11 int board_group_capture(struct board
*board
, group_t group
);
13 bool random_pass
= false;
17 #define profiling_noinline __attribute__((noinline))
19 #define profiling_noinline
22 #define gi_granularity 4
23 #define gi_allocsize(gids) ((1 << gi_granularity) + ((gids) >> gi_granularity) * (1 << gi_granularity))
27 board_setup(struct board
*b
)
29 memset(b
, 0, sizeof(*b
));
31 struct move m
= { pass
, S_NONE
};
32 b
->last_move
= b
->ko
= m
;
38 struct board
*b
= malloc(sizeof(struct board
));
44 board_copy(struct board
*b2
, struct board
*b1
)
46 memcpy(b2
, b1
, sizeof(struct board
));
48 int bsize
= board_size2(b2
) * sizeof(*b2
->b
);
49 int gsize
= board_size2(b2
) * sizeof(*b2
->g
);
50 int fsize
= board_size2(b2
) * sizeof(*b2
->f
);
51 int nsize
= board_size2(b2
) * sizeof(*b2
->n
);
52 int psize
= board_size2(b2
) * sizeof(*b2
->p
);
53 int hsize
= board_size2(b2
) * 2 * sizeof(*b2
->h
);
54 int gisize
= board_size2(b2
) * sizeof(*b2
->gi
);
56 int csize
= board_size2(b2
) * sizeof(*b2
->c
);
60 void *x
= malloc(bsize
+ gsize
+ fsize
+ psize
+ nsize
+ hsize
+ gisize
+ csize
);
61 memcpy(x
, b1
->b
, bsize
+ gsize
+ fsize
+ psize
+ nsize
+ hsize
+ gisize
+ csize
);
62 b2
->b
= x
; x
+= bsize
;
63 b2
->g
= x
; x
+= gsize
;
64 b2
->f
= x
; x
+= fsize
;
65 b2
->p
= x
; x
+= psize
;
66 b2
->n
= x
; x
+= nsize
;
67 b2
->h
= x
; x
+= hsize
;
68 b2
->gi
= x
; x
+= gisize
;
70 b2
->c
= x
; x
+= csize
;
77 board_done_noalloc(struct board
*board
)
79 if (board
->b
) free(board
->b
);
83 board_done(struct board
*board
)
85 board_done_noalloc(board
);
90 board_resize(struct board
*board
, int size
)
93 assert(board_size(board
) == size
+ 2);
95 board_size(board
) = size
+ 2 /* S_OFFBOARD margin */;
96 board_size2(board
) = board_size(board
) * board_size(board
);
101 int bsize
= board_size2(board
) * sizeof(*board
->b
);
102 int gsize
= board_size2(board
) * sizeof(*board
->g
);
103 int fsize
= board_size2(board
) * sizeof(*board
->f
);
104 int nsize
= board_size2(board
) * sizeof(*board
->n
);
105 int psize
= board_size2(board
) * sizeof(*board
->p
);
106 int hsize
= board_size2(board
) * 2 * sizeof(*board
->h
);
107 int gisize
= board_size2(board
) * sizeof(*board
->gi
);
109 int csize
= board_size2(board
) * sizeof(*board
->c
);
113 void *x
= malloc(bsize
+ gsize
+ fsize
+ psize
+ nsize
+ hsize
+ gisize
+ csize
);
114 memset(x
, 0, bsize
+ gsize
+ fsize
+ psize
+ nsize
+ hsize
+ gisize
+ csize
);
115 board
->b
= x
; x
+= bsize
;
116 board
->g
= x
; x
+= gsize
;
117 board
->f
= x
; x
+= fsize
;
118 board
->p
= x
; x
+= psize
;
119 board
->n
= x
; x
+= nsize
;
120 board
->h
= x
; x
+= hsize
;
121 board
->gi
= x
; x
+= gisize
;
123 board
->c
= x
; x
+= csize
;
128 board_clear(struct board
*board
)
130 int size
= board_size(board
);
132 board_done_noalloc(board
);
134 board_resize(board
, size
- 2 /* S_OFFBOARD margin */);
136 /* Setup initial symmetry */
137 board
->symmetry
.d
= 1;
138 board
->symmetry
.x1
= board
->symmetry
.y1
= board
->size
/ 2;
139 board
->symmetry
.x2
= board
->symmetry
.y2
= board
->size
- 1;
140 board
->symmetry
.type
= SYM_FULL
;
142 /* Draw the offboard margin */
143 int top_row
= board_size2(board
) - board_size(board
);
145 for (i
= 0; i
< board_size(board
); i
++)
146 board
->b
[i
] = board
->b
[top_row
+ i
] = S_OFFBOARD
;
147 for (i
= 0; i
<= top_row
; i
+= board_size(board
))
148 board
->b
[i
] = board
->b
[board_size(board
) - 1 + i
] = S_OFFBOARD
;
150 foreach_point(board
) {
152 if (board_at(board
, coord
) == S_OFFBOARD
)
154 foreach_neighbor(board
, c
, {
155 inc_neighbor_count_at(board
