Aabb3 class
Defines a 3dimensional axisaligned bounding box between a min and a max position.
Constructors
 Aabb3()
 Create a new AABB with min and max set to the origin.
 Aabb3.centerAndHalfExtents(Vector3 center, Vector3 halfExtents)

Create a new AABB with a
center
andhalfExtents
.factory  Aabb3.copy(Aabb3 other)

Create a new AABB as a copy of
other
.  Aabb3.fromBuffer(ByteBuffer buffer, int offset)

Constructs Aabb3 with a min/max storage that views given
buffer
starting atoffset
.offset
has to be multiple of Float64List.bytesPerElement.  Aabb3.fromObb3(Obb3 obb)

Create a new AABB that encloses a
obb
.factory  Aabb3.fromQuad(Quad quad)

Create a new AABB that encloses a
quad
.factory  Aabb3.fromRay(Ray ray, double limitMin, double limitMax)

Create a new AABB that encloses a limited
ray
(or line segment) that has a minLimit and maxLimit.factory  Aabb3.fromSphere(Sphere sphere)

Create a new AABB that encloses a
sphere
.factory  Aabb3.fromTriangle(Triangle triangle)

Create a new AABB that encloses a
triangle
.factory  Aabb3.minMax(Vector3 min, Vector3 max)

Create a new AABB with a
min
andmax
.
Properties
Methods

containsAabb3(
Aabb3 other) → bool 
Return if this contains
other
. 
containsSphere(
Sphere other) → bool 
Return if this contains
other
. 
containsTriangle(
Triangle other) → bool 
Return if this contains
other
. 
containsVector3(
Vector3 other) → bool 
Return if this contains
other
. 
copyCenter(
Vector3 center) → void 
Copy the
center
of this. 
copyCenterAndHalfExtents(
Vector3 center, Vector3 halfExtents) → void 
Copy the
center
and thehalfExtents
of this. 
copyFrom(
Aabb3 other) → void 
Copy the min and max from
other
into this. 
getPN(
Vector3 planeNormal, Vector3 outP, Vector3 outN) → void 
hull(
Aabb3 other) → void 
Set the min and max of this so that this is a hull of this and
other
. 
hullPoint(
Vector3 point) → void 
Set the min and max of this so that this contains
point
. 
intersectsWithAabb3(
Aabb3 other) → bool 
Return if this intersects with
other
. 
intersectsWithPlane(
Plane other, {IntersectionResult? result}) → bool 
Return if this intersects with
other

intersectsWithQuad(
Quad other, {IntersectionResult? result}) → bool 
Return
true
if this intersects withother
. 
intersectsWithSphere(
Sphere other) → bool 
Return if this intersects with
other
. 
intersectsWithTriangle(
Triangle other, {double epsilon = 1e3, IntersectionResult? result}) → bool 
Return if this intersects with
other
.epsilon
allows the caller to specify a custum eplsilon value that should be used for the test. Ifresult
is specified and an intersection is found, result is modified to contain more details about the type of intersection. 
intersectsWithVector3(
Vector3 other) → bool 
Return if this intersects with
other
. 
noSuchMethod(
Invocation invocation) → dynamic 
Invoked when a nonexistent method or property is accessed.
inherited

rotate(
Matrix4 t) → void 
Rotate this by the rotation matrix
t
. 
rotated(
Matrix4 t, Aabb3 out) → Aabb3 
Create a copy of this that is rotated by the rotation matrix
t
and store it inout
. 
setCenterAndHalfExtents(
Vector3 center, Vector3 halfExtents) → void 
Set the AABB by a
center
andhalfExtents
. 
setObb3(
Obb3 obb) → void 
Set the AABB to enclose a
obb
. 
setQuad(
Quad quad) → void 
Set the AABB to enclose a
quad
. 
setRay(
Ray ray, double limitMin, double limitMax) → void 
Set the AABB to enclose a limited
ray
(or line segment) that is limited bylimitMin
andlimitMax
. 
setSphere(
Sphere sphere) → void 
Set the AABB to enclose a
sphere
. 
setTriangle(
Triangle triangle) → void 
Set the AABB to enclose a
triangle
. 
toString(
) → String 
A string representation of this object.
inherited

transform(
Matrix4 t) → void 
Transform this by the transform
t
. 
transformed(
Matrix4 t, Aabb3 out) → Aabb3 
Create a copy of this that is transformed by the transform
t
and store it inout
.
Operators

operator ==(
Object other) → bool 
The equality operator.
inherited