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.

I am writing a shader according to the Phong Model. I am trying to implement this equation:

enter image description here

where n is the normal, l is direction to light, v is the direction to the camera, and r is the light reflection. The equations are described in more detail in the Wikipedia article.

As of right now, I am only testing on directional light sources so there is no r^2 falloff. The ambient term is added outside the below function and it works well. The function maxDot3 returns 0 if the dot product is negative, as it usually done in the Phong model.

Here's my code implementing the above equation:

#include "PhongMaterial.h"

PhongMaterial::PhongMaterial(const Vec3f &diffuseColor, const Vec3f &specularColor, 
                            float exponent,const Vec3f &transparentColor, 
                             const Vec3f &reflectiveColor,float indexOfRefraction){

            _diffuseColor = diffuseColor;
            _specularColor = specularColor;
            _exponent = exponent;
            _reflectiveColor = reflectiveColor;
            _transparentColor = transparentColor;


Vec3f PhongMaterial::Shade(const Ray &ray, const Hit &hit, 
                    const Vec3f &dirToLight, const Vec3f &lightColor) const{

        Vec3f n,l,v,r;
        float nl;

        l = dirToLight;
        n = hit.getNormal();
        v = -1.0*(hit.getIntersectionPoint() - ray.getOrigin());


        nl = n.maxDot3(l);
        r = 2*nl*(n-l);

        return (_diffuseColor*nl + _specularColor*powf(v.maxDot3(r),_exponent))*lightColor;

Unfortunately, the specular term seems to disappear for some reason. My output:

enter image description here

Correct output:

enter image description here

The first sphere only has diffuse and ambient shading. It looks right. The rest have specular terms and produce incorrect results. What is wrong with my implementation?

share|improve this question
Just a quick thought: all but the specular term seems to be fine. So while your general equation may be correct, there is almost certainly something wrong with calculating the r vector. My first idea was that you should try to normalize the nl vector, but I'm not sure if it makes sense. Also I'm really wondering... Why are you implementing this code in C++ instead of a shader? –  Elvithari Jun 10 at 8:39
Well, this is not an answer to your question, but it can help. I had a lot of trouble implemeng phong too, and never solved it. The solution I used in the end was en.wikipedia.org/wiki/Blinn%E2%80%93Phong_shading_model and it worked correctly. –  wondra Jun 10 at 9:27

1 Answer 1

up vote 2 down vote accepted

This line looks wrong:

r = 2*nl*(n-l);

2*nl is a scalar, so this is in the direction of n - l, which is clearly the wrong direction (you also normalize the result, so multiplying by 2*nl does nothing). Consider when n and l point in the same direction. The result r should also be in the same direction but this formula produces the zero vector.

I think your parentheses are misplaced. I believe it should be:

r = (2*nl*n) - l;

We can check this formula on two boundaries easily. When n and l point in the same direction, nl is 1 so the result is also the same vector which is correct. When l is tangent to the surface, nl is zero and the result is -l which is also correct.

share|improve this answer
thanks..good catch! –  Babbu Maan Jun 10 at 17:45

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.