UCB1AMAF: Rationale for zero gp_eqex
[pachi/peepo.git] / board.h
blob00bba33ebcc1b09211f4d07206e9b3ba01ba57b8
1 #ifndef ZZGO_BOARD_H
2 #define ZZGO_BOARD_H
4 #include <stdbool.h>
5 #include <stdint.h>
7 #include "stone.h"
8 #include "move.h"
10 #define likely(x) __builtin_expect(!!(x), 1)
11 #define unlikely(x) __builtin_expect((x), 0)
14 /* The board implementation has bunch of optional features.
15 * Turn them on below: */
16 #define WANT_BOARD_C // required by playout_moggy
17 //#define BOARD_SIZE 9 // constant board size, allows better optimization
20 /* Allow board_play_random_move() to return pass even when
21 * there are other moves available. */
22 extern bool random_pass;
25 /* Some engines might normalize their reading and skip symmetrical
26 * moves. We will tell them how can they do it. */
27 struct board_symmetry {
28 /* Playground is in this rectangle. */
29 int x1, x2, y1, y2;
30 /* d == 0: Full rectangle
31 * d == 1: Top triangle */
32 int d;
33 /* General symmetry type. */
34 /* Note that the above is redundant to this, but just provided
35 * for easier usage. */
36 enum {
37 SYM_FULL,
38 SYM_DIAG_UP,
39 SYM_DIAG_DOWN,
40 SYM_HORIZ,
41 SYM_VERT,
42 SYM_NONE
43 } type;
47 typedef uint64_t hash_t;
50 /* Note that "group" is only chain of stones that is solidly
51 * connected for us. */
52 typedef coord_t group_t;
54 struct group {
55 /* We keep track of only up to GROUP_KEEP_LIBS; over that, we
56 * don't care. */
57 /* _Combination_ of these two values can make some difference
58 * in performance - fine-tune. */
59 #define GROUP_KEEP_LIBS 10
60 // refill lib[] only when we hit this; this must be at least 2!
61 // Moggy requires at least 3 - see below for semantic impact.
62 #define GROUP_REFILL_LIBS 5
63 coord_t lib[GROUP_KEEP_LIBS];
64 /* libs is only LOWER BOUND for the number of real liberties!!!
65 * It denotes only number of items in lib[], thus you can rely
66 * on it to store real liberties only up to <= GROUP_REFILL_LIBS. */
67 int libs;
70 struct neighbor_colors {
71 char colors[S_MAX];
74 /* You should treat this struct as read-only. Always call functions below if
75 * you want to change it. */
77 struct board {
78 int size; /* Including S_OFFBOARD margin - see below. */
79 int size2; /* size^2 */
80 int captures[S_MAX];
81 float komi;
82 int handicap;
84 int moves;
85 struct move last_move;
86 /* Whether we tried to add a hash twice; board_play*() can
87 * set this, but it will still carry out the move as well! */
88 bool superko_violation;
90 /* The following two structures are goban maps and are indexed by
91 * coord.pos. The map is surrounded by a one-point margin from
92 * S_OFFBOARD stones in order to speed up some internal loops.
