1 #define _DEFAULT_SOURCE /* for getopt, sigaction, usleep */
18 /* stores a function pointer for every takeable action; called by game loop */
19 int (*action
[NUM_PLACES
][10])(int,int,int) = {
21 /* 1 2 3 4 5 6 7 stk wst fnd*/
22 /* 1 */ { t2f
, t2t
, t2t
, t2t
, t2t
, t2t
, t2t
, nop
, nop
, t2f
},
23 /* 2 */ { t2t
, t2f
, t2t
, t2t
, t2t
, t2t
, t2t
, nop
, nop
, t2f
},
24 /* 3 */ { t2t
, t2t
, t2f
, t2t
, t2t
, t2t
, t2t
, nop
, nop
, t2f
},
25 /* 4 */ { t2t
, t2t
, t2t
, t2f
, t2t
, t2t
, t2t
, nop
, nop
, t2f
},
26 /* 5 */ { t2t
, t2t
, t2t
, t2t
, t2f
, t2t
, t2t
, nop
, nop
, t2f
},
27 /* 6 */ { t2t
, t2t
, t2t
, t2t
, t2t
, t2f
, t2t
, nop
, nop
, t2f
},
28 /* 7 */ { t2t
, t2t
, t2t
, t2t
, t2t
, t2t
, t2f
, nop
, nop
, t2f
},
29 /*stk*/ { nop
, nop
, nop
, nop
, nop
, nop
, nop
, nop
, s2w
, nop
},
30 /*wst*/ { w2t
, w2t
, w2t
, w2t
, w2t
, w2t
, w2t
, w2s
, w2f
, w2f
},
31 /*fnd*/ { f2t
, f2t
, f2t
, f2t
, f2t
, f2t
, f2t
, nop
, nop
, nop
},
33 /* 1 2 3 4 5 6 7 8 9 10*/
34 /* 1 */ { t2f
, t2t
, t2t
, t2t
, t2t
, t2t
, t2t
, t2t
, t2t
, t2t
},
35 /* 2 */ { t2t
, t2f
, t2t
, t2t
, t2t
, t2t
, t2t
, t2t
, t2t
, t2t
},
36 /* 3 */ { t2t
, t2t
, t2f
, t2t
, t2t
, t2t
, t2t
, t2t
, t2t
, t2t
},
37 /* 4 */ { t2t
, t2t
, t2t
, t2f
, t2t
, t2t
, t2t
, t2t
, t2t
, t2t
},
38 /* 5 */ { t2t
, t2t
, t2t
, t2t
, t2f
, t2t
, t2t
, t2t
, t2t
, t2t
},
39 /* 6 */ { t2t
, t2t
, t2t
, t2t
, t2t
, t2f
, t2t
, t2t
, t2t
, t2t
},
40 /* 7 */ { t2t
, t2t
, t2t
, t2t
, t2t
, t2t
, t2f
, t2t
, t2t
, t2t
},
41 /* 8 */ { t2t
, t2t
, t2t
, t2t
, t2t
, t2t
, t2t
, t2f
, t2t
, t2t
},
42 /* 9 */ { t2t
, t2t
, t2t
, t2t
, t2t
, t2t
, t2t
, t2t
, t2f
, t2t
},
43 /*10 */ { t2t
, t2t
, t2t
, t2t
, t2t
, t2t
, t2t
, t2t
, t2t
, t2f
},
44 /*stk*/ { s2t
, s2t
, s2t
, s2t
, s2t
, s2t
, s2t
, s2t
, s2t
, s2t
},
49 // argv parsing, game loops, cleanup {{{
50 int main(int argc
, char** argv
) {
51 /* opinionated defaults: */
52 op
.s
= &unicode_large_color
;
58 opterr
= 0; /* don't print message on unrecognized option */
59 while ((optget
= getopt (argc
, argv
, "+:hs:vbcm")) != -1) {
62 case 's': /* number of suits */
64 case '1': op
.m
= EASY
; break;
65 case '2': op
.m
= MEDIUM
; break;
66 case '4': op
.m
= NORMAL
; break;
70 case 'b': op
.s
= &unicode_large_mono
; break;
71 case 'c': op
.s
= &unicode_large_color
; break;
72 case 'm': op
.s
= &unicode_small_mono
; break; /* "mini" */
73 case 'h': default: goto error
;
75 fprintf (stderr
, SHORTHELP LONGHELP KEYHELP
, argv
[0]);
83 signal_handler(SIGWINCH
); /* initialize window size */
89 case GAME_NEW
: goto newgame
;
91 print_table(NO_HI
, NO_HI
);
93 if (getch(NULL
)=='q') return 0;
95 case GAME_QUIT
: return 0;
101 long seed
= time(NULL
);
108 switch (get_cmd(&from
, &to
, &opt
)) {
110 ret
