Moggy: New side pattern for making eyes
[pachi/peepo.git] / patternsp.c
blob80e3971d6dddebbc31e21bdcc3ae6efad55e7f58
1 #define DEBUG
2 #include <assert.h>
3 #include <ctype.h>
4 #include <inttypes.h>
5 #include <stdio.h>
6 #include <stdlib.h>
8 #include "board.h"
9 #include "debug.h"
10 #include "pattern.h"
11 #include "patternsp.h"
13 /* Mapping from point sequence to coordinate offsets (to determine
14 * coordinates relative to pattern center). The array is ordered
15 * in the gridcular metric order so that we can go through it
16 * and incrementally match spatial features in nested circles.
17 * Within one circle, coordinates are ordered by rows to keep
18 * good cache behavior. */
19 struct ptcoord ptcoords[MAX_PATTERN_AREA];
21 /* For each radius, starting index in ptcoords[]. */
22 int ptind[MAX_PATTERN_DIST + 2];
24 /* ptcoords[], ptind[] setup */
25 static void
26 ptcoords_init(void)
28 int i = 0; /* Indexing ptcoords[] */
30 /* First, center point. */
31 ptind[0] = ptind[1] = 0;
32 ptcoords[i].x = ptcoords[i].y = 0; i++;
34 for (int d = 2; d <= MAX_PATTERN_DIST; d++) {
35 ptind[d] = i;
36 /* For each y, examine all integer solutions
37 * of d = |x| + |y| + max(|x|, |y|). */
38 /* TODO: (Stern, 2006) uses a hand-modified
39 * circles that are finer for small d and more
40 * coarse for large d. */
41 for (short y = d / 2; y >= 0; y--) {
42 short x;
43 if (y > d / 3) {
44 /* max(|x|, |y|) = |y|, non-zero x */
45 x = d - y * 2;
46 if (x + y * 2 != d) continue;
47 } else {
48 /* max(|x|, |y|) = |x| */
49 /* Or, max(|x|, |y|) = |y| and x is zero */
50 x = (d - y) / 2;
51 if (x * 2 + y != d) continue;
54 assert((x > y ? x : y) + x + y == d);
56 ptcoords[i].x = x; ptcoords[i].y = y; i++;
57 if (x != 0) { ptcoords[i].x = -x; ptcoords[i].y = y; i++; }
58 if (y != 0) { ptcoords[i].x = x; ptcoords[i].y = -y; i++; }
59 if (x != 0 && y != 0) { ptcoords[i].x = -x; ptcoords[i].y = -y; i++; }
62 ptind[MAX_PATTERN_DIST + 1] = i;
64 #if 0
65 for (int d = 0; d <= MAX_PATTERN_DIST; d++) {
66 fprintf(stderr, "d=%d (%d) ", d, ptind[d]);
67 for (int j = ptind[d]; j < ptind[d + 1]; j++) {
68 fprintf(stderr, "%d,%d ", ptcoords[j].x, ptcoords[j].y);
70 fprintf(stderr, "\n");
72 #endif
76 /* Zobrist hashes used for points in patterns. */
77 hash_t pthashes[PTH__ROTATIONS][MAX_PATTERN_AREA][S_MAX];
79 static void
80 pthashes_init(void)
82 /* We need fixed hashes for all pattern-relative in
83 * all pattern users! This is a simple way to generate
84 * hopefully good ones. Park-Miller powa. :) */
86 /* We create a virtual board (centered at the sequence start),
87 * plant the hashes there, then pick them up into the sequence
88 * with correct coordinates. It would be possible to generate
89 * the sequence point hashes directly, but the rotations would
90 * make for enormous headaches. */