93 * Some of the foreach iterators below might include these points;
94 * you need to handle them yourselves, if you need to. */
96 /* Stones played on the board */
97 enum stone *b; /* enum stone */
98 /* Group id the stones are part of; 0 == no group */
99 group_t *g;
100 /* Positions of next stones in the stone group; 0 == last stone */
101 coord_t *p;
102 /* Neighboring colors; numbers of neighbors of index color */
103 struct neighbor_colors *n;
104 /* Zobrist hash for each position */
105 hash_t *h;
107 /* Group information - indexed by gid (which is coord of base group stone) */
108 struct group *gi;
110 /* Positions of free positions - queue (not map) */
111 /* Note that free position here is any valid move; including single-point eyes! */
112 coord_t *f; int flen;
114 #ifdef WANT_BOARD_C
115 /* Queue of capturable groups */
116 group_t *c; int clen;
117 #endif
119 /* Symmetry information */
120 struct board_symmetry symmetry;
123 /* --- PRIVATE DATA --- */
125 /* Basic ko check */
126 struct move ko;
128 /* For superko check: */
130 /* Board "history" - hashes encountered. Size of the hash should be
131 * >> board_size^2. */
132 #define history_hash_bits 12
133 #define history_hash_mask ((1 << history_hash_bits) - 1)
134 #define history_hash_prev(i) ((i - 1) & history_hash_mask)
135 #define history_hash_next(i) ((i + 1) & history_hash_mask)
136 hash_t history_hash[1 << history_hash_bits];
137 /* Hash of current board position. */
138 hash_t hash;
141 #ifdef BOARD_SIZE
142 /* Avoid unused variable warnings */
143 #define board_size(b_) (((b_) == (b_)) ? BOARD_SIZE + 2 : 0)
144 #define board_size2(b_) (board_size(b_) * board_size(b_))
145 #else
146 #define board_size(b_) ((b_)->size)
147 #define board_size2(b_) ((b_)->size2)
148 #endif
150 #define board_at(b_, c) ((b_)->b[coord_raw(c)])
151 #define board_atxy(b_, x, y) ((b_)->b[(x) + board_size(b_) * (y)])
153 #define group_at(b_, c) ((b_)->g[coord_raw(c)])
154 #define group_atxy(b_, x, y) ((b_)->g[(x) + board_size(b_) * (y)])
156 #define neighbor_count_at(b_, coord, color) ((b_)->n[coord_raw(coord)].colors[(enum stone) color])
157 #define set_neighbor_count_at(b_, coord, color, count) (neighbor_count_at(b_, coord, color) = (count))
158 #define inc_neighbor_count_at(b_, coord, color) (neighbor_count_at(b_, coord, color)++)
159 #define dec_neighbor_count_at(b_, coord, color) (neighbor_count_at(b_, coord, color)--)
160 #define immediate_liberty_count(b_, coord) (4 - neighbor_count_at(b_, coord, S_BLACK) - neighbor_count_at(b_, coord, S_WHITE) - neighbor_count_at(b_, coord, S_OFFBOARD))
162 #define groupnext_at(b_, c) ((b_)->p[coord_raw(c)])
163 #define groupnext_atxy(b_, x, y) ((b_)->p[(x) + board_size(b_) * (y)])
165 #define group_base(g_) (g_)
166 #define board_group_info(b_, g_) ((b_)->gi[(g_)])
167 #define board_group_captured(b_, g_) (board_group_info(b_, g_).libs == 0)
169 #define hash_at(b_, coord, color) (b_)->h[((color) == S_BLACK ? board_size2(b_) : 0) + coord_raw(coord)]
171 struct board *board_init(void);
172 struct board *board_copy(struct board *board2, struct board *board1);
173 void board_done_noalloc(struct board *board);
174 void board_done(struct board *board);
175 /* size here is without the S_OFFBOARD margin. */
176 void board_resize(struct board *board, int size);
177 void board_clear(struct board *board);
179 struct FILE;
180 void board_print(struct board *board, FILE *f);
182 /* Place given handicap on the board; coordinates are printed to f. */
183 void board_handicap(struct board *board, int stones, FILE *f);
185 /* Returns group id, 0 on allowed suicide, pass or resign, -1 on error */
186 int board_play(struct board *board, struct move *m);
187 /* Like above, but plays random move; the move coordinate is recorded
188 * to *coord. This method will never fill your own eye. pass is played
189 * when no move can be played. */
190 void board_play_random(struct board *b, enum stone color, coord_t *coord);
192 /* Adjust symmetry information as if given coordinate has been played. */
193 void board_symmetry_update(struct board *b, struct board_symmetry *symmetry, coord_t c);
195 /* Returns true if given coordinate has all neighbors of given color or the edge. */
196 bool board_is_eyelike(struct board *board, coord_t *coord, enum stone eye_color);
197 /* Returns true if given coordinate is a 1-pt eye (checks against false eyes, or
198 * at least tries to). */
199 bool board_is_one_point_eye(struct board *board, coord_t *c, enum stone eye_color);
200 /* Returns color of a 1pt eye owner, S_NONE if not an eye. */
201 enum stone board_get_one_point_eye(struct board *board, coord_t *c);
203 /* Check if group is in atari. This is very fast.