= action
[from
][to
](from
,to
,opt
);
111 if (ret
== ERR
) /* try again with from/to swapped: */
112 ret
= action
[to
][from
](to
,from
,opt
);
115 case ERR
: visbell(); break;
116 case WON
: return GAME_WON
;
122 case ERR
: visbell(); break;
123 case WON
: return GAME_WON
;
126 case CMD_HINT
: break;//TODO: show a possible (and sensible) move. if possible, involve active cursor
127 case CMD_UNDO
: undo_pop(f
.u
); break;
128 case CMD_INVAL
: visbell(); break;
129 case CMD_NEW
: return GAME_NEW
;
130 case CMD_AGAIN
: goto restart
;
131 case CMD_QUIT
: return GAME_QUIT
;
132 case CMD_HELP
: printf (KEYHELP
"\nPress any key to continue."); getch(NULL
);break;
143 // card games helper functions {{{
144 #define get_suit(card) \
145 ((card-1) % NUM_SUITS)
146 #define get_rank(card) \
147 ((card-1) / NUM_SUITS)
148 #define get_color(card) \
149 ((get_suit(card) ^ get_suit(card)>>1) & 1)
151 #define is_tableu(where) (where <= TAB_MAX)
153 int find_top(card_t
* pile
) {
155 for(i
=PILE_SIZE
-1; i
>=0 && !pile
[i
]; i
--);
158 int first_movable(card_t
* pile
) {
160 for (;pile
[i
] && !is_movable(pile
, i
); i
++);
163 int turn_over(card_t
* pile
) {
164 int top
= find_top(pile
);
170 int check_won(void) {
171 for (int pile
= 0; pile
< NUM_DECKS
*NUM_SUITS
; pile
++)
172 if (f
.f
[pile
][NUM_RANKS
-1] == NO_CARD
) return 0;
176 int rank_next (card_t a
, card_t b
) {
177 return get_rank(a
) == get_rank(b
)-1;
179 int is_consecutive (card_t
* pile
, int pos
) {
180 if (pos
+1 >= PILE_SIZE
) return 1; /* card is last */
181 if (pile
[pos
+1] == NO_CARD
) return 1; /* card is first */
184 /* ranks consecutive? */
185 if (!rank_next(pile
[pos
+1], pile
[pos
])) return 0;
186 /* color opposite? */
187 if (get_color(pile
[pos
+1]) == get_color(pile
[pos
])) return 0;
189 /* ranks consecutive? */
190 if (!rank_next(pile
[pos
+1], pile
[pos
])) return 0;
192 if (get_suit(pile
[pos
+1]) != get_suit(pile
[pos
])) return 0;
198 int is_movable(card_t
* pile
, int n
) {
200 return(pile
[n
] > NO_CARD
); /*non-movable cards don't exist in klondike*/
202 int top
= find_top(pile
);
203 for (int i
= top
; i
>= 0; i
--) {
204 if (pile
[i
] <= NO_CARD
) return 0; /*no card or card face down?*/
205 if (!is_consecutive(pile
, i
)) return 0;
206 if (i
== n
) return 1; /* card reached, must be movable */
213 // takeable actions {{{
215 card_t
stack_take(void) { /*NOTE: assert(f.w >= 0) */
216 card_t card
= f
.s
[f
.w
];
217 /* move stack one over, so there are no gaps in it: */
218 for (int i
= f
.w
; i
< f
.z
-1; i
++)
221 f
.w
--; /* make previous card visible again */
224 int t2f(int from
, int to
, int opt
) { /* tableu to foundation */
225 (void) to
; (void) opt
; /* don't need */
226 int top_from
= find_top(f
.t
[from
]);
227 to
= get_suit(f
