I try to implement point lights in OpenGL with GLSL. I send all the required data to the shaders. For simplicity I only use the diffuse light here.
My example shows a huge triangle which I want to illuminate with a single light source. The light source is shown as a small blue triangle.
For diffuse light I need to know the angle between the light and the surface. Therefore, I compute the normals and the light's direction. The dot-product will then give me a number between -1 and 1 whereas everything between 0 and 1 is illuminated.
However, here I am stuck because this angle is computed incorrectly in my example. Since it is hard to debug shaders, I used several outputs as the color of my surface. I used the normal as the color for the triangle and wherever the light was, the surface was always green. That is, the normals point up the y-axis and therefore they are computed right. That is, the light's direction must be wrong. However, I can't find the reason why it is wrong. The light's position and the vertex' position are passed in world space to the vertex shader, which then transforms them to eye space, compute the light's direction and pass this to the fragment shader:
vec4 pos = modelview_matrix * <input vertex>; vec4 lightPos = modelview_matrix * <light position>; vec3 lightDir = normalize(lightPos.xyz - pos.xyz);
float NdotL = max(dot(normalize(<correct normal>), normalize(lightDir)), 0.0); gl_FragColor = vec4(1.0, NdotL, 0.0, 1.0);
I've appended some pictures of this example which definitely show, that the interpolation is really weird. I know want to know whether the code I pasted is correct or whether you need to know more of the code. FUrthermore, is this interpolation behaviour normal or is it a bug in my code?
Especially the first picture shows that the center spot of the light is NOT directly under the light but slightly moved to the center of the triangle.
If I pass "pos" to the fragment shader (that is, it is interpolated) and then compute "lightDir" in the fragment shader, everything works fine.