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Building system for masamune framework. Automatic creation of models, themes, pages, and translation data.

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Masamune Framework

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Introduction #

Please see here first.

Implementation sample

  • Sample code for the video is available here.

Here is a video of a notepad application being completed in just 5 minutes from a completely empty state.

By using the Masamune framework, it is possible to reduce most of the coding that is done in application development.

This framework focuses on the following functions

  • Generation of code templates by CLI (command line interface) tools
  • Automatic generation of additional code by build_runner

In other words, by having the majority of the code generated mechanically, the human coding part is reduced as much as possible.

In addition, the human coding part is almost type-safe, allowing implementation without hesitation with the support of the IDE's suggestion function and other features.

The following benefits can be enjoyed by offering these features

  • Faster implementation
    • Faster implementation because fewer parts are actually coded.
  • Fewer coding errors
    • Since fewer parts are actually coded, the probability of making a mistake is also reduced by that amount.
  • Easier to follow the source code
    • It is easier to follow the source later after some time has passed because there is less actual coding to do.
  • Differences in codes between people are difficult to distinguish
    • Coding is done according to the generated template, so it is difficult to have different codes for different people.
  • Facilitates team development
    • Since it is difficult to differentiate codes among people, it is easier to check codes and assign personnel within the team.

In addition, this framework provides the following functions to support application development from many angles

  • Routing
    • Web URL support, conditional redirection, and nested navigation are also available.
  • Database
    • NoSQL database based on Firestore structure.
    • Local and Firestore can be easily switched by switching adapters.
  • State management
  • Translation
    • Translation management using Google Spreadsheets.
  • Theme management
    • You can define the colors and text of the theme.
    • Image and font files can be retrieved type-safe in code.
  • Shared preferences
    • A data store using SharedPreferences is available in addition to the databases listed above.
  • Form building
    • Support data input from users, mainly forms, from the UI level.
  • UI support
    • It provides functions to implement list widgets and simple modals that can update widgets with less load when data is updated.
  • Firebase/Firestore support
    • Provides the ability to easily switch to Firebase features such as Authentication, Cloud Firestore, and Cloud Storage.

By using this framework, for example, a simple CRUD application requires only the following parts to be implemented.

  • DataScheme
    • Only the type and variable name (and possibly the initial value) need be defined.
  • View
    • Build the application design with widgets. (Support is provided for some elements, such as forms.)
    • Data binding, for example, can be easily performed.

Installation #

Install the CLI with the following command.

flutter pub global activate katana_cli

To install Masamune Framework in an existing project, add the package with the following command.

build_runner, freezed, and json_serializable must also be installed.

flutter pub add masamune
flutter pub add json_annotation
flutter pub add freezed_annotation
flutter pub add --dev build_runner
flutter pub add --dev masamune_builder
flutter pub add --dev json_serializable
flutter pub add --dev freezed

Project Creation #

Execute the following command in the folder where the project was created.

The Application ID should include the ID in the reverse domain (com.test.myapplication).

katana create [Application ID(e.g. com.test.myapplication)]

Basically, it is the same as flutter create, but the following changes are made automatically.

  • You can automatically place image files under the assets folder.
  • katana.yaml will be placed.
  • Required packages are installed automatically.
  • The launcher settings for VSCode are automatically set.
  • main.dart is rewritten and code generation is performed by build_runner.

Code Change Monitoring #

It uses build_runner's monitoring function to detect changes in the target code and automatically generates the code immediately if any changes are made.

The code analysis of build_runner itself is very slow, so the developer experience would be much better if it were constantly monitored.

To monitor the code, execute the following command in a separate terminal.

katana code watch

When the command is typed, it enters the monitoring state and is left alone.

(If you do not do this, you will not be able to type the code template creation command described below, so please start it in a different terminal.)

If code monitoring is not performed, enter the following command as appropriate.

katana code generate

Implementation #

Page #

Create Page #

To create a screen (page) for the application, execute the following command.

katana code page [Page name]

A file named (Page name).dart will be created under lib/pages.

