- /*
- * img2twit Image to short text message encoder/decoder
- * Copyright (c) 2009 Sam Hocevar <sam@hocevar.net>
- * All Rights Reserved
- *
- * This program is free software. It comes without any warranty, to
- * the extent permitted by applicable law. You can redistribute it
- * and/or modify it under the terms of the Do What The Fuck You Want
- * To Public License, Version 2, as published by Sam Hocevar. See
- * http://sam.zoy.org/wtfpl/COPYING for more details.
- */
-
- /* TODO:
- * - remove the complicated stuff from get_point/set_point, it's only
- * the final packing that really matters.
- */
-
- #include "config.h"
-
- #include <stdio.h>
- #include <stdlib.h>
- #include <string.h>
- #include <math.h>
-
- #include <CGAL/Exact_predicates_inexact_constructions_kernel.h>
- #include <CGAL/Delaunay_triangulation_2.h>
- #include <CGAL/natural_neighbor_coordinates_2.h>
-
- #include <pipi.h>
-
- #include "../genethumb/mygetopt.h"
-
- /*
- * Format-dependent settings. Change this and you risk making all other
- * generated strings unusable.
- */
-
- /* Printable ASCII (except space) */
- #define RANGE_ASCII 0x0021, 0x007f
-
- /* CJK Unified Ideographs */
- #define RANGE_CJK 0x4e00, 0x9fa6
- //0x2e80, 0x2e9a, 0x2e9b, 0x2ef4, /* CJK Radicals Supplement */
- //0x2f00, 0x2fd6, /* Kangxi Radicals */
- //0x3400, 0x4db6, /* CJK Unified Ideographs Extension A */
- //0xac00, 0xd7a4, /* Hangul Syllables -- Korean, not Chinese */
- //0xf900, 0xfa2e, 0xfa30, 0xfa6b, 0xfa70, 0xfada, /* CJK Compat. Idgphs. */
- /* TODO: there's also the U+20000 and U+2f800 planes, but they're
- * not supported by the Twitter Javascript filter (yet?). */
-
- /* Stupid symbols and Dingbats shit */
- #define RANGE_SYMBOLS 0x25a0, 0x2600, /* Geometric Shapes */ \
- 0x2600, 0x269e, 0x26a0, 0x26bd, 0x26c0, 0x26c4, /* Misc. Symbols */ \
- 0x2701, 0x2705, 0x2706, 0x270a, 0x270c, 0x2728, 0x2729, 0x274c, \
- 0x274d, 0x274e, 0x274f, 0x2753, 0x2756, 0x2757, 0x2758, 0x275f, \
- 0x2761, 0x2795, 0x2798, 0x27b0, 0x27b1, 0x27bf /* Dingbats */
-
- /* End of list marker */
- #define RANGE_END 0x0, 0x0
-
- /* Pre-defined character ranges XXX: must be _ordered_ */
- static const uint32_t unichars_ascii[] = { RANGE_ASCII, RANGE_END };
- static const uint32_t unichars_cjk[] = { RANGE_CJK, RANGE_END };
- static const uint32_t unichars_symbols[] = { RANGE_SYMBOLS, RANGE_END };
-
- /* The Unicode characters at disposal */
- static const uint32_t *unichars;
-
- /* The maximum image size we want to support, and the version range */
- #define RANGE_W 2000
- #define RANGE_H 2000
- #define RANGE_V 10
-
- /* Start with a random image (1), or with a good estimate (0)? */
- #define RANDOM_START 0
-
- /*
- * These values can be overwritten at runtime
- */
-
- /* Debug mode */
- static bool DEBUG_MODE = false;
-
- /* The maximum message length */
- static int MAX_MSG_LEN = 140;
-
- /* Iterations per point -- larger means slower but nicer */
- static int ITERATIONS_PER_POINT = 50;
-
- /* Points per cell -- 1 allows to put more cells, but 2 gives better results */
- static int POINTS_PER_CELL = 2;
-
- /* The range value for point parameters: X Y, red/green/blue, "strength"
- * Tested values (on Mona Lisa) are:
- * 16 16 5 5 5 2 -> 0.06511725914
- * 16 16 6 7 6 1 -> 0.05731491348 *
- * 16 16 7 6 6 1 -> 0.06450513783
- * 14 14 7 7 6 1 -> 0.0637207893
- * 19 19 6 6 5 1 -> 0.06801999094 */
- static unsigned int RANGE_X = 16;
- static unsigned int RANGE_Y = 16;
- static unsigned int RANGE_R = 6;
- static unsigned int RANGE_G = 6;
- static unsigned int RANGE_B = 6;
- static unsigned int RANGE_S = 1;
-
- /*
- * These values are computed at runtime
- */
-
- static float TOTAL_BITS;
- static float HEADER_BITS;
- static float DATA_BITS;
- static float CELL_BITS;
-
- static int NUM_CHARACTERS;
- static int MAX_ITERATIONS;
- static unsigned int TOTAL_CELLS;
-
- #define RANGE_XY2 (RANGE_Y*RANGE_X*(RANGE_Y*RANGE_X+1)/2)
- #define RANGE_SBGR (RANGE_R*RANGE_G*RANGE_B*RANGE_S)
- #define RANGE_SBGRXY (RANGE_Y*RANGE_X*RANGE_R*RANGE_G*RANGE_B*RANGE_S)
-
- struct K : CGAL::Exact_predicates_inexact_constructions_kernel {};
- typedef CGAL::Delaunay_triangulation_2<K> Delaunay_triangulation;
- typedef std::vector<std::pair<K::Point_2, K::FT> > Point_coordinate_vector;
-
- /* Global aspect ratio */
- static unsigned int dw, dh;
-
- /* Algorithm version */
