com.jogamp.opengl

Class FloatUtil

java.lang.Object

com.jogamp.opengl.FloatUtil

public class FloatUtil
extends Object

Basic Float math utility functions.

Implementation assumes linear matrix layout in column-major order matching OpenGL's implementation.

Derived from ProjectFloat.java - Created 11-jan-2004

Author:

Erik Duijs, Kenneth Russell, Sven Gothel

Constructor Summary

Constructors

Constructor and Description
FloatUtil()

Method Summary

Methods

Modifier and Type	Method and Description
static void	cross(float[] v1, float[] v2, float[] result) Calculate cross-product of 2 vector
static void	cross(FloatBuffer v1, FloatBuffer v2, FloatBuffer result) Calculate cross-product of 2 vector
static void	makeIdentityf(float[] m, int offset) Make matrix an identity matrix
static void	makeIdentityf(FloatBuffer m) Make matrix an identity matrix
static void	makeZero(float[] m, int offset) Make matrix an zero matrix
static void	makeZero(FloatBuffer m) Make matrix an zero matrix
static void	multMatrixf(float[] a, int a_off, float[] b, int b_off, float[] d, int d_off)
static void	multMatrixf(float[] a, int a_off, float[] b, int b_off, FloatBuffer d)
static void	multMatrixf(FloatBuffer a, float[] b, int b_off, FloatBuffer d)
static void	multMatrixf(FloatBuffer a, FloatBuffer b, FloatBuffer d)
static void	multMatrixVecf(float[] m_in, float[] v_in, float[] v_out)
static void	multMatrixVecf(float[] m_in, int m_in_off, float[] v_in, int v_in_off, float[] v_out)
static void	multMatrixVecf(FloatBuffer m_in, FloatBuffer v_in, FloatBuffer v_out)
static void	normalize(float[] v) Normalize vector
static void	normalize(FloatBuffer v) Normalize vector

Methods inherited from class java.lang.Object

equals, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait

Constructor Detail

FloatUtil

public FloatUtil()

Method Detail

makeIdentityf

public static final void makeIdentityf(float[] m,
                 int offset)

Make matrix an identity matrix

makeIdentityf

public static final void makeIdentityf(FloatBuffer m)

Make matrix an identity matrix

makeZero

public static final void makeZero(float[] m,
            int offset)

Make matrix an zero matrix

makeZero

public static final void makeZero(FloatBuffer m)

Make matrix an zero matrix

multMatrixf

public static final void multMatrixf(float[] a,
               int a_off,
               float[] b,
               int b_off,
               float[] d,
               int d_off)

Parameters:

a - 4x4 matrix in column-major order

b - 4x4 matrix in column-major order

d - result a*b in column-major order

multMatrixf

public static final void multMatrixf(float[] a,
               int a_off,
               float[] b,
               int b_off,
               FloatBuffer d)

Parameters:

a - 4x4 matrix in column-major order

b - 4x4 matrix in column-major order

d - result a*b in column-major order

multMatrixf

public static final void multMatrixf(FloatBuffer a,
               float[] b,
               int b_off,
               FloatBuffer d)

Parameters:

a - 4x4 matrix in column-major order

b - 4x4 matrix in column-major order

d - result a*b in column-major order

multMatrixf

public static final void multMatrixf(FloatBuffer a,
               FloatBuffer b,
               FloatBuffer d)

Parameters:

a - 4x4 matrix in column-major order

b - 4x4 matrix in column-major order

d - result a*b in column-major order

normalize

public static final void normalize(float[] v)

Normalize vector

Parameters:

v - makes len(v)==1

normalize

public static final void normalize(FloatBuffer v)

Normalize vector

Parameters:

v - makes len(v)==1

cross

public static final void cross(float[] v1,
         float[] v2,
         float[] result)

Calculate cross-product of 2 vector

Parameters:

v1 - 3-component vector

v2 - 3-component vector

result - v1 X v2

cross

public static final void cross(FloatBuffer v1,
         FloatBuffer v2,
         FloatBuffer result)

Calculate cross-product of 2 vector

Parameters:

v1 - 3-component vector

v2 - 3-component vector

result - v1 X v2

multMatrixVecf

public static final void multMatrixVecf(float[] m_in,
                  int m_in_off,
                  float[] v_in,
                  int v_in_off,
                  float[] v_out)

Parameters:

m_in - 4x4 matrix in column-major order

m_in_off -

v_in - 4-component column-vector

v_out - m_in * v_in

multMatrixVecf

public static final void multMatrixVecf(float[] m_in,
                  float[] v_in,
                  float[] v_out)

Parameters:

m_in - 4x4 matrix in column-major order

m_in_off -

v_in - 4-component column-vector

v_out - m_in * v_in

multMatrixVecf

public static final void multMatrixVecf(FloatBuffer m_in,
                  FloatBuffer v_in,
                  FloatBuffer v_out)

Parameters:

m_in - 4x4 matrix in column-major order

v_in - 4-component column-vector

v_out - m_in * v_in