91 #define PATTERN_BOARD_SIZE ((MAX_PATTERN_DIST + 1) * (MAX_PATTERN_DIST + 1))
92 hash_t pthboard[PATTERN_BOARD_SIZE][4];
93 int pthbc = PATTERN_BOARD_SIZE / 2; // tengen coord
95 /* The magic numbers are tuned for minimal collisions. */
96 hash_t h1 = 0xd6d6d6d1;
97 hash_t h2 = 0xd6d6d6d2;
98 hash_t h3 = 0xd6d6d6d3;
99 hash_t h4 = 0xd6d6d6d4;
100 for (int i = 0; i < PATTERN_BOARD_SIZE; i++) {
101 pthboard[i][S_NONE] = (h1 = h1 * 16787);
102 pthboard[i][S_BLACK] = (h2 = h2 * 16823);
103 pthboard[i][S_WHITE] = (h3 = h3 * 16811 - 13);
104 pthboard[i][S_OFFBOARD] = (h4 = h4 * 16811);
107 /* Virtual board with hashes created, now fill
108 * pthashes[] with hashes for points in actual
109 * sequences, also considering various rotations. */
110 #define PTH_VMIRROR 1
111 #define PTH_HMIRROR 2
112 #define PTH_90ROT 4
113 for (int r = 0; r < PTH__ROTATIONS; r++) {
114 for (int i = 0; i < MAX_PATTERN_AREA; i++) {
115 /* Rotate appropriately. */
116 int rx = ptcoords[i].x;
117 int ry = ptcoords[i].y;
118 if (r & PTH_VMIRROR) ry = -ry;
119 if (r & PTH_HMIRROR) rx = -rx;
120 if (r & PTH_90ROT) {
121 int rs = rx; rx = -ry; ry = rs;
123 int bi = pthbc + ry * (MAX_PATTERN_DIST + 1) + rx;
125 /* Copy info. */
126 pthashes[r][i][S_NONE] = pthboard[bi][S_NONE];
127 pthashes[r][i][S_BLACK] = pthboard[bi][S_BLACK];
128 pthashes[r][i][S_WHITE] = pthboard[bi][S_WHITE];
129 pthashes[r][i][S_OFFBOARD] = pthboard[bi][S_OFFBOARD];
134 static void __attribute__((constructor))
135 spatial_init(void)
137 /* Initialization of various static data structures for
138 * fast pattern processing. */
139 ptcoords_init();
140 pthashes_init();
143 inline hash_t
144 spatial_hash(int rotation, struct spatial *s)
146 hash_t h = 0;
147 for (int i = 0; i < ptind[s->dist + 1]; i++) {
148 h ^= pthashes[rotation][i][spatial_point_at(*s, i)];
150 return h & spatial_hash_mask;
153 char *
154 spatial2str(struct spatial *s)
156 static char buf[1024];
157 for (int i = 0; i < ptind[s->dist + 1]; i++) {
158 buf[i] = stone2char(spatial_point_at(*s, i));
160 buf[ptind[s->dist + 1]] = 0;
161 return buf;
164 void
165 spatial_from_board(struct pattern_config *pc, struct spatial *s,
166 struct board *b, struct move *m)
168 assert(pc->spat_min > 0);
170 /* We record all spatial patterns black-to-play; simply
171 * reverse all colors if we are white-to-play. */
172 static enum stone bt_black[4] = { S_NONE, S_BLACK, S_WHITE, S_OFFBOARD };
173 static enum stone bt_white[4] = { S_NONE, S_WHITE, S_BLACK, S_OFFBOARD };
174 enum stone (*bt)[4] = m->color == S_WHITE ? &bt_white : &bt_black;
176 memset(s, 0, sizeof(*s));
177 for (int j = 0; j < ptind[pc->spat_max + 1]; j++) {
178 ptcoords_at(x, y, m->coord, b, j);
179 s->points[j / 4] |= (*bt)[board_atxy(b, x, y)] << ((j % 4) * 2);
181 s->dist = pc->spat_max;
184 /* Compare two spatials, allowing for differences up to isomorphism.