- static unsigned int version;
-
- /* Global point encoding */
- typedef struct point
- {
- uint8_t x, y, r, g, b, s;
- }
- point_t;
- static point_t points[4096]; /* FIXME: allocate this dynamically */
- static int npoints = 0;
-
- /* Global triangulation */
- static Delaunay_triangulation dt;
-
- /*
- * Bit allocation handling
- */
-
- void compute_ranges(int width, int height)
- {
- TOTAL_BITS = MAX_MSG_LEN * logf(NUM_CHARACTERS) / logf(2);
- HEADER_BITS = logf(RANGE_W * RANGE_H * RANGE_V) / logf(2);
- DATA_BITS = TOTAL_BITS - HEADER_BITS;
- if(version == 0)
- {
- POINTS_PER_CELL = 1;
- CELL_BITS = logf(RANGE_SBGRXY) / logf(2);
- }
- else if(version == 1)
- {
- POINTS_PER_CELL = 2;
- CELL_BITS = (2 * logf(RANGE_SBGR) + logf(RANGE_XY2)) / logf(2);
- }
- TOTAL_CELLS = (int)(DATA_BITS / CELL_BITS);
- MAX_ITERATIONS = ITERATIONS_PER_POINT * POINTS_PER_CELL * TOTAL_CELLS;
-
- /* Compute "best" w/h ratio */
- dw = 1; dh = TOTAL_CELLS;
- for(unsigned int i = 1; i <= TOTAL_CELLS; i++)
- {
- int j = TOTAL_CELLS / i;
-
- float r = (float)width / (float)height;
- float ir = (float)i / (float)j;
- float dwr = (float)dw / (float)dh;
-
- if(fabs(logf(r / ir)) < fabs(logf(r / dwr)))
- {
- dw = i;
- dh = TOTAL_CELLS / dw;
- }
- }
- while((dh + 1) * dw <= TOTAL_CELLS) dh++;
- while(dh * (dw + 1) <= TOTAL_CELLS) dw++;
- }
-
- /*
- * Unicode stuff handling
- */
-
- /* Return the number of chars in the unichars table */
- static int count_unichars(void)
- {
- int ret = 0;
-
- for(int u = 0; unichars[u] != unichars[u + 1]; u += 2)
- ret += unichars[u + 1] - unichars[u];
-
- return ret;
- }
-
- /* Get the ith Unicode character in our list */
- static uint32_t index2uni(uint32_t i)
- {
- for(int u = 0; unichars[u] != unichars[u + 1]; u += 2)
- if(i < unichars[u + 1] - unichars[u])
- return unichars[u] + i;
- else
- i -= unichars[u + 1] - unichars[u];
-
- return 0; /* Should not happen! */
- }
-
- /* Convert a Unicode character to its position in the compact list */
- static uint32_t uni2index(uint32_t x)
- {
- uint32_t ret = 0;
-
- for(int u = 0; unichars[u] != unichars[u + 1]; u += 2)
- if(x < unichars[u + 1])
- return ret + x - unichars[u];
- else
- ret += unichars[u + 1] - unichars[u];
-
- return ret; /* Should not happen! */
- }
-
- static uint8_t const utf8_trailing[256] =
- {
- 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
- 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
- 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
- 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
- 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
- 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
- 1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1, 1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,
- 2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2, 3,3,3,3,3,3,3,3,4,4,4,4,5,5,5,5
- };
-
- static uint32_t const utf8_offsets[6] =
- {
- 0x00000000UL, 0x00003080UL, 0x000E2080UL,
- 0x03C82080UL, 0xFA082080UL, 0x82082080UL
- };
-
- static uint32_t fread_utf8(FILE *f)
- {
- int ch, i = 0, todo = -1;
- uint32_t ret = 0;
-
- for(;;)
- {
- ch = fgetc(f);
- if(!ch)
- return 0;
- if(todo == -1)
- todo = utf8_trailing[ch];
- ret += ((uint32_t)ch) << (6 * (todo - i));
- if(todo == i++)
- return ret - utf8_offsets[todo];
- }
- }
-
- static void fwrite_utf8(FILE *f, uint32_t x)
- {
- static const uint8_t mark[7] =
- {
- 0x00, 0x00, 0xC0, 0xE0, 0xF0, 0xF8, 0xFC
- };
-
- char buf[8];
- char *parser = buf;
- size_t bytes;
-
- if(x < 0x80)
- {
- fprintf(f, "%c", x);
- return;
- }
-
- bytes = (x < 0x800) ? 2 : (x < 0x10000) ? 3 : 4;
- parser += bytes;
- *parser = '\0';
-
- switch(bytes)
- {
- case 4: *--parser = (x | 0x80) & 0xbf; x >>= 6;
- case 3: *--parser = (x | 0x80) & 0xbf; x >>= 6;
- case 2: *--parser = (x | 0x80) & 0xbf; x >>= 6;
- }
- *--parser = x | mark[bytes];
-
- fprintf(f, "%s", buf);
- }
-
- /*
- * Our nifty non-power-of-two bitstack handling
- */
-
- class bitstack
- {
- public:
- bitstack(int max) { alloc(max); init(0); }
-
- ~bitstack() { delete[] digits; delete[] str; }
-
- char const *tostring()
- {
- int pos = sprintf(str, "0x%x", digits[msb]);
-
- for(int i = msb - 1; i >= 0; i--)
- pos += sprintf(str + pos, "%08x", digits[i]);
-
- return str;
- }
-
- void push(uint32_t val, uint32_t range)
- {
- if(!range)
- return;
-
- mul(range);