A class named (Page name)Page is created as follows

Describe the contents of the screen UI inside the build, just as you would with a StatelessWidget or a StatefulWidget.

// test.dart

// ignore: unused_import, unnecessary_import
import 'package:flutter/material.dart';
// ignore: unused_import, unnecessary_import
import 'package:masamune/masamune.dart';
// ignore: unused_import, unnecessary_import
import 'package:masamune_universal_ui/masamune_universal_ui.dart';

// ignore: unused_import, unnecessary_import
import '/main.dart';

part 'test.page.dart';

@immutable
// TODO: Set the path for the page.
@PagePath("test")
class TestPage extends PageScopedWidget {
  const TestPage({
    super.key,
    // TODO: Set parameters for the page.
    
  });

  // TODO: Set parameters for the page in the form [final String xxx].
  

  /// Used to transition to the TestPage screen.
  ///
  /// ```dart
  /// router.push(TestPage.query(parameters));    // Push page to TestPage.
  /// router.replace(TestPage.query(parameters)); // Replace page to TestPage.
  /// ```
  @pageRouteQuery
  static const query = _$TestPageQuery();

  @override
  Widget build(BuildContext context, PageRef ref) {
    // Describes the process of loading
    // and defining variables required for the page.
    // TODO: Implement the variable loading process.
    

    // Describes the structure of the page.
    // TODO: Implement the view.
    return UniversalScaffold();
  }
}

You can specify the deep link path by specifying the path in @PagePath("").

@PagePath("user/:user_id")

If the page requires an argument, simply add the parameter as follows.

const TestPage({
  super.key,
  // TODO: Set parameters for the page.
  required this.name,
  this.text,
});