.t
[from
][top_from
]);
228 int top_to
= find_top(f
.f
[to
]);
229 if ((top_to
< 0 && get_rank(f
.t
[from
][top_from
]) == RANK_A
)
230 || (top_to
>= 0 && rank_next(f
.f
[to
][top_to
],f
.t
[from
][top_from
]))) {
231 f
.f
[to
][top_to
+1] = f
.t
[from
][top_from
];
232 f
.t
[from
][top_from
] = NO_CARD
;
233 undo_push(from
, FOUNDATION
, to
,
234 turn_over(f
.t
[from
]));
235 if (check_won()) return WON
;
239 int w2f(int from
, int to
, int opt
) { /* waste to foundation */
240 (void) from
; (void) to
; (void) opt
; /* don't need */
241 if (f
.w
< 0) return ERR
;
242 to
= get_suit(f
.s
[f
.w
]);
243 int top_to
= find_top(f
.f
[to
]);
244 if ((top_to
< 0 && get_rank(f
.s
[f
.w
]) == RANK_A
)
245 || (top_to
>= 0 && rank_next(f
.f
[to
][top_to
], f
.s
[f
.w
]))) {
246 undo_push(WASTE
, FOUNDATION
, f
.w
| to
<<16, 0);//ugly encoding :|
247 f
.f
[to
][top_to
+1] = stack_take();
248 if (check_won()) return WON
;
253 int s2w(int from
, int to
, int opt
) { /* stock to waste */
254 (void) from
; (void) to
; (void) opt
; /* don't need */
255 if (f
.z
== 0) return ERR
;
257 if (f
.w
== f
.z
) f
.w
= -1;
260 int w2s(int from
, int to
, int opt
) { /* waste to stock (undo stock to waste) */
261 (void) from
; (void) to
; (void) opt
; /* don't need */
262 if (f
.z
== 0) return ERR
;
264 if (f
.w
< -1) f
.w
= f
.z
-1;
267 int f2t(int from
, int to
, int opt
) { /* foundation to tableu */
268 (void) from
; /* don't need */
269 int top_to
= find_top(f
.t
[to
]);
271 int top_from
= find_top(f
.f
[from
]);
273 if ((get_color(f
.t
[to
][top_to
]) != get_color(f
.f
[from
][top_from
]))
274 && (rank_next(f
.f
[from
][top_from
], f
.t
[to
][top_to
]))) {
275 f
.t
[to
][top_to
+1] = f
.f
[from
][top_from
];
276 f
.f
[from
][top_from
] = NO_CARD
;
277 undo_push(FOUNDATION
, to
, from
, 0);
281 int w2t(int from
, int to
, int opt
) { /* waste to tableu */
282 (void) from
; (void) opt
; /* don't need */
283 int top_to
= find_top(f
.t
[to
]);
284 if (((get_color(f
.t
[to
][top_to
]) != get_color(f
.s
[f
.w
]))
285 && (rank_next(f
.s
[f
.w
], f
.t
[to
][top_to
])))
286 || (top_to
< 0 && get_rank(f
.s
[f
.w
]) == RANK_K
)) {
287 undo_push(WASTE
, to
, f
.w
, 0);
288 f
.t
[to
][top_to
+1] = stack_take();
292 int t2t(int from
, int to
, int opt
) { /* tableu to tableu */
293 (void) opt
; /* don't need */
294 int top_to
= find_top(f
.t
[to
]);
295 int top_from
= find_top(f
.t
[from
]);
296 int count
= 0; //NOTE: could probably be factored out
297 for (int i
= top_from
; i
>=0; i
--) {
298 if (((get_color(f
.t
[to
][top_to
]) != get_color(f
.t
[from
][i
]))
299 && (rank_next(f
.t
[from
][i
], f
.t
[to
][top_to
]))
300 && f
.t
[from
][i
] > NO_CARD
) /* card face up? */
301 || (top_to
< 0 && get_rank(f
.t
[from
][i
]) == RANK_K
)) {
