#include "rsgentex.h" #ifdef RS_USE_C_LIBS #include #include #endif #include "rsnoise.h" #include "rs/rsplatform.h" #include "rs/rsmx.h" /* Procedural Texture Generator by Roman Shuvalov */ rs_gen_reg_t rs_gen_reg; void rs_gen_func_mult_add_value(int dest, int src, float val_mult, float val_add) { int i; for (i = 0; i < rs_gen_reg.tex_length; i++ ) { rs_gen_reg.tex[dest*rs_gen_reg.tex_length + i] = rs_gen_reg.tex[src*rs_gen_reg.tex_length + i] * val_mult + val_add; }; }; void rs_gen_func_perlin(int dest, float freq, int octaves, float persistence, float seed) { rs_perlin_configure(freq, octaves, persistence, seed, rs_gen_reg.tex_size); int i, j; for (i = 0; i < rs_gen_reg.tex_size; i++) { for (j = 0; j < rs_gen_reg.tex_size; j++) { rs_gen_reg.tex[dest*rs_gen_reg.tex_length + i*rs_gen_reg.tex_size + j] = 0.5 + 0.5*rs_perlin(i, j); // rs_perlin(i, j); }; }; }; void rs_gen_func_quads(int dest, float freq, int octaves, float persistence, float seed) { rs_perlin_configure(freq, octaves, persistence, seed, rs_gen_reg.tex_size); int i, j; for (i = 0; i < rs_gen_reg.tex_size; i++) { for (j = 0; j < rs_gen_reg.tex_size; j++) { rs_gen_reg.tex[dest*rs_gen_reg.tex_length + i*rs_gen_reg.tex_size + j] = 0.5 + 0.5*rs_quad_noise(i, j); // rs_perlin(i, j); }; }; }; void rs_gen_func_cell(int dest, int seed, int num_points, signed short* p_arr, float k1, float pow1, float k2, float pow2, float k3, float pow3) { int x[num_points]; int y[num_points]; int i, j, p, dx, dy; int ts = rs_gen_reg.tex_size; float mindist, mindist2, mindist3; float dist; if (p_arr == NULL) { for (p = 0; p < num_points; p++) { x[p] = (0.5 + 0.5*rs_noise(p, seed)) * ts; y[p] = (0.5 + 0.5*rs_noise(p, seed+100)) * ts; // x[p] = (p * 18 ) % ts; // y[p] = (p * 33 ) % ts; } } else { for (p = 0; p < num_points; p++) { x[p] = rs_gen_reg.cell_scale * p_arr[p*2 + 0]; y[p] = rs_gen_reg.cell_scale * p_arr[p*2 + 1]; // x[p] = (p * 18 ) % ts; // y[p] = (p * 33 ) % ts; } }; int cyclic = ((p_arr!=NULL) && (seed!=0)) ? 0 : 1; // float maxdist = 0.0; // float mindx, mindy, maxdx, maxdy; int ind_index = 0; int ind_index2 = 0; for (i = 0; i < ts; i++) { for (j = 0; j < ts; j++) { // distance to near point mindist = ts; for (p = 0; p < num_points; p++) { dx = (ts/2 - abs( abs(j-x[p]) - ts/2))*cyclic + ( abs(j-x[p]) )*(1-cyclic); dy = (ts/2 - abs( abs(i-y[p]) - ts/2))*cyclic + ( abs(i-y[p]) )*(1-cyclic); dist = sqrtf( RS_SQR(dx) + RS_SQR(dy) ); if (dist < mindist) { mindist = dist; ind_index = p; }; }; mindist2 = ts; for (p = 0; p < num_points; p++) { if (p == ind_index) { continue; }; dx = (ts/2 - abs( abs(j-x[p]) - ts/2))*cyclic + ( abs(j-x[p]) )*(1-cyclic); dy = (ts/2 - abs( abs(i-y[p]) - ts/2))*cyclic + ( abs(i-y[p]) )*(1-cyclic); dist = sqrtf( RS_SQR(dx) + RS_SQR(dy) ); if (dist < mindist2) { mindist2 = dist; ind_index2 = p; }; }; mindist3 = ts; for (p = 0; p < num_points; p++) { if ( (p == ind_index) || (p == ind_index2) ) { continue; }; dx = (ts/2 - abs( abs(j-x[p]) - ts/2))*cyclic + ( abs(j-x[p]) )*(1-cyclic); dy = (ts/2 - abs( abs(i-y[p]) - ts/2))*cyclic + ( abs(i-y[p]) )*(1-cyclic); dist = sqrtf( RS_SQR(dx) + RS_SQR(dy) ); if (dist < mindist3) { mindist3 = dist; }; }; rs_gen_reg.tex[dest*rs_gen_reg.tex_length + i*rs_gen_reg.tex_size + j] = k1*rs_pow(mindist,pow1) + k2*rs_pow(mindist2,pow2) + k3*rs_pow(mindist3,pow3); // mindist2 * mindist3 + mindist; }; }; }; void rs_gen_func_adr(int dest, int src, int adr_x, int adr_y, float src_factor, float adr_factor) { int i, j; for (i = 0; i < rs_gen_reg.tex_size; i++) { for (j = 0; j < rs_gen_reg.tex_size; j++) { unsigned short u = src_factor*j + adr_factor*(rs_gen_reg.tex[adr_x*rs_gen_reg.tex_length + i*rs_gen_reg.tex_size + j] - 0.5) * rs_gen_reg.tex_size; unsigned short v = src_factor*i + adr_factor*(rs_gen_reg.tex[adr_y*rs_gen_reg.tex_length + i*rs_gen_reg.tex_size + j] - 0.5) * rs_gen_reg.tex_size; u %= rs_gen_reg.tex_size; v %= rs_gen_reg.tex_size; rs_gen_reg.tex[dest*rs_gen_reg.tex_length + i*rs_gen_reg.tex_size + j] = rs_gen_reg.tex[src*rs_gen_reg.tex_length + v*rs_gen_reg.tex_size + u]; }; }; }; void rs_gen_func_normalmap(int dest_r, int dest_g, int dest_b, int src, float k) { int i, j; float max_val = -111111.0; float min_val = 100000.0; for (i = 0; i < rs_gen_reg.tex_size; i++) { for (j = 0; j < rs_gen_reg.tex_size; j++) { unsigned short um = rs_gen_reg.tex_size + j-2; unsigned short vm = rs_gen_reg.tex_size + i-2; unsigned short u = j; unsigned short v = i; unsigned short up = j+2; unsigned short vp = i+2; um %= rs_gen_reg.tex_size; vm %= rs_gen_reg.tex_size; up %= rs_gen_reg.tex_size; vp %= rs_gen_reg.tex_size; // float val1 = rs_gen_reg.tex[src*rs_gen_reg.tex_length + v*rs_gen_reg.tex_size + u]; float val_xp = 2.0 * rs_gen_reg.tex[src*rs_gen_reg.tex_length + v*rs_gen_reg.tex_size + up] + rs_gen_reg.tex[src*rs_gen_reg.tex_length + vm*rs_gen_reg.tex_size + up] + rs_gen_reg.tex[src*rs_gen_reg.tex_length + vp*rs_gen_reg.tex_size + up]; float val_xm = 2.0 * rs_gen_reg.tex[src*rs_gen_reg.tex_length + v*rs_gen_reg.tex_size + um] + rs_gen_reg.tex[src*rs_gen_reg.tex_length + vm*rs_gen_reg.tex_size + um] + rs_gen_reg.tex[src*rs_gen_reg.tex_length + vp*rs_gen_reg.tex_size + um]; float val_yp = 2.0 * rs_gen_reg.tex[src*rs_gen_reg.tex_length + vp*rs_gen_reg.tex_size + u] + rs_gen_reg.tex[src*rs_gen_reg.tex_length + vp*rs_gen_reg.tex_size + um] + rs_gen_reg.tex[src*rs_gen_reg.tex_length + vp*rs_gen_reg.tex_size + up]; float val_ym = 2.0 * rs_gen_reg.tex[src*rs_gen_reg.tex_length + vm*rs_gen_reg.tex_size + u] + rs_gen_reg.tex[src*rs_gen_reg.tex_length + vm*rs_gen_reg.tex_size + um] + rs_gen_reg.tex[src*rs_gen_reg.tex_length + vm*rs_gen_reg.tex_size + up]; // float val_dx = rs_gen_reg.tex[src*rs_gen_reg.tex_length + v*rs_gen_reg.tex_size + u2] - val1; // float val_dy = rs_gen_reg.tex[src*rs_gen_reg.tex_length + v2*rs_gen_reg.tex_size + u] - val1; float val_dx = val_xp - val_xm; float val_dy = val_yp - val_ym; // val_dx = val_dx; // val_dy = -val_dy; // val_dx = atan(val_dx * rs_gen_reg.tex_size ) / (M_PI/2); // val_dy = atan(val_dy * rs_gen_reg.tex_size ) / (M_PI/2); float bump_scale = 128.0 / rs_gen_reg.tex_size / k; rs_vec3_t bump = rs_vec3_cross( rs_vec3_normalize(rs_vec3(bump_scale, 0.0, val_dy)), rs_vec3_normalize(rs_vec3(0.0, bump_scale, -val_dx))); float val_dz = sqrtf( 1.0 - (RS_SQR(k*val_dx) + RS_SQR(k*val_dy)) ); // val_dz = val_dz; // val_dz = 1.0 / 2.0; val_dx = 0.5 + 0.5*val_dx; val_dy = 0.5 + 0.5*val_dy; val_dz = 0.5 + 0.5*val_dz; max_val = rs_max(max_val, fabs(val_dx) ); // max_val = rs_max(max_val, fabs(val_dy) ); min_val = rs_min(min_val, val_dx); // min_val = rs_min(min_val, val_dy); // rs_gen_reg.tex[dest_r*rs_gen_reg.tex_length + i*rs_gen_reg.tex_size + j] = val_dy; // rs_gen_reg.tex[dest_g*rs_gen_reg.tex_length + i*rs_gen_reg.tex_size + j] = val_dx; // rs_gen_reg.tex[dest_b*rs_gen_reg.tex_length + i*rs_gen_reg.tex_size + j] = val_dz; rs_gen_reg.tex[dest_r*rs_gen_reg.tex_length + i*rs_gen_reg.tex_size + j] = 0.5 + 0.5*bump.x; rs_gen_reg.tex[dest_g*rs_gen_reg.tex_length + i*rs_gen_reg.tex_size + j] = 0.5 + 0.5*bump.y; rs_gen_reg.tex[dest_b*rs_gen_reg.tex_length + i*rs_gen_reg.tex_size + j] = 0.5 + 0.5*bump.z; }; }; ////// if (max_val < 0.001) { ////// DEBUG10f("WARNING, max_val of normalmap is too low (%.9f) \n", max_val); ////// max_val = 0.001; ////// }; ////// ////// max_val *= 1.0; ////// ////// for (i = 0; i < rs_gen_reg.tex_size; i++) { ////// for (j = 0; j < rs_gen_reg.tex_size; j++) { ////// ////// rs_gen_reg.tex[dest_r*rs_gen_reg.tex_length + i*rs_gen_reg.tex_size + j] /= max_val; ////// rs_gen_reg.tex[dest_g*rs_gen_reg.tex_length + i*rs_gen_reg.tex_size + j] /= max_val; ////// ////// rs_gen_reg.tex[dest_b*rs_gen_reg.tex_length + i*rs_gen_reg.tex_size + j] = ////// sqrtf( 1.0 - (RS_SQR(rs_gen_reg.tex[dest_r*rs_gen_reg.tex_length + i*rs_gen_reg.tex_size + j]) ////// + RS_SQR(rs_gen_reg.tex[dest_g*rs_gen_reg.tex_length + i*rs_gen_reg.tex_size + j])) ); ////// ////// ////// rs_gen_reg.tex[dest_r*rs_gen_reg.tex_length + i*rs_gen_reg.tex_size + j] = ////// 0.5 + 0.5*rs_gen_reg.tex[dest_r*rs_gen_reg.tex_length + i*rs_gen_reg.tex_size + j]; ////// rs_gen_reg.tex[dest_g*rs_gen_reg.tex_length + i*rs_gen_reg.tex_size + j] = ////// 0.5 + 0.5*rs_gen_reg.tex[dest_g*rs_gen_reg.tex_length + i*rs_gen_reg.tex_size + j]; ////// ////// //////// float val_dx = rs_gen_reg.tex[dest_r*rs_gen_reg.tex_length + i*rs_gen_reg.tex_size + j]; //////// float val_dy = rs_gen_reg.tex[dest_g*rs_gen_reg.tex_length + i*rs_gen_reg.tex_size + j]; //////// //////// float val_dz = sqrtf( 1.0 - (RS_SQR(k*val_dx) + RS_SQR(k*val_dy)) ); ////// //////// val_dx = 0.5 + 0.5*k*val_dx; //////// val_dy = 0.5 + 0.5*k*val_dy; //////// val_dz = 0.5 + 0.5*val_dz; ////// ////// ////// //rs_gen_reg.tex[dest_b*rs_gen_reg.tex_length + i*rs_gen_reg.tex_size + j] = val_dz; ////// ////// }; ////// }; // DEBUG10f("\n\nmax val %.3f \nmin %.3f \n", max_val, min_val); }; void rs_gen_func_radial(int dest, float x, float y, float radius, float v, float power) { x *= rs_gen_reg.tex_size; y *= rs_gen_reg.tex_size; radius *= rs_gen_reg.tex_size; float val; int i, j; for (i = 0; i < rs_gen_reg.tex_size; i++) { for (j = 0; j < rs_gen_reg.tex_size; j++) { val = rs_clamp(sqrt(RS_SQR(j-x) + RS_SQR(i-y)) / radius, 0.0, 1.0); val = pow(val, power); rs_gen_reg.tex[dest*rs_gen_reg.tex_length + i*rs_gen_reg.tex_size + j] = rs_gen_reg.tex[dest*rs_gen_reg.tex_length + i*rs_gen_reg.tex_size + j]*val + v*(1.0-val); // 0.5 + 0.5*rs_quad_noise(i, j); // rs_perlin(i, j); }; }; }; void rs_gen_func_gradient_v(int dest, float v, float power) { float val; int i, j; for (i = 0; i < rs_gen_reg.tex_size; i++) { val = rs_clamp( (float) (i) / rs_gen_reg.tex_size, 0.0, 1.0); val = pow(val, power); for (j = 0; j < rs_gen_reg.tex_size; j++) { rs_gen_reg.tex[dest*rs_gen_reg.tex_length + i*rs_gen_reg.tex_size + j] = rs_gen_reg.tex[dest*rs_gen_reg.tex_length + i*rs_gen_reg.tex_size + j]*val + v*(1.0-val); // 0.5 + 0.5*rs_quad_noise(i, j); // rs_perlin(i, j); }; }; }; void rs_gen_func_normalize(int dest, float vmin, float vmax) { // LAGGY !!!!!!!!!!!!! float val_min = rs_gen_reg.tex[dest*rs_gen_reg.tex_length]; float val_max = rs_gen_reg.tex[dest*rs_gen_reg.tex_length]; float f; int i, j; for (i = 0; i < rs_gen_reg.tex_size; i++) { for (j = 0; j < rs_gen_reg.tex_size; j++) { f = rs_gen_reg.tex[dest*rs_gen_reg.tex_length + i*rs_gen_reg.tex_size + j] ; val_max = rs_max(val_max, f); val_min = rs_min(val_min, f); }; }; float val_scale = (vmax - vmin) / (val_max - val_min) - vmin; for (i = 0; i < rs_gen_reg.tex_size; i++) { for (j = 0; j < rs_gen_reg.tex_size; j++) { rs_gen_reg.tex[dest*rs_gen_reg.tex_length + i*rs_gen_reg.tex_size + j] = vmin + val_scale * ( rs_gen_reg.tex[dest*rs_gen_reg.tex_length + i*rs_gen_reg.tex_size + j] - val_min); }; }; }; void rs_gen_func_clamp(int dest, float vmin, float vmax) { float