204 * The last liberty is recorded to lastlib (content is undefined if group
205 * is not in atari). */
206 bool board_group_in_atari(struct board *board, group_t group, coord_t *lastlib);
208 /* Check if group can be put in atari. This is also very fast.
209 * The last two liberties are recorded to lastlib (content is undefined if group
210 * can't be put in atari). */
211 bool board_group_can_atari(struct board *board, group_t group, coord_t lastlib[2]);
213 /* board_official_score() is the scoring method for yielding score suitable
214 * for external presentation. For fast scoring of entirely filled boards
215 * (e.g. playouts), use board_fast_score(). */
216 /* Positive: W wins */
217 /* Tromp-Taylor scoring. */
218 float board_official_score(struct board *board);
219 /* Compare number of stones + 1pt eyes. */
220 float board_fast_score(struct board *board);
222 /* Assess if it is desirable to pull out from atari
223 * by this move. */
224 bool valid_escape_route(struct board *b, enum stone color, coord_t to);
226 /* Checks if there are any stones in n-vincinity of coord. */
227 bool board_stone_radar(struct board *b, coord_t coord, int distance);
230 /** Iterators */
232 #define foreach_point(board_) \
233 do { \
234 coord_t c; coord_pos(c, 0, (board_)); \
235 for (; coord_raw(c) < board_size(board_) * board_size(board_); coord_raw(c)++)
236 #define foreach_point_end \
237 } while (0)
239 #define foreach_in_group(board_, group_) \
240 do { \
241 struct board *board__ = board_; \
242 coord_t c = group_base(group_); \
243 coord_t c2 = c; coord_raw(c2) = groupnext_at(board__, c2); \
244 do {
245 #define foreach_in_group_end \
246 c = c2; coord_raw(c2) = groupnext_at(board__, c2); \
247 } while (coord_raw(c) != 0); \
248 } while (0)
250 /* NOT VALID inside of foreach_point() or another foreach_neighbor(), or rather
251 * on S_OFFBOARD coordinates. */
252 #define foreach_neighbor(board_, coord_, loop_body) \
253 do { \
254 struct board *board__ = board_; \
255 coord_t coord__ = coord_; \
256 coord_t c; \
257 coord_pos(c, coord_raw(coord__) - 1, (board__)); do { loop_body } while (0); \
258 coord_pos(c, coord_raw(coord__) - board_size(board__), (board__)); do { loop_body } while (0); \
259 coord_pos(c, coord_raw(coord__) + 1, (board__)); do { loop_body } while (0); \
260 coord_pos(c, coord_raw(coord__) + board_size(board__), (board__)); do { loop_body } while (0); \
261 } while (0)
263 #define foreach_diag_neighbor(board_, coord_) \
264 do { \
265 coord_t q__[4]; int q__i = 0; \
266 coord_pos(q__[q__i++], coord_raw(coord_) - board_size(board_) - 1, (board_)); \
267 coord_pos(q__[q__i++], coord_raw(coord_) - board_size(board_) + 1, (board_)); \
268 coord_pos(q__[q__i++], coord_raw(coord_) + board_size(board_) - 1, (board_)); \
269 coord_pos(q__[q__i++], coord_raw(coord_) + board_size(board_) + 1, (board_)); \
270 int fn__i; \
271 for (fn__i = 0; fn__i < q__i; fn__i++) { \
272 coord_t c = q__[fn__i];
273 #define foreach_diag_neighbor_end \
275 } while (0)
278 #endif