302 /* move cards [i..top_from] to their destination */
303 for (;i
<= top_from
; i
++) {
305 f
.t
[to
][top_to
] = f
.t
[from
][i
];
306 f
.t
[from
][i
] = NO_CARD
;
309 undo_push(from
, to
, count
,
310 turn_over(f
.t
[from
]));
314 return ERR
; /* no such move possible */
317 int remove_if_complete (int pileno
) { //cleanup!
318 card_t
* pile
= f
.t
[pileno
];
319 /* test if K...A complete; move to foundation if so */
320 int top_from
= find_top(pile
);
321 if (get_rank(pile
[top_from
]) != RANK_A
) return 0;
322 for (int i
= top_from
; i
>=0; i
--) {
323 if (!is_consecutive (pile
, i
)) return 0;
324 if (i
+RANK_K
== top_from
/* if ace to king: remove it */
325 && get_rank(pile
[top_from
-RANK_K
]) == RANK_K
) {
326 for(int i
=top_from
, j
=0; i
>top_from
-NUM_RANKS
; i
--,j
++){
327 f
.f
[f
.w
][j
] = pile
[i
];
330 undo_push(pileno
, FOUNDATION
, f
.w
,
339 int t2t(int from
, int to
, int opt
) { //in dire need of cleanup
340 int top_from
= find_top(f
.t
[from
]);
341 int top_to
= find_top(f
.t
[to
]);
342 int empty_to
= (top_to
< 0)? opt
: -1; /* empty pile? */
343 int count
= 0; //NOTE: could probably be factored out
345 for (int i
= top_from
; i
>= 0; i
--) {
346 if (!is_consecutive(f
.t
[from
], i
)) break;
348 /* is consecutive OR to empty pile and rank ok? */
349 if (rank_next(f
.t
[from
][i
], f
.t
[to
][top_to
])
350 || (empty_to
>= RANK_A
&& get_rank(f
.t
[from
][i
]) == empty_to
)) {
351 for (;i
<= top_from
; i
++) {
353 f
.t
[to
][top_to
] = f
.t
[from
][i
];
354 f
.t
[from
][i
] = NO_CARD
;
357 undo_push(from
, to
, count
,
358 turn_over(f
.t
[from
]));
359 remove_if_complete(to
);
360 if (check_won()) return WON
;
365 return ERR
; /* no such move possible */
367 int s2t(int from
, int to
, int opt
) {
368 (void) from
; (void) to
; (void) opt
; /* don't need */
369 if (f
.z
<= 0) return ERR
; /* stack out of cards */
370 for (int pile
= 0; pile
< NUM_PILES
; pile
++)
371 if (f
.t
[pile
][0]==NO_CARD
) return ERR
; /*no piles may be empty*/
372 for (int pile
= 0; pile
< NUM_PILES
; pile
++) {
373 f
.t
[pile
][find_top(f
.t
[pile
])+1] = f
.s
[--f
.z
];
374 remove_if_complete(pile
);
375 if (check_won()) return WON
;
377 undo_push(STOCK
, TABLEU
, 1, 0);/*NOTE: puts 1 card on each tableu pile*/
380 int t2f(int from
, int to
, int opt
) {
381 (void) to
; (void) opt
; /* don't need */
382 /* manually retrigger remove_if_complete() (e.g. after undo_pop) */
383 return remove_if_complete(from
)?OK
:ERR
;
386 //TODO: generalize prediction engine for CMD_HINT
388 #define would_complete(pile) 0
390 #define would_complete(pile) \
391 (get_rank(f.t[pile][r[pile].top]) == RANK_A \
392 && get_rank(f.t[to][bottom_to]) == RANK_K)
394 #define would_turn(pile) \
395 (f.t[pile][r[pile].pos-1] < 0)
396 #define would_empty(pile) \