val; int i, j; for (i = 0; i < rs_gen_reg.tex_size; i++) { for (j = 0; j < rs_gen_reg.tex_size; j++) { val = rs_gen_reg.tex[dest*rs_gen_reg.tex_length + i*rs_gen_reg.tex_size + j]; rs_gen_reg.tex[dest*rs_gen_reg.tex_length + i*rs_gen_reg.tex_size + j] = rs_clamp(val, vmin, vmax); }; }; }; void rs_gen_func_set(int dest, float val) { int i, j; for (i = 0; i < rs_gen_reg.tex_size; i++) { for (j = 0; j < rs_gen_reg.tex_size; j++) { rs_gen_reg.tex[dest*rs_gen_reg.tex_length + i*rs_gen_reg.tex_size + j] = val; }; }; }; void rs_gen_func_noise(int dest, int seed) { int i, j; for (i = 0; i < rs_gen_reg.tex_size; i++) { for (j = 0; j < rs_gen_reg.tex_size; j++) { rs_gen_reg.tex[dest*rs_gen_reg.tex_length + i*rs_gen_reg.tex_size + j] = rs_noise(i+seed, j+seed/100); }; }; }; void rs_gen_func_add(int dest, int src1, int src2, float k1, float k2) { int i; for (i = 0; i < rs_gen_reg.tex_length; i++ ) { rs_gen_reg.tex[dest*rs_gen_reg.tex_length + i] = rs_gen_reg.tex[src1*rs_gen_reg.tex_length + i] * k1 + rs_gen_reg.tex[src2*rs_gen_reg.tex_length + i] * k2; }; }; void rs_gen_func_add_lerped(int dest, int src1, int src2, float k1, float k2) { int i; for (i = 0; i < rs_gen_reg.tex_length; i++ ) { rs_gen_reg.tex[dest*rs_gen_reg.tex_length + i] = rs_gen_reg.tex[src1*rs_gen_reg.tex_length + i] * (1.0 - 0.5*rs_gen_reg.tex[src2*rs_gen_reg.tex_length + i]) + (1.0 - 0.5*rs_gen_reg.tex[src1*rs_gen_reg.tex_length + i]) * rs_gen_reg.tex[src2*rs_gen_reg.tex_length + i]; }; }; void rs_gen_func_lerp_parametric(int dest, int src1, int src2, int param) { int i; for (i = 0; i < rs_gen_reg.tex_length; i++ ) { rs_gen_reg.tex[dest*rs_gen_reg.tex_length + i] = rs_gen_reg.tex[src1*rs_gen_reg.tex_length + i] * rs_gen_reg.tex[param*rs_gen_reg.tex_length + i] + rs_gen_reg.tex[src2*rs_gen_reg.tex_length + i] * (1.0 - rs_gen_reg.tex[param*rs_gen_reg.tex_length + i]); }; }; void rs_gen_func_mult(int dest, int src1, int src2) { int i; for (i = 0; i < rs_gen_reg.tex_length; i++ ) { rs_gen_reg.tex[dest*rs_gen_reg.tex_length + i] = rs_gen_reg.tex[src1*rs_gen_reg.tex_length + i] * rs_gen_reg.tex[src2*rs_gen_reg.tex_length + i]; }; }; void rs_gen_init(int tex_count, int tex_size) { rs_gen_reg.tex_count = tex_count; rs_gen_reg.tex_size = tex_size; rs_gen_reg.tex_length = tex_size*tex_size; rs_gen_reg.tex = malloc(tex_count * tex_size * tex_size * 4); // float rs_gen_reg.tex_out = malloc(tex_size * tex_size * 4); // unsigned char RGBA, RGB rs_gen_tex_out_rgba_set(0.0, 0.0, 0.0, 0.0); }; void rs_gen_term() { free(rs_gen_reg.tex); free(rs_gen_reg.tex_out); }; void rs_gen_tex_out(int tex, int bpp) { int i; int j; for (i = 0; i < rs_gen_reg.tex_length; i++) { for (j = 0; j < bpp; j++) { rs_gen_reg.tex_out[i*bpp + j] = 