185 * True means the spatials are equivalent. */
186 static bool
187 spatial_cmp(struct spatial *s1, struct spatial *s2)
189 /* Quick preliminary check. */
190 if (s1->dist != s2->dist)
191 return false;
193 /* We could create complex transposition tables, but it seems most
194 * foolproof to just check if the sets of rotation hashes are the
195 * same for both. */
196 hash_t s1r[PTH__ROTATIONS];
197 for (int r = 0; r < PTH__ROTATIONS; r++)
198 s1r[r] = spatial_hash(r, s1);
199 for (int r = 0; r < PTH__ROTATIONS; r++) {
200 hash_t s2r = spatial_hash(r, s2);
201 for (int p = 0; p < PTH__ROTATIONS; p++)
202 if (s2r == s1r[p])
203 goto found_rot;
204 /* Rotation hash s2r does not correspond to s1r. */
205 return false;
206 found_rot:;
209 /* All rotation hashes of s2 occur in s1. Hopefully that
210 * indicates something. */
211 return true;
215 /* Spatial dict manipulation. */
217 static unsigned int
218 spatial_dict_addc(struct spatial_dict *dict, struct spatial *s)
220 /* Allocate space in 1024 blocks. */
221 #define SPATIALS_ALLOC 1024
222 if (!(dict->nspatials % SPATIALS_ALLOC)) {
223 dict->spatials = realloc(dict->spatials,
224 (dict->nspatials + SPATIALS_ALLOC)
225 * sizeof(*dict->spatials));
227 dict->spatials[dict->nspatials] = *s;
228 return dict->nspatials++;
231 bool
232 spatial_dict_addh(struct spatial_dict *dict, hash_t hash, unsigned int id)
234 if (dict->hash[hash] && dict->hash[hash] != id)
235 dict->collisions++;
236 dict->hash[hash] = id;
237 return true;
240 /* Spatial dictionary file format:
241 * /^#/ - comments
242 * INDEX RADIUS STONES HASH...
243 * INDEX: index in the spatial table
244 * RADIUS: @d of the pattern
245 * STONES: string of ".XO#" chars
246 * HASH...: space-separated 18bit hash-table indices for the pattern */
248 static void
249 spatial_dict_read(struct spatial_dict *dict, char *buf, bool hash)
251 /* XXX: We trust the data. Bad data will crash us. */
252 char *bufp = buf;
254 unsigned int index, radius;
255 index = strtoul(bufp, &bufp, 10);
256 radius = strtoul(bufp, &bufp, 10);
257 while (isspace(*bufp)) bufp++;
259 /* Load the stone configuration. */
260 struct spatial s = { .dist = radius };
261 int sl = 0;
262 while (!isspace(*bufp)) {
263 s.points[sl / 4] |= char2stone(*bufp++) << ((sl % 4)*2);
264 sl++;
266 while (isspace(*bufp)) bufp++;
268 /* Sanity check. */
269 if (sl != ptind[s.dist + 1]) {
270 fprintf(stderr, "Spatial dictionary: Invalid number of stones (%d != %d) on this line: %s\n",
271 sl, ptind[radius + 1] - 1, buf);
272 exit(EXIT_FAILURE);
275 /* Add to collection. */
276 unsigned int id = spatial_dict_addc(dict, &s);
277 assert(id == index);
279 /* Add to specified hash places. */
280 if (hash)
281 for (int r = 0; r < PTH__ROTATIONS; r++)
282 spatial_dict_addh(dict, spatial_hash(r, &s), id);
285 void
286 spatial_write(struct spatial_dict *dict, struct spatial *s, int id, FILE *f)
288 fprintf(f, "%d %d ", id, s->dist);
289 fputs(spatial2str(s), f);
290 for (int r = 0; r < PTH__ROTATIONS; r++) {
291 hash_t rhash = spatial_hash(r, s);
292 int id2 = dict->hash[rhash];
293 if (id2 != id) {
294 /* This hash does not belong to us. Decide whether
295 * we or the current owner is better owner. */
296 /* TODO: Compare also # of patternscan encounters? */
297 struct spatial *s2 = &dict->spatials[id2];
298 if (s2->dist < s->dist)
299 continue;
300 if (s2->dist == s->dist && id2 < id)
301 continue;
303 fprintf(f, " %"PRIhash"", spatial_hash(r, s));
305 fputc('\n', f);
308 static void
309 spatial_dict_load(struct spatial_dict *dict, FILE *f, bool hash)
311 char buf[1024];
312 while (fgets(buf, sizeof(buf), f)) {