, coord
, board_at(board
, c
));
159 /* First, pass is always a free position. */
160 board
->f
[board
->flen
++] = coord_raw(pass
);
161 /* All positions are free! Except the margin. */
162 for (i
= board_size(board
); i
< (board_size(board
) - 1) * board_size(board
); i
++)
163 if (i
% board_size(board
) != 0 && i
% board_size(board
) != board_size(board
) - 1)
164 board
->f
[board
->flen
++] = i
;
166 /* Initialize zobrist hashtable. */
167 foreach_point(board
) {
168 int max
= (sizeof(hash_t
) << history_hash_bits
);
169 /* fast_random() is 16-bit only */
170 board
->h
[coord_raw(c
) * 2] = ((hash_t
) fast_random(max
))
171 | ((hash_t
) fast_random(max
) << 16)
172 | ((hash_t
) fast_random(max
) << 32)
173 | ((hash_t
) fast_random(max
) << 48);
174 if (!board
->h
[coord_raw(c
) * 2])
175 /* Would be kinda "oops". */
176 board
->h
[coord_raw(c
) * 2] = 1;
177 /* And once again for white */
178 board
->h
[coord_raw(c
) * 2 + 1] = ((hash_t
) fast_random(max
))
179 | ((hash_t
) fast_random(max
) << 16)
180 | ((hash_t
) fast_random(max
) << 32)
181 | ((hash_t
) fast_random(max
) << 48);
182 if (!board
->h
[coord_raw(c
) * 2 + 1])
183 board
->h
[coord_raw(c
) * 2 + 1] = 1;
189 board_print(struct board
*board
, FILE *f
)
191 fprintf(f
, "Move: % 3d Komi: %2.1f Captures B: %d W: %d\n ",
192 board
->moves
, board
->komi
,
193 board
->captures
[S_BLACK
], board
->captures
[S_WHITE
]);
195 char asdf
[] = "ABCDEFGHJKLMNOPQRSTUVWXYZ";
196 for (x
= 1; x
< board_size(board
) - 1; x
++)
197 fprintf(f
, "%c ", asdf
[x
- 1]);
199 for (x
= 1; x
< board_size(board
) - 1; x
++)
202 for (y
= board_size(board
) - 2; y
>= 1; y
--) {
203 fprintf(f
, "%2d | ", y
);
204 for (x
= 1; x
< board_size(board
) - 1; x
++) {
205 if (coord_x(board
->last_move
.coord
, board
) == x
&& coord_y(board
->last_move
.coord
, board
) == y
)
206 fprintf(f
, "%c)", stone2char(board_atxy(board
, x
, y
)));
208 fprintf(f
, "%c ", stone2char(board_atxy(board
, x
, y
)));
212 for (x
= 1; x
< board_size(board
) - 1; x
++) {
213 fprintf(f
, "%d ", group_base(group_atxy(board
, x
, y
)));
219 for (x
= 1; x
< board_size(board
) - 1; x
++)
225 /* Update board hash with given coordinate. */
226 static void profiling_noinline
227 board_hash_update(struct board
*board
, coord_t coord
, enum stone color
)
229 board
->hash
^= hash_at(board
, coord
, color
);
231 fprintf(stderr
, "board_hash_update(%d,%d,%d) ^ %llx -> %llx\n", color
, coord_x(coord
, board
), coord_y(coord
, board
), hash_at(board
, coord
, color
), board
->hash
);
234 /* Commit current board hash to history. */
235 static void profiling_noinline
236 board_hash_commit(struct board
*board
)
239 fprintf(stderr
, "board_hash_commit %llx\n", board
->hash
);
240 if (likely(board
->history_hash
[board
->hash
& history_hash_mask
]) == 0) {
241 board
->history_hash
[board
->hash
& history_hash_mask
] = board
->hash
;
243 hash_t i
= board
->hash
;
244 while (board
->history_hash
[i
& history_hash_mask
]) {
245 if (board
->history_hash
[i
& history_hash_mask
] == board
->hash
) {
247 fprintf(stderr
, "SUPERKO VIOLATION noted at %d,%d\n",
248 coord_x(board
->last_move
.coord
, board
), coord_y(board
->last_move
.coord
, board
));
249 board
->superko_violation
= true;
252 i
= history_hash_next(i
);
254 board
->history_hash
[i
& history_hash_mask
] = board
->hash
;
260 board_symmetry_update(struct board
*b
, struct board_symmetry
*symmetry
, coord_t c
)
262 if (likely(symmetry
->type
== SYM_NONE
)) {
263 /* Fully degenerated already. We do not support detection
264 * of restoring of symmetry, assuming that this is too rare