400 int top_to
= find_top(f
.t
[to
]);
402 int bottom_to
= first_movable(f
.t
[to
]);
406 if (to
== FOUNDATION
) {
408 for (int i
= 0; i
<= TAB_MAX
; i
++)
409 switch ((i
?t2f
:w2f
)(i
-1, FOUNDATION
, 0)) {
410 case WON
: return WON
;
411 case OK
: status
= OK
;
417 if (top_to
< 0) { /* move a king to empty pile: */
418 for (int i
= 0; i
< TAB_MAX
; i
++) {
419 if (f
.t
[i
][0] < 0) /* i.e. would turn? */ //TODO: this calculation is wrong!
420 //DOES NOT FIRE when king is in the middle
421 if (t2t(i
, to
, 0) == OK
) return OK
;
423 return w2t(WASTE
, to
, 0);
428 int ok
:1; /* card to move in pile? */
429 int above
; /* number of movable cards above */
430 int below
; /* number of cards below ours */
431 int pos
; /* where the card to move is in the pile */
432 int top
; /* find_top() */
433 } r
[NUM_PILES
] = {{0}};
434 int complete
= 0;/* SPIDER: true if any pile would complete a stack */
435 int turn
= 0; /* SPIDER: true if any pile would turn_over */
436 int empty
= 0; /* true if any pile would become empty */
438 /* 1. rate each pile: */
441 for (int pile
= 0; pile
< NUM_PILES
; pile
++) {
442 if (pile
== to
) continue;
443 int top
= find_top(f
.t
[pile
]);
444 int bottom
= first_movable(f
.t
[pile
]);
445 r
[pile
].pos
= bottom
; /* need for would_empty */
447 if (top
< 0) continue; /* no cards to move */
448 if (would_empty(pile
)) continue; /* doesn't help */
451 r
[pile
].above
= 0; /* always take as many as possible */
452 r
[pile
].below
= top
- bottom
;
454 complete
|= would_complete(pile
); /* never happens */
455 turn
|= would_turn(pile
);
456 empty
|= would_empty(pile
);
460 for (int pile
= 0; pile
< NUM_PILES
; pile
++) {
461 r
[pile
].top
= r
[pile
].pos
= find_top(f
.t
[pile
]);
462 /* backtrack until we find a compatible-to-'to'-pile card: */
463 while (r
[pile
].pos
>= 0 && is_movable(f
.t
[pile
], r
[pile
].pos
)) {
464 int rankdiff
= get_rank(f
.t
[pile
][r
[pile
].pos
])
465 - get_rank(f
.t
[to
][top_to
]);
466 if (rankdiff
>= 0) break; /* past our card */
467 if (rankdiff
== -1 /* rank matches */
469 && get_color(f
.t
[pile
][r
[pile
].pos
]) /* color OK */
470 != get_color(f
.t
[to
][top_to
])
472 && get_suit(f
.t
[pile
][r
[pile
].pos
]) /* color OK */
473 == get_suit(f
.t
[to
][top_to
])
477 complete
|= would_complete(pile
);
478 turn
|= would_turn(pile
);
479 empty
|= would_empty(pile
);
480 for (int i
= r
[pile
].pos
; i
>= 0; i
--)
481 if (is_movable(f
.t
[pile
], i
-1))
491 /* 2. find optimal pile: (optimized for spider) */
492 //todo: in spider, prefer longest piles if above==0 (faster completions)
494 for (int pile
= 0, above
= 99, below
= 99; pile
< NUM_PILES
; pile
++) {
495 if (!r
[pile
].ok
) continue;
496 /* don't bother if another pile would be better: prefer ... */
