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Diffstat (limited to 'doc/classes/ConcavePolygonShape2D.xml')
-rw-r--r-- | doc/classes/ConcavePolygonShape2D.xml | 2 |
1 files changed, 1 insertions, 1 deletions
diff --git a/doc/classes/ConcavePolygonShape2D.xml b/doc/classes/ConcavePolygonShape2D.xml index 902993e439..ee3e4f6de4 100644 --- a/doc/classes/ConcavePolygonShape2D.xml +++ b/doc/classes/ConcavePolygonShape2D.xml @@ -4,7 +4,7 @@ Concave polygon shape resource for 2D physics. </brief_description> <description> - 2D concave polygon shape to be added as a [i]direct[/i] child of a [PhysicsBody2D] or [Area2D] using a [CollisionShape2D] node. It is made out of segments and is optimal for complex polygonal concave collisions. However, it is not advised to use for [RigidDynamicBody2D] nodes. A CollisionPolygon2D in convex decomposition mode (solids) or several convex objects are advised for that instead. Otherwise, a concave polygon 2D shape is better for static collisions. + 2D concave polygon shape to be added as a [i]direct[/i] child of a [PhysicsBody2D] or [Area2D] using a [CollisionShape2D] node. It is made out of segments and is optimal for complex polygonal concave collisions. However, it is not advised to use for [RigidBody2D] nodes. A CollisionPolygon2D in convex decomposition mode (solids) or several convex objects are advised for that instead. Otherwise, a concave polygon 2D shape is better for static collisions. The main difference between a [ConvexPolygonShape2D] and a [ConcavePolygonShape2D] is that a concave polygon assumes it is concave and uses a more complex method of collision detection, and a convex one forces itself to be convex to speed up collision detection. [b]Performance:[/b] Due to its complexity, [ConcavePolygonShape2D] is the slowest collision shape to check collisions against. Its use should generally be limited to level geometry. For convex geometry, using [ConvexPolygonShape2D] will perform better. For dynamic physics bodies that need concave collision, several [ConvexPolygonShape2D]s can be used to represent its collision by using convex decomposition; see [ConvexPolygonShape2D]'s documentation for instructions. However, consider using primitive collision shapes such as [CircleShape2D] or [RectangleShape2D] first. [b]Warning:[/b] Using this shape for an [Area2D] (via a [CollisionShape2D] node) may give unexpected results: the area will only detect collisions with the segments in the [ConcavePolygonShape2D] (and not with any "inside" of the shape, for example). |