265 * a case to handle. */
269 int x
= coord_x(c
, b
), y
= coord_y(c
, b
), t
= board_size(b
) / 2;
270 int dx
= board_size(b
) - 1 - x
; /* for SYM_DOWN */
272 fprintf(stderr
, "SYMMETRY [%d,%d,%d,%d|%d=%d] update for %d,%d\n",
273 symmetry
->x1
, symmetry
->y1
, symmetry
->x2
, symmetry
->y2
,
274 symmetry
->d
, symmetry
->type
, x
, y
);
277 switch (symmetry
->type
) {
279 if (x
== t
&& y
== t
) {
280 /* Tengen keeps full symmetry. */
283 /* New symmetry now? */
285 symmetry
->type
= SYM_DIAG_UP
;
286 symmetry
->x1
= symmetry
->y1
= 1;
287 symmetry
->x2
= symmetry
->y2
= board_size(b
) - 1;
289 } else if (dx
== y
) {
290 symmetry
->type
= SYM_DIAG_DOWN
;
291 symmetry
->x1
= symmetry
->y1
= 1;
292 symmetry
->x2
= symmetry
->y2
= board_size(b
) - 1;
295 symmetry
->type
= SYM_HORIZ
;
297 symmetry
->y2
= board_size(b
) - 1;
300 symmetry
->type
= SYM_VERT
;
302 symmetry
->x2
= board_size(b
) - 1;
306 symmetry
->type
= SYM_NONE
;
307 symmetry
->x1
= symmetry
->y1
= 1;
308 symmetry
->x2
= symmetry
->y2
= board_size(b
) - 1;
334 fprintf(stderr
, "NEW SYMMETRY [%d,%d,%d,%d|%d=%d]\n",
335 symmetry
->x1
, symmetry
->y1
, symmetry
->x2
, symmetry
->y2
,
336 symmetry
->d
, symmetry
->type
);
343 board_handicap_stone(struct board
*board
, int x
, int y
, FILE *f
)
347 coord_xy(m
.coord
, x
, y
, board
);
349 board_play(board
, &m
);
351 char *str
= coord2str(m
.coord
, board
);
353 fprintf(stderr
, "choosing handicap %s (%d,%d)\n", str
, x
, y
);
354 fprintf(f
, "%s ", str
);
359 board_handicap(struct board
*board
, int stones
, FILE *f
)
361 int margin
= 3 + (board_size(board
) >= 13);
363 int mid
= board_size(board
) / 2;
364 int max
= board_size(board
) - 1 - margin
;
365 const int places
[][2] = {
366 { min
, min
}, { max
, max
}, { max
, min
}, { min
, max
},
367 { min
, mid
}, { max
, mid
},
368 { mid
, min
}, { mid
, max
},
372 board
->handicap
= stones
;
374 if (stones
== 5 || stones
== 7) {
375 board_handicap_stone(board
, mid
, mid
, f
);
380 for (i
= 0; i
< stones
; i
++)
381 board_handicap_stone(board
, places
[i
][0], places
[i
][1], f
);
385 static void __attribute__((noinline
))
386 check_libs_consistency(struct board
*board
, group_t g
)
390 struct group
*gi
= &board_group_info(board
, g
);
391 for (int i
= 0; i
< GROUP_KEEP_LIBS
; i
++)
392 if (gi
->lib
[i
] && board_at(board
, gi
->lib
[i
]) != S_NONE
) {
393 fprintf(stderr
, "BOGUS LIBERTY %s of group %d[%s]\n", coord2sstr(gi
->lib
[i
], board
), g
, coord2sstr(group_base(g
), board
));
400 board_capturable_add(struct board
*board
, group_t group
)
403 //fprintf(stderr, "add of group %d (%d)\n", group_base(group), board->clen);
405 assert(board
->clen
< board_size2(board
));
406 board
->c
[board
->clen
++] = group
;
410 board_capturable_rm(struct board
*board
, group_t group
)
413 //fprintf(stderr, "rm of group %d\n", group_base(group));
414 for (int i
= 0; i
< board
->clen
; i
++) {
415 if (unlikely(board
->c
[i
] == group
)) {
416 board
->c
[i
] = board
->c
[--board
->clen
];
420 fprintf(stderr
, "rm of bad group %d\n", group_base(group
));
426 board_group_addlib(struct board
*board
, group_t group
, coord_t coord
)
429 fprintf(stderr
, "Group %d[%s] %d: Adding liberty %s\n",
430 group_base(group
), coord2sstr(group_base(group
), board
),
431 board_group_info(board
, group
).libs
, coord2sstr(coord
, board
));
434 check_libs_consistency(board
, group
);
436 struct group
*gi
= &board_group_info(board
, group
);
437 if (gi
->libs
< GROUP_KEEP_LIBS
) {
438 for (int i
= 0; i
< GROUP_KEEP_LIBS
; i
++) {
440 /* Seems extra branch just slows it down */
444 if (unlikely(gi
