An unofficial Box2D module for the Godot game engine.
⚠ Expect frequent renames, reworks, crashes, and bugs. ⚠
Using Box2D v2.4.1
This module should work on all platforms.
This module supports Godot 4.0 and 3.x.
This module aims to provide the awesome features of the Box2D physics library to the Godot Engine in a form very familiar to Godot users.
This module also bridges the gap between Box2D features and Godot 2D physics features where Box2D is lacking. The goal is for every 2D physics feature in Godot to be supported, with as few compromises as possible.
This is a list of unimplemented features that are planned:
- All remaining Box2D joints not yet implemented
- Multithreading
If this list is missing anything important or desirable, feel free to submit an issue so that it can be discussed.
There is currently no real documentation for this module. However, most features align with the Box2D API, so the Box2D documentation should provide a strong conceptual guide.
Unlike Godot 2D physics, this module does not add a physics server (..yet). Instead, everything must be done in the scene tree. The Box2DWorld node currently controls all the physics processing.
To use this module, first add a Box2DWorld node to the scene. This node must be the "ancestor" to any and all Box2D nodes you use within this world. (It's okay to have multiple Box2DWorld nodes in one scene, but they will not interact, nor their bodies nor joints.)
To create a body, add a Box2DPhysicsBody in the node hierarchy beneath the world. To add collision, add a Box2DFixture node as a child. The body type (rigid/static/kinematic) is selected with the property Box2DPhysicsBody.type.
Here is an example of a functional scene tree:
root
└─ MyGame [Node]
├─ some control nodes or whatever
└─ Box2DWorld
├─ Box2DPhysicsBody1
│ ├─ MySprite
│ └─ Box2DCircleFixture
├─ Box2DPhysicsBody2
│ ├─ Box2DRectFixture1
│ └─ Box2DRectFixture2
├─ Box2DWeldJoint
└─ WheelOnAStick
├─ Box2DPhysicsBody1
│ └─ Box2DRectFixture
├─ Box2DPhysicsBody2
│ └─ Box2DCircleFixture
└─ Box2DRevoluteJoint
Right now, there are no pre-built binaries. This will change when this module becomes more stable.
To use this module, it helps to already be familiar with compiling the engine on your own.
- Clone the engine source code:
cd /your/documents/folder/wherever/
git clone -b 3.x https://github.com/godotengine/godot.git godot
- Clone this module and init submodules (box2d) inside the modules folder:
cd ./godot/modules
git clone -b 3.x https://github.com/briansemrau/godot_box2d.git
cd godot_box2d
git submodule update --init --recursive
- Compile the engine. See the official Godot documentation: https://docs.godotengine.org/en/latest/development/compiling/index.html
Box2D has...
- A lot of new joints:
- Distance joint (Equivalent to
GrooveJoint2DorDampedSpringJoint2D) - Revolute joint (
PinJoint2D, but with configurable limits and a motor) - Prismatic joint (Similar to
GrooveJoint2D, but with fixed rotation) - Pulley joint (⚠ unimplemented)
- Gear joint (⚠ unimplemented)
- Wheel joint (⚠ unimplemented)
- Weld joint
- Rope (⚠ unimplemented)
- Friction joint (⚠ unimplemented)
- Motor joint (⚠ unimplemented)
- Distance joint (Equivalent to
- Continuous collision detection (CCD) between dynamic rigid bodies and other dynamic rigid bodies. In Godot 2D physics, CCD is limited to dynamic and static bodies (and somewhat currently broken). In Box2D, you can fire a high-speed bullet at a stack of bricks and blow them up.
- Improved physics stability in some cases. For the same input, and same binary, Box2D will reproduce any simulation.
- Features that support game mechanics that are near-impossible with Godot:
- Automatically calculated mass properties from shape density
- Joints measure the linear/angular forces they're exerting (allows for breakable joints)
- Contacts report collision impulse (necessary for destructible/crushable bodies)
- Material (collision) property settings per shape, not just per body. For example, this allows you to have a bumper shape attached to a car body with a different restitution property than say a side panel shape.
Many features of Box2D have very clear parallels to Godot physics. Here are a few, just to help get started:
| Godot Physics feature | Godot Box2D module equivalent |
|---|---|
PhysicsBody2D nodes (Rigid, Static, Kinematic) |
Use Box2DPhysicsBody. Use the type property to change body type. Material properties are set using fixtures. |
Area2D node |
Use Box2DArea. They should behave nearly identically. |
CollisionShape2D/CollisionPolygon2D nodes |
Use Box2DFixture and set the shape property. |
Joint2D nodes (Pin, Groove, Spring) |
Use variants of Box2DJoint. |
Gives joints new properties:
broken: Enables/disables the jointbreaking_enabled: Lets the joint break whenmax_forceand/ormax_torqueare exceededfree_on_break: Whether the joint frees itself when broken. (This feature may be removed)max_forceandmax_torque: Maximum linear force and torque. Either can be disabled by setting the property to 0.
The physics body/fixture transformations are synced to nearest ancestor Box2DWorld node's coordinate space. That means that none of your physics objects are transformed into the global space. This is more flexible than a global space sync because it means that any transformations ABOVE your Box2DWorld node will 'just work' as expected. This also means, you don't need an additional viewport or camera to do things like a HUD layer, while transforming your view of the physics space. You can simply move, rotate, and scale your world node, (or any node ABOVE it), like any other node in your scene tree, and things will just work as expected.
If you would like to contribute to the development or maintenance of this module, please start by submitting an issue.
The Box2D library is developed and maintained by Erin Catto and is provided under the MIT license.
All code in this repository is provided under the MIT license.