// TODO: Set parameters for the page in the form [final String xxx].
final String name;
final String? text;

~~~~~~~~~~~~~~~~~~

Page Transition #

Page transitions are performed using the router defined in main.dart.

You can specify a query already described in the created class to transition to that page.

// Transition to TestPage
router.push(TestPage.query());

// Page Replacements
router.replace(TestPage.query());

// Back to Previous Page
router.pop();

You can also use the push and replace methods provided for RouteQuery.

// Transition to TestPage
TestPage.query().push();

// Page Replacements
TestPage.query().replace();

// Back to Previous Page
router.pop();

Initial Page Setup #

You can set the page when the application is launched by passing the query you want to set for the initial page to the initialQuery defined in main.dart.

/// Initial page query.
// TODO: Define the initial page query of the application.
final initialQuery = TestPage.query();

To learn more about the other features listed below, please visit the package details page.

  • How to specify AppRouter
  • Deep linking support
  • Nest Navigation

katana_router

https://pub.dev/packages/katana_router

Data model #

Data structure #

The Masamune framework can store data with reference to the Firestore data structure.

https://pub.dev/packages/katana_model#structure

Collection (Document) model creation #

To create a collection model, enter the following command

katana code collection [Collection name]

A file named (Collection name).dart will be created under lib/models.

A class named (Collection name)Model is created as follows

If a collection model is created with the above command, a document model will also be available with the same data scheme.

// test.dart

// ignore: unused_import, unnecessary_import
import 'package:flutter/material.dart';
// ignore: unused_import, unnecessary_import
import 'package:masamune/masamune.dart';

// ignore: unused_import, unnecessary_import
import '/main.dart';

import 'package:freezed_annotation/freezed_annotation.dart';

part 'test.m.dart';
part 'test.g.dart';
part 'test.freezed.dart';

/// Value for model.
@freezed
@formValue
@immutable
// TODO: Set the path for the collection.
@CollectionModelPath("test")
class TestModel with _$TestModel {
  const factory TestModel({
     // TODO: Set the data schema.
     
  }) = _TestModel;
  const TestModel._();

  factory TestModel.fromJson(Map<String, Object?> json) => _$TestModelFromJson(json);

  /// Query for document.
  ///
  /// ```dart
  /// appRef.model(TestModel.document(id));       // Get the document.
  /// ref.model(TestModel.document(id))..load();  // Load the document.
  /// ```
  static const document = _$TestModelDocumentQuery();

  /// Query for collection.
  ///
  /// ```dart
  /// appRef.model(TestModel.collection());       // Get the collection.
  /// ref.model(TestModel.collection())..load();  // Load the collection.
  /// ref.model(
  ///   TestModel.collection().data.equal(
  ///     "data",
  ///   )
  /// )..load(); // Load the collection with filter.
  /// ```
  static const collection = _$TestModelCollectionQuery();

  /// Query for form value.
  ///
  /// ```dart
  /// ref.form(TestModel.form(TestModel()));    // Get the form controller.
  /// ```
  static const form = _$TestModelFormQuery();
}

/// [Enum] of the name of the value defined in TestModel.
typedef TestModelKeys = _$TestModelKeys;

/// Alias for ModelRef<TestModel>.
///
/// When defining parameters for other Models, you can define them as follows
///
/// ```dart
/// @RefParam(TestModelDocument) TestModelRef test
/// ```
typedef TestModelRef = ModelRef<TestModel>?;

/// It can be defined as an empty ModelRef<TestModel>.
///
/// ```dart
/// TestModelRefPath("xxx") // Define as a path.
/// ```
typedef TestModelRefPath = _$TestModelRefPath;

/// Class for defining initial values to be passed to `initialValue` of [RuntimeModelAdapter].
///
/// ```dart
/// RuntimeModelAdapter(
///   initialValue: [
///     TestModelInitialCollection(
///       "xxx": TestModel(...),
///     ),
///   ],
/// );
/// ```
typedef TestModelInitialCollection = _$TestModelInitialCollection;

/// Document class for storing TestModel.
typedef TestModelDocument = _$TestModelDocument;

/// Collection class for storing TestModel.
typedef TestModelCollection = _$TestModelCollection;

/// It can be defined as an empty ModelRef<TestModel>.
///
/// ```dart
/// TestModelMirrorRefPath("xxx") // Define as a path.
/// ```
typedef TestModelMirrorRefPath = _$TestModelMirrorRefPath;

/// Class for defining initial values to be passed to `initialValue` of [RuntimeModelAdapter].
///
/// ```dart
/// RuntimeModelAdapter(
///   initialValue: [
///     TestModelMirrorInitialCollection(
///       "xxx": TestModel(...),
///     ),
///   ],
/// );
/// ```
typedef TestModelMirrorInitialCollection = _$TestModelMirrorInitialCollection;

/// Document class for storing TestModel.
typedef TestModelMirrorDocument = _$TestModelMirrorDocument;

/// Collection class for storing TestModel.
typedef TestModelMirrorCollection = _$TestModelMirrorCollection;

If you do not need a collection, but only a document model, you can create one with the following command.

katana code document [Document name]

Specify the data path by specifying the contents of @CollectionModelPath("") (@DocumentModelPath("")).

As with Firestore, there are restrictions on path hierarchy.

(Odd: collection, Even: document)

@CollectionModelPath("user")

Also, list the variables that will be the data scheme in the factory constructor.

This is the content of the data that can be handled in this collection (document).

const factory TestModel({
   // TODO: Set the data schema.
   required String name,
   String? test,
}) = _TestModel;

Using Model #

The created model can be handled by using ref.model from PageRef (WidgetRef) passed in the build method if it is within a page or widget created with ScopedWidget or Scoped.

The actual object can be obtained by passing a collection or document defined in the model created in ref.model.

Data can also be loaded from the database by executing the load method of the retrieved object.

When loading is complete or data is rewritten, the widget that executed ref.model is rebuilt.

@override
Widget build(BuildContext context, PageRef ref) {
  // Describes the process of loading
  // and defining variables required for the page.
  // TODO: Implement the variable loading process.
  final testModelCollection = ref.model(TestModel.collection()); // Obtain a collection of TestModel.
  testModelCollection.load();  // Load model data

  ~~~~~~~~~
}

Also, if you want to use it outside of a page or widget, you can use it in an appRef defined in main.dart.

final testModelCollection = appRef.model(TestModel.collection());

It can also be written concisely in a method chain by using the watch and read methods.

final testModelCollection = TestModel.collection().watch(ref);
final testModelCollection = appRef.model(TestModel.collection());

SharedPreferences feature #

If you want to store data locally, such as SharedPreferences, separately from the regular DB, you can do so by using a ModelAdapter.