->lib
[i
] == coord
))
448 board_capturable_add(board
, group
);
449 else if (gi
->libs
== 1)
450 board_capturable_rm(board
, group
);
451 gi
->lib
[gi
->libs
++] = coord
;
454 check_libs_consistency(board
, group
);
458 board_group_find_extra_libs(struct board
*board
, group_t group
, struct group
*gi
, coord_t avoid
)
460 /* Add extra liberty from the board to our liberty list. */
461 enum stone watermark
[board_size2(board
)];
462 memcpy(watermark
, board
->b
, sizeof(watermark
));
464 for (int i
= 0; i
< GROUP_KEEP_LIBS
- 1; i
++)
465 watermark
[coord_raw(gi
->lib
[i
])] = S_OFFBOARD
;
466 watermark
[coord_raw(avoid
)] = S_OFFBOARD
;
468 foreach_in_group(board
, group
) {
470 foreach_neighbor(board
, coord2
, {
471 if (likely(watermark
[coord_raw(c
)] != S_NONE
))
473 watermark
[coord_raw(c
)] = S_OFFBOARD
;
474 gi
->lib
[gi
->libs
++] = c
;
475 if (unlikely(gi
->libs
>= GROUP_KEEP_LIBS
))
478 } foreach_in_group_end
;
482 board_group_rmlib(struct board
*board
, group_t group
, coord_t coord
)
485 fprintf(stderr
, "Group %d[%s] %d: Removing liberty %s\n",
486 group_base(group
), coord2sstr(group_base(group
), board
),
487 board_group_info(board
, group
).libs
, coord2sstr(coord
, board
));
490 struct group
*gi
= &board_group_info(board
, group
);
491 for (int i
= 0; i
< GROUP_KEEP_LIBS
; i
++) {
493 /* Seems extra branch just slows it down */
497 if (likely(gi
->lib
[i
] != coord
))
500 gi
->lib
[i
] = gi
->lib
[--gi
->libs
];
501 gi
->lib
[gi
->libs
] = 0;
503 check_libs_consistency(board
, group
);
505 /* Postpone refilling lib[] until we need to. */
506 assert(GROUP_REFILL_LIBS
> 1);
507 if (gi
->libs
> GROUP_REFILL_LIBS
)
509 if (gi
->libs
== GROUP_REFILL_LIBS
)
510 board_group_find_extra_libs(board
, group
, gi
, coord
);
513 board_capturable_add(board
, group
);
514 else if (gi
->libs
== 0)
515 board_capturable_rm(board
, group
);
519 /* This is ok even if gi->libs < GROUP_KEEP_LIBS since we
520 * can call this multiple times per coord. */
521 check_libs_consistency(board
, group
);
526 /* This is a low-level routine that doesn't maintain consistency
527 * of all the board data structures. Use board_group_capture() from
530 board_remove_stone(struct board
*board
, coord_t c
)
532 enum stone color
= board_at(board
, c
);
533 board_at(board
, c
) = S_NONE
;
534 group_at(board
, c
) = 0;
535 board_hash_update(board
, c
, color
);
537 /* Increase liberties of surrounding groups */
539 foreach_neighbor(board
, coord
, {
540 dec_neighbor_count_at(board
, c
, color
);
541 group_t g
= group_at(board
, c
);
543 board_group_addlib(board
, g
, coord
);
547 fprintf(stderr
, "pushing free move [%d]: %d,%d\n", board
->flen
, coord_x(c
, board
), coord_y(c
, board
));
548 board
->f
[board
->flen
++] = coord_raw(c
);
552 static void profiling_noinline
553 add_to_group(struct board
*board
, group_t group
, coord_t prevstone
, coord_t coord
)
555 foreach_neighbor(board
, coord
, {
556 if (board_at(board
, c
) == S_NONE
)
557 board_group_addlib(board
, group
, c
);
560 group_at(board
, coord
) = group
;
561 groupnext_at(board
, coord
) = groupnext_at(board
, prevstone
);
562 groupnext_at(board
, prevstone
) = coord_raw(coord
);
565 fprintf(stderr
, "add_to_group: added (%d,%d ->) %d,%d (-> %d,%d) to group %d\n",
566 coord_x(prevstone
, board
), coord_y(prevstone
, board
),
567 coord_x(coord
, board
), coord_y(coord
, board
),
568 groupnext_at(board
, coord
) % board_size(board
), groupnext_at(board
, coord
) / board_size(board
),
572 static void profiling_noinline
573 merge_groups(struct board
*board
, group_t group_to