- add(val % range);
- }
-
- uint32_t pop(uint32_t range)
- {
- if(!range)
- return 0;
-
- return div(range);
- }
-
- bool isempty()
- {
- for(int i = msb; i >= 0; i--)
- if(digits[i])
- return false;
-
- return true;
- }
-
- private:
- bitstack(int max, uint32_t x) { alloc(max); init(x); }
-
- bitstack(bitstack &b)
- {
- alloc(b.max_size);
- msb = b.msb;
- memcpy(digits, b.digits, (max_size + 1) * sizeof(uint32_t));
- }
-
- bitstack(bitstack const &b)
- {
- alloc(b.max_size);
- msb = b.msb;
- memcpy(digits, b.digits, (max_size + 1) * sizeof(uint32_t));
- }
-
- void alloc(int max)
- {
- max_size = max;
- digits = new uint32_t[max_size + 1];
- str = new char[(max_size + 1) * 8 + 1];
- }
-
- void init(uint32_t i)
- {
- msb = 0;
- memset(digits, 0, (max_size + 1) * sizeof(uint32_t));
- digits[0] = i;
- }
-
- /* Could be done much faster, but we don't care! */
- void add(uint32_t x) { add(bitstack(max_size, x)); }
- void sub(uint32_t x) { sub(bitstack(max_size, x)); }
-
- void add(bitstack const &_b)
- {
- /* Copy the operand in case we get added to ourselves */
- bitstack b(_b);
- uint64_t x = 0;
-
- if(msb < b.msb)
- msb = b.msb;
-
- for(int i = 0; i <= msb; i++)
- {
- uint64_t tmp = (uint64_t)digits[i] + (uint64_t)b.digits[i] + x;
- digits[i] = tmp;
- if((uint64_t)digits[i] == tmp)
- x = 0;
- else
- {
- x = 1;
- if(i == msb)
- msb++;
- }
- }
- }
-
- void sub(bitstack const &_b)
- {
- /* Copy the operand in case we get substracted from ourselves */
- bitstack b(_b);
- uint64_t x = 0;
-
- /* We cannot substract a larger number! */
- if(msb < b.msb)
- {
- init(0);
- return;
- }
-
- for(int i = 0; i <= msb; i++)
- {
- uint64_t tmp = (uint64_t)digits[i] - (uint64_t)b.digits[i] - x;
- digits[i] = tmp;
- if((uint64_t)digits[i] == tmp)
- x = 0;
- else
- {
- x = 1;
- if(i == msb)
- {
- /* Error: carry into MSB! */
- init(0);
- return;
- }
- }
- }
-
- while(msb > 0 && digits[msb] == 0) msb--;
- }
-
- void mul(uint32_t x)
- {
- bitstack b(*this);
- init(0);
-
- while(x)
- {
- if(x & 1)
- add(b);
- x /= 2;
- b.add(b);
- }
- }
-
- uint32_t div(uint32_t x)
- {
- bitstack b(*this);
-
- for(int i = msb; i >= 0; i--)
- {
- uint64_t tmp = b.digits[i] + (((uint64_t)b.digits[i + 1]) << 32);
- uint32_t res = tmp / x;
- uint32_t rem = tmp % x;
- digits[i]= res;
- b.digits[i + 1] = 0;
- b.digits[i] = rem;
- }
-
- while(msb > 0 && digits[msb] == 0) msb--;
-
- return b.digits[0];
- }
-
- int msb, max_size;
- uint32_t *digits;
- char *str;
- };
-
- /*
- * Point handling
- */
-
- static unsigned int det_rand(unsigned int mod)
- {
- static unsigned long next = 1;
- next = next * 1103515245 + 12345;
- return ((unsigned)(next / 65536) % 32768) % mod;
- }
-
- static inline int range2int(float val, int range)
- {
- int ret = (int)(val * ((float)range - 0.0001));
- return ret < 0 ? 0 : ret > range - 1 ? range - 1 : ret;
- }
-
- static inline float int2midrange(int val, int range)
- {
- return (float)(1 + 2 * val) / (float)(2 * range);
- }
-
- static inline float int2fullrange(int val, int range)
- {
- return range > 1 ? (float)val / (float)(range - 1) : 0.0;
- }
-
- static inline void index2cell(int index, int *dx, int *dy)
- {
- *dx = (index / POINTS_PER_CELL) % dw;
- *dy = (index / POINTS_PER_CELL) / dw;
- }
-
- static inline void set_point(int index, float x, float y, float r,
- float g, float b, float s)
- {
- int dx, dy;
-
- index2cell(index, &dx, &dy);
-
- float fx = (x - dx * RANGE_X) / RANGE_X;
- float fy = (y - dy * RANGE_Y) / RANGE_Y;
-
- points[index].x = range2int(fx, RANGE_X);
- points[index].y = range2int(fy, RANGE_Y);
-
- points[index].r = range2int(r, RANGE_R);
- points[index].g = range2int(g, RANGE_G);
- points[index].b = range2int(b, RANGE_B);
-
- points[index].s = range2int(s, RANGE_S);
- }
-
- static inline void get_point(int index, float *x, float *y, float *r,
- float *g, float *b, float *s)
- {
- int dx, dy;
-
- index2cell(index, &dx, &dy);
-
- float fx = int2midrange(points[index].x, RANGE_X);
- float fy = int2midrange(points[index].y, RANGE_Y);
-
- *y = (fy + dy) * RANGE_Y /*+ 0.5 * (index & 1)*/;
- *x = (fx + dx) * RANGE_X /*+ 0.5 * (index & 1)*/;
-
- *r = int2fullrange(points[index].r, RANGE_R);
- *g = int2fullrange(points[index].g, RANGE_G);
- *b = int2fullrange(points[index].b, RANGE_B);
-
- *s = int2fullrange(points[index].s, RANGE_S);
- }
-
