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Moggy assess: Do not advise against capturing laddered groups
[pachi.git] / uct / uct.c
blobd9aa5c26d3de6a839e9b107c7b2c1d1f07c89b85
1 #include <assert.h>
2 #include <pthread.h>
3 #include <signal.h>
4 #include <stdio.h>
5 #include <stdlib.h>
6 #include <string.h>
7
8 #define DEBUG
9
10 #include "debug.h"
11 #include "board.h"
12 #include "move.h"
13 #include "playout.h"
14 #include "playout/moggy.h"
15 #include "playout/light.h"
16 #include "random.h"
17 #include "uct/internal.h"
18 #include "uct/tree.h"
19 #include "uct/uct.h"
20
21 struct uct_policy *policy_ucb1_init(struct uct *u, char *arg);
22 struct uct_policy *policy_ucb1tuned_init(struct uct *u, char *arg);
23 struct uct_policy *policy_ucb1amaf_init(struct uct *u, char *arg);
24
25
26 #define MC_GAMES 80000
27 #define MC_GAMELEN 400
28
29
30 static void
31 progress_status(struct uct *u, struct tree *t, enum stone color, int playouts)
32 {
33 if (!UDEBUGL(0))
34 return;
35
36 /* Best move */
37 struct tree_node *best = u->policy->choose(u->policy, t->root, t->board, color);
38 if (!best) {
39 fprintf(stderr, "... No moves left\n");
40 return;
41 }
42 fprintf(stderr, "[%d] ", playouts);
43 fprintf(stderr, "best %f ", best->u.value);
44
45 /* Max depth */
46 fprintf(stderr, "deepest % 2d ", t->max_depth - t->root->depth);
47
48 /* Best sequence */
49 fprintf(stderr, "| seq ");
50 for (int depth = 0; depth < 6; depth++) {
51 if (best && best->u.playouts >= 25) {
52 fprintf(stderr, "%3s ", coord2sstr(best->coord, t->board));
53 best = u->policy->choose(u->policy, best, t->board, color);
54 } else {
55 fprintf(stderr, " ");
56 }
57 }
58
59 /* Best candidates */
60 fprintf(stderr, "| can ");
61 int cans = 4;
62 struct tree_node *can[cans];
63 memset(can, 0, sizeof(can));
64 best = t->root->children;
65 while (best) {
66 int c = 0;
67 while ((!can[c] || best->u.playouts > can[c]->u.playouts) && ++c < cans);
68 for (int d = 0; d < c; d++) can[d] = can[d + 1];
69 if (c > 0) can[c - 1] = best;
70 best = best->sibling;
71 }
72 while (--cans >= 0) {
73 if (can[cans]) {
74 fprintf(stderr, "%3s(%.3f) ", coord2sstr(can[cans]->coord, t->board), can[cans]->u.value);
75 } else {
76 fprintf(stderr, " ");
77 }
78 }
79
80 fprintf(stderr, "\n");
81 }
82
83
84 static int
85 uct_leaf_node(struct uct *u, struct board *b, enum stone player_color,
86 struct playout_amafmap *amaf,
87 struct tree *t, struct tree_node *n, enum stone node_color,
88 char *spaces)
89 {
90 enum stone next_color = stone_other(node_color);
91 if (n->u.playouts >= u->expand_p) {
92 // fprintf(stderr, "expanding %s (%p ^-%p)\n", coord2sstr(n->coord, b), n, n->parent);
93 tree_expand_node(t, n, b, next_color, u->radar_d, u->policy,
94 (next_color == player_color ? 1 : -1));
95 }
96 if (UDEBUGL(7))
97 fprintf(stderr, "%s*-- UCT playout #%d start [%s] %f\n",
98 spaces, n->u.playouts, coord2sstr(n->coord, t->board), n->u.value);
99
100 int result = play_random_game(b, next_color, u->gamelen, u->playout_amaf ? amaf : NULL, u->playout);
101 if (player_color != next_color && result >= 0)
102 result = !result;
103 if (UDEBUGL(7))
104 fprintf(stderr, "%s -- [%d..%d] %s random playout result %d\n",
105 spaces, player_color, next_color, coord2sstr(n->coord, t->board), result);