313 if (buf[0] == '#') continue;
314 spatial_dict_read(dict, buf, hash);
316 if (DEBUGL(1)) {
317 fprintf(stderr, "Loaded spatial dictionary of %d patterns.\n", dict->nspatials);
318 if (hash)
319 spatial_dict_hashstats(dict);
323 void
324 spatial_dict_hashstats(struct spatial_dict *dict)
326 fprintf(stderr, "\t(Spatial dictionary hash: %d coll., %d effective - still inflated, %.2f%% fill rate).\n",
327 dict->collisions, dict->collisions / PTH__ROTATIONS,
328 (double) dict->nspatials * 100 / (sizeof(dict->hash) / sizeof(dict->hash[0])));
331 void
332 spatial_dict_writeinfo(struct spatial_dict *dict, FILE *f)
334 /* New file. First, create a comment describing order
335 * of points in the array. This is just for purposes
336 * of external tools, Pachi never interprets it itself. */
337 fprintf(f, "# Pachi spatial patterns dictionary v1.0 maxdist %d\n",
338 MAX_PATTERN_DIST);
339 for (int d = 0; d <= MAX_PATTERN_DIST; d++) {
340 fprintf(f, "# Point order: d=%d ", d);
341 for (int j = ptind[d]; j < ptind[d + 1]; j++) {
342 fprintf(f, "%d,%d ", ptcoords[j].x, ptcoords[j].y);
344 fprintf(f, "\n");
348 /* We try to avoid needlessly reloading spatial dictionary
349 * since it may take rather long time. */
350 static struct spatial_dict *cached_dict;
352 const char *spatial_dict_filename = "patterns.spat";
353 struct spatial_dict *
354 spatial_dict_init(bool will_append, bool hash)
356 if (cached_dict && !will_append)
357 return cached_dict;
359 FILE *f = fopen(spatial_dict_filename, "r");
360 if (!f && !will_append) {
361 if (DEBUGL(1))
362 fprintf(stderr, "No spatial dictionary, will not match spatial pattern features.\n");
363 return NULL;
366 struct spatial_dict *dict = calloc2(1, sizeof(*dict));
367 /* We create a dummy record for index 0 that we will
368 * never reference. This is so that hash value 0 can
369 * represent "no value". */
370 struct spatial dummy = { .dist = 0 };
371 spatial_dict_addc(dict, &dummy);
373 if (f) {
374 spatial_dict_load(dict, f, hash);
375 fclose(f); f = NULL;
376 } else {
377 assert(will_append);
380 cached_dict = dict;
381 return dict;
385 spatial_dict_put(struct spatial_dict *dict, struct spatial *s, hash_t h)
387 /* We avoid spatial_dict_get() here, since we want to ignore radius
388 * differences - we have custom collision detection. */
389 int id = dict->hash[h];
390 if (id > 0) {
391 /* Is this the same or isomorphous spatial? */
392 if (spatial_cmp(s, &dict->spatials[id]))
393 return id;
395 /* Look a bit harder - perhaps one of our rotations still
396 * points at the correct spatial. */
397 for (int r = 0; r < PTH__ROTATIONS; r++) {
398 hash_t rhash = spatial_hash(r, s);
399 int rid = dict->hash[rhash];
400 /* No match means we definitely aren't stored yet. */
401 if (!rid)
402 break;
403 if (id != rid && spatial_cmp(s, &dict->spatials[rid])) {
404 /* Yay, this is us! */
405 if (DEBUGL(3))
406 fprintf(stderr, "Repeated collision %d vs %d\n", id, rid);
407 id = rid;
408 /* Point the hashes back to us. */
409 goto hash_store;
413 if (DEBUGL(1))
414 fprintf(stderr, "Collision %d vs %d\n", id, dict->nspatials);
415 id = 0;
416 /* dict->collisions++; gets done by addh */
419 /* Add new pattern! */
420 id = spatial_dict_addc(dict, s);
421 if (DEBUGL(4)) {
422 fprintf(stderr, "new spat %d(%d) %s <%"PRIhash"> ", id, s->dist, spatial2str(s), h);
423 for (int r = 0; r < 8; r++)
424 fprintf(stderr,"[%"PRIhash"] ", spatial_hash(r, s));
425 fprintf(stderr, "\n");
428 /* Store new pattern in the hash. */
429 hash_store:
430 for (int r = 0; r < PTH__ROTATIONS; r++)
431 spatial_dict_addh(dict, spatial_hash(r, s), id);
433 return id;