- static void add_point(float x, float y, float r, float g, float b, float s)
- {
- set_point(npoints, x, y, r, g, b, s);
- npoints++;
- }
-
- static uint32_t pack_coords(int x1, int y1, int x2, int y2, bool *swap)
- {
- int k1 = y1 * RANGE_X + x1;
- int k2 = y2 * RANGE_X + x2;
-
- /* XXX: this should not happen */
- if(k1 == k2)
- k1 += (x1 > 0 ? -1 : 1);
-
- *swap = k1 > k2;
-
- if(*swap)
- {
- int tmp = k1; k1 = k2; k2 = tmp;
- }
-
- return k2 * (k2 + 1) / 2 + k1;
- }
-
- static void unpack_coords(uint32_t pack, int *x1, int *y1, int *x2, int *y2)
- {
- int k2 = ((int)sqrt(1.0 + 8 * pack) - 1) / 2;
- int k1 = pack - k2 * (k2 + 1) / 2;
-
- *x1 = k1 % RANGE_X;
- *y1 = k1 / RANGE_X;
- *x2 = k2 % RANGE_X;
- *y2 = k2 / RANGE_X;
- }
-
- #if RANDOM_START == 1
- static void add_random_point()
- {
- points[npoints].x = det_rand(RANGE_X);
- points[npoints].y = det_rand(RANGE_Y);
- points[npoints].r = det_rand(RANGE_R);
- points[npoints].g = det_rand(RANGE_G);
- points[npoints].b = det_rand(RANGE_B);
- points[npoints].s = det_rand(RANGE_S);
- npoints++;
- }
- #endif
-
- #define NB_OPS 20
-
- static uint8_t rand_op(void)
- {
- uint8_t x = det_rand(NB_OPS);
-
- /* Randomly ignore statistically less efficient ops */
- if(x == 0)
- return rand_op();
- if(x == 1 && (RANGE_S == 1 || det_rand(2)))
- return rand_op();
- if(x <= 5 && det_rand(2))
- return rand_op();
- //if((x < 10 || x > 15) && !det_rand(4)) /* Favour colour changes */
- // return rand_op();
-
- return x;
- }
-
- static void apply_op(uint8_t op, point_t *val)
- {
- switch(op)
- {
- case 0: /* Flip strength value */
- case 1:
- /* Statistics show that this helps often, but does not reduce
- * the error significantly. */
- val->s ^= 1; break;
- case 2: /* Move up; if impossible, down */
- val->y = val->y > 0 ? val->y - 1 : val->y + 1; break;
- case 3: /* Move down; if impossible, up */
- val->y = val->y + 1U < RANGE_Y ? val->y + 1 : val->y - 1; break;
- case 4: /* Move left; if impossible, right */
- val->x = val->x > 0 ? val->x - 1 : val->x + 1; break;
- case 5: /* Move right; if impossible, left */
- val->x = val->x + 1U < RANGE_X ? val->x + 1 : val->x - 1; break;
- case 6: /* Corner 1 */
- val->y = val->y > 0 ? val->y - 1 : val->y + 1;
- val->x = val->x > 0 ? val->x - 1 : val->x + 1; break;
- case 7: /* Corner 2 */
- val->y = val->y > 0 ? val->y - 1 : val->y + 1;
- val->x = val->x + 1U < RANGE_X ? val->x + 1 : val->x - 1; break;
- case 8: /* Corner 3 */
- val->y = val->y + 1U < RANGE_Y ? val->y + 1 : val->y - 1;
- val->x = val->x + 1U < RANGE_X ? val->x + 1 : val->x - 1; break;
- case 9: /* Corner 4 */
- val->y = val->y + 1U < RANGE_Y ? val->y + 1 : val->y - 1;
- val->x = val->x > 0 ? val->x - 1 : val->x + 1; break;
- case 16: /* Double up */
- val->y = val->y > 1 ? val->y - 2 : val->y + 2; break;
- case 17: /* Double down */
- val->y = val->y + 2U < RANGE_Y ? val->y + 2 : val->y - 2; break;
- case 18: /* Double left */
- val->x = val->x > 1 ? val->x - 2 : val->x + 2; break;
- case 19: /* Double right */
- val->x = val->x + 2U < RANGE_X ? val->x + 2 : val->x - 2; break;
- case 10: /* R-- (or R++) */
- val->r = val->r > 0 ? val->r - 1 : val->r + 1; break;
- case 11: /* R++ (or R--) */
- val->r = val->r + 1U < RANGE_R ? val->r + 1 : val->r - 1; break;
- case 12: /* G-- (or G++) */
- val->g = val->g > 0 ? val->g - 1 : val->g + 1; break;
- case 13: /* G++ (or G--) */
- val->g = val->g + 1U < RANGE_G ? val->g + 1 : val->g - 1; break;
- case 14: /* B-- (or B++) */
- val->b = val->b > 0 ? val->g - 1 : val->b + 1; break;
- case 15: /* B++ (or B--) */
- val->b = val->b + 1U < RANGE_B ? val->b + 1 : val->b - 1; break;
- #if 0
- case 15: /* Brightness-- */
- apply_op(9, val); apply_op(11, val); apply_op(13, val); break;
- case 16: /* Brightness++ */
- apply_op(10, val); apply_op(12, val); apply_op(14, val); break;
- case 17: /* RG-- */
- apply_op(9, val); apply_op(11, val); break;
- case 18: /* RG++ */
- apply_op(10, val); apply_op(12, val); break;
- case 19: /* GB-- */
- apply_op(11, val); apply_op(13, val); break;
- case 20: /* GB++ */
- apply_op(12, val); apply_op(14, val); break;
- case 21: /* RB-- */
- apply_op(9, val); apply_op(13, val); break;
- case 22: /* RB++ */
- apply_op(10, val); apply_op(14, val); break;
- #endif
- default:
- break;
- }
- }
-
- static void render(pipi_image_t *dst, int rx, int ry, int rw, int rh)
- {