106
107 return result;
108 }
109
110 static int
111 uct_playout(struct uct *u, struct board *b, enum stone player_color, struct tree *t)
112 {
113 struct board b2;
114 board_copy(&b2, b);
115
116 struct playout_amafmap *amaf = NULL;
117 if (u->policy->wants_amaf) {
118 amaf = calloc(1, sizeof(*amaf));
119 amaf->map = calloc(board_size2(&b2) + 1, sizeof(*amaf->map));
120 amaf->map++; // -1 is pass
121 }
122
123 /* Walk the tree until we find a leaf, then expand it and do
124 * a random playout. */
125 struct tree_node *n = t->root;
126 enum stone node_color = stone_other(player_color);
127 assert(node_color == t->root_color);
128
129 int result;
130 int pass_limit = (board_size(&b2) - 2) * (board_size(&b2) - 2) / 2;
131 int passes = is_pass(b->last_move.coord);
132
133 /* debug */
134 int depth = 0;
135 static char spaces[] = "\0 ";
136 /* /debug */
137 if (UDEBUGL(8))
138 fprintf(stderr, "--- UCT walk with color %d\n", player_color);
139
140 while (!tree_leaf_node(n) && passes < 2) {
141 spaces[depth++] = ' '; spaces[depth] = 0;
142
143 /* Parity is chosen already according to the child color, since
144 * it is applied to children. */
145 node_color = stone_other(node_color);
146 n = u->policy->descend(u->policy, t, n, (node_color == player_color ? 1 : -1), pass_limit);
147
148 assert(n == t->root || n->parent);
149 if (UDEBUGL(7))
150 fprintf(stderr, "%s+-- UCT sent us to [%s:%d] %f\n",
151 spaces, coord2sstr(n->coord, t->board), n->coord, n->u.value);
152
153 if (amaf && n->coord >= -1 && !is_pass(n->coord)) {
154 if (amaf->map[n->coord] == S_NONE) {
155 amaf->map[n->coord] = node_color;
156 } else {
157 amaf_op(amaf->map[n->coord], +);
158 }
159 }
160
161 struct move m = { n->coord, node_color };
162 int res = board_play(&b2, &m);
163
164 if (res < 0 || (!is_pass(m.coord) && !group_at(&b2, m.coord)) /* suicide */
165 || b2.superko_violation) {
166 if (UDEBUGL(3)) {
167 for (struct tree_node *ni = n; ni; ni = ni->parent)
168 fprintf(stderr, "%s ", coord2sstr(ni->coord, t->board));
169 fprintf(stderr, "deleting invalid %s node %d,%d res %d group %d spk %d\n",
170 stone2str(node_color), coord_x(n->coord,b), coord_y(n->coord,b),
171 res, group_at(&b2, m.coord), b2.superko_violation);
172 }
173 tree_delete_node(t, n);
174 result = -1;
175 goto end;
176 }
177
178 if (is_pass(n->coord))
179 passes++;
180 else
181 passes = 0;
182 }
183
184 if (tree_leaf_node(n)) {
185 result = uct_leaf_node(u, &b2, player_color, amaf, t, n, node_color, spaces);
186
187 } else { assert(passes >= 2);
188
189 float score = board_official_score(&b2);
190 result = (player_color == S_BLACK) ? score < 0 : score > 0;
191
192 if (UDEBUGL(5))
193 fprintf(stderr, "[%d..%d] %s p-p scoring playout result %d (W %f)\n",
194 player_color, node_color, coord2sstr(n->coord, t->board), result, score);
195 if (UDEBUGL(6))
196 board_print(&b2, stderr);
197 }
198
199 assert(n == t->root || n->parent);
200 if (result >= 0)
201 u->policy->update(u->policy, t, n, node_color, player_color, amaf, result);
202
203 end:
204 if (amaf) {
205 free(amaf->map - 1);
206 free(amaf);
207 }
208 board_done_noalloc(&b2);
209 return result;
210 }
211
212 static void
213 prepare_move(struct engine *e, struct board *b, enum stone color, coord_t promote)
214 {
215 struct uct *u = e->data;
