I am using `glm::lookAt`

to get a matrix to transform the world by. This works fine, I can generate the matrix, the feed it into the shader, and it all works. What I now need to do is transform an arbitrary vector (ie 100,100,100,1) by the `lookAt`

matrix. For some reason, I get garbage values

```
glm::mat4 model = glm::lookAt(glm::vec3(current_pos.x,
current_pos.y,
current_pos.z),
glm::vec3(current_pos.x + dir.x,
current_pos.y + dir.y,
current_pos.z + dir.z),
glm::vec3(up.x,up.y,up.z));
GLfloat fmodel[16] =
{
model[0][0],
model[0][1],
model[0][2],
model[0][3],
model[1][0],
model[1][1],
model[1][2],
model[1][3],
model[2][0],
model[2][1],
model[2][2],
model[2][3],
model[3][0],
model[3][1],
model[3][2],
model[3][3]
};
```

A printout of `model`

's values: `0,1,2,3,0,1,2,3,0,1,2,3,0,1,2,3`

I am calculating the point using `model * vec4(x, y, z, 1)`

The matrix is duplicated so I can pass it as a uniform. Both using the original matrix an constructing the matrix from the array yield identical results.

EDIT

Printing code is as follows:

```
for (unsigned i = 0; i < 16; ++i)
printf("%d,", fmodel[i]);
```

This yields the output of `3,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0`

no matter what my vectors are

`model`

is already a`float[16]`

array, – Grimmy Jun 22 '13 at 0:37`current_pos`

,`dir`

, and`up`

do you feed into`lookat`

? There must be some mistake in your printing code, as`glm::lookat`

can't possibly generate such a matrix. Side note: Use`glm::value_ptr()`

on a matrix/vector to get a float array. – Andreas Haferburg Jun 22 '13 at 17:30`current_pos`

is initially 1.5,100,6.`dir`

is a normalized vector pointing along -z.`up`

points +y. However, when these change, the matrix output doesn't. I was unaware of`glm::value_ptr()`

. I will update the code to reflect – Seven Hundred and Forty-Two Jun 23 '13 at 22:12