- int lookup[dw * RANGE_X * 2 * dh * RANGE_Y * 2];
- pipi_pixels_t *p = pipi_get_pixels(dst, PIPI_PIXELS_RGBA_F32);
- float *data = (float *)p->pixels;
- int x, y;
-
- memset(lookup, 0, sizeof(lookup));
- dt.clear();
- for(int i = 0; i < npoints; i++)
- {
- float fx, fy, fr, fg, fb, fs;
- get_point(i, &fx, &fy, &fr, &fg, &fb, &fs);
- dt.insert(K::Point_2(fx + dw * RANGE_X, fy + dh * RANGE_Y));
- /* Keep link to point */
- lookup[(int)(fx * 2) + dw * RANGE_X * 2 * (int)(fy * 2)] = i;
- }
-
- /* Add fake points to close the triangulation */
- dt.insert(K::Point_2(0, 0));
- dt.insert(K::Point_2(3 * dw * RANGE_X, 0));
- dt.insert(K::Point_2(0, 3 * dh * RANGE_Y));
- dt.insert(K::Point_2(3 * dw * RANGE_X, 3 * dh * RANGE_Y));
-
- for(y = ry; y < ry + rh; y++)
- {
- for(x = rx; x < rx + rw; x++)
- {
- float myx = (float)x * dw * RANGE_X / p->w;
- float myy = (float)y * dh * RANGE_Y / p->h;
-
- K::Point_2 m(myx + dw * RANGE_X, myy + dh * RANGE_Y);
- Point_coordinate_vector coords;
- CGAL::Triple<
- std::back_insert_iterator<Point_coordinate_vector>,
- K::FT, bool> result =
- CGAL::natural_neighbor_coordinates_2(dt, m,
- std::back_inserter(coords));
-
- float r = 0.0f, g = 0.0f, b = 0.0f, norm = 0.000000000000001f;
-
- Point_coordinate_vector::iterator it;
- for(it = coords.begin(); it != coords.end(); ++it)
- {
- float fx, fy, fr, fg, fb, fs;
-
- fx = (*it).first.x() - dw * RANGE_X;
- fy = (*it).first.y() - dh * RANGE_Y;
-
- if(fx < 0 || fy < 0
- || fx > dw * RANGE_X - 1 || fy > dh * RANGE_Y - 1)
- continue;
-
- int index = lookup[(int)(fx * 2)
- + dw * RANGE_X * 2 * (int)(fy * 2)];
-
- get_point(index, &fx, &fy, &fr, &fg, &fb, &fs);
-
- //float k = pow((*it).second * (1.0 + fs), 1.2);
- float k = (*it).second * (1.00f + fs);
- //float k = (*it).second * (0.60f + fs);
- //float k = pow((*it).second, (1.0f + fs));
-
- // Try to attenuate peak artifacts
- k *= pow(((myx - fx) * (myx - fx) + (myy - fy) * (myy - fy)
- + 0.01) / (RANGE_X * RANGE_X + RANGE_Y * RANGE_Y),
- -0.5);
-
- // Cute circles
- //k = 1.0 / (0.015 * (RANGE_X * RANGE_X + RANGE_Y * RANGE_Y)
- // + (myx - fx) * (myx - fx) + (myy - fy) * (myy - fy));
-
- r += k * fr;
- g += k * fg;
- b += k * fb;
- norm += k;
- }
-
- data[4 * (x + y * p->w) + 0] = r / norm;
- data[4 * (x + y * p->w) + 1] = g / norm;
- data[4 * (x + y * p->w) + 2] = b / norm;
- data[4 * (x + y * p->w) + 3] = 0.0;
- }
- }
-
- pipi_release_pixels(dst, p);
- }
-
- static void analyse(pipi_image_t *src)
- {
- pipi_pixels_t *p = pipi_get_pixels(src, PIPI_PIXELS_RGBA_F32);
- float *data = (float *)p->pixels;
-
- for(unsigned int dy = 0; dy < dh; dy++)
- for(unsigned int dx = 0; dx < dw; dx++)
- {
- float min = 1.1f, max = -0.1f, mr = 0.0f, mg = 0.0f, mb = 0.0f;
- float total = 0.0;
- int xmin = 0, xmax = 0, ymin = 0, ymax = 0;
- int npixels = 0;
-
- for(unsigned int iy = RANGE_Y * dy; iy < RANGE_Y * (dy + 1); iy++)
- for(unsigned int ix = RANGE_X * dx; ix < RANGE_X * (dx + 1); ix++)
- {
- float lum = 0.0f;
-
- lum += data[4 * (ix + iy * p->w) + 0];
- lum += data[4 * (ix + iy * p->w) + 1];
- lum += data[4 * (ix + iy * p->w) + 2];
- lum /= 3;
-
- mr += data[4 * (ix + iy * p->w) + 0];
- mg += data[4 * (ix + iy * p->w) + 1];
- mb += data[4 * (ix + iy * p->w) + 2];
-
- if(lum < min)
- {
- min = lum;
- xmin = ix;
- ymin = iy;
- }
-
- if(lum > max)
- {
- max = lum;
- xmax = ix;
- ymax = iy;
- }
-
- total += lum;
- npixels++;
- }
-
- total /= npixels;
- mr /= npixels;
- mg /= npixels;
- mb /= npixels;
-
- float wmin, wmax;
-
- if(total < min + (max - min) / 4)
- wmin = 1.0, wmax = 0.0;
- else if(total < min + (max - min) / 4 * 3)
- wmin = 0.0, wmax = 0.0;
- else
- wmin = 0.0, wmax = 1.0;
-
- #if RANDOM_START == 1
- for(int i = 0; i < POINTS_PER_CELL; i++)
- add_random_point();
- #else
- /* 0.80 and 0.20 were chosen empirically, it gives a 10% better
- * initial distance. Definitely worth it. */
- if(POINTS_PER_CELL == 2 || total < min + (max - min) / 2)
- add_point(xmin, ymin,
- data[4 * (xmin + ymin * p->w) + 0] * 0.80 + mr * 0.20,
- data[4 * (xmin + ymin * p->w) + 1] * 0.80 + mg * 0.20,
- data[4 * (xmin + ymin * p->w) + 2] * 0.80 + mb * 0.20,
- wmin);
-
- if(POINTS_PER_CELL == 2 || total >= min + (max - min) / 2)
- add_point(xmax, ymax,
- data[4 * (xmax + ymax * p->w) + 0] * 0.80 + mr * 0.20,
- data[4 * (xmax + ymax * p->w) + 1] * 0.80 + mg * 0.20,
