Class Vectors2L
java.lang.Object
com.io7m.jtensors.core.unparameterized.vectors.Vectors2L
public final class Vectors2L
extends java.lang.Object
Functions over Vector2L
values.
See "Mathematics for 3D Game Programming and Computer Graphics" 2nd Ed for the derivations of most of the code in this class (ISBN: 1-58450-277-0).
- Since:
- 8.0.0
-
Method Summary
Modifier and Type Method Description static Vector2L
absolute(Vector2L v0)
Calculate the absolute ofv0
.static Vector2L
add(Vector2L v0, Vector2L v1)
Addv0
tov1
.static Vector2L
addScaled(Vector2L v0, Vector2L v1, double r)
Addv0
tov1 * r
.static double
angle(Vector2L v0, Vector2L v1)
Calculate the angle between the vectorsv0
andv1
in radians.static Vector2L
clamp(Vector2L v, Vector2L v_min, Vector2L v_max)
Clamp the values inv
byv_min
andv_max
.static long
distance(Vector2L v0, Vector2L v1)
Calculate the distance betweenv0
andv1
.static long
dotProduct(Vector2L v0, Vector2L v1)
Calculate the scalar product of the vectorsv0
andv1
.static Vector2L
interpolateBilinear(Vector2L x0y0, Vector2L x1y0, Vector2L x0y1, Vector2L x1y1, double px, double py)
Bilinearly interpolate betweenx0y0
,x1y0
,x0y1
,x1y1
.static Vector2L
interpolateLinear(Vector2L v0, Vector2L v1, double alpha)
Linearly interpolate betweenv0
andv1
by the amountalpha
.static double
magnitude(Vector2L v0)
Calculate the magnitude of the vectorv0
.static long
magnitudeSquared(Vector2L v0)
Calculate the squared magnitude of the vectorv0
.static Vector2L
multiply(Vector2L v0, Vector2L v1)
Multiplyv0
byv1
.static Vector2L
negate(Vector2L v)
Calculate the negation ofv
.static Vector2L
scale(Vector2L v0, double r)
Scalev0
byr
.static Vector2L
subtract(Vector2L v0, Vector2L v1)
Subtractv1
fromv0
.static Vector2L
zero()
The zero vector.
-
Method Details
-
absolute
Calculate the absolute ofv0
.- Returns:
(abs v0.x, abs v0.y)
* @param v0 The vector
-
add
Addv0
tov1
.- Parameters:
v1
- The right vector- Returns:
(v0.x + v1.x, v0.y + v1.y)
* @param v0 The left vector
-
multiply
Multiplyv0
byv1
.- Parameters:
v1
- The right vector- Returns:
(v0.x * v1.x, v0.y * v1.y)
* @param v0 The left vector- Since:
- 10.0.0
-
addScaled
Addv0
tov1 * r
.- Parameters:
v1
- The right vectorr
- The scaling value- Returns:
(v0.x + (v1.x * r), v0.y + (v1.y * r))
* @param v0 The left vector
-
angle
Calculate the angle between the vectorsv0
andv1
in radians.- Parameters:
v0
- The left input vectorv1
- The right input vector * @return The angle between the two vectors, in radians.
-
clamp
Clamp the values inv
byv_min
andv_max
.- Parameters:
v_min
- The minimum vectorv_max
- The maximum vector- Returns:
(max(min(v.x, v_max.x()), v_min.x()), max(min(v.y, v_max.y()), v_min.y()))
* @param v The source vector
-
distance
Calculate the distance betweenv0
andv1
.- Parameters:
v1
- The right vector- Returns:
- The distance between
v0
andv1
. * @param v0 The left vector
-
dotProduct
Calculate the scalar product of the vectorsv0
andv1
. * @param v0 The left vector- Parameters:
v1
- The right vector- Returns:
- The scalar product of the two vectors
-
interpolateLinear
Linearly interpolate between
v0
andv1
by the amountalpha
.The
alpha
parameter controls the degree of interpolation, such that:interpolateLinear(v0, v1, 0.0) = v0
interpolateLinear(v0, v1, 1.0) = v1
- Parameters:
v0
- The left input vectorv1
- The right input vectoralpha
- The interpolation value in the range[0, 1]
* @return((1 - alpha) * v0) + (alpha * v1)
-
interpolateBilinear
public static Vector2L interpolateBilinear(Vector2L x0y0, Vector2L x1y0, Vector2L x0y1, Vector2L x1y1, double px, double py)Bilinearly interpolate between
x0y0
,x1y0
,x0y1
,x1y1
.The
px
andpy
parameters control the degree of interpolation, such that:interpolateBilinear(x0y0, x1y0, x0y1, x1y1, 0.0, 0.0) = x0y0
interpolateBilinear(x0y0, x1y0, x0y1, x1y1, 1.0, 0.0) = x1y0
interpolateBilinear(x0y0, x1y0, x0y1, x1y1, 0.0, 1.0) = x0y1
interpolateBilinear(x0y0, x1y0, x0y1, x1y1, 1.0, 1.0) = x1y1
- Parameters:
x0y0
- The top left input vectorx1y0
- The top right input vectorx0y1
- The bottom left input vectorx1y1
- The bottom right input vectorpx
- The X interpolation value in the range[0, 1]
py
- The Y interpolation value in the range[0, 1]
* @return The bilinearly interpolated value
-
magnitudeSquared
Calculate the squared magnitude of the vectorv0
. * @param v0 The vector- Returns:
- The squared magnitude of the vector
-
magnitude
Calculate the magnitude of the vectorv0
. * @param v0 The vector- Returns:
- The magnitude of the vector
-
negate
Calculate the negation ofv
.- Returns:
(-v.x, -v.y)
* @param v The vector
-
scale
Scalev0
byr
.- Parameters:
r
- The scaling value- Returns:
(v0.x * r, v0.y * r)
* @param v0 The left vector
-
subtract
Subtractv1
fromv0
.- Parameters:
v1
- The right vector- Returns:
(v0.x - v1.x, v0.y - v1.y)
* @param v0 The left vector
-
zero
The zero vector.- Returns:
(0, 0)
-