For more information, please see below.

[Flutter] Enhancement of Masamune’s DB linkage function

Use of Google Spreadsheets as a data source #

Google Spreadsheets can be used as a CSV data source.

Please use this for cases such as when you ask customers to set up data, etc. since non-engineers will be touching it.

Google Spreadsheets will be made available in advance.

  1. Copy the spreadsheet from this template to your own Google Drive.

    • If you use CollectionModelPath, use the sheet for collections; if you use DocumentModelPath, use the sheet for documents.
    • You can copy from File -> Create Copy.
  2. In the copied spreadsheet, click File -> Share -> Share with others.

  3. In the Share (name of spreadsheet you created) window, change General Access to Everyone who knows the link.

  4. Add the "GoogleSpreadSheetDataSource" annotation as an addition to the class you created, and copy the URL as it appears in the browser (e.g., https://docs.google.com/spreadsheets/d/1bfNX8clPH9 PFOcfFIStNCGNGjeCKwGv-24iChSJn8yM/edit#gid=0) and copy it.

    /// Value for model.
    @freezed
    @formValue
    @immutable
    @GoogleSpreadSheetDataSource(
      "https://docs.google.com/spreadsheets/d/1bfNX8clPH9PFOcfFIStNCGNGjeCKwGv-24iChSJn8yM/edit#gid=0",
      version: 1,
    )
    // TODO: Set the path for the collection.
    @CollectionModelPath("test")
    class TestModel with _$TestModel {
      const factory TestModel({
         // TODO: Set the data schema.
            
      }) = _TestModel;
      const TestModel._();
    

To learn more about the other features listed below, please visit the package details page.

  • Editing and Deleting data
  • Specifying a filter query for data
  • Sort function for collections
  • Text search
  • Specify and retrieve relational data
  • Transaction and batch processing
  • Special Field Values

katana_model

https://pub.dev/packages/katana_model

Controller #

Create a controller when you want to use a controller already provided by Flutter, such as ScrollController or TextEditingController, in a page or widget, or when you want to make minor adjustments such as bundling data models.

katana code controller [Controller name]

A file named (Page name).dart will be created under lib/controllers.

A class named (Page name)Controller is created as follows.

// test.dart

// ignore: unused_import, unnecessary_import
import 'package:flutter/material.dart';
// ignore: unused_import, unnecessary_import
import 'package:masamune/masamune.dart';

// ignore: unused_import, unnecessary_import
import '/main.dart';

part 'test.m.dart';

/// Controller.
@Controller(autoDisposeWhenUnreferenced: true)
class TestController extends ChangeNotifier {
  TestController(
    // TODO: Define some arguments.
    
  );

  // TODO: Define fields and processes.
  

  /// Query for TestController.
  ///
  /// ```dart
  /// appRef.controller(TestController.query(parameters));     // Get from application scope.
  /// ref.app.controller(TestController.query(parameters));    // Watch at application scope.
  /// ref.page.controller(TestController.query(parameters));   // Watch at page scope.
  /// ```
  static const query = _$TestControllerQuery();
}

When using PageRef (WidgetRef), you can obtain the actual object by passing query to ref.(page/app).controller().

If defined in ref.app.controller, the controller is destroyed when the referenced widget reaches 0.

If defined in ref.page.controller, the controller will also be destroyed when the page is destroyed.