- data[4 * (xmax + ymax * p->w) + 2] * 0.80 + mb * 0.20,
- wmax);
- #endif
- }
- }
-
- #define MOREINFO "Try `%s --help' for more information.\n"
-
- int main(int argc, char *argv[])
- {
- uint32_t unicode_data[2048];
- int opstats[2 * NB_OPS];
- char const *srcname = NULL, *dstname = NULL;
- pipi_image_t *src, *tmp, *dst;
- double error = 1.0;
- int width, height;
-
- /* Parse command-line options */
- for(;;)
- {
- int option_index = 0;
- static struct myoption long_options[] =
- {
- { "output", 1, NULL, 'o' },
- { "length", 1, NULL, 'l' },
- { "charset", 1, NULL, 'c' },
- { "quality", 1, NULL, 'q' },
- { "debug", 0, NULL, 'd' },
- { "help", 0, NULL, 'h' },
- { NULL, 0, NULL, 0 },
- };
- int c = mygetopt(argc, argv, "o:l:c:q:dh", long_options, &option_index);
-
- if(c == -1)
- break;
-
- switch(c)
- {
- case 'o':
- dstname = myoptarg;
- break;
- case 'l':
- MAX_MSG_LEN = atoi(myoptarg);
- if(MAX_MSG_LEN < 16)
- {
- fprintf(stderr, "Warning: rounding minimum message length to 16\n");
- MAX_MSG_LEN = 16;
- }
- break;
- case 'c':
- if(!strcmp(myoptarg, "ascii"))
- unichars = unichars_ascii;
- else if(!strcmp(myoptarg, "cjk"))
- unichars = unichars_cjk;
- else if(!strcmp(myoptarg, "symbols"))
- unichars = unichars_symbols;
- else
- {
- fprintf(stderr, "Error: invalid char block \"%s\".", myoptarg);
- fprintf(stderr, "Valid sets are: ascii, cjk, symbols\n");
- return EXIT_FAILURE;
- }
- break;
- case 'q':
- ITERATIONS_PER_POINT = 10 * atof(myoptarg);
- if(ITERATIONS_PER_POINT < 0)
- ITERATIONS_PER_POINT = 0;
- else if(ITERATIONS_PER_POINT > 200)
- ITERATIONS_PER_POINT = 200;
- break;
- case 'd':
- DEBUG_MODE = true;
- break;
- case 'h':
- printf("Usage: img2twit [OPTIONS] SOURCE\n");
- printf(" img2twit [OPTIONS] -o DESTINATION\n");
- printf("Encode SOURCE image to stdout or decode stdin to DESTINATION.\n");
- printf("\n");
- printf("Mandatory arguments to long options are mandatory for short options too.\n");
- printf(" -o, --output <filename> output resulting image to filename\n");
- printf(" -l, --length <size> message length in characters (default 140)\n");
- printf(" -c, --charset <block> character set to use (ascii, [cjk], symbols)\n");
- printf(" -q, --quality <rate> set image quality (0 - 20) (default 5)\n");
- printf(" -d, --debug print debug information\n");
- printf(" -h, --help display this help and exit\n");
- printf("\n");
- printf("Written by Sam Hocevar. Report bugs to <sam@hocevar.net>.\n");
- return EXIT_SUCCESS;
- default:
- fprintf(stderr, "%s: invalid option -- %c\n", argv[0], c);
- printf(MOREINFO, argv[0]);
- return EXIT_FAILURE;
- }
- }
-
- if(myoptind == argc && !dstname)
- {
- fprintf(stderr, "%s: too few arguments\n", argv[0]);
- printf(MOREINFO, argv[0]);
- return EXIT_FAILURE;
- }
-
- if((myoptind == argc - 1 && dstname) || myoptind < argc - 1)
- {
- fprintf(stderr, "%s: too many arguments\n", argv[0]);
- printf(MOREINFO, argv[0]);
- return EXIT_FAILURE;
- }
-
- if(myoptind == argc - 1)
- srcname = argv[myoptind];
-
- /* Decoding mode: read UTF-8 text from stdin */
- if(dstname)
- for(MAX_MSG_LEN = 0; ;)
- {
- uint32_t ch = fread_utf8(stdin);
- if(ch == 0xffffffff || ch == '\n')
- break;
- if(ch <= ' ')
- continue;
- unicode_data[MAX_MSG_LEN++] = ch;
-
- if(MAX_MSG_LEN >= 2048)
- {
- fprintf(stderr, "Error: message too long.\n");
- return EXIT_FAILURE;
- }
- }
-
- if(MAX_MSG_LEN == 0)
- {
- fprintf(stderr, "Error: empty message.\n");
- return EXIT_FAILURE;
- }
-
- bitstack b(MAX_MSG_LEN); /* We cannot declare this before, because
- * MAX_MSG_LEN wouldn't be defined. */
-
- /* Autodetect charset if decoding, otherwise switch to CJK. */
- if(dstname)
- {
- char const *charset;
-
- if(unicode_data[0] >= 0x0021 && unicode_data[0] < 0x007f)
- {
- unichars = unichars_ascii;
- charset = "ascii";
- }
- else if(unicode_data[0] >= 0x4e00 && unicode_data[0] < 0x9fa6)
- {
- unichars = unichars_cjk;
- charset = "cjk";
- }
- else if(unicode_data[0] >= 0x25a0 && unicode_data[0] < 0x27bf)
- {
- unichars = unichars_symbols;
- charset = "symbols";
- }
- else
- {
- fprintf(stderr, "Error: unable to detect charset\n");
- return EXIT_FAILURE;
- }
-
- if(DEBUG_MODE)
- fprintf(stderr, "Detected charset \"%s\"\n", charset);
- }
- else if(!unichars)
- unichars = unichars_cjk;
-
- pipi_set_gamma(1.0);
-
- /* Precompute bit allocation */
- NUM_CHARACTERS = count_unichars();
