I am trying to shade a sphere.I have no idea where to start from. I calculated the vertices, and connected them by using GL_TRIANGLE_FAN, and I also drew the normals to each vertex. The problem is that I have no idea how to even start doing some shading/lighting. I am using OpeGL 3+. Here is some of my code:
Sphere's Vertices Calculations (I found online and implemented):
void CreateUnitSphere(int dtheta,int dphi) //dtheta, dphi angle
{
GLdouble x,y,z;
GLdouble magnitude=0;
int no_vertice=-1;
int n;
int k;
int theta,phi;
const double PI = 3.1415926535897;
GLdouble DTOR = (PI/180);//degrees to radians
//setting the color to white
for (k=0; k<10296*3; k+=1)
{
sphere_vertices[k].color[0] = 1.0f;
sphere_vertices[k].color[1] = 1.0f;
sphere_vertices[k].color[2] = 1.0f;
}
for (theta=-90;theta<=90-dtheta;theta+=dtheta) {
for (phi=0;phi<=360-dphi;phi+=dphi) {
x = cos(theta*DTOR) * cos(phi*DTOR);
y = cos(theta*DTOR) * sin(phi*DTOR);
z = sin(theta*DTOR);
//calculating Vertex 1
no_vertice+=1;
sphere_vertices[no_vertice].position[0] = x;
sphere_vertices[no_vertice].position[1] = y;
sphere_vertices[no_vertice].position[2] = z;
x = cos((theta+dtheta)*DTOR) * cos(phi*DTOR);
y = cos((theta+dtheta)*DTOR) * sin(phi*DTOR);
z = sin((theta+dtheta)*DTOR);
//calculating Vertex 2
no_vertice+=1;
sphere_vertices[no_vertice].position[0] = x;
sphere_vertices[no_vertice].position[1] = y;
sphere_vertices[no_vertice].position[2] = z;
x = cos((theta+dtheta)*DTOR) * cos((phi+dphi)*DTOR);
y = cos((theta+dtheta)*DTOR) * sin((phi+dphi)*DTOR);
z = sin((theta+dtheta)*DTOR);
//calculating Vertex 3
no_vertice+=1;
sphere_vertices[no_vertice].position[0] = x;
sphere_vertices[no_vertice].position[1] = y;
sphere_vertices[no_vertice].position[2] = z;
if (theta > -90 && theta < 90) {
x = cos(theta*DTOR) * cos((phi+dphi)*DTOR);
y = cos(theta*DTOR) * sin((phi+dphi)*DTOR);
z = sin(theta*DTOR);
//calculating Vertex 4
no_vertice+=1;
sphere_vertices[no_vertice].position[0] = x;
sphere_vertices[no_vertice].position[1] = y;
sphere_vertices[no_vertice].position[2] = z;
}
}
}
no_vertice = -1;
int no_index=10296;
//calculate normals and add them to the array of vertices
for (no_vertice=0; no_vertice<=10296; no_vertice+=1) {
no_index+=1;
//getting the sphere's vertices
x=sphere_vertices[no_vertice].position[0];
y=sphere_vertices[no_vertice].position[1];
z=sphere_vertices[no_vertice].position[2];
//normalising vector "norm(Vertex - Center)"
magnitude = sqrt((x*x) + (y*y) + (z*z));
//adding the new vector (the one divided by the magnitude
sphere_vertices[no_index].position[0] = (x/magnitude)/0.8;
sphere_vertices[no_index].position[1] = (y/magnitude)/0.8;
sphere_vertices[no_index].position[2] = (z/magnitude)/0.8;
///adding the vertex's normal (line drawing issue)
no_index+=1;
sphere_vertices[no_index].position[0] = sphere_vertices[no_vertice].position[0];
sphere_vertices[no_index].position[1] = sphere_vertices[no_vertice].position[1];
sphere_vertices[no_index].position[2] = sphere_vertices[no_vertice].position[2];
}
}
Here is my Sphere without the "GL_TRIANGLE_FAN", JUST "GL_LINE_STRIP" and this is how I use "glDrawArrays" :
glDrawArrays(GL_LINE_STRIP, 0, 10296);
glDrawArrays(GL_LINES, 10297, 30888);
From 0-10296 are the Sphere's Vertices. From 10297-30888 are the Sphere's Normal Vertices.
Here is my Vertex file:
precision highp float;
in vec3 in_Position; //declare position
in vec3 in_Color;
// mvpmatrix is the result of multiplying the model, view, and projection matrices */
uniform mat4 mvpmatrix;
out vec3 ex_Color;
void main(void) {
// Multiply the mvp matrix by the vertex to obtain our final vertex position (mvp was created in *.cpp)
gl_Position = mvpmatrix * vec4(in_Position, 1.0);
ex_Color = in_Color;
}
and my Fragment file
#version 330
precision highp float;
in vec3 ex_Color;
out vec4 gl_FragColor;
void main(void) {
gl_FragColor = vec4(ex_Color,1.0);
}
Now I know that I need to pass the normals to the vertice and fragment shader, but how do I do that and how/where do I implement the light calculations, linear interpolation?? Thanks