 Timestamp:
 May 28, 2009, 3:54:56 AM (11 years ago)
 File:

 1 edited
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libpipi/trunk/examples/img2twit.cpp
r3535 r3536 74 74 * this value breaks compatibility with other images. */ 75 75 #define POINTS_PER_CELL 2 76 77 /* Start with a random image (1), or with a good estimate (0)? */ 78 #define RANDOM_START 0 76 79 77 80 /* … … 116 119 117 120 #define RANGE_XY (RANGE_Y*RANGE_X) 118 #define RANGE_XYXY (RANGE_XY*RANGE_XY) 119 //#define RANGE_XYXY (RANGE_Y*RANGE_X*(RANGE_Y*RANGE_X+1)/2) 121 #define RANGE_XY2 (RANGE_Y*RANGE_X*(RANGE_Y*RANGE_X+1)/2) 120 122 #define RANGE_RXY (RANGE_Y*RANGE_X*RANGE_R) 121 123 #define RANGE_GRXY (RANGE_Y*RANGE_X*RANGE_R*RANGE_G) … … 147 149 HEADER_BITS = logf(RANGE_W * RANGE_H) / logf(2); 148 150 DATA_BITS = TOTAL_BITS  HEADER_BITS; 149 #if POINTS_PER_CELL == 1 151 #if POINTS_PER_CELL == 2 152 CELL_BITS = (2 * logf(RANGE_SBGR) + logf(RANGE_XY2)) / logf(2); 153 //CELL_BITS = 2 * logf(RANGE_SBGRXY) / logf(2); 154 #else 150 155 CELL_BITS = logf(RANGE_SBGRXY) / logf(2); 151 #else152 // TODO: implement the following shit153 //float coord_bits = logf((RANGE_Y * RANGE_X) * (RANGE_Y * RANGE_X + 1) / 2);154 //float other_bits = logf(RANGE_R * RANGE_G * RANGE_B * RANGE_S);155 //CELL_BITS = (coord_bits + 2 * other_bits) / logf(2);156 CELL_BITS = 2 * logf(RANGE_SBGRXY) / logf(2);157 156 #endif 158 157 TOTAL_CELLS = (int)(DATA_BITS / CELL_BITS); … … 509 508 float fy = (y  dy * RANGE_Y) / RANGE_Y; 510 509 511 int is = range2int(s, RANGE_S); 512 510 int iy = range2int(fy, RANGE_Y); 513 511 int ix = range2int(fx, RANGE_X); 514 int iy = range2int(fy, RANGE_Y);515 512 516 513 int ir = range2int(r, RANGE_R); … … 518 515 int ib = range2int(b, RANGE_B); 519 516 520 points[index] = iy + RANGE_Y * (ix + RANGE_X * (ib + RANGE_B * 521 (ig + (RANGE_R * ir + (RANGE_S * is))))); 517 int is = range2int(s, RANGE_S); 518 519 points[index] = iy + RANGE_Y * (ix + RANGE_X * (ir + RANGE_R * 520 (ig + (RANGE_G * ib + (RANGE_B * is))))); 522 521 } 523 522 … … 533 532 float fx = int2midrange(pt % RANGE_X, RANGE_X); pt /= RANGE_X; 534 533 534 *y = (fy + dy) * RANGE_Y /*+ 0.5 * (index & 1)*/; 535 535 *x = (fx + dx) * RANGE_X /*+ 0.5 * (index & 1)*/; 536 *y = (fy + dy) * RANGE_Y /*+ 0.5 * (index & 1)*/;537 536 538 537 if(final) 539 538 { 540 * b= int2fullrange(pt % RANGE_R, RANGE_R); pt /= RANGE_R;539 *r = int2fullrange(pt % RANGE_R, RANGE_R); pt /= RANGE_R; 541 540 *g = int2fullrange(pt % RANGE_G, RANGE_G); pt /= RANGE_G; 542 * r= int2fullrange(pt % RANGE_B, RANGE_B); pt /= RANGE_B;541 *b = int2fullrange(pt % RANGE_B, RANGE_B); pt /= RANGE_B; 543 542 } 544 543 else 545 544 { 546 * b= int2midrange(pt % RANGE_R, RANGE_R); pt /= RANGE_R;545 *r = int2midrange(pt % RANGE_R, RANGE_R); pt /= RANGE_R; 547 546 *g = int2midrange(pt % RANGE_G, RANGE_G); pt /= RANGE_G; 548 * r= int2midrange(pt % RANGE_B, RANGE_B); pt /= RANGE_B;547 *b = int2midrange(pt % RANGE_B, RANGE_B); pt /= RANGE_B; 549 548 } 550 549 … … 558 557 } 559 558 560 static uint32_t pack_coords(int x1, int y1, int x2, int y2) 561 { 562 return ((y2 * RANGE_X + x2) * RANGE_Y + y1) * RANGE_X + x1; 559 static uint32_t pack_coords(int x1, int y1, int x2, int y2, bool *swap) 560 { 561 int k1 = y1 * RANGE_X + x1; 562 int k2 = y2 * RANGE_X + x2; 563 564 /* XXX: this should not happen */ 565 if(k1 == k2) 566 k1 += (x1 > 0 ? 1 : 1); 567 568 *swap = k1 > k2; 569 570 if(*swap) 571 { 572 int tmp = k1; k1 = k2; k2 = tmp; 573 } 574 575 return k2 * (k2 + 1) / 2 + k1; 563 576 } 564 577 565 578 static void unpack_coords(uint32_t pack, int *x1, int *y1, int *x2, int *y2) 566 579 { 567 *x1 = pack % RANGE_X; pack /= RANGE_X; 568 *y1 = pack % RANGE_Y; pack /= RANGE_Y; 569 *x2 = pack % RANGE_X; pack /= RANGE_X; 570 *y2 = pack % RANGE_Y; 571 } 572 573 #if 0 580 int k2 = ((int)sqrt(1.0 + 8 * pack)  1) / 2; 581 int k1 = pack  k2 * (k2 + 1) / 2; 582 583 *x1 = k1 % RANGE_X; 584 *y1 = k1 / RANGE_X; 585 *x2 = k2 % RANGE_X; 586 *y2 = k2 / RANGE_X; 587 } 588 589 #if RANDOM_START == 1 574 590 static void add_random_point() 575 591 { … … 846 862 wmin = 0.0, wmax = 1.0; 847 863 848 #if 0 864 #if RANDOM_START == 1 865 # if POINTS_PER_CELL == 2 849 866 add_random_point(); 867 # endif 850 868 add_random_point(); 851 869 #else 852 870 /* 0.80 and 0.20 were chosen empirically, it gives a 10% better 853 871 * initial distance. Definitely worth it. */ 854 # if POINTS_PER_CELL == 1872 # if POINTS_PER_CELL == 1 855 873 if(total < min + (max  min) / 2) 856 874 { 857 # endif875 # endif 858 876 add_point(xmin, ymin, 859 877 data[4 * (xmin + ymin * p>w) + 0] * 0.80 + mr * 0.20, … … 861 879 data[4 * (xmin + ymin * p>w) + 2] * 0.80 + mb * 0.20, 862 880 wmin); 863 # if POINTS_PER_CELL == 1881 # if POINTS_PER_CELL == 1 864 882 } 865 883 else 866 884 { 867 # endif885 # endif 868 886 add_point(xmax, ymax, 869 887 data[4 * (xmax + ymax * p>w) + 0] * 0.80 + mr * 0.20, … … 871 889 data[4 * (xmax + ymax * p>w) + 2] * 0.80 + mb * 0.20, 872 890 wmax); 873 # if POINTS_PER_CELL == 1891 # if POINTS_PER_CELL == 1 874 892 } 875 # endif893 # endif 876 894 #endif 877 895 } … … 939 957 if(ITERATIONS_PER_POINT < 0) 940 958 ITERATIONS_PER_POINT = 0; 941 else if(ITERATIONS_PER_POINT > 100)942 ITERATIONS_PER_POINT = 100;959 else if(ITERATIONS_PER_POINT > 200) 960 ITERATIONS_PER_POINT = 200; 943 961 break; 944 962 case 'd': … … 954 972 printf(" l, length <size> message length in characters (default 140)\n"); 955 973 printf(" c, charset <block> character set to use (ascii, [cjk], symbols)\n"); 956 printf(" q, quality <rate> set image quality (0  10) (default 