497 /* ... to complete a stack: */
498 if (!would_complete(pile
) && complete
) continue;
499 /* ... emptying piles: */
500 if (!would_empty(pile
) && empty
&& !complete
) continue;
501 /* ... to turn_over: */
502 if (!would_turn(pile
) && turn
&& !complete
&& !empty
) continue;
503 /* ... not to rip apart too many cards: */
504 if (r
[pile
].above
> above
) continue;
505 /* if tied, prefer ... */
506 if (r
[pile
].above
== above
507 /* ... larger pile if destination is empty */
508 && (top_to
< 0? r
[pile
].below
< below
509 /* ... shorter pile otherwise */
510 : r
[pile
].below
> below
))
514 above
= r
[pile
].above
;
515 below
= r
[pile
].below
;
518 /* 3. move cards over and return: */
520 /* prefer waste if it wouldn't turn_over: */
521 if (!turn
&& w2t(WASTE
, to
, 0) == OK
)
523 if (from
< 0) /* nothing found */
525 return t2t(from
, to
, 0);
527 if (from
< 0) /* nothing found */
529 int bottom
= first_movable(f
.t
[from
]);
530 return t2t(from
, to
, get_rank(f
.t
[from
][bottom
]));
535 #undef would_complete
536 int nop(int from
, int to
, int opt
) { (void)from
;(void)to
;(void)opt
;return ERR
; }
539 // keyboard input handling {{{
540 // cursor functions{{{
542 void cursor_left (struct cursor
* cursor
) {
544 if (is_tableu(cursor
->pile
)) {
545 if (cursor
->pile
> 0) cursor
->pile
--;
547 } else { /* stock/waste/foundation*/
548 switch (cursor
->pile
) {
549 case WASTE
: cursor
->pile
= STOCK
; cursor
->opt
= 0; break;
551 if (cursor
->opt
<= 0)
552 cursor
->pile
= WASTE
;
558 void cursor_down (struct cursor
* cursor
) {
560 if (!is_tableu(cursor
->pile
)) {
561 switch (cursor
->pile
) {
562 case STOCK
: cursor
->pile
= TAB_1
; break;
563 case WASTE
: cursor
->pile
= TAB_2
; break;
565 cursor
->pile
= TAB_4
+ cursor
->opt
;
570 void cursor_up (struct cursor
* cursor
) {
572 if (is_tableu(cursor
->pile
)) {
573 switch (cursor
->pile
) { //ugly :|
574 case TAB_1
: cursor
->pile
= STOCK
; break;
575 case TAB_2
: cursor
->pile
= WASTE
; break;
576 case TAB_3
: cursor
->pile
= WASTE
; break;
577 case TAB_4
: case TAB_5
: case TAB_6
: case TAB_7
:
578 cursor
->opt
=cursor
->pile
-TAB_4
;
579 cursor
->pile
= FOUNDATION
;
584 void cursor_right (struct cursor
* cursor
) {
586 if (is_tableu(cursor
->pile
)) {
587 if (cursor
->pile
< TAB_MAX
) cursor
->pile
++;
589 switch (cursor
->pile
) {
590 case STOCK
: cursor
->pile
= WASTE
; break;
591 case WASTE
: cursor
->pile
= FOUNDATION
;cursor
->opt
= 0; break;
593 if (cursor
->opt
< NUM_SUITS
-1)
599 /*NOTE: one can't highlight the stock due to me being too lazy to implement it*/
600 void cursor_left (struct cursor
* cursor
) {
602 if (cursor
->pile
> 0) cursor
->pile
--;
605 void cursor_down (struct cursor
* cursor
) {
607 int first
= first_movable(f
.t
[cursor
->pile
]);
608 int top