, group_t group_from
)
576 fprintf(stderr
, "board_play_raw: merging groups %d -> %d\n",
577 group_base(group_from
), group_base(group_to
));
579 coord_t last_in_group
;
580 foreach_in_group(board
, group_from
) {
582 group_at(board
, c
) = group_to
;
583 } foreach_in_group_end
;
584 groupnext_at(board
, last_in_group
) = groupnext_at(board
, group_base(group_to
));
585 groupnext_at(board
, group_base(group_to
)) = group_base(group_from
);
587 struct group
*gi_from
= &board_group_info(board
, group_from
);
588 struct group
*gi_to
= &board_group_info(board
, group_to
);
589 if (gi_to
->libs
< GROUP_KEEP_LIBS
) {
590 for (int i
= 0; i
< gi_from
->libs
; i
++) {
591 for (int j
= 0; j
< gi_to
->libs
; j
++)
592 if (gi_to
->lib
[j
] == gi_from
->lib
[i
])
594 if (gi_to
->libs
== 0)
595 board_capturable_add(board
, group_to
);
596 else if (gi_to
->libs
== 1)
597 board_capturable_rm(board
, group_to
);
598 gi_to
->lib
[gi_to
->libs
++] = gi_from
->lib
[i
];
599 if (gi_to
->libs
>= GROUP_KEEP_LIBS
)
605 if (gi_from
->libs
== 1)
606 board_capturable_rm(board
, group_from
);
607 memset(gi_from
, 0, sizeof(struct group
));
610 fprintf(stderr
, "board_play_raw: merged group: %d\n",
611 group_base(group_to
));
614 static group_t profiling_noinline
615 new_group(struct board
*board
, coord_t coord
)
617 group_t group
= coord_raw(coord
);
618 struct group
*gi
= &board_group_info(board
, group
);
619 foreach_neighbor(board
, coord
, {
620 if (board_at(board
, c
) == S_NONE
)
621 /* board_group_addlib is ridiculously expensive for us */
622 #if GROUP_KEEP_LIBS < 4
623 if (gi
->libs
< GROUP_KEEP_LIBS
)
625 gi
->lib
[gi
->libs
++] = c
;
628 board_capturable_add(board
, group
);
629 check_libs_consistency(board
, group
);
631 group_at(board
, coord
) = group
;
632 groupnext_at(board
, coord
) = 0;
635 fprintf(stderr
, "new_group: added %d,%d to group %d\n",
636 coord_x(coord
, board
), coord_y(coord
, board
),
642 static inline group_t
643 play_one_neighbor(struct board
*board
,
644 coord_t coord
, enum stone color
, enum stone other_color
,
645 coord_t c
, group_t group
)
647 enum stone ncolor
= board_at(board
, c
);
648 group_t ngroup
= group_at(board
, c
);
650 inc_neighbor_count_at(board
, c
, color
);
655 board_group_rmlib(board
, ngroup
, coord
);
657 fprintf(stderr
, "board_play_raw: reducing libs for group %d (%d:%d,%d)\n",
658 group_base(ngroup
), ncolor
, color
, other_color
);
660 if (ncolor
== color
&& ngroup
!= group
) {
663 add_to_group(board
, group
, c
, coord
);
665 merge_groups(board
, group
, ngroup
);
667 } else if (ncolor
== other_color
) {
669 struct group
*gi
= &board_group_info(board
, ngroup
);
670 fprintf(stderr
, "testing captured group %d[%s]: ", group_base(ngroup
), coord2sstr(group_base(ngroup
), board
));
671 for (int i
= 0; i
< GROUP_KEEP_LIBS
; i
++)
672 fprintf(stderr
, "%s ", coord2sstr(gi
->lib
[i
], board
));
673 fprintf(stderr
, "\n");
675 if (unlikely(board_group_captured(board
, ngroup
)))
676 board_group_capture(board
, ngroup
);
681 /* We played on a place with at least one liberty. We will become a member of
682 * some group for sure. */
683 static group_t profiling_noinline
684 board_play_outside(struct board
*board
, struct move
*m
, int f
)
686 coord_t coord
= m
->coord
;
687 enum stone color
= m
->color
;
688 enum stone other_color
= stone_other(color
);
691 board
->f
[f
] = board
->f
[--board
->flen
];
693 fprintf(stderr
, "popping free move [%d->%d]: %d\n", board
->flen
, f
, board
->f
[f
]);
695 foreach_neighbor(board
, coord
, {
696 group
= play_one_neighbor(board
, coord
, color
, other_color
, c