-
- if(dstname)
- {
- /* Decoding mode: find each character's index in our character
- * list, and push it to our wonderful custom bitstream. */
- for(int i = MAX_MSG_LEN; i--; )
- b.push(uni2index(unicode_data[i]), NUM_CHARACTERS);
-
- /* The first thing we pop from the stream is the version information */
- version = b.pop(RANGE_V);
-
- if(version > 1)
- {
- fprintf(stderr, "Error: unsupported algorithm version %i\n",
- version);
- return EXIT_FAILURE;
- }
-
- /* Read width and height from bitstream */
- width = b.pop(RANGE_W) + 1;
- height = b.pop(RANGE_H) + 1;
- src = NULL;
- }
- else
- {
- /* Argument given: open image for encoding */
- src = pipi_load(srcname);
-
- if(!src)
- {
- fprintf(stderr, "Error loading %s\n", srcname);
- return EXIT_FAILURE;
- }
-
- version = 1;
- width = pipi_get_image_width(src);
- height = pipi_get_image_height(src);
- }
-
- if(width <= 0 || height <= 0 || width > RANGE_W || height > RANGE_H)
- {
- fprintf(stderr, "Error: image size %ix%i is out of bounds\n",
- width, height);
- return EXIT_FAILURE;
- }
-
- compute_ranges(width, height);
-
- /* Try to cram some more information into our points as long as it
- * does not change the cell distribution. This cannot be too clever,
- * because we want the computation to depend only on the source image
- * coordinates. */
- #define TRY(op, revert) \
- do { \
- unsigned int olddw = dw, olddh = dh; \
- op; compute_ranges(width, height); \
- if(dw != olddw || dh != olddh) \
- { revert; compute_ranges(width, height); } \
- } while(0)
-
- for(int i = 0; i < 2; i++)
- {
- TRY(RANGE_G++, RANGE_G--);
- TRY(RANGE_R++, RANGE_R--);
- TRY(RANGE_B++, RANGE_B--);
- }
-
- for(int i = 0; i < 10; i++)
- {
- if((float)width / dw >= (float)height / dh)
- {
- TRY(RANGE_X++, RANGE_X--);
- TRY(RANGE_Y++, RANGE_Y--);
- }
- else
- {
- TRY(RANGE_Y++, RANGE_Y--);
- TRY(RANGE_X++, RANGE_X--);
- }
- }
-
- /* Print debug information */
- if(DEBUG_MODE)
- {
- fprintf(stderr, "Message size: %i\n", MAX_MSG_LEN);
- fprintf(stderr, "Available characters: %i\n", NUM_CHARACTERS);
- fprintf(stderr, "Available bits: %f\n", TOTAL_BITS);
- fprintf(stderr, "Width/Height ranges: %ix%i\n", RANGE_W, RANGE_H);
- fprintf(stderr, "Algorithm version: %i\n", RANGE_V);
- fprintf(stderr, "Image resolution: %ix%i\n", width, height);
- fprintf(stderr, "Header bits: %f\n", HEADER_BITS);
- fprintf(stderr, "Bits available for data: %f\n", DATA_BITS);
- fprintf(stderr, "X/Y/Red/Green/Blue/Extra ranges: %i %i %i %i %i %i\n",
- RANGE_X, RANGE_Y, RANGE_R, RANGE_G, RANGE_B, RANGE_S);
- fprintf(stderr, "Cell bits: %f\n", CELL_BITS);
- fprintf(stderr, "Available cells: %i\n", TOTAL_CELLS);
- fprintf(stderr, "Wasted bits: %f\n",
- DATA_BITS - CELL_BITS * TOTAL_CELLS);
- fprintf(stderr, "Chosen image ratio: %i:%i (wasting %i point cells)\n",
- dw, dh, TOTAL_CELLS - dw * dh);
- fprintf(stderr, "Total wasted bits: %f\n",
- DATA_BITS - CELL_BITS * dw * dh);
- }
-
- if(srcname)
- {
- /* Resize and filter image to better state */
- tmp = pipi_gaussian_blur(src, 0.25 * dw * RANGE_X / width);
- pipi_free(src);
- src = pipi_resize(tmp, dw * RANGE_X, dh * RANGE_Y);
- pipi_free(tmp);
-
- /* Analyse image */
- analyse(src);
-
- /* Render what we just computed */
- tmp = pipi_new(dw * RANGE_X, dh * RANGE_Y);
- render(tmp, 0, 0, dw * RANGE_X, dh * RANGE_Y);
- error = pipi_measure_rmsd(src, tmp);
-
- if(DEBUG_MODE)
- fprintf(stderr, "Initial distance: %2.10g\n", error);
-
- memset(opstats, 0, sizeof(opstats));
- for(int iter = 0, stuck = 0, failures = 0, success = 0;
- iter < MAX_ITERATIONS /* && stuck < 5 && */;
- iter++)
- {
- if(failures > 500)
- {
- stuck++;
- failures = 0;
- }
-
- if(!DEBUG_MODE && !(iter % 16))
- fprintf(stderr, "\rEncoding... %i%%",
- iter * 100 / MAX_ITERATIONS);
-
- pipi_image_t *scrap = pipi_copy(tmp);
-
- /* Choose a point at random */
- int pt = det_rand(npoints);
- point_t oldpt = points[pt];
-
- /* Compute the affected image zone */
- float fx, fy, fr, fg, fb, fs;
- get_point(pt, &fx, &fy, &fr, &fg, &fb, &fs);
- int zonex = (int)fx / RANGE_X - 2;
- int zoney = (int)fy / RANGE_Y - 2;
- int zonew = 4;
- int zoneh = 4;
- if(zonex < 0) { zonew += zonex; zonex = 0; }
- if(zoney < 0) { zoneh += zoney; zoney = 0;; }
- if(zonex + zonew > (int)dw) { zonew = dw - zonex; }
- if(zoney + zoneh > (int)dh) { zoneh = dh - zoney; }
-