@override
Widget build(BuildContext context, PageRef ref) {
  // Describes the process of loading
  // and defining variables required for the page.
  // TODO: Implement the variable loading process.
  final testController = ref.page.controller(TestController.query()); // Obtain TestController.   

  ~~~~~~~~~
}

Internally, it inherits from ChangeNotifier, so when notifyLisnteners() is executed, the loaded widget is rebuilt.

It can also be used from outside the widget using appRef.

In the case of appRef, it is managed across pages. (Same as ref.app.controller)

final testController = appRef.controller(TestController.query());

It can also be written concisely in a method chain by using the watch and read methods.

final testController = TestController.query().watchOnApp(ref);
final testController = TestController.query().watchOnPage(ref);
final testController = TestController.query().read(appRef);

State management #

Basically, I think the above ref.model and ref.(page/app).controller can cover most of the state management.

State management can also be extended, so please see the package details page for more information.

katana_scoped

https://pub.dev/packages/katana_model

Translation #

Translation will be done through a Google spreadsheet.

Please see below for preparation.

https://pub.dev/packages/katana_localization#advance-preparation

To update the translation, AppLocalize is defined in main.dart, so update the version there.

@GoogleSpreadSheetLocalize(
  "https://docs.google.com/spreadsheets/d/1bw7IXEr7BGkZ4U6on0OuF7HQkTMgDSm6u5ThpBkDPeo/edit#gid=551986808",
  version: 1, // When updating, increment this version.
)
class AppLocalize extends _$AppLocalize {}

Acquisition of the translation text is done using the l object.

Text(l().success);

To learn more about the other features listed below, please visit the package details page.

  • Specifying Parameters
  • Change Translation Language

katana_localization

https://pub.dev/packages/katana_localization

Theme Management #

Asset Definition #

Edit pubspec.yaml with reference to the official site below so that the assets can be loaded in the application.

https://docs.flutter.dev/development/ui/assets-and-images

// pubspec.yaml

flutter:
  assets:
    - assets/images/

Font Definition #

Edit pubspec.yaml with reference to the official site below so that the fonts can be loaded in the application.

https://docs.flutter.dev/cookbook/design/fonts

// pubspec.yaml

flutter:
  fonts:
    - family: RobotoMono
      fonts:
        - asset: fonts/RobotoMono-Regular.ttf
        - asset: fonts/RobotoMono-Bold.ttf
          weight: 700

Color and Text Definition #

By rewriting the following section of main.dart, it is possible to specify colors and text.

The following colors can be specified according to the Material Design color scheme.

https://m3.material.io/styles/color/the-color-system/key-colors-tones

Text can also be specified according to the Typography of the material design.

https://m3.material.io/styles/typography/type-scale-tokens

// main.dart

/// App Theme.
///
/// ```dart
/// theme.color.primary   // Primary color.
/// theme.text.bodyMedium // Medium body text style.
/// theme.asset.xxx       // xxx image.
/// theme.font.xxx        // xxx font.
/// ```
@appTheme
final theme = AppThemeData(
  // TODO: Set the design.
  primary: Colors.blue,
  secondary: Colors.cyan,
  onPrimary: Colors.white,
  onSecondary: Colors.white,
);

Using Themes #

The following themes can be obtained by using the theme in main.dart.

  • color
    • ColorScheme defined when creating AppThemeData.
  • text
    • TypeScale defined when creating AppThemeData.
  • asset
    • Assets under the assets folder created in code generation.
  • font
    • FontFamily created by Code Generation.
@override
Widget build(BuildContext context, PageRef ref) {
  // Describes the process of loading
  // and defining variables required for the page.
  // TODO: Implement the variable loading process.

  // Describes the structure of the page.
  // TODO: Implement the view.
  return UniversalScaffold(
    appBar: UniversalAppBar(title: Text("Title"), backgroundColor: theme.color.secondary),
    body: UniversalColumn(
      crossAxisAlignment: CrossAxisAlignment.start,
      children:[
        Center(child: CircleAvatar(backgroundImage: theme.asset.userIcon.provider)),
        Text("User Name", style: theme.text.displayMedium)
      ]
    )
  );
}

To learn more about the other features listed below, please visit the package details page.

  • Theme Extension
  • Gradation
  • Conversion Methods

katana_theme

https://pub.dev/packages/katana_theme

Form Building #

