The Kinematic Body Type Rigidbody 2D is designed to move under simulation, but only under very explicit user control. While a Dynamic Rigidbody 2D is affected by gravity and forces, a Kinematic Rigidbody 2D is not. Because of this, the Kinematic Rigidbody 2D has a lower demand on system resources than a Dynamic Rigidbody 2D, allowing it to be simulated faster.
To reposition a Kinematic Rigidbody 2D, it must be repositioned explicitly via Rigidbody2D.MovePosition or Rigidbody2D.MoveRotation. Use physics queries to detect collisions, and scripts to decide where and how the Rigidbody 2D should move.
A Kinematic Rigidbody 2D can still move via its velocity, but the velocity is not affected by forces or gravity. A Kinematic Rigidbody 2D does not collide with other Kinematic Rigidbody 2Ds or with Static Rigidbody 2Ds and will only collide with Dynamic Rigidbody 2Ds. A Kinematic Rigidbody 2D behaves like an immovable object (as if it has infinite mass) during collisions, and mass-related properties are not available with this Body Type.
프로퍼티 | 기능 | |
---|---|---|
Body Type | Select to set the movement behavior and Collider 2D interaction of this Rigidbody 2D’s component settings. | |
Dynamic | Select to set this Rigidbody 2D to the Dynamic Body Type, which is designed to move under simulation and has all Rigidbody 2D properties available. This is the default Body Type for a Rigidbody 2D | |
Kinematic | Select to set this Rigidbody 2D to the Kinematic Body Type, which is designed to move under simulation but only under very explicit user control. | |
Static | Select to set this Rigidbody 2D to the Static Body Type, which is designed to not move under simulation at all and behaves like an immovable object with infinite mass. Refer to Body Type: Static for more information. | |
Material | Set a common physics material for all Collider 2Ds attached to this Rigidbody 2D. Note: A Collider 2D uses its own Material property if it has one set. If there is no Material specified here or in the Collider 2D, the default option is None (Physics Material 2D). This uses a default Material which you can set in the Physics 2D window. | |
Simulated | Enable Simulated to have the Rigidbody 2D and any attached Collider 2Ds and Joint 2Ds to interact with the physics simulation during runtime. If this is disabled, these components do not interact with the simulation. Refer to Rigidbody 2D properties: Simulated, below for more details. This property is enabled by default. | |
Full Kinematic Contact | Enable this property if you want the Rigidbody 2D to be able to collide with all other Rigidbody 2D Body Types. Note: When this property is disabled, the Kinematic Rigidbody 2D only collides with Dynamic Rigidbody 2Ds. See Using Full Kinematic Contacts for more details. | |
Collision Detection | Define how collisions between Collider 2Ds are detected. | |
분리 | Select this option to allow GameObjects with Rigidbody 2Ds and Collider 2Ds to overlap or pass through each other during a physics update, if they are moving fast enough. Collision contacts are only generated at the new position. | |
Continuous | Select this option to ensure GameObjects with Rigidbody 2Ds and Collider 2Ds do not pass through each other during a physics update. Instead, Unity calculates the first impact point of any of the Collider 2Ds, and moves the GameObject there. Note: This option takes more CPU time than Discrete. | |
Sleeping Mode | 게임 오브젝트가 휴식 상태일 때 프로세서 시간을 절약하기 위해 “수면”모드에 들어가는 방법을 정의합니다. | |
Never Sleep | Select this option to have sleeping disabled. Important: This should be avoided where possible, as it can impact system resources. | |
Start Awake | Select this to have the GameObject initially awake. | |
Start Asleep | Select this to have the GameObject initially asleep but can be awaken by collisions. | |
Interpolate | Define how the GameObject’s movement is interpolated between physics updates. Tip: This is useful when motion tends to be jerky. | |
없음 | Select this to not apply movement smoothing. | |
Interpolate | Select this to smoothen movement based on the GameObject’s positions in previous frames. | |
Extrapolate | Select this to smoothen movement is smoothed based on an estimate of its position in the next frame. | |
Constraints | 리지드바디 2D의 움직임에 대한 제약사항을 정의합니다. | |
Freeze Position | Stops the Rigidbody 2D moving in the X and Y world axes selectively. | |
Freeze Rotation | Stops the Rigidbody 2D rotating around the Z world axis selectively. | |
Layer Overrides | Expand for the Layer override settings. | |
Include Layers | Select the additional Layers that all Collider 2Ds attached to this Rigidbody 2D should include, when deciding if a collision with another Collider2D should occur or not. Refer to Rigidbody2D-includeLayers for more information. | |
Exclude Layers | Select the additional Layers that all Collider 2Ds attached to this Rigidbody 2D should exclude, when deciding if a collision with another Collider 2D should occur or not. Refer to Rigidbody2D-excludeLayers for more information. |
Enabling Full Kinematic Contacts enables a Kinematic Rigidbody 2D to collide with all Rigidbody 2D Body Types. This is similar to the behavior of a Dynamic Rigidbody 2D, except the Kinematic Rigidbody 2D is not moved by the physics system when contacting another Rigidbody 2D. Instead, it behaves like an immovable object with infinite mass.
When this property is disabled, a Kinematic Rigidbody 2D will only collide with Dynamic Rigidbody 2Ds and not the other Body Types. Note: Trigger Colliders are an exception to this rule. This means that no collision scripting callbacks (OnCollisionEnter, OnCollisionStay, OnCollisionExit will occur.
This can be inconvenient when you are using physics queries (such as Physics.Raycast to detect where and how a Rigidbody 2D should move, and when you require multiple Kinematic Rigidbody 2Ds to interact with each other. Enable Use Full Kinematic Contacts to make Kinematic Rigidbody 2D components interact in this way.
Tip: Use Full Kinematic Contacts allows explicit position and rotation control of a Kinematic Rigidbody 2D, but still allows full collision callbacks. In a setup where you need explicit control of all Rigidbody 2Ds, use Kinematic Rigidbody 2Ds in place of Dynamic Rigidbody 2Ds to still have full collision callback support.