- /* Choose random operations and measure their effect */
- uint8_t op1 = rand_op();
- //uint8_t op2 = rand_op();
-
- apply_op(op1, &points[pt]);
-
- /* Check that two points don't fall at the same place */
- if(POINTS_PER_CELL == 2)
- {
- while(points[pt].x == points[pt ^ 1].x
- && points[pt].y == points[pt ^ 1].y)
- {
- points[pt] = oldpt;
- op1 = rand_op();
- apply_op(op1, &points[pt]);
- }
- }
-
- render(scrap, zonex * RANGE_X, zoney * RANGE_Y,
- zonew * RANGE_X, zoneh * RANGE_Y);
-
- double newerr = pipi_measure_rmsd(src, scrap);
-
- opstats[op1 * 2]++;
- //opstats[op2 * 2]++;
-
- if(newerr < error)
- {
- pipi_free(tmp);
-
- #if 0
- /* Save image! */
- if((success % 10) == 0)
- {
- char buf[128];
- sprintf(buf, "twit%08i.bmp", success);
- tmp = pipi_new(width, height);
- render(tmp, 0, 0, width, height);
- pipi_save(tmp, buf);
- pipi_free(tmp);
- }
- #endif
-
- tmp = scrap;
-
- if(DEBUG_MODE)
- fprintf(stderr, "%08i -0.%010i %2.010g after op%i(%i)\n",
- iter, (int)((error - newerr) * 10000000000L),
- error, op1, pt);
-
- error = newerr;
- opstats[op1 * 2 + 1]++;
- //opstats[op2 * 2 + 1]++;
- failures = 0;
- success++;
- }
- else
- {
- pipi_free(scrap);
- points[pt] = oldpt;
- failures++;
- }
- }
-
- if(DEBUG_MODE)
- {
- for(int j = 0; j < 2; j++)
- {
- fprintf(stderr, "operation: ");
- for(int i = NB_OPS / 2 * j; i < NB_OPS / 2 * (j + 1); i++)
- fprintf(stderr, "%4i ", i);
- fprintf(stderr, "\nattempts: ");
- for(int i = NB_OPS / 2 * j; i < NB_OPS / 2 * (j + 1); i++)
- fprintf(stderr, "%4i ", opstats[i * 2]);
- fprintf(stderr, "\nsuccesses: ");
- for(int i = NB_OPS / 2 * j; i < NB_OPS / 2 * (j + 1); i++)
- fprintf(stderr, "%4i ", opstats[i * 2 + 1]);
- fprintf(stderr, "\n");
- }
-
- fprintf(stderr, "Distance: %2.10g\n", error);
- }
- else
- fprintf(stderr, "\r \r");
-
- #if 0
- dst = pipi_resize(tmp, width, height);
- pipi_free(tmp);
-
- /* Save image and bail out */
- pipi_save(dst, "lol.bmp");
- pipi_free(dst);
- #endif
-
- /* Push our points to the bitstream */
- for(int i = 0; i < npoints; i += POINTS_PER_CELL)
- {
- if(POINTS_PER_CELL == 2)
- {
- int x1, y1, x2, y2;
- x1 = points[i].x;
- y1 = points[i].y;
- x2 = points[i + 1].x;
- y2 = points[i + 1].y;
-
- bool swap;
- uint32_t pack = pack_coords(x1, y1, x2, y2, &swap);
-
- b.push(points[i + (swap ? 1 : 0)].s, RANGE_S);
- b.push(points[i + (swap ? 1 : 0)].b, RANGE_B);
- b.push(points[i + (swap ? 1 : 0)].g, RANGE_G);
- b.push(points[i + (swap ? 1 : 0)].r, RANGE_R);
- b.push(points[i + (swap ? 0 : 1)].s, RANGE_S);
- b.push(points[i + (swap ? 0 : 1)].b, RANGE_B);
- b.push(points[i + (swap ? 0 : 1)].g, RANGE_G);
- b.push(points[i + (swap ? 0 : 1)].r, RANGE_R);
- b.push(pack, RANGE_XY2);
- }
- else
- {
- b.push(points[i].s, RANGE_S);
- b.push(points[i].b, RANGE_B);
- b.push(points[i].g, RANGE_G);
- b.push(points[i].r, RANGE_R);
- b.push(points[i].x, RANGE_X);
- b.push(points[i].y, RANGE_Y);
- }
- }
- b.push(height - 1, RANGE_H);
- b.push(width - 1, RANGE_W);
- b.push(version, RANGE_V);
-
- /* Pop Unicode characters from the bitstream and print them */
- for(int i = 0; i < MAX_MSG_LEN; i++)
- fwrite_utf8(stdout, index2uni(b.pop(NUM_CHARACTERS)));
- fprintf(stdout, "\n");
- }
- else
- {
- /* Pop points from the bitstream */
- for(int i = dw * dh; i--; )
- {
- if(POINTS_PER_CELL == 2)
- {
- uint32_t pack = b.pop(RANGE_XY2);
- int x1, y1, x2, y2;
- unpack_coords(pack, &x1, &y1, &x2, &y2);
-
- points[i * 2 + 1].y = y2;
- points[i * 2 + 1].x = x2;
- points[i * 2 + 1].r = b.pop(RANGE_R);
- points[i * 2 + 1].g = b.pop(RANGE_G);
- points[i * 2 + 1].b = b.pop(RANGE_B);
- points[i * 2 + 1].s = b.pop(RANGE_S);
- points[i * 2].y = y1;
- points[i * 2].x = x1;
- points[i * 2].r = b.pop(RANGE_R);
- points[i * 2].g = b.pop(RANGE_G);
- points[i * 2].b = b.pop(RANGE_B);
- points[i * 2].s = b.pop(RANGE_S);
- }
- else
- {
- points[i].y = b.pop(RANGE_Y);
- points[i].x = b.pop(RANGE_X);
- points[i].r = b.pop(RANGE_R);
- points[i].g = b.pop(RANGE_G);
- points[i].b = b.pop(RANGE_B);
- points[i].s = b.pop(RANGE_S);
- }
- }
- npoints = dw * dh * POINTS_PER_CELL;
-
- /* Render these points to a new image */
- dst = pipi_new(width, height);
- render(dst, 0, 0, width, height);
-
- /* Save image and bail out */
- pipi_save(dst, dstname);
- pipi_free(dst);
- }
-
- return EXIT_SUCCESS;
- }
-
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