Package org.joml

Interface Vector4ic

All Known Implementing Classes:

Vector4i

public interface Vector4ic

Interface to a read-only view of a 4-dimensional vector of integers.

Method Summary

Modifier and Type	Method	Description
Vector4i	absolute(Vector4i dest)	Compute the absolute of each of this vector's components and store the result into dest.
Vector4i	add(int x, int y, int z, int w, Vector4i dest)	Increment the components of this vector by the given values and store the result in dest.
Vector4i	add(Vector4ic v, Vector4i dest)	Add the supplied vector to this one and store the result in dest.
double	distance(int x, int y, int z, int w)	Return the distance between this vector and (x, y, z, w).
double	distance(Vector4ic v)	Return the distance between this Vector and v.
long	distanceSquared(int x, int y, int z, int w)	Return the square of the distance between this vector and (x, y, z, w).
long	distanceSquared(Vector4ic v)	Return the square of the distance between this vector and v.
Vector4i	div(float scalar, Vector4i dest)	Divide all components of this vector by the given scalar value and store the result in dest.
Vector4i	div(int scalar, Vector4i dest)	Divide all components of this vector by the given scalar value and store the result in dest.
Vector4i	div(Vector4ic v, Vector4i dest)	Divide this Vector4i component-wise by another Vector4ic and store the result in dest.
long	dot(Vector4ic v)	Compute the dot product (inner product) of this vector and v.
boolean	equals(int x, int y, int z, int w)	Compare the vector components of this vector with the given (x, y, z, w) and return whether all of them are equal.
int	get(int component)	Get the value of the specified component of this vector.
java.nio.ByteBuffer	get(int index, java.nio.ByteBuffer buffer)	Store this vector into the supplied ByteBuffer starting at the specified absolute buffer position/index.
java.nio.IntBuffer	get(int index, java.nio.IntBuffer buffer)	Store this vector into the supplied IntBuffer starting at the specified absolute buffer position/index.
java.nio.ByteBuffer	get(java.nio.ByteBuffer buffer)	Store this vector into the supplied ByteBuffer at the current buffer position.
java.nio.IntBuffer	get(java.nio.IntBuffer buffer)	Store this vector into the supplied IntBuffer at the current buffer position.
Vector4ic	getToAddress(long address)	Store this vector at the given off-heap memory address.
long	gridDistance(int x, int y, int z, int w)	Return the grid distance in between (aka 1-Norm, Minkowski or Manhattan distance) (x, y).
long	gridDistance(Vector4ic v)	Return the grid distance in between (aka 1-Norm, Minkowski or Manhattan distance) (x, y).
double	length()	Return the length of this vector.
long	lengthSquared()	Return the length squared of this vector.
Vector4i	max(Vector4ic v, Vector4i dest)	Set the components of dest to be the component-wise maximum of this and the other vector.
int	maxComponent()	Determine the component with the biggest absolute value.
Vector4i	min(Vector4ic v, Vector4i dest)	Set the components of dest to be the component-wise minimum of this and the other vector.
int	minComponent()	Determine the component with the smallest (towards zero) absolute value.
Vector4i	mul(int scalar, Vector4i dest)	Multiply all components of this vector by the given scalar value and store the result in dest.
Vector4i	mul(Vector4ic v, Vector4i dest)	Multiply this Vector4i component-wise by another Vector4ic and store the result in dest.
Vector4i	negate(Vector4i dest)	Negate this vector and store the result in dest.
Vector4i	sub(int x, int y, int z, int w, Vector4i dest)	Subtract (x, y, z, w) from this and store the result in dest.
Vector4i	sub(Vector4ic v, Vector4i dest)	Subtract the supplied vector from this one and store the result in dest.
int	w()
int	x()
int	y()
int	z()

Method Detail

x

int x()

Returns:

the value of the x component

y

int y()

Returns:

the value of the y component

z

int z()

Returns:

the value of the z component

w

int w()

Returns:

the value of the w component

get

java.nio.IntBuffer get(java.nio.IntBuffer buffer)

Store this vector into the supplied IntBuffer at the current buffer position.

This method will not increment the position of the given IntBuffer.

In order to specify the offset into the IntBuffer at which the vector is stored, use get(int, IntBuffer), taking the absolute position as parameter.

Parameters:

buffer - will receive the values of this vector in x, y, z, w order

Returns:

the passed in buffer

See Also:

get(int, IntBuffer)

get

java.nio.IntBuffer get(int index,
                       java.nio.IntBuffer buffer)

Store this vector into the supplied IntBuffer starting at the specified absolute buffer position/index.

This method will not increment the position of the given IntBuffer.

Parameters:

index - the absolute position into the IntBuffer

buffer - will receive the values of this vector in x, y, z, w order

Returns:

the passed in buffer

get

java.nio.ByteBuffer get(java.nio.ByteBuffer buffer)

Store this vector into the supplied ByteBuffer at the current buffer position.

This method will not increment the position of the given ByteBuffer.

In order to specify the offset into the ByteBuffer at which the vector is stored, use get(int, ByteBuffer), taking the absolute position as parameter.

Parameters:

buffer - will receive the values of this vector in x, y, z, w order

Returns:

the passed in buffer

See Also:

get(int, ByteBuffer)

get

java.nio.ByteBuffer get(int index,
                        java.nio.ByteBuffer buffer)

Store this vector into the supplied ByteBuffer starting at the specified absolute buffer position/index.

This method will not increment the position of the given ByteBuffer.

Parameters:

index - the absolute position into the ByteBuffer

buffer - will receive the values of this vector in x, y, z, w order

Returns:

the passed in buffer

getToAddress

Vector4ic getToAddress(long address)

Store this vector at the given off-heap memory address.

