flame 0.9.5 flame: ^0.9.5 copied to clipboard
A minimalist Flutter game engine, provides a nice set of somewhat independent modules you can choose from.
🔥 flame #
A minimalist Flutter game engine.
Any help is appreciated! Comment, suggestions, issues, PR's! Give us a star to help!
Goals #
The goal of this project is to provided a complete set of out-of-the-way solutions for the common problems every game developed in Flutter will share.
Currently it provides you with: a few utilities, images/sprites/sprite sheets, audio, a game loop and a component/object system.
You can use whatever ones you want, as they are all somewhat independent.
Usage #
Just drop it in your pubspec.yaml
:
dependencies:
flame: ^0.9.5
And start using it!
The complete documentation can be found here.
Bellow is an overview that should suffice to build a simple game, and work your way up from there.
The flame-example game has been updated to use the newer APIs (0.8.2) on a new branch.
There is a very good QuickStart tutorial for version 0.6.1
here. The API has changed a lot, so refer this documentation for updated information. Soon I plan to release an updated tutorial.
Structure #
The only structure you are required to comply is a assets folder with two sub folders: audio and images.
An example:
Flame.audio.play('explosion.mp3');
Flame.images.load('player.png');
Flame.images.load('enemy.png');
The file structure would have to be:
.
└── assets
├── audio
│ └── explosion.mp3
└── images
├── enemy.png
└── player.png
Don't forget to add these files to your pubspec.yaml
file:
flutter:
assets:
- assets/audio/explosion.mp3
- assets/images/player.png
- assets/images/enemy.png
Modules #
The modular approach allows you to use any of these modules independently, or together, or as you wish.
Audio #
To play an audio, just use the Flame.audio.play
method:
import 'package:flame/flame.dart';
Flame.audio.play('explosion.mp3');
You can pre-load your audios in the beginning and avoid delays with the loadAll
method:
// in a async prepare function for your game
await Flame.audio.loadAll(['explosion.mp3']);
Images #
If you are using the Component module and doing something simple, you probably won't need to use these classes; use SpriteComponent
or AnimationComponent
instead.
If you want to load an image and render it on the Canvas
, you can use the Sprite
class:
import 'package:flame/sprite.dart';
Sprite sprite = new Sprite('player.png');
// in your render loop
sprite.render(canvas, width, height);
Note that the render method will do nothing while the image has not been loaded; you can check for completion using the loaded
method.
Component #
This class represent a single object on the screen, being a floating rectangle or a rotating sprite.
The base abstract class has the common expected methods update and render to be implemented.
The intermediate inheritance PositionComponent
adds x
, y
, width
, height
and angle
to your Components, as well as some useful methods like distance and angleBetween.
The most commonly used implementation, SpriteComponent
, can be created with a Sprite
:
import 'package:flame/components/component.dart';
Sprite sprite = new Sprite('player.png');
const size = 128.0;
var player = new SpriteComponent.fromSprite(size, size, sprite); // width, height, sprite
// screen coordinates
player.x = ... // 0 by default
player.y = ... // 0 by default
player.angle = ... // 0 by default
player.render(canvas); // it will render only if the image is loaded and the x, y, width and height parameters are not null
Every Component
has a few other methods that you can optionally implement, that are used by the BaseGame
class. If you are not using the base game, you can alternatively use these methods on your own game loop.
The resize
method is called whenever the screen is resized, and in the beginning once when the component is added via the add
method. You need to apply here any changes to the x, y, width and height of your component, or any other changes, due to the screen resizing. You can start these variables here, as the sprite won't be rendered until everything is set.
The destroy
method can be implemented to return true and warn the BaseGame
that your object is marked for destruction, and it will be remove after the current update loop. It will then no longer be rendered or updated.
The isHUD
method can be implemented to return true (default false) to make the BaseGame
ignore the camera
for this element.
There are also other implementations:
- The
AnimationComponent
takes anAnimation
object and renders a cyclic animated sprite (more details about Animations here) - The
ParallaxComponent
can render a parallax background with several frames - The
Box2DComponent
, that has a physics engine built-in (using the Box2D port for Dart)
Game Loop #
The Game Loop module is a simple abstraction over the game loop concept. Basically most games are built upon two methods:
- The render method takes the canvas ready for drawing the current state of the game.
- The update method receives the delta time in milliseconds since last update and allows you to move the next state.
The class Game
can be subclassed and will provide both these methods for you to implement. In return it will provide you with a widget
property that returns the game widget, that can be rendered in your app.
You can either render it directly in your runApp
, or you can have a bigger structure, with routing, other screens and menus for your game.
To start, just add your game widget directly to your runApp, like so:
main() {
Game game = new MyGameImpl();
runApp(game.widget);
}
Instead of implementing the low level Game
class, you should probably use the more full-featured BaseGame
class.
The BaseGame
implements a Component
based Game
for you; basically it has a list of Component
s and repasses the update
and render
calls appropriately. You can still extend those methods to add custom behavior, and you will get a few other features for free, like the repassing of resize
methods (every time the screen is resized the information will be passed to the resize methods of all your components) and also a basic camera feature (that will translate all your non-HUD components in order to center in the camera you specified).
A very simple BaseGame
implementation example can be seen below:
class MyCrate extends SpriteComponent {
// creates a component that renders the crate.png sprite, with size 16 x 16
MyCrate() : SpriteComponent.fromSprite(16.0, 16.0, new Sprite('crate.png'));
@override
void resize(Size size) {
// we don't need to set the x and y in the constructor, we can set then here
this.x = (size.width - this.width)/ 2;
this.y = (size.height - this.height) / 2;
}
}
class MyGame extends BaseGame {
MyGame() {
add(new MyCrate()); // this will call resize the first time as well
}
}
Input #
In order to handle user input, you can use the libraries provided by Flutter for regular apps: Gesture Recognizers.
However, in order to bind them, use the Flame.util.addGestureRecognizer
method; in doing so, you'll make sure they are properly unbound when the game widget is not being rendered, and so the rest of your screens will work appropriately.
For example, to add a tap listener ("on click"):
Flame.util.addGestureRecognizer(new TapGestureRecognizer()
..onTapDown = (TapDownDetails evt) => game.handleInput(evt.globalPosition.dx, evt.globalPosition.dy));
Where game
is a reference to your game object and handleInput
is a method you create to handle the input inside your game.
If your game doesn't have other screens, just call this after your runApp
call, in the main
method.
Gamepad #
Gamepad is partially supported on Android, you easily listen to key up and down events using Flame.gamepad.addListener
method, check the link below for the complete guide
Credits #
- All the friendly contributors and people who are helping in the community.
- My own audioplayers lib, which in turn is forked from rxlabz's.
- The Dart port of Box2D.
- inu-no-policemen's post on reddit, which helped me a lot with the basics
- Everyone who answered my beginner's questions on Stack Overflow