javax.vecmath
Class Vector2d

java.lang.Object
  extended by javax.vecmath.Tuple2d
      extended by javax.vecmath.Vector2d
All Implemented Interfaces:
java.io.Serializable, java.lang.Cloneable

public class Vector2d
extends Tuple2d
implements java.io.Serializable

A 2-element vector that is represented by double-precision floating point x,y coordinates.

See Also:
Serialized Form

Field Summary
 
Fields inherited from class javax.vecmath.Tuple2d
x, y
 
Constructor Summary
Vector2d()
          Constructs and initializes a Vector2d to (0,0).
Vector2d(double[] v)
          Constructs and initializes a Vector2d from the specified array.
Vector2d(double x, double y)
          Constructs and initializes a Vector2d from the specified xy coordinates.
Vector2d(Tuple2d t1)
          Constructs and initializes a Vector2d from the specified Tuple2d.
Vector2d(Tuple2f t1)
          Constructs and initializes a Vector2d from the specified Tuple2f.
Vector2d(Vector2d v1)
          Constructs and initializes a Vector2d from the specified Vector2d.
Vector2d(Vector2f v1)
          Constructs and initializes a Vector2d from the specified Vector2f.
 
Method Summary
 double angle(Vector2d v1)
          Returns the angle in radians between this vector and the vector parameter; the return value is constrained to the range [0,PI].
 double dot(Vector2d v1)
          Computes the dot product of the this vector and vector v1.
 double length()
          Returns the length of this vector.
 double lengthSquared()
          Returns the squared length of this vector.
 void normalize()
          Normalizes this vector in place.
 void normalize(Vector2d v1)
          Sets the value of this vector to the normalization of vector v1.
 
Methods inherited from class javax.vecmath.Tuple2d
absolute, absolute, add, add, clamp, clamp, clampMax, clampMax, clampMin, clampMin, clone, epsilonEquals, equals, equals, get, hashCode, interpolate, interpolate, negate, negate, scale, scale, scaleAdd, scaleAdd, set, set, set, set, sub, sub, toString
 
Methods inherited from class java.lang.Object
finalize, getClass, notify, notifyAll, wait, wait, wait
 

Constructor Detail

Vector2d

public Vector2d(double x,
                double y)
Constructs and initializes a Vector2d from the specified xy coordinates.

Parameters:
x - the x coordinate
y - the y coordinate

Vector2d

public Vector2d(double[] v)
Constructs and initializes a Vector2d from the specified array.

Parameters:
v - the array of length 2 containing xy in order

Vector2d

public Vector2d(Vector2d v1)
Constructs and initializes a Vector2d from the specified Vector2d.

Parameters:
v1 - the Vector2d containing the initialization x y data

Vector2d

public Vector2d(Vector2f v1)
Constructs and initializes a Vector2d from the specified Vector2f.

Parameters:
v1 - the Vector2f containing the initialization x y data

Vector2d

public Vector2d(Tuple2d t1)
Constructs and initializes a Vector2d from the specified Tuple2d.

Parameters:
t1 - the Tuple2d containing the initialization x y data

Vector2d

public Vector2d(Tuple2f t1)
Constructs and initializes a Vector2d from the specified Tuple2f.

Parameters:
t1 - the Tuple2f containing the initialization x y data

Vector2d

public Vector2d()
Constructs and initializes a Vector2d to (0,0).

Method Detail

dot

public final double dot(Vector2d v1)
Computes the dot product of the this vector and vector v1.

Parameters:
v1 - the other vector

length

public final double length()
Returns the length of this vector.

Returns:
the length of this vector

lengthSquared

public final double lengthSquared()
Returns the squared length of this vector.

Returns:
the squared length of this vector

normalize

public final void normalize(Vector2d v1)
Sets the value of this vector to the normalization of vector v1.

Parameters:
v1 - the un-normalized vector

normalize

public final void normalize()
Normalizes this vector in place.


angle

public final double angle(Vector2d v1)
Returns the angle in radians between this vector and the vector parameter; the return value is constrained to the range [0,PI].

Parameters:
v1 - the other vector
Returns:
the angle in radians in the range [0,PI]