, group
);
699 if (unlikely(!group
))
700 group
= new_group(board
, coord
);
702 board_at(board
, coord
) = color
;
703 board
->last_move
= *m
;
705 board_hash_update(board
, coord
, color
);
706 board_symmetry_update(board
, &board
->symmetry
, coord
);
707 struct move ko
= { pass
, S_NONE
};
713 /* We played in an eye-like shape. Either we capture at least one of the eye
714 * sides in the process of playing, or return -1. */
715 static int profiling_noinline
716 board_play_in_eye(struct board
*board
, struct move
*m
, int f
)
718 coord_t coord
= m
->coord
;
719 enum stone color
= m
->color
;
720 /* Check ko: Capture at a position of ko capture one move ago */
721 if (unlikely(color
== board
->ko
.color
&& coord_eq(coord
, board
->ko
.coord
))) {
723 fprintf(stderr
, "board_check: ko at %d,%d color %d\n", coord_x(coord
, board
), coord_y(coord
, board
), color
);
725 } else if (DEBUGL(6)) {
726 fprintf(stderr
, "board_check: no ko at %d,%d,%d - ko is %d,%d,%d\n",
727 color
, coord_x(coord
, board
), coord_y(coord
, board
),
728 board
->ko
.color
, coord_x(board
->ko
.coord
, board
), coord_y(board
->ko
.coord
, board
));
731 struct move ko
= { pass
, S_NONE
};
733 int captured_groups
= 0;
735 foreach_neighbor(board
, coord
, {
736 group_t g
= group_at(board
, c
);
738 fprintf(stderr
, "board_check: group %d has %d libs\n",
739 g
, board_group_info(board
, g
).libs
);
740 captured_groups
+= (board_group_info(board
, g
).libs
== 1);
743 if (likely(captured_groups
== 0)) {
746 board_print(board
, stderr
);
747 fprintf(stderr
, "board_check: one-stone suicide\n");
753 board
->f
[f
] = board
->f
[--board
->flen
];
755 fprintf(stderr
, "popping free move [%d->%d]: %d\n", board
->flen
, f
, board
->f
[f
]);
757 foreach_neighbor(board
, coord
, {
758 inc_neighbor_count_at(board
, c
, color
);
760 group_t group
= group_at(board
, c
);
764 board_group_rmlib(board
, group
, coord
);
766 fprintf(stderr
, "board_play_raw: reducing libs for group %d\n",
769 if (board_group_captured(board
, group
)) {
770 if (board_group_capture(board
, group
) == 1) {
771 /* If we captured multiple groups at once,
772 * we can't be fighting ko so we don't need
773 * to check for that. */
774 ko
.color
= stone_other(color
);
777 fprintf(stderr
, "guarding ko at %d,%d,%d\n", ko
.color
, coord_x(ko
.coord
, board
), coord_y(ko
.coord
, board
));
782 board_at(board
, coord
) = color
;
784 board
->last_move
= *m
;
786 board_hash_update(board
, coord
, color
);
787 board_hash_commit(board
);
788 board_symmetry_update(board
, &board
->symmetry
, coord
);
791 return !!new_group(board
, coord
);
794 static int __attribute__((flatten
))
795 board_play_f(struct board
*board
, struct move
*m
, int f
)
798 fprintf(stderr
, "board_play(): ---- Playing %d,%d\n", coord_x(m
->coord
, board
), coord_y(m
->coord
, board
));
800 if (likely(!board_is_eyelike(board
, &m
->coord
, stone_other(m
->color
)))) {
801 /* NOT playing in an eye. Thus this move has to succeed. (This
802 * is thanks to New Zealand rules. Otherwise, multi-stone
803 * suicide might fail.) */
804 group_t group
= board_play_outside(board
, m
, f
);
805 if (unlikely(board_group_captured(board
, group
))) {
806 board_group_capture(board
, group
);
808 board_hash_commit(board
);
811 return board_play_in_eye(board
, m
, f
);
816 board_play(struct board
*board
, struct move
*m
)
818 if (unlikely(is_pass(m
->coord
) || is_resign(m
->coord
))) {
819 board
->last_move
= *m
;
824 for (f
= 0; f
< board
->flen
; f
++)
825 if (board
->f
[f
] == coord_raw(m
->coord
))
826 return board_play_f(board
, m
, f
);
