Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Im trying to write a little game with third-person-camera and Im just wondering about gluLookAt function. It works with Opengl 1.1, but Im using 3.2 one so I need something that can return Matrix4f to me, but I didnt find anything on the Internet except some code in C++ and I found it extremely hard to translate it to the LWJGL (their API's are not the same, no sir). For example, I tried to remake this code (This link) :

// ----------------------------------------------------
// View Matrix
// note: it assumes the camera is not tilted,
// i.e. a vertical up vector (remmeber gluLookAt?)

void setCamera(float posX, float posY, float posZ,
           float lookAtX, float lookAtY, float lookAtZ) {

float dir[3], right[3], up[3];

up[0] = 0.0f;   up[1] = 1.0f;   up[2] = 0.0f;

dir[0] =  (lookAtX - posX);
dir[1] =  (lookAtY - posY);
dir[2] =  (lookAtZ - posZ);



float aux[16];

viewMatrix[0]  = right[0];
viewMatrix[4]  = right[1];
viewMatrix[8]  = right[2];
viewMatrix[12] = 0.0f;

viewMatrix[1]  = up[0];
viewMatrix[5]  = up[1];
viewMatrix[9]  = up[2];
viewMatrix[13] = 0.0f;

viewMatrix[2]  = -dir[0];
viewMatrix[6]  = -dir[1];
viewMatrix[10] = -dir[2];
viewMatrix[14] =  0.0f;

viewMatrix[3]  = 0.0f;
viewMatrix[7]  = 0.0f;
viewMatrix[11] = 0.0f;
viewMatrix[15] = 1.0f;

setTranslationMatrix(aux, -posX, -posY, -posZ);

multMatrix(viewMatrix, aux);

I can understand everything untill "float aux[16]", then it just gets messy in my mind, especially in the end. Can someone make it clear for me? Maybe someone already made "gluLookAt-clone" or something?

EDIT2: thank you, Brett, now I must understand how to express that in code). You say that "aux" is a matrix, but we give it only 3 floats, so its better be a vector, BUT if it is a vector, so how do I multiply it with 4x4 ViewMatrix? And I cant find a way to just fill Matrix4f with numbers, there is no methods in lib to do that (most likely that because Im noob and I cant find it, but hey, I really cant)

FINAL EDIT: finaly I got it to work. I just wasnt understanding full matrix stuff that was required. Here is final working code, if someone interested(I guess not but whatever)). To deal with it, dont forget to setup projection matrix in the begining.

void setCamera(float posX, float posY, float posZ,
            float lookAtX, float lookAtY, float lookAtZ) {
 Vector3f dir = new Vector3f(lookAtX - posX, lookAtY - posY, lookAtZ - posZ);
 Vector3f up = new Vector3f(0, 1f, 0);
 Vector3f right = new Vector3f();



 Matrix4f aux = new Matrix4f();

 viewMatrix = new Matrix4f();
 viewMatrix.m00 = right.getX();
 viewMatrix.m01  = right.getY();
 viewMatrix.m02 = right.getZ();
 viewMatrix.m03 = 0.0f;

 viewMatrix.m10  = up.getX();
 viewMatrix.m11  = up.getY();
 viewMatrix.m12 = up.getZ();
 viewMatrix.m13 = 0.0f;

 viewMatrix.m20 = -dir.getX();
 viewMatrix.m21  = -dir.getY();
 viewMatrix.m22 = -dir.getZ();
 viewMatrix.m23 =  0.0f;

 viewMatrix.m30  = 0.0f;
 viewMatrix.m31  = 0.0f;
 viewMatrix.m32 = 0.0f;
 viewMatrix.m33 = 1.0f;

//setup aux as a translation matrix by placing positions in the last column
aux.m30 = -posX;
aux.m31 = -posY;
aux.m32 = -posZ;

//multiplication(in fact translation) viewMatrix with aux
 Matrix4f.mul(viewMatrix, aux, viewMatrix);
share|improve this question
I think you're confused about a few things. The posted code isn't making use of GL at all - just C functions elsewhere in the code. GL 3.2 (core profile) doesn't provide support for matrix manipulation (glMultMatrix, glTranslate, etc.) - e.g., glUniformMatrix4fv is used to update a shader's uniform variable of type mat4. –  Brett Hale Dec 14 '12 at 22:34
using GL3.2 you can use Matrix4f.mul, Matrix4f.translate, and etc. because you must handle matrixes by yourself, not to let gl do that, like in GL11 –  TomatoMato Dec 15 '12 at 9:12
in gluLookAt code for GL11 method tells GL multiply and translate matrixes, but I need gluLookAt that can do that by itself, using Matrix4f commands. –  TomatoMato Dec 15 '12 at 9:17

3 Answers 3

up vote 1 down vote accepted

I have a first-person camera class that I use (on OpenGL 3.2) which handles movement: x, y and z positions as well as pitch, yaw and roll. The way that I do this is update positions each cycle and a part of rendering I apply these updates from the camera by creating a new view matrix and sending it as a uniform to my vertex shader.

Here is the method that accomplishes this:

public void applyTranslations(int uniformLocation) {
    viewMatrix = new Matrix4f();
    Matrix4f.rotate(MatrixUtils.degreesToRadians(pitch), new Vector3f(1, 0, 0), viewMatrix, viewMatrix);
    Matrix4f.rotate(MatrixUtils.degreesToRadians(yaw), new Vector3f(0, 1, 0), viewMatrix, viewMatrix);
    Matrix4f.rotate(MatrixUtils.degreesToRadians(roll), new Vector3f(0, 0, 1), viewMatrix, viewMatrix);
    Matrix4f.translate(new Vector3f(-x, -y, -z), viewMatrix, viewMatrix);
    viewMatrix.store(matrix44Buffer); matrix44Buffer.flip();
    glUniformMatrix4(uniformLocation, false, matrix44Buffer);

Where uniformLocation is the location of my viewMatrix uniform within my shaders.

Steps are to:

  1. Create a new 4x4 matrix
  2. Apply rotations for x, y and z axes
  3. Apply translation for the x, y and z axes
  4. Send matrix to shaders
share|improve this answer

The code is just populating the matrix as described in the gluLookAt() documentation.

share|improve this answer

Up until float aux[16], the code is creating an orthonormal basis (3 mutually perpendicular vectors as 'axes'). The properties of orthogonal rotation matrices allow viewMatrix elements to be set directly. aux is then (presumably) populated as a translation matrix, and the transforms are then concatenated with multMatrix.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.