# How do you transform a directional light to screen coordinates in modern GLSL?

I am switching my shaders away from relying on using the OpenGL fixed function pipeline. Previously, OpenGL automatically transformed the lights for me, but now I need to do it myself.

I have the following GLSL code in my vertex shader:

``````//compute all of the light vectors. we want normalized vectors
//from the vertex towards the light
for(int i=0;i < NUM_LIGHTS; i++)
{
//if w is 0, it's a directional light, it is a vector
//pointing from the world towards the light source
if(u_lightPos[i].w == 0)
{
vec3 transformedLight = normalize(vec3(??? * u_lightPos[i]));
v_lightDir[i] = transformedLight;
}
else
{
//this is a positional light, transform it by the view*projection matrix
vec4 transformedLight = u_vp_matrix * u_lightPos[i];

//subtract the vertex from the light to get a vector from the vertex to the light
v_lightDir[i] = normalize(vec3(transformedLight - gl_Position));
}
}
``````

What do I replace the ??? with in the line `vec3 transformedLight = normalize(vec3(??? * u_lightPos[i]));`?

I already have the following matrices as inputs:

``````uniform mat4 u_mvp_matrix;//model matrix*view matrix*projection matrix
uniform mat4 u_vp_matrix;//view matrix*projection matrix
uniform mat3 u_normal_matrix;//normal matrix for this model
``````

I don't think it's any of these. It's obviously not the mvp matrix or the normal matrix, because those are specific to the current model, and I'm trying to convert to view coordinates. I don't think it's the vp matrix either though, because that includes translations and I don't want to translate a vector.

Can I compute the matrix that I need from what is currently given to the shader, and if so, what do I need to compute? If not, what matrix do I need to add and how should it be computed?

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