I've been learning OpenGL for the past couple of weeks and I've run into some trouble implementing a Phong shader. It appears to do no interpolation between vertexes despite my use of the smooth
qualifier. Am I missing something here? To give credit where credit is due, the code for the vertex and fragment shaders cribs heavily from the OpenGL SuperBible Fifth Edition. I would highly recommend this book!
Vertex Shader:
#version 330
in vec4 vVertex;
in vec3 vNormal;
uniform mat4 mvpMatrix; // mvp = ModelViewProjection
uniform mat4 mvMatrix; // mv = ModelView
uniform mat3 normalMatrix;
uniform vec3 vLightPosition;
smooth out vec3 vVaryingNormal;
smooth out vec3 vVaryingLightDir;
void main(void) {
vVaryingNormal = normalMatrix * vNormal;
vec4 vPosition4 = mvMatrix * vVertex;
vec3 vPosition3 = vPosition4.xyz / vPosition4.w;
vVaryingLightDir = normalize(vLightPosition - vPosition3);
gl_Position = mvpMatrix * vVertex;
}
Fragment Shader:
#version 330
out vec4 vFragColor;
uniform vec4 ambientColor;
uniform vec4 diffuseColor;
uniform vec4 specularColor;
smooth in vec3 vVaryingNormal;
smooth in vec3 vVaryingLightDir;
void main(void) {
float diff = max(0.0, dot(normalize(vVaryingNormal), normalize(vVaryingLightDir)));
vFragColor = diff * diffuseColor;
vFragColor += ambientColor;
vec3 vReflection = normalize(reflect(-normalize(vVaryingLightDir),normalize(vVaryingNormal)));
float spec = max(0.0, dot(normalize(vVaryingNormal), vReflection));
if(diff != 0) {
float fSpec = pow(spec, 32.0);
vFragColor.rgb += vec3(fSpec, fSpec, fSpec);
}
}
This (public domain) image from Wikipedia shows exactly what sort of image I'm getting and what I'm aiming for -- I'm getting the "flat" image but I want the "Phong" image.
Any help would be greatly appreciated. Thank you!
edit: If it makes a difference, I'm using PyOpenGL 3.0.1 and Python 2.6.
edit2:
It turns out the problem was with my geometry; Kos was correct. For anyone else that's having this problem with Blender models, Kos pointed out that doing Edit->Faces->Set Smooth
does the trick. I found that Wings 3D worked "out of the box."
As an addition to this answer, here is a simple geometry shader which will let you visualize your normals. Modify the accompanying vertex shader as needed based on your attribute locations and how you send your matrices.
But first, a picture of a giant bunny head from our friend the Stanford bunny as an example of the result !
Major warning: do note that I get away with transforming the normals with the modelview matrix instead of a proper normal matrix. This won't work correctly if your modelview contains non uniform scaling. Also, the length of your normals won't be correct but that matters little if you just want to check their direction.
Vertex shader:
#version 330
layout(location = 0) in vec4 position;
layout(location = 1) in vec4 normal;
layout(location = 2) in mat4 mv;
out Data
{
vec4 position;
vec4 normal;
vec4 color;
mat4 mvp;
} vdata;
uniform mat4 projection;
void main()
{
vdata.mvp = projection * mv;
vdata.position = position;
vdata.normal = normal;
}
Geometry shader:
#version 330
layout(triangles) in;
layout(line_strip, max_vertices = 6) out;
in Data
{
vec4 position;
vec4 normal;
vec4 color;
mat4 mvp;
} vdata[3];
out Data
{
vec4 color;
} gdata;
void main()
{
const vec4 green = vec4(0.0f, 1.0f, 0.0f, 1.0f);
const vec4 blue = vec4(0.0f, 0.0f, 1.0f, 1.0f);
for (int i = 0; i < 3; i++)
{
gl_Position = vdata[i].mvp * vdata[i].position;
gdata.color = green;
EmitVertex();
gl_Position = vdata[i].mvp * (vdata[i].position + vdata[i].normal);
gdata.color = blue;
EmitVertex();
EndPrimitive();
}
}
Fragment shader:
#version 330
in Data
{
vec4 color;
} gdata;
out vec4 outputColor;
void main()
{
outputColor = gdata.color;
}