Retrieving Form Controllers #

First, obtain a form controller to control and hold the form values.

When creating a form that targets a data model, such as editing profile data, use a form that is defined in an existing data model.

/// Query for form value.
///
/// ```dart
/// ref.form(TestModel.form(TestModel()));    // Get the form controller.
/// ```
static const form = _$TestModelFormQuery();

The form is passed to ref.form, but the original object (TestModel) must be passed as an argument.

When registering new data, simply create and pass a TestModel, and when editing existing data, pass the values read from the data model as they are.

// When creating new data
final memo = const MemoModel(title: "", text: "");
final formController = ref.form(MemoModel.form( memo ));

// When creating existing data
final memo = ref.model(MemoModel.document("Memo ID"))..load();
final formController = ref.form(MemoModel.form( memo ));

To create a form for data not defined in the data model, such as login, use the following command to create a data definition for the form.

katana code value [Value name]

The following file will be created in lib/models/(Value name).dart.

Internally, a class named (Value name)Value is created.

// login.dart

// ignore: unused_import, unnecessary_import
import 'package:flutter/material.dart';
// ignore: unused_import, unnecessary_import
import 'package:masamune/masamune.dart';

// ignore: unused_import, unnecessary_import
import '/main.dart';

import 'package:freezed_annotation/freezed_annotation.dart';

part 'login.g.dart';
part 'login.m.dart';
part 'login.freezed.dart';

/// Immutable value.
@freezed
@formValue
@immutable
class LoginValue with _$LoginValue {
  const factory LoginValue({
    // TODO: Set the data schema.

  }) = _LoginValue;
  const LoginValue._();

  factory LoginValue.fromJson(Map<String, Object?> json) =>
      _$LoginValueFromJson(json);

  /// Query for form value.
  ///
  /// ```dart
  /// ref.form(LoginValue.form(LoginValue()));    // Get the form controller.
  /// ```
  static const form = _$LoginValueFormQuery();
}

Please add the necessary data scheme in the factory method.

const factory LoginValue({
  // TODO: Set the data schema.
  required String email,
  required String password,
}) = _LoginValue;

To retrieve the form controller, use the form defined in this object for the same purpose.

final login = const LoginValue(email: "", password: "");
final formController = ref.form(LoginValue.form( login ));

Form drawing and validation/finalization #

Pass the above form controller to the form parameter of each widget for the form.

In doing so, please write a process to rewrite the form value and return it with the target value passed to the onSaved parameter.

FormTextField(
  form: formController,
  onSaved: (value) => formController.value.copyWith(email: value),
),

After writing the form widget while including the above process, the form values are validated and confirmed by executing formController.validateAndSave when the confirm button is pressed.

After the verification passes, use the returned value to save the data.

FormButton(
  "Login",
  onPressed: () async {
    final LoginValue loginValue = formController.validate(); // Validate and get form values
    if (loginValue == null) {
      return;
    }
    try {
      // Normal processing
    } catch (e) {
      // Error handling
    }
  },
),

Please see the package details page for other details.

katana_form

https://pub.dev/packages/katana_form

UI Support #

Dialog #

The dialog can be displayed with the following code.

// Alert dialog.
Modal.alert(
  title: "Title",
  text: "Contents text",
  submitText: "OK",
  onSubmit: () {
    // Processing when the OK button is pressed
  },
);

// Confirmation dialog.
Modal.confirm(
  title: "Title",
  text: "Contents text",
  submitText: "Yes",
  cancelText: "No",
  onSubmit: () {
    // Processing when the Yes button is pressed
  },
  onCancel: () {
    // Processing when the No button is pressed
  }
);

Responsive layout #

UniversalUI allows users to create UIs across platforms with different screen sizes and orientations, such as PC and mobile, without having to be aware of the differences.

@override
Widget build(BuildContext context, PageRef ref) {
  return UniversalScaffold(
    breakpoint: Breakpoint.sm,
    sideBar: UniversalSideBar(
      decoration: const BoxDecoration(
        border: Border(right: BorderSide(color: Colors.grey)),
      ),
      children: [
        for (var i = 0; i < 100; i++)
          ListTile(
            tileColor: Colors.blue,
            title: Text((i + 1).toString()),
          ),
      ],
    ),