216
217 if (!b->moves && u->t) {
218 /* Stale state from last game */
219 tree_done(u->t);
220 u->t = NULL;
221 }
222
223 if (!u->t) {
224 u->t = tree_init(b, color);
225 if (u->force_seed)
226 fast_srandom(u->force_seed);
227 if (UDEBUGL(0))
228 fprintf(stderr, "Fresh board with random seed %lu\n", fast_getseed());
229 //board_print(b, stderr);
230 tree_load(u->t, b, color);
231 }
232
233 /* XXX: We hope that the opponent didn't suddenly play
234 * several moves in the row. */
235 if (!is_resign(promote) && !tree_promote_at(u->t, b, promote)) {
236 if (UDEBUGL(2))
237 fprintf(stderr, "<cannot find node to promote>\n");
238 /* Reset tree */
239 tree_done(u->t);
240 u->t = tree_init(b, color);
241 }
242 }
243
244 /* Set in main thread in case the playouts should stop. */
245 static volatile sig_atomic_t halt = 0;
246
247 static int
248 uct_playouts(struct uct *u, struct board *b, enum stone color, struct tree *t)
249 {
250 int i, games = u->games;
251 if (t->root->children)
252 games -= t->root->u.playouts / 1.5;
253 /* else this is highly read-out but dead-end branch of opening book;
254 * we need to start from scratch; XXX: Maybe actually base the readout
255 * count based on number of playouts of best node? */
256 for (i = 0; i < games; i++) {
257 int result = uct_playout(u, b, color, t);
258 if (result < 0) {
259 /* Tree descent has hit invalid move. */
260 continue;
261 }
262
263 if (i > 0 && !(i % 10000)) {
264 progress_status(u, t, color, i);
265 }
266
267 if (i > 0 && !(i % 500)) {
268 struct tree_node *best = u->policy->choose(u->policy, t->root, b, color);
269 if (best && best->u.playouts >= 5000 && best->u.value >= u->loss_threshold)
270 break;
271 }
272
273 if (halt) {
274 if (UDEBUGL(2))
275 fprintf(stderr, "<halting early, %d games skipped>\n", games - i);
276 break;
277 }
278 }
279
280 progress_status(u, t, color, i);
281 if (UDEBUGL(3))
282 tree_dump(t, u->dumpthres);
283 return i;
284 }
285
286 static pthread_mutex_t finish_mutex = PTHREAD_MUTEX_INITIALIZER;
287 static pthread_cond_t finish_cond = PTHREAD_COND_INITIALIZER;
288 static volatile int finish_thread;
289 static pthread_mutex_t finish_serializer = PTHREAD_MUTEX_INITIALIZER;
290
291 struct spawn_ctx {
292 int tid;
293 struct uct *u;
294 struct board *b;
295 enum stone color;
296 struct tree *t;
297 unsigned long seed;
298 int games;
299 };
300
301 static void *
302 spawn_helper(void *ctx_)
303 {
304 struct spawn_ctx *ctx = ctx_;
305 /* Setup */
306 fast_srandom(ctx->seed);
307 /* Run */
308 ctx->games = uct_playouts(ctx->u, ctx->b, ctx->color, ctx->t);
309 /* Finish */
310 pthread_mutex_lock(&finish_serializer);
311 pthread_mutex_lock(&finish_mutex);
312 finish_thread = ctx->tid;
313 pthread_cond_signal(&finish_cond);
314 pthread_mutex_unlock(&finish_mutex);
315 return ctx;
316 }
317
318 static void
319 uct_notify_play(struct engine *e, struct board *b, struct move *m)
320 {
321 prepare_move(e, b, stone_other(m->color), m->coord);
322 }
323
324 static coord_t *
325 uct_genmove(struct engine *e, struct board *b, enum stone color)
326 {
327 struct uct *u = e->data;
328
329 /* Seed the tree. */
330 prepare_move(e, b, color, resign);
331
332 int played_games = 0;
333 if (!u->threads) {
334 played_games = uct_playouts(u, b, color, u->t);
