameter;
@override
Widget build(BuildContext context, GoRouterState state) => MyScreen(queryParameter: queryParameter);
}
A query parameter that equals to its default value is not included in the location.
A route can consume an extra parameter by taking it as a typed constructor
parameter with the special name $extra
:
class PersonRouteWithExtra extends GoRouteData {
PersonRouteWithExtra({this.$extra});
final int? $extra;
@override
Widget build(BuildContext context, GoRouterState state) => PersonScreen(personId: $extra);
}
Pass the extra param as a typed object:
void _tap() => PersonRouteWithExtra(Person(name: 'Marvin', age: 42)).go(context);
The $extra
parameter is still passed outside the location, still defeats
dynamic and deep linking (including the browser back button) and is still not
recommended when targeting Flutter web.
You can, of course, combine the use of path, query and $extra parameters:
class HotdogRouteWithEverything extends GoRouteData {
HotdogRouteWithEverything(this.ketchup, this.mustard, this.$extra);
final bool ketchup; // required path parameter
final String? mustard; // optional query parameter
final Sauce $extra; // special $extra parameter
@override
Widget build(BuildContext context, GoRouterState state) => HotdogScreen(ketchup, mustard, $extra);
}
This seems kinda silly, but it works.
Redirect using the location
property on a route provided by the code
generator:
redirect: (state) {
final loggedIn = loginInfo.loggedIn;
final loggingIn = state.matchedLocation == LoginRoute().location;
if( !loggedIn && !loggingIn ) return LoginRoute(from: state.matchedLocation).location;
if( loggedIn && loggingIn ) return HomeRoute().location;
return null;
}
Handle route-level redirects by implementing the redirect
method on the route:
class HomeRoute extends GoRouteData {
// no need to implement [build] when this [redirect] is unconditional
@override
String? redirect(BuildContext context, GoRouterState state) => BooksRoute().location;
}
The code generator can convert simple types like int
and enum
to/from the
String
type of the underlying pathParameters:
enum BookKind { all, popular, recent }
class BooksRoute extends GoRouteData {
BooksRoute({this.kind = BookKind.popular});
final BookKind kind;
@override
Widget build(BuildContext context, GoRouterState state) => BooksScreen(kind: kind);
}
By default, the GoRouter
will use the app it finds in the widget tree, e.g.
MaterialApp
, CupertinoApp
, WidgetApp
, etc. and use the corresponding page
type to create the page that wraps the Widget
returned by the route's build
method, e.g. MaterialPage
, CupertinoPage
, NoTransitionPage
, etc.
Furthermore, it will use the state.pageKey
property to set the key
property
of the page and the restorationId
of the page.
If you'd like to change how the page is created, e.g. to use a different page
type, pass non-default parameters when creating the page (like a custom key) or
access the GoRouteState
object, you can override the buildPage
method of the base class instead of the build
method:
class MyMaterialRouteWithKey extends GoRouteData {
static final _key = LocalKey('my-route-with-key');
@override
MaterialPage<void> buildPage(BuildContext context, GoRouterState state) =>
MaterialPage<void>(
key: _key,
child: MyPage(),
);
}
Overriding the buildPage
method is also useful for custom transitions:
class FancyRoute extends GoRouteData {
@override
MaterialPage<void> buildPage(BuildContext context, GoRouterState state) =>
CustomTransitionPage<void>(
key: state.pageKey,
child: FancyPage(),
transitionsBuilder: (context, animation, animation2, child) =>
RotationTransition(turns: animation, child: child),
),
}
There may be situations where a child route of a shell needs to be displayed on a different navigator. This kind of scenarios can be achieved by declaring a static navigator key named:
$navigatorKey
for ShellRoutes$parentNavigatorKey
for GoRoutes
Example:
// For ShellRoutes:
final GlobalKey<NavigatorState> shellNavigatorKey = GlobalKey<NavigatorState>();
class MyShellRouteData extends ShellRouteData {
const MyShellRouteData();
static final GlobalKey<NavigatorState> $navigatorKey = shellNavigatorKey;
@override
Widget builder(BuildContext context, GoRouterState state, Widget navigator) {
// ...
}
}
// For GoRoutes:
class MyGoRouteData extends GoRouteData {
const MyGoRouteData();
static final GlobalKey<NavigatorState> $parentNavigatorKey = rootNavigatorKey;
@override
Widget build(BuildContext context, GoRouterState state) {
// ...
}
}
An example is available here.