255*rs_gen_reg.tex[tex*rs_gen_reg.tex_length + i]; }; }; }; void rs_gen_tex_out_rgb(int tex_r, int tex_g, int tex_b, float kr, float kg, float kb) { int bpp = 3; int i; for (i = 0; i < rs_gen_reg.tex_length; i++) { rs_gen_reg.tex_out[i*bpp + 0] += 255*kr*rs_gen_reg.tex[tex_r*rs_gen_reg.tex_length + i]; rs_gen_reg.tex_out[i*bpp + 1] += 255*kg*rs_gen_reg.tex[tex_g*rs_gen_reg.tex_length + i]; rs_gen_reg.tex_out[i*bpp + 2] += 255*kb*rs_gen_reg.tex[tex_b*rs_gen_reg.tex_length + i]; }; }; void rs_gen_tex_out_rgb_set(float r, float g, float b) { int bpp = 3; int i; for (i = 0; i < rs_gen_reg.tex_length; i++) { rs_gen_reg.tex_out[i*bpp + 0] = 255*r; rs_gen_reg.tex_out[i*bpp + 1] = 255*g; rs_gen_reg.tex_out[i*bpp + 2] = 255*b; }; }; void rs_gen_tex_out_rgba(int tex_r, int tex_g, int tex_b, int tex_a, float kr, float kg, float kb, float ka) { int bpp = 4; int i; for (i = 0; i < rs_gen_reg.tex_length; i++) { rs_gen_reg.tex_out[i*bpp + 0] += 255*kr*rs_gen_reg.tex[tex_r*rs_gen_reg.tex_length + i]; rs_gen_reg.tex_out[i*bpp + 1] += 255*kg*rs_gen_reg.tex[tex_g*rs_gen_reg.tex_length + i]; rs_gen_reg.tex_out[i*bpp + 2] += 255*kb*rs_gen_reg.tex[tex_b*rs_gen_reg.tex_length + i]; rs_gen_reg.tex_out[i*bpp + 3] += (tex_a<0) ? 255 : 255*ka*rs_gen_reg.tex[tex_a*rs_gen_reg.tex_length + i]; // <---- -1 for alpha=1, for KolibriOS }; }; void rs_gen_tex_out_rgba_set(float r, float g, float b, float a) { int bpp = 4; int i; for (i = 0; i < rs_gen_reg.tex_length; i++) { rs_gen_reg.tex_out[i*bpp + 0] = 255*r; rs_gen_reg.tex_out[i*bpp + 1] = 255*g; rs_gen_reg.tex_out[i*bpp + 2] = 255*b; rs_gen_reg.tex_out[i*bpp + 3] = 255*a; }; }; void rs_gen_func_apply_mask(int dest, unsigned char *mask_data) { int i, j; for (i = 0; i < rs_gen_reg.tex_size; i++) { for (j = 0; j < rs_gen_reg.tex_size; j++) { rs_gen_reg.tex[dest*rs_gen_reg.tex_length + i*rs_gen_reg.tex_size + j] *= (mask_data[ j*rs_gen_reg.tex_size/8 + i/8] & (1 << (7 - (i%8)) ) ) ? 1.0 : 0.0; }; }; }; void rs_gen_func_posterize(int dest, int colors_count) { int i; float f; for (i = 0; i < rs_gen_reg.tex_length; i++ ) { f = rs_gen_reg.tex[dest*rs_gen_reg.tex_length + i]; f *= (254.0/255.0 + colors_count); f = floor(f); f /= colors_count; rs_gen_reg.tex[dest*rs_gen_reg.tex_length + i] = f; }; }; void rs_gen_func_pow(int dest, int src, float p) { int i; for (i = 0; i < rs_gen_reg.tex_length; i++ ) { rs_gen_reg.tex[dest*rs_gen_reg.tex_length + i] = rs_pow( rs_gen_reg.tex[src*rs_gen_reg.tex_length + i], p ); }; }; void rs_gen_func_inv(int dest, int src, float p) { int i; for (i = 0; i < rs_gen_reg.tex_length; i++ ) { rs_gen_reg.tex[dest*rs_gen_reg.tex_length + i] = (1.0 / (1.0 + rs_pow( rs_gen_reg.tex[src*rs_gen_reg.tex_length + i], p ))); }; };