335 } else {
336 pthread_t threads[u->threads];
337 int joined = 0;
338 halt = 0;
339 pthread_mutex_lock(&finish_mutex);
340 /* Spawn threads... */
341 for (int ti = 0; ti < u->threads; ti++) {
342 struct spawn_ctx *ctx = malloc(sizeof(*ctx));
343 ctx->u = u; ctx->b = b; ctx->color = color;
344 ctx->t = tree_copy(u->t); ctx->tid = ti;
345 ctx->seed = fast_random(65536) + ti;
346 pthread_create(&threads[ti], NULL, spawn_helper, ctx);
347 if (UDEBUGL(2))
348 fprintf(stderr, "Spawned thread %d\n", ti);
349 }
350 /* ...and collect them back: */
351 while (joined < u->threads) {
352 /* Wait for some thread to finish... */
353 pthread_cond_wait(&finish_cond, &finish_mutex);
354 /* ...and gather its remnants. */
355 struct spawn_ctx *ctx;
356 pthread_join(threads[finish_thread], (void **) &ctx);
357 played_games += ctx->games;
358 joined++;
359 tree_merge(u->t, ctx->t);
360 tree_done(ctx->t);
361 free(ctx);
362 if (UDEBUGL(2))
363 fprintf(stderr, "Joined thread %d\n", finish_thread);
364 /* Do not get stalled by slow threads. */
365 if (joined >= u->threads / 2)
366 halt = 1;
367 pthread_mutex_unlock(&finish_serializer);
368 }
369 pthread_mutex_unlock(&finish_mutex);
370 }
371
372 if (UDEBUGL(2))
373 tree_dump(u->t, u->dumpthres);
374
375 struct tree_node *best = u->policy->choose(u->policy, u->t->root, b, color);
376 if (!best) {
377 tree_done(u->t); u->t = NULL;
378 return coord_copy(pass);
379 }
380 if (UDEBUGL(0))
381 fprintf(stderr, "*** WINNER is %s (%d,%d) with score %1.4f (%d/%d:%d games)\n", coord2sstr(best->coord, b), coord_x(best->coord, b), coord_y(best->coord, b), best->u.value, best->u.playouts, u->t->root->u.playouts, played_games);
382 if (best->u.value < u->resign_ratio && !is_pass(best->coord)) {
383 tree_done(u->t); u->t = NULL;
384 return coord_copy(resign);
385 }
386 tree_promote_node(u->t, best);
387 return coord_copy(best->coord);
388 }
389
390 bool
391 uct_genbook(struct engine *e, struct board *b, enum stone color)
392 {
393 struct uct *u = e->data;
394 u->t = tree_init(b, color);
395 tree_load(u->t, b, color);
396
397 int i;
398 for (i = 0; i < u->games; i++) {
399 int result = uct_playout(u, b, color, u->t);
400 if (result < 0) {
401 /* Tree descent has hit invalid move. */
402 continue;
403 }
404
405 if (i > 0 && !(i % 10000)) {
406 progress_status(u, u->t, color, i);
407 }
408 }
409 progress_status(u, u->t, color, i);
410
411 tree_save(u->t, b, u->games / 100);
412
413 tree_done(u->t);
414
415 return true;
416 }
417
418 void
419 uct_dumpbook(struct engine *e, struct board *b, enum stone color)
420 {
421 struct uct *u = e->data;
422 u->t = tree_init(b, color);
423 tree_load(u->t, b, color);
424 tree_dump(u->t, 0);
425 tree_done(u->t);
426 }
427
428
429 struct uct *
430 uct_state_init(char *arg)
431 {
432 struct uct *u = calloc(1, sizeof(struct uct));
433
434 u->debug_level = 1;
435 u->games = MC_GAMES;
436 u->gamelen = MC_GAMELEN;
437 u->expand_p = 2;
438 u->dumpthres = 1000;
439 u->playout_amaf = false;
440
441 if (arg) {
442 char *optspec, *next = arg;
443 while (*next) {
444 optspec = next;
445 next += strcspn(next, ",");
446 if (*next) { *next++ = 0; } else { *next = 0; }
447
448 char *optname = optspec;
449 char *optval = strchr(optspec, '=');
450 if (optval) *optval++ = 0;
451
