In this tutorial you’ll create a simple Flutter app that supports rich text editing with Zefyr. What you’ll learn:
If you haven’t installed Flutter yet then install it first.
Create a new project using Terminal and flutter create
command:
$ flutter create myapp
$ cd myapp
For more methods of creating a project see official documentation.
Add zefyr
package as a dependency to pubspec.yaml
of your new project:
dependencies:
zefyr: [latest_version]
And run flutter packages get
.
This installs zefyr and all required
dependencies, including notus package which
implements Zefyr’s document model.
Notus package is platform-agnostic and can be used outside of Flutter apps (in web or server-side Dart projects).
We start by creating a StatefulWidget
that will be responsible for handling
all the state and interactions with Zefyr. In this example we’ll assume
that there is dedicated editor page in our app.
Create a new file lib/src/editor_page.dart
and type in (or paste) the
following:
import 'package:flutter/material.dart';
import 'package:quill_delta/quill_delta.dart';
import 'package:zefyr/zefyr.dart';
class EditorPage extends StatefulWidget {
@override
EditorPageState createState() => EditorPageState();
}
class EditorPageState extends State<EditorPage> {
/// Allows to control the editor and the document.
ZefyrController _controller;
/// Zefyr editor like any other input field requires a focus node.
FocusNode _focusNode;
@override
void initState() {
super.initState();
// Here we must load the document and pass it to Zefyr controller.
final document = _loadDocument();
_controller = ZefyrController(document);
_focusNode = FocusNode();
}
@override
Widget build(BuildContext context) {
// Note that the editor requires special `ZefyrScaffold` widget to be
// one of its parents.
return Scaffold(
appBar: AppBar(title: Text("Editor page")),
body: ZefyrScaffold(
child: ZefyrEditor(
padding: EdgeInsets.all(16),
controller: _controller,
focusNode: _focusNode,
),
),
);
}
/// Loads the document to be edited in Zefyr.
NotusDocument _loadDocument() {
// For simplicity we hardcode a simple document with one line of text
// saying "Zefyr Quick Start".
// (Note that delta must always end with newline.)
final Delta delta = Delta()..insert("Zefyr Quick Start\n");
return NotusDocument.fromDelta(delta);
}
}
Above example widget creates a page with an AppBar
and Zefyr editor in its
body. We also initialize our editor with a simple one-line document.
Now we need to wire it up with our app. Open lib/main.dart
and replace
autogenerated contents with this:
import 'package:flutter/material.dart';
import 'src/editor_page.dart';
void main() {
runApp(QuickStartApp());
}
class QuickStartApp extends StatelessWidget {
@override
Widget build(BuildContext context) {
return MaterialApp(
title: 'Quick Start',
home: HomePage(),
routes: {
"/editor": (context) => EditorPage(),
},
);
}
}
class HomePage extends StatelessWidget {
@override
Widget build(BuildContext context) {
final navigator = Navigator.of(context);
return Scaffold(
appBar: AppBar(title: Text("Quick Start")),
body: Center(
child: FlatButton(
child: Text("Open editor"),
onPressed: () => navigator.pushNamed("/editor"),
),
),
);
}
}
Here is how it might look when we run the app and navigate to editor page:
At this point we can already edit the document and apply styles, however if we navigate back from this page our changes will be lost. Let’s fix this and add a button which saves the document to the device’s file system.
First we need a function to save the document. Update lib/src/editor_page.dart
as follows:
// change: add these two lines to imports section at the top of the file
import 'dart:convert'; // access to jsonEncode()
import 'dart:io'; // access to File and Directory classes
class EditorPageState extends State<EditorPage> {
// change: add after _loadDocument()
void _saveDocument(BuildContext context) {
// Notus documents can be easily serialized to JSON by passing to
// `jsonEncode` directly
final contents = jsonEncode(_controller.document);
// For this example we save our document to a temporary file.
final file = File(Directory.systemTemp.path + "/quick_start.json");
// And show a snack bar on success.
file.writeAsString(contents).then((_) {
Scaffold.of(context).showSnackBar(SnackBar(content: Text("Saved.")));
});
}
}
This function converts our document using jsonEncode()
function and writes
the result to a file quick_start.json
in the system’s temporary directory.