829 fprintf(stderr
, "board_check: stone exists\n");
835 board_try_random_move(struct board
*b
, enum stone color
, coord_t
*coord
, int f
)
837 coord_raw(*coord
) = b
->f
[f
];
838 if (unlikely(is_pass(*coord
)))
840 struct move m
= { *coord
, color
};
842 fprintf(stderr
, "trying random move %d: %d,%d\n", f
, coord_x(*coord
, b
), coord_y(*coord
, b
));
843 return (likely(!board_is_one_point_eye(b
, coord
, color
)) /* bad idea to play into one, usually */
844 && likely(board_play_f(b
, &m
, f
) >= 0));
848 board_play_random(struct board
*b
, enum stone color
, coord_t
*coord
)
850 int base
= fast_random(b
->flen
);
851 coord_pos(*coord
, base
, b
);
852 if (likely(board_try_random_move(b
, color
, coord
, base
)))
856 for (f
= base
+ 1; f
< b
->flen
; f
++)
857 if (board_try_random_move(b
, color
, coord
, f
))
859 for (f
= 0; f
< base
; f
++)
860 if (board_try_random_move(b
, color
, coord
, f
))
868 board_is_eyelike(struct board
*board
, coord_t
*coord
, enum stone eye_color
)
870 return (neighbor_count_at(board
, *coord
, eye_color
) + neighbor_count_at(board
, *coord
, S_OFFBOARD
)) == 4;
874 board_is_one_point_eye(struct board
*board
, coord_t
*coord
, enum stone eye_color
)
876 enum stone color_diag_libs
[S_MAX
] = {0, 0, 0, 0};
878 if (likely(neighbor_count_at(board
, *coord
, eye_color
) + neighbor_count_at(board
, *coord
, S_OFFBOARD
) < 4)) {
882 /* XXX: We attempt false eye detection but we will yield false
883 * positives in case of http://senseis.xmp.net/?TwoHeadedDragon :-( */
885 foreach_diag_neighbor(board
, *coord
) {
886 color_diag_libs
[(enum stone
) board_at(board
, c
)]++;
887 } foreach_diag_neighbor_end
;
888 color_diag_libs
[stone_other(eye_color
)] += !!color_diag_libs
[S_OFFBOARD
];
889 return likely(color_diag_libs
[stone_other(eye_color
)] < 2);
893 board_get_one_point_eye(struct board
*board
, coord_t
*coord
)
895 if (board_is_one_point_eye(board
, coord
, S_WHITE
))
897 else if (board_is_one_point_eye(board
, coord
, S_BLACK
))
904 int profiling_noinline
905 board_group_capture(struct board
*board
, group_t group
)
909 foreach_in_group(board
, group
) {
910 board
->captures
[stone_other(board_at(board
, c
))]++;
911 board_remove_stone(board
, c
);
913 } foreach_in_group_end
;
915 if (board_group_info(board
, group
).libs
== 1)
916 board_capturable_rm(board
, group
);
917 memset(&board_group_info(board
, group
), 0, sizeof(struct group
));
923 board_group_in_atari(struct board
*board
, group_t group
, coord_t
*lastlib
)
925 if (board_group_info(board
, group
).libs
!= 1)
927 *lastlib
= board_group_info(board
, group
).lib
[0];
932 board_group_can_atari(struct board
*board
, group_t group
, coord_t lastlib
[2])
934 if (board_group_info(board
, group
).libs
!= 2)
936 lastlib
[0] = board_group_info(board
, group
).lib
[0];
937 lastlib
[1] = board_group_info(board
, group
).lib
[1];
943 board_tromp_taylor_owner(struct board
*board
, coord_t c
)
945 int x
= coord_x(c
, board
), y
= coord_y(c
, board
);
946 enum stone color
= S_NONE
;
947 #define TEST_REACH(xx, yy) \
949 enum stone c2 = board_atxy(board, xx, yy); \
950 if (c2 != S_NONE) { \
951 if (color != S_NONE && color != c2) \
957 for (int i
= x
; i
> 0; i
--)
959 for (int i
= x
; i
< board_size(board
) - 1; i
++)
961 for (int i
= y
; i
> 0; i
--)
963 for (int i
= y
; i
< board_size(board
) - 1; i
++)
968 /* Tromp-Taylor Counting */
970 board_official_score(struct board
*board
)
973 /* A point P, not colored C, is said to reach C, if there is a path of
974 * (vertically or horizontally) adjacent points of P's color from P to
975 * a point of color C.
