You have to compute the matrix manually and then pass it to OpenGL.

## Computing the matrix

This snippet of code was lifted from geeks3d via opengl.org.

```
void BuildPerspProjMat(float *m, float fov, float aspect,
float znear, float zfar)
{
float ymax = znear * tan(fov * PI_OVER_360);
float ymin = -ymax;
float xmax = ymax * aspect;
float xmin = ymin * aspect;
float width = xymax - xmin;
float height = xymax - ymin;
float depth = zfar - znear;
float q = -(zfar + znear) / depth;
float qn = -2 * (zfar * znear) / depth;
float w = 2 * znear / width;
w = w / aspect;
float h = 2 * znear / height;
m[0] = w;
m[1] = 0;
m[2] = 0;
m[3] = 0;
m[4] = 0;
m[5] = h;
m[6] = 0;
m[7] = 0;
m[8] = 0;
m[9] = 0;
m[10] = q;
m[11] = -1;
m[12] = 0;
m[13] = 0;
m[14] = qn;
m[15] = 0;
}
```

There is a C++ library called OpenGL Mathematics that may be useful.

## Loading the Matrix in OpenGL 3.1

I am still new to the OpenGL 3.1 API, but you need to update a matrix on the GPU and then make use of it in your vertex shader to get the proper perspective. The following code just loads the matrix using glUniform4fv onto the video card.

```
{
glUseProgram(shaderId);
glUniformMatrix4fv(glGetUniformLocation(shaderId, "u_proj_matrix"),
1, GL_FALSE, theProjectionMatrix);
RenderObject();
glUseProgram(0);
}
```

A simple vertex shader from a random blog (found through stack overflow).

```
attribute vec4 a_position;
attribute vec4 a_color;
varying vec4 v_color;
uniform mat4 u_proj_matrix;
uniform mat4 u_model_matrix;
void main() {
mat4 mvp_matrix = u_proj_matrix * u_model_matrix;
v_color = a_color;
gl_Position = mvp_matrix * a_position;
}
```