Note that File.writeAsString
is an asynchronous method and returns Dart’s
Future
. This is why we register a completion callback with a call to
Future.then
.
One more important bit here is that we pass BuildContext
argument to
_saveDocument
. This is required to get access to our page’s Scaffold
state,
so that we can show a SnackBar
.
Now we just need to add a button to the AppBar, so we need to modify build
method as follows:
class EditorPageState extends State<EditorPage> {
// change: replace build() method with following
@override
Widget build(BuildContext context) {
// Note that the editor requires special `ZefyrScaffold` widget to be
// present somewhere up the widget tree.
return Scaffold(
appBar: AppBar(
title: Text("Editor page"),
// <<< begin change
actions: <Widget>[
Builder(
builder: (context) => IconButton(
icon: Icon(Icons.save),
onPressed: () => _saveDocument(context),
),
)
],
// end change >>>
),
body: ZefyrScaffold(
child: ZefyrEditor(
padding: EdgeInsets.all(16),
controller: _controller,
focusNode: _focusNode,
),
),
);
}
}
We have to use Builder
here for our icon button because we need BuildContext
which has access to Scaffold
widget’s state.
Now we can reload our app, hit “Save” button and see the snack bar.
Since we now have this document saved to a file, let’s update our
_loadDocument
method to load saved file if it exists.
class EditorPageState extends State<EditorPage> {
// change: replace _loadDocument() method with following
/// Loads the document asynchronously from a file if it exists, otherwise
/// returns default document.
Future<NotusDocument> _loadDocument() async {
final file = File(Directory.systemTemp.path + "/quick_start.json");
if (await file.exists()) {
final contents = await file.readAsString();
return NotusDocument.fromJson(jsonDecode(contents));
}
final Delta delta = Delta()..insert("Zefyr Quick Start\n");
return NotusDocument.fromDelta(delta);
}
}
We had to convert this method to be async because file system operations
are asynchronous. This breaks our initState
logic so we need to fix it next.
However we can no longer initialize ZefyrController
in initState
and
therefore can’t display the editor until document is loaded.
One way to fix this is to show loader animation while we are reading our
document from file. But first, we still need to update initState
method:
class EditorPageState extends State<EditorPage> {
// change: replace initState() method with following
@override
void initState() {
super.initState();
_focusNode = FocusNode();
_loadDocument().then((document) {
setState(() {
_controller = ZefyrController(document);
});
});
}
}
We initialize _controller
only when our document is fully loaded from the file
system. An important part here is to update _controller
field inside of
setState
call as required by Flutter’s StatefulWidget
’s contract.
The only thing left is to update build()
method to show loader animation:
class EditorPageState extends State<EditorPage> {
// change: replace build() method with following
@override
Widget build(BuildContext context) {
// If _controller is null we show Material Design loader, otherwise
// display Zefyr editor.
final Widget body = (_controller == null)
? Center(child: CircularProgressIndicator())
: ZefyrScaffold(
child: ZefyrEditor(
padding: EdgeInsets.all(16),
controller: _controller,
focusNode: _focusNode,
),
);
return Scaffold(
appBar: AppBar(
title: Text("Editor page"),
actions: <Widget>[
Builder(
builder: (context) => IconButton(
icon: Icon(Icons.save),
onPressed: () => _saveDocument(context),
),
)
],
),
body: body,
);
}
}
If we save changes now and reload the app we should see something like this:
Note that in your tests you’ll likely not notice any loading animation at all. This is because reading a tiny file from disk is too fast. For the above recording we added an artificial delay of 1 second in order to demonstrate loading. If you’d like to replicate this, we’ll leave implementation of this task to you as an exercise.