This method will throw an UnsupportedOperationException when JOML is used with `-Djoml.nounsafe`.

This method is unsafe as it can result in a crash of the JVM process when the specified address range does not belong to this process.

Parameters:

address - the off-heap address where to store this vector

Returns:

this

sub

Vector4i sub(Vector4ic v,
             Vector4i dest)

Subtract the supplied vector from this one and store the result in dest.

Parameters:

v - the vector to subtract from this

dest - will hold the result

Returns:

dest

sub

Vector4i sub(int x,
             int y,
             int z,
             int w,
             Vector4i dest)

Subtract (x, y, z, w) from this and store the result in dest.

Parameters:

x - the x component to subtract

y - the y component to subtract

z - the z component to subtract

w - the w component to subtract

dest - will hold the result

Returns:

dest

add

Vector4i add(Vector4ic v,
             Vector4i dest)

Add the supplied vector to this one and store the result in dest.

Parameters:

v - the vector to add

dest - will hold the result

Returns:

dest

add

Vector4i add(int x,
             int y,
             int z,
             int w,
             Vector4i dest)

Increment the components of this vector by the given values and store the result in dest.

Parameters:

x - the x component to add

y - the y component to add

z - the z component to add

w - the w component to add

dest - will hold the result

Returns:

dest

mul

Vector4i mul(Vector4ic v,
             Vector4i dest)

Multiply this Vector4i component-wise by another Vector4ic and store the result in dest.

Parameters:

v - the other vector

dest - will hold the result

Returns:

dest

div

Vector4i div(Vector4ic v,
             Vector4i dest)

Divide this Vector4i component-wise by another Vector4ic and store the result in dest.

Parameters:

v - the vector to divide by

dest - will hold the result

Returns:

dest

mul

Vector4i mul(int scalar,
             Vector4i dest)

Multiply all components of this vector by the given scalar value and store the result in dest.

Parameters:

scalar - the scalar to multiply by

dest - will hold the result

Returns:

dest

div

Vector4i div(float scalar,
             Vector4i dest)

Divide all components of this vector by the given scalar value and store the result in dest.

Parameters:

scalar - the scalar to divide by

dest - will hold the result

Returns:

dest

div

Vector4i div(int scalar,
             Vector4i dest)

Divide all components of this vector by the given scalar value and store the result in dest.

Parameters:

scalar - the scalar to divide by

dest - will hold the result

Returns:

dest

lengthSquared

long lengthSquared()

Return the length squared of this vector.

Returns:

the length squared

length

double length()

Return the length of this vector.

Returns:

the length

distance

double distance(Vector4ic v)

Return the distance between this Vector and v.

Parameters:

v - the other vector

Returns:

the distance

distance

double distance(int x,
                int y,
                int z,
                int w)

Return the distance between this vector and (x, y, z, w).

Parameters:

x - the x component of the other vector

y - the y component of the other vector

z - the z component of the other vector

w - the w component of the other vector

Returns:

the euclidean distance

gridDistance

long gridDistance(Vector4ic v)

Return the grid distance in between (aka 1-Norm, Minkowski or Manhattan distance) (x, y).

Parameters:

v - the other vector

Returns:

the grid distance

gridDistance

long gridDistance(int x,
                  int y,
                  int z,
                  int w)

Return the grid distance in between (aka 1-Norm, Minkowski or Manhattan distance) (x, y).

Parameters:

x - the x component of the other vector

y - the y component of the other vector

z - the z component of the other vector

w - the w component of the other vector

Returns:

the grid distance

distanceSquared

long distanceSquared(Vector4ic v)

Return the square of the distance between this vector and v.

Parameters:

v - the other vector

Returns:

the squared of the distance

distanceSquared

long distanceSquared(int x,
                     int y,
                     int z,
                     int w)

Return the square of the distance between this vector and (x, y, z, w).

Parameters:

x - the x component of the other vector

y - the y component of the other vector

z - the z component of the other vector

w - the w component of the other vector

Returns:

the square of the distance

dot

long dot(Vector4ic v)

Compute the dot product (inner product) of this vector and v.

Parameters:

v - the other vector

Returns:

the dot product

negate

Vector4i negate(Vector4i dest)

Negate this vector and store the result in dest.

Parameters:

dest - will hold the result

Returns:

dest

min

Vector4i min(Vector4ic v,
             Vector4i dest)

Set the components of dest to be the component-wise minimum of this and the other vector.

Parameters:

v - the other vector

dest - will hold the result

Returns:

dest

max

Vector4i max(Vector4ic v,
             Vector4i dest)

Set the components of dest to be the component-wise maximum of this and the other vector.

Parameters:

v - the other vector

dest - will hold the result

Returns:

dest

get

int get(int component)
 throws java.lang.IllegalArgumentException

Get the value of the specified component of this vector.

Parameters:

component - the component, within [0..3]

Returns:

the value

Throws:

java.lang.IllegalArgumentException - if component is not within [0..3]

maxComponent

int maxComponent()

Determine the component with the biggest absolute value.

Returns:

the component index, within [0..3]

minComponent

int minComponent()

Determine the component with the smallest (towards zero) absolute value.

Returns:

the component index, within [0..3]

absolute

Vector4i absolute(Vector4i dest)

Compute the absolute of each of this vector's components and store the result into dest.

Parameters:

dest - will hold the result

Returns:

dest

equals

boolean equals(int x,
               int y,
               int z,
               int w)

Compare the vector components of this vector with the given (x, y, z, w) and return whether all of them are equal.

Parameters:

x - the x component to compare to

y - the y component to compare to

z - the z component to compare to

w - the w component to compare to

Returns:

true if all the vector components are equal