Prepare for Rn -> Rm surfaces
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PedroEdiaz
@@ -9,31 +9,45 @@
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#define M_PI 3.14159265358979323846
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#endif
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void mobius(float *d_surface, int i, int j, int grid_size)
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void mobius(float *d_surface, int * coord, int grid_size)
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{
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const float width = 0.5;
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float u = (2 * M_PI) * ((float)i / grid_size);
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float v = (2 * width) * ((float)j / grid_size) - width;
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float u = (2 * M_PI) * ((float)coord[0] / grid_size);
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float v = (2 * width) * ((float)coord[1] / grid_size) - width;
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d_surface[0] = cos(u) + v * cos(u / 2) * cos(u);
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d_surface[1] = sin(u) + v * cos(u / 2) * sin(u);
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d_surface[2] = v * sin(u / 2);
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}
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void torus(float *d_surface, int i, int j, int grid_size)
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void torus(float *d_surface, int * coord, int grid_size)
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{
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float u = (2 * M_PI) * ((float)i / grid_size);
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float v = (2 * M_PI) * ((float)j / grid_size);
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float u = (2 * M_PI) * ((float)coord[0] / grid_size);
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float v = (2 * M_PI) * ((float)coord[1] / grid_size);
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d_surface[0] = (1 + 0.5 * cos(v)) * cos(u);
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d_surface[1] = (1 + 0.5 * cos(v)) * sin(u);
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d_surface[2] = 0.5 * sin(v);
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}
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void klein(float *d_surface, int i, int j, int grid_size)
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void torus_5d(float *d_surface, int * coord, int grid_size)
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{
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float u = (2 * M_PI) * ((float)i / grid_size);
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float v = (2 * M_PI) * ((float)j / grid_size);
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float u = (2 * M_PI) * ((float)coord[0] / grid_size);
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float v = (2 * M_PI) * ((float)coord[1] / grid_size);
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float r1 = (float)coord[2] / grid_size;
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float r2 = (float)coord[3] / grid_size;
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d_surface[0] = (r1 + r2 * cos(v)) * cos(u);
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d_surface[1] = (r1 + r2 * cos(v)) * sin(u);
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d_surface[2] = r2 * sin(v);
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d_surface[3] = r1;
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d_surface[4] = r2;
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}
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void klein(float *d_surface, int * coord, int grid_size)
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{
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float u = (2 * M_PI) * ((float)coord[0] / grid_size);
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float v = (2 * M_PI) * ((float)coord[1]/ grid_size);
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d_surface[0] = (0.5 * cos(v) + 0.5) * cos(u);
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d_surface[1] = (0.5 * cos(v) + 0.5) * sin(u);
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@@ -41,7 +55,7 @@ void klein(float *d_surface, int i, int j, int grid_size)
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d_surface[3] = sin(v) * sin(u / 2);
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}
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typedef void (*function_t)(float *, int, int, int);
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typedef void (*function_t)(float *, int *, int);
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float *generate_data_surface(int grid_size, unsigned char *m)
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{
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@@ -52,6 +66,7 @@ float *generate_data_surface(int grid_size, unsigned char *m)
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f = klein;
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*m = 4;
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size = grid_size * grid_size * 6 * (*m);
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d_surface = malloc((size + 1) * sizeof(float));
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d_surface[0] = size;
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@@ -61,19 +76,19 @@ float *generate_data_surface(int grid_size, unsigned char *m)
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for (j = 0; j < grid_size; j++)
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{
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// triangle 1, Front
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f(&d_surface[k + 1], i, j, grid_size);
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f(&d_surface[k + 1], (int[2]){i, j}, grid_size);
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k += *m;
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f(&d_surface[k + 1], i + 1, j, grid_size);
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f(&d_surface[k + 1], (int[2]){i + 1, j}, grid_size);
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k += *m;
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f(&d_surface[k + 1], i + 1, j + 1, grid_size);
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f(&d_surface[k + 1], (int[2]){i + 1, j + 1}, grid_size);
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k += *m;
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// triangle 2, Back
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f(&d_surface[k + 1], i, j, grid_size);
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f(&d_surface[k + 1], (int[2]){i, j}, grid_size);
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k += *m;
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f(&d_surface[k + 1], i, j + 1, grid_size);
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f(&d_surface[k + 1], (int[2]){i, j + 1}, grid_size);
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k += *m;
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f(&d_surface[k + 1], i + 1, j + 1, grid_size);
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f(&d_surface[k + 1], (int[2]){i + 1, j + 1}, grid_size);
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k += *m;
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}
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}
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