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#version 330
// Gouraud Shader Example
// INPUTS:
// uniform = variables passed in from the C++ code
// model and camera matrices:
uniform mat4 model_view_matrix;
uniform mat4 normal_matrix;
uniform mat4 proj_matrix;
// properties of the light:
uniform vec3 light_in_eye_space;
uniform vec4 Ia, Id, Is;
// properties of the material we are lighting:
uniform vec4 ka, kd, ks;
uniform float s;
// these variables come from the mesh data stored in buffers in gfx card memory
layout(location = 0) in vec3 vertex;
layout(location = 1) in vec3 normal;
// OUTPUT TO SEND TO THE RASTERIZER FOR THIS VERTEX:
// for Gouraud shading, the key output of the vertex shader is the color
// calculated based on lighting this vertex
out vec4 color;
void main() {
// transform the vertex position into "eye space"
vec3 v;
// unit vector from the vertex to the light
vec3 l;
// unit vector from the vertex to the eye point, which is at 0,0,0 in "eye space"
vec3 e;
// normal transformed into "eye space"
vec3 n;
// halfway vector
vec3 h;
// calculating lighting output the color for this vertex
// ...
// do the standard projection of the incoming vertex
gl_Position = proj_matrix * model_view_matrix * vec4(vertex,1);
}
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