452 if (!strcasecmp(optname, "debug")) {
453 if (optval)
454 u->debug_level = atoi(optval);
455 else
456 u->debug_level++;
457 } else if (!strcasecmp(optname, "games") && optval) {
458 u->games = atoi(optval);
459 } else if (!strcasecmp(optname, "gamelen") && optval) {
460 u->gamelen = atoi(optval);
461 } else if (!strcasecmp(optname, "expand_p") && optval) {
462 u->expand_p = atoi(optval);
463 } else if (!strcasecmp(optname, "radar_d") && optval) {
464 /* For 19x19, it is good idea to set this to 3. */
465 u->radar_d = atoi(optval);
466 } else if (!strcasecmp(optname, "dumpthres") && optval) {
467 u->dumpthres = atoi(optval);
468 } else if (!strcasecmp(optname, "playout_amaf")) {
469 /* Whether to include random playout moves in
470 * AMAF as well. (Otherwise, only tree moves
471 * are included in AMAF. Of course makes sense
472 * only in connection with an AMAF policy.) */
473 /* with-without: 55.5% (+-4.1) */
474 if (optval && *optval == '0')
475 u->playout_amaf = false;
476 else
477 u->playout_amaf = true;
478 } else if (!strcasecmp(optname, "policy") && optval) {
479 char *policyarg = strchr(optval, ':');
480 if (policyarg)
481 *policyarg++ = 0;
482 if (!strcasecmp(optval, "ucb1")) {
483 u->policy = policy_ucb1_init(u, policyarg);
484 } else if (!strcasecmp(optval, "ucb1tuned")) {
485 u->policy = policy_ucb1tuned_init(u, policyarg);
486 } else if (!strcasecmp(optval, "ucb1amaf")) {
487 u->policy = policy_ucb1amaf_init(u, policyarg);
488 } else {
489 fprintf(stderr, "UCT: Invalid tree policy %s\n", optval);
490 }
491 } else if (!strcasecmp(optname, "playout") && optval) {
492 char *playoutarg = strchr(optval, ':');
493 if (playoutarg)
494 *playoutarg++ = 0;
495 if (!strcasecmp(optval, "moggy")) {
496 u->playout = playout_moggy_init(playoutarg);
497 } else if (!strcasecmp(optval, "light")) {
498 u->playout = playout_light_init(playoutarg);
499 } else {
500 fprintf(stderr, "UCT: Invalid playout policy %s\n", optval);
501 }
502 } else if (!strcasecmp(optname, "threads") && optval) {
503 u->threads = atoi(optval);
504 } else if (!strcasecmp(optname, "force_seed") && optval) {
505 u->force_seed = atoi(optval);
506 } else {
507 fprintf(stderr, "uct: Invalid engine argument %s or missing value\n", optname);
508 }
509 }
510 }
511
512 u->resign_ratio = 0.2; /* Resign when most games are lost. */
513 u->loss_threshold = 0.85; /* Stop reading if after at least 5000 playouts this is best value. */
514 if (!u->policy)
515 u->policy = policy_ucb1amaf_init(u, NULL);
516
517 if (!u->playout)
518 u->playout = playout_moggy_init(NULL);
519 u->playout->debug_level = u->debug_level;
520
521 return u;
522 }
523
524
525 struct engine *
526 engine_uct_init(char *arg)
527 {
528 struct uct *u = uct_state_init(arg);
529 struct engine *e = calloc(1, sizeof(struct engine));
530 e->name = "UCT Engine";
531 e->comment = "I'm playing UCT. When we both pass, I will consider all the stones on the board alive. If you are reading this, write 'yes'. Please bear with me at the game end, I need to fill the whole board; if you help me, we will both be happier. Filling the board will not lose points (NZ rules).";
532 e->genmove = uct_genmove;
533 e->notify_play = uct_notify_play;
534 e->data = u;
535
536 return e;
537 }
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