977 * A player's score is the number of points of her color, plus the
978 * number of empty points that reach only her color. */
981 memset(scores
, 0, sizeof(scores
));
983 foreach_point(board
) {
984 enum stone color
= board_at(board
, c
);
986 color
= board_tromp_taylor_owner(board
, c
);
990 return board
->komi
+ board
->handicap
+ scores
[S_WHITE
] - scores
[S_BLACK
];
994 board_fast_score(struct board
*board
)
997 memset(scores
, 0, sizeof(scores
));
999 foreach_point(board
) {
1000 enum stone color
= board_at(board
, c
);
1001 if (color
== S_NONE
)
1002 color
= board_get_one_point_eye(board
, &c
);
1004 // fprintf(stderr, "%d, %d ++%d = %d\n", coord_x(c, board), coord_y(c, board), color, scores[color]);
1005 } foreach_point_end
;
1007 return board
->komi
+ board
->handicap
+ scores
[S_WHITE
] - scores
[S_BLACK
];
1012 is_selfatari(struct board
*b
, enum stone color
, coord_t to
)
1014 /* Assess if we actually gain any liberties by this escape route.
1015 * Note that this is not 100% as we cannot check whether we are
1016 * connecting out or just to ourselves. */
1017 int groupcts
[S_MAX
] = {};
1018 group_t groupids
[S_MAX
][4] = {};
1019 foreach_neighbor(b
, to
, {
1020 enum stone s
= board_at(b
, c
);
1021 groupids
[s
][groupcts
[s
]++] = group_at(b
, c
);
1024 /* More than one immediate liberty, thumbs up! */
1025 if (groupcts
[S_NONE
] > 1)
1028 /* Leave unique friendly groups only */
1029 for (int i
= 0; i
< 4; i
++) {
1030 /* We can escape by connecting to this group if it's
1032 /* XXX: We can self-atari the group here. */
1033 if (groupids
[color
][i
] && board_group_info(b
, groupids
[color
][i
]).libs
> 1)
1035 /* We can escape by capturing this group,
1036 * if we get to at least two liberties by that - we already
1037 * have one outside liberty, or the group is more than
1039 if (groupids
[stone_other(color
)][i
] && (groupcts
[S_NONE
] > 0
1040 || !group_is_onestone(groupids
[color
][i
])))
1043 /* No way to pull out, no way to connect out. */
1049 board_stone_radar(struct board
*b
, coord_t coord
, int distance
)
1052 coord_x(coord
, b
) - distance
,
1053 coord_y(coord
, b
) - distance
,
1054 coord_x(coord
, b
) + distance
,
1055 coord_y(coord
, b
) + distance
1057 for (int i
= 0; i
< 4; i
++)
1060 else if (bounds
[i
] > board_size(b
) - 2)
1061 bounds
[i
] = board_size(b
) - 2;
1062 for (int x
= bounds
[0]; x
<= bounds
[2]; x
++)
1063 for (int y
= bounds
[1]; y
<= bounds
[3]; y
++)
1064 if (board_atxy(b
, x
, y
) != S_NONE
) {
1065 //fprintf(stderr, "radar %d,%d,%d: %d,%d (%d)\n", coord_x(coord, b), coord_y(coord, b), distance, x, y, board_atxy(b, x, y));