5)\n");974 printf(" q, quality <rate> set image quality (0  20) (default 5)\n"); 957 975 printf(" d, debug print debug information\n"); 958 976 printf(" h, help display this help and exit\n"); … … 1096 1114 } while(0) 1097 1115 1098 for(int i = 0; i < 5; i++)1116 for(int i = 0; i < 2; i++) 1099 1117 { 1100 1118 TRY(RANGE_G++, RANGE_G); … … 1142 1160 { 1143 1161 /* Resize and filter image to better state */ 1144 tmp = pipi_ resize(src, dw * RANGE_X, dh * RANGE_Y);1162 tmp = pipi_gaussian_blur(src, 0.5 * dw * RANGE_X / width); 1145 1163 pipi_free(src); 1146 src = pipi_ median_ext(tmp, 1, 1);1164 src = pipi_resize(tmp, dw * RANGE_X, dh * RANGE_Y); 1147 1165 pipi_free(tmp); 1148 1166 … … 1182 1200 float fx, fy, fr, fg, fb, fs; 1183 1201 get_point(pt, &fx, &fy, &fr, &fg, &fb, &fs); 1184 int zonex = (int)fx / RANGE_X  1;1185 int zoney = (int)fy / RANGE_Y  1;1186 int zonew = 3;1187 int zoneh = 3;1188 if(zonex < 0) { zone x = 0; zonew; }1189 if(zoney < 0) { zone y = 0; zoneh; }1190 if(zonex + zonew > = (int)dw) { zonew; }1191 if(zoney + zoneh > = (int)dh) { zoneh; }1202 int zonex = (int)fx / RANGE_X  2; 1203 int zoney = (int)fy / RANGE_Y  2; 1204 int zonew = 4; 1205 int zoneh = 4; 1206 if(zonex < 0) { zonew += zonex; zonex = 0; } 1207 if(zoney < 0) { zoneh += zoney; zoney = 0;; } 1208 if(zonex + zonew > (int)dw) { zonew = dw  zonex; } 1209 if(zoney + zoneh > (int)dh) { zoneh = dh  zoney; } 1192 1210 1193 1211 /* Choose random operations and measure their effect */ … … 1247 1265 1248 1266 /* Save image! */ 1249 //char buf[128];1250 //sprintf(buf, "twit%08i.bmp", success);1251 //if((success % 10) == 0)1252 //pipi_save(tmp, buf);1267 char buf[128]; 1268 sprintf(buf, "twit%08i.bmp", success); 1269 if((success % 10) == 0) 1270 pipi_save(tmp, buf); 1253 1271 } 1254 1272 else … … 1299 1317 x2 = (points[i + 1] / RANGE_Y) % RANGE_X; 1300 1318 y2 = points[i + 1] % RANGE_Y; 1301 uint32_t pack = pack_coords(x1, y1, x2, y2); 1302 1303 b.push(points[i] / RANGE_XY, RANGE_SBGR); 1304 b.push(points[i + 1] / RANGE_XY, RANGE_SBGR); 1305 b.push(pack, RANGE_XYXY); 1319 1320 bool swap; 1321 uint32_t pack = pack_coords(x1, y1, x2, y2, &swap); 1322 1323 b.push(points[i + (swap ? 1 : 0)] / RANGE_XY, RANGE_SBGR); 1324 b.push(points[i + (swap ? 0 : 1)] / RANGE_XY, RANGE_SBGR); 1325 b.push(pack, RANGE_XY2); 1306 1326 #else 1307 1327 b.push(points[i], RANGE_SBGRXY); … … 1322 1342 { 1323 1343 #if POINTS_PER_CELL == 2 1324 uint32_t pack = b.pop(RANGE_XY XY);1344 uint32_t pack = b.pop(RANGE_XY2); 1325 1345 uint32_t p2 = b.pop(RANGE_SBGR); 1326 1346 uint32_t p1 = b.pop(RANGE_SBGR); 1327 1347 int x1, y1, x2, y2; 1348 1328 1349 unpack_coords(pack, &x1, &y1, &x2, &y2); 1329 1350 points[i * 2] = p1 * RANGE_XY + x1 * RANGE_Y + y1;
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