    appBar: UniversalSliverAppBar(
      title: const Text("UniversalViewPage"),
      subtitle: const Text("UniversalViewPage"),
      titlePosition: UniversalAppBarTitlePosition.bottom,
      background: UniversalAppBarBackground(theme.asset.image.provider),
    ),
    body: UniversalListView(
      onRefresh: () {
        return Future.delayed(1.s);
      },
      padding: const EdgeInsets.only(top: 32),
      children: [
        UniversalColumn(
          children: [
            ...List.generate(100, (i) {
              return ListTile(
                tileColor: Colors.red,
                title: Text((i + 1).toString()),
              );
            }).mapResponsive(sm: 6, md: 4),
          ],
        ),
      ],
    ),
  );
}

For other details, please see the package details page.

katana_ui

https://pub.dev/packages/katana_ui

masamune_universal_ui

https://pub.dev/packages/masamune_universal_ui

Authentication #

For user registration and authentication, use the appAuth object in main.dart.

User registration, login, and logout can be performed by executing various methods of appAuth.

// User registration
await auth.register(
  EmailAndPasswordAuthQuery.register(
    email: "test@email.com",
    password: "12345678",
  ),
);

// Login
await auth.signIn(
  EmailAndPasswordAuthQuery.signIn(
    email: "test@email.com",
    password: "12345678",
  ),
);

// Logout
await auth.signOut();

By default, these are only stored in the app's memory and will revert to their original state when the app is restarted.

If you wish to persist data, see Firebase/Firestore support below.

For other details, please see the package details page.

katana_auth

https://pub.dev/packages/katana_auth

File storage #

If you want to upload image files, etc., use the Storage object.

Use a file picker or similar tool to obtain the file path and byte data (UInt8List) of the file to be uploaded and pass them to the various methods.

final storage = Storage(const StorageQuery("test/file"));

final pickedData = await FilePicker.platform.pickFiles();
storage.upload(pickedData.first.path);

By default, these are only stored in the app's memory and will revert to their original state when the app is restarted.

If you wish to persist data, see Firebase/Firestore support below.

For other details, please see the package details page.

katana_storage

https://pub.dev/packages/katana_storage

Firebase/Firestore support #

As for the data model (database), authentication, and file storage, the default provides the ability to store only within the app, but it can be switched to target the device local or Firebase by replacing the adapter.

If you use the adapter for Firebase/Firestore, import the following packages in advance.

# If you want to use Firebase Authentication
flutter pub add katana_auth_firebase

# If you want to use Firestore
flutter pub add katana_model_firestore

# If you want to use Cloud Storage for Firebase
flutter pub add katana_storage_firebase

Also, please complete the initial Firebase setup using FlutterFire or similar.

flutterfire configure

To switch the data model (database), authentication, and file storage to Firestore, Firebase Authentication, or Cloud Storage for Firebase, respectively, the following adapters must be replaced with the corresponding ones.

/// App Model.
///
/// By replacing this with another adapter, the data storage location can be changed.
// TODO: Change the database.
// final modelAdapter = RuntimeModelAdapter();
final modelAdapter = FirestoreModelAdapter(options: DefaultFirebaseOptions.currentPlatform);

/// App Auth.
/// 
/// Changing to another adapter allows you to change to another authentication mechanism.
// TODO: Change the authentication.
// final authAdapter = RuntimeAuthAdapter();
final authAdapter = FirebaseAuthAdapter(options: DefaultFirebaseOptions.currentPlatform);

/// App Storage.
/// 
/// Changing to another adapter allows you to change to another storage mechanism.
// TODO: Change the storage.
// final storageAdapter = LocalStorageAdapter();
final storageAdapter = FirebaseStorageAdapter(options: DefaultFirebaseOptions.currentPlatform);

You can change to Firebase without worrying about other code, just change the adapter.

Other Functions #

The Masamune framework provides other useful features.

Each is offered in a separate package, so please refer to that for details.

Provides shorthand notation #

katana_shorten

https://pub.dev/packages/katana_shorten

Indicator display while waiting for Future #

katana_indicator

https://pub.dev/packages/katana_indicator

GitHub Sponsors #

Sponsors are always welcome. Thank you for your support!

https://github.com/sponsors/mathrunet