<?xml version="1.0" encoding="UTF-8" ?> <class name="Geometry3D" inherits="Object" version="4.0" xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance" xsi:noNamespaceSchemaLocation="../class.xsd"> <brief_description> Helper node to calculate generic geometry operations in 3D space. </brief_description> <description> Geometry3D provides users with a set of helper functions to create geometric shapes, compute intersections between shapes, and process various other geometric operations. </description> <tutorials> </tutorials> <methods> <method name="build_box_planes"> <return type="Plane[]" /> <param index="0" name="extents" type="Vector3" /> <description> Returns an array with 6 [Plane]s that describe the sides of a box centered at the origin. The box size is defined by [param extents], which represents one (positive) corner of the box (i.e. half its actual size). </description> </method> <method name="build_capsule_planes"> <return type="Plane[]" /> <param index="0" name="radius" type="float" /> <param index="1" name="height" type="float" /> <param index="2" name="sides" type="int" /> <param index="3" name="lats" type="int" /> <param index="4" name="axis" type="int" enum="Vector3.Axis" default="2" /> <description> Returns an array of [Plane]s closely bounding a faceted capsule centered at the origin with radius [param radius] and height [param height]. The parameter [param sides] defines how many planes will be generated for the side part of the capsule, whereas [param lats] gives the number of latitudinal steps at the bottom and top of the capsule. The parameter [param axis] describes the axis along which the capsule is oriented (0 for X, 1 for Y, 2 for Z). </description> </method> <method name="build_cylinder_planes"> <return type="Plane[]" /> <param index="0" name="radius" type="float" /> <param index="1" name="height" type="float" /> <param index="2" name="sides" type="int" /> <param index="3" name="axis" type="int" enum="Vector3.Axis" default="2" /> <description> Returns an array of [Plane]s closely bounding a faceted cylinder centered at the origin with radius [param radius] and height [param height]. The parameter [param sides] defines how many planes will be generated for the round part of the cylinder. The parameter [param axis] describes the axis along which the cylinder is oriented (0 for X, 1 for Y, 2 for Z). </description> </method> <method name="clip_polygon"> <return type="PackedVector3Array" /> <param index="0" name="points" type="PackedVector3Array" /> <param index="1" name="plane" type="Plane" /> <description> Clips the polygon defined by the points in [param points] against the [param plane] and returns the points of the clipped polygon. </description> </method> <method name="get_closest_point_to_segment"> <return type="Vector3" /> <param index="0" name="point" type="Vector3" /> <param index="1" name="s1" type="Vector3" /> <param index="2" name="s2" type="Vector3" /> <description> Returns the 3D point on the 3D segment ([param s1], [param s2]) that is closest to [param point]. The returned point will always be inside the specified segment. </description> </method> <method name="get_closest_point_to_segment_uncapped"> <return type="Vector3" /> <param index="0" name="point" type="Vector3" /> <param index="1" name="s1" type="Vector3" /> <param index="2" name="s2" type="Vector3" /> <description> Returns the 3D point on the 3D line defined by ([param s1], [param s2]) that is closest to [param point]. The returned point can be inside the segment ([param s1], [param s2]) or outside of it, i.e. somewhere on the line extending from the segment. </description> </method> <method name="get_closest_points_between_segments"> <return type="PackedVector3Array" /> <param index="0" name="p1" type="Vector3" /> <param index="1" name="p2" type="Vector3" /> <param index="2" name="q1" type="Vector3" /> <param index="3" name="q2" type="Vector3" /> <description> Given the two 3D segments ([param p1], [param p2]) and ([param q1], [param q2]), finds those two points on the two segments that are closest to each other. Returns a [PackedVector3Array] that contains this point on ([param p1], [param p2]) as well the accompanying point on ([param q1], [param q2]). </description> </method> <method name="ray_intersects_triangle"> <return type="Variant" /> <param index="0" name="from" type="Vector3" /> <param index="1" name="dir" type="Vector3" /> <param index="2" name="a" type="Vector3" /> <param index="3" name="b" type="Vector3" /> <param index="4" name="c" type="Vector3" /> <description> Tests if the 3D ray starting at [param from] with the direction of [param dir] intersects the triangle specified by [param a], [param b] and [param c]. If yes, returns the point of intersection as [Vector3]. If no intersection takes place, returns [code]null[/code]. </description> </method> <method name="segment_intersects_convex"> <return type="PackedVector3Array" /> <param index="0" name="from" type="Vector3" /> <param index="1" name="to" type="Vector3" /> <param index="2" name="planes" type="Array" /> <description> Given a convex hull defined though the [Plane]s in the array [param planes], tests if the segment ([param from], [param to]) intersects with that hull. If an intersection is found, returns a [PackedVector3Array] containing the point the intersection and the hull's normal. Otherwise, returns an empty array. </description> </method> <method name="segment_intersects_cylinder"> <return type="PackedVector3Array" /> <param index="0" name="from" type="Vector3" /> <param index="1" name="to" type="Vector3" /> <param index="2" name="height" type="float" /> <param index="3" name="radius" type="float" /> <description> Checks if the segment ([param from], [param to]) intersects the cylinder with height [param height] that is centered at the origin and has radius [param radius]. If no, returns an empty [PackedVector3Array]. If an intersection takes place, the returned array contains the point of intersection and the cylinder's normal at the point of intersection. </description> </method> <method name="segment_intersects_sphere"> <return type="PackedVector3Array" /> <param index="0" name="from" type="Vector3" /> <param index="1" name="to" type="Vector3" /> <param index="2" name="sphere_position" type="Vector3" /> <param index="3" name="sphere_radius" type="float" /> <description> Checks if the segment ([param from], [param to]) intersects the sphere that is located at [param sphere_position] and has radius [param sphere_radius]. If no, returns an empty [PackedVector3Array]. If yes, returns a [PackedVector3Array] containing the point of intersection and the sphere's normal at the point of intersection. </description> </method> <method name="segment_intersects_triangle"> <return type="Variant" /> <param index="0" name="from" type="Vector3" /> <param index="1" name="to" type="Vector3" /> <param index="2" name="a" type="Vector3" /> <param index="3" name="b" type="Vector3" /> <param index="4" name="c" type="Vector3" /> <description> Tests if the segment ([param from], [param to]) intersects the triangle [param a], [param b], [param c]. If yes, returns the point of intersection as [Vector3]. If no intersection takes place, returns [code]null[/code]. </description> </method> </methods> </class>