= find_top(f
.t
[cursor
->pile
]);
609 if (first
+ cursor
->opt
< top
)
612 void cursor_up (struct cursor
* cursor
) {
614 if (cursor
->opt
> 0) cursor
->opt
--;
616 void cursor_right (struct cursor
* cursor
) {
618 if (cursor
->pile
< TAB_MAX
) cursor
->pile
++;
622 void cursor_to (struct cursor
* cursor
, int pile
) {
627 int set_mouse(int pile
, int* main
, int* opt
) {
629 if (pile
< 0) return 1;
632 if (pile
>= FOUNDATION
)
634 *opt
= pile
- FOUNDATION
;
641 int get_cmd (int* from
, int* to
, int* opt
) {
643 unsigned char mouse
[6] = {0}; /* must clear [3]! */
644 struct cursor inactive
= {-1,-1};
645 static struct cursor active
= {0,0};
646 active
.opt
= 0; /* always reset offset, but keep pile */
649 from_l
: print_table(&active
, &inactive
);
653 /* direct addressing: */
654 case '1': *from
= TAB_1
; break;
655 case '2': *from
= TAB_2
; break;
656 case '3': *from
= TAB_3
; break;
657 case '4': *from
= TAB_4
; break;
658 case '5': *from
= TAB_5
; break;
659 case '6': *from
= TAB_6
; break;
660 case '7': *from
= TAB_7
; break;
662 case '8': *from
= TAB_8
; break;
663 case '9': *from
= TAB_9
; break;
664 case '0': *from
= TAB_10
;break;
665 #elif defined KLONDIKE
666 case '9': *from
= WASTE
; break;
667 case '0': *from
= FOUNDATION
; break;
668 case '8': /* fallthrough */
670 case '\n': *from
= STOCK
; break;
671 /* cursor keys addressing: */
673 case 'h': cursor_left (&active
); goto from_l
;
675 case 'j': cursor_down (&active
); goto from_l
;
677 case 'k': cursor_up (&active
); goto from_l
;
679 case 'l': cursor_right(&active
); goto from_l
;
681 case 'H': cursor_to(&active
,TAB_1
); goto from_l
; /* leftmost tableu */
683 case 'L': cursor_to(&active
,TAB_MAX
);goto from_l
; /* rigthmost tableu */
685 case 'M': cursor_to(&active
,TAB_MAX
/2); goto from_l
; /* center tableu */
686 case ' ': /* continue with second cursor */
689 *opt
= active
.opt
; /* when FOUNDATION */
693 /* mouse addressing: */
694 case MOUSE_MIDDLE
: return CMD_NONE
;
696 if (set_mouse(term2pile(mouse
), to
, opt
))
700 if (set_mouse(term2pile(mouse
), from
, opt
))
706 fprintf (stderr
, ":");
707 raw_mode(0); /* turn on echo */
708 fgets (buf
, 256, stdin
);
711 case 'q': return CMD_QUIT
;
712 case 'n': return CMD_NEW
;
713 case 'r': return CMD_AGAIN
;
714 case 'h': return CMD_HELP
;
715 default: return CMD_INVAL
;
720 if (*to
== FOUNDATION
) return CMD_JOIN
;
722 if (*to
> TAB_MAX
) return CMD_INVAL
;
724 case 'K': /* fallthrough */
725 case '?': return CMD_HINT
;
726 case 'u': return CMD_UNDO
;
727 case EOF
: return CMD_NONE
; /* sent by SIGCONT */
728 default: return CMD_INVAL
;
730 inactive
.pile
= *from
; /* for direct addressing highlighting */
731 if (is_tableu(*from
) && f
.t
[*from
][0] == NO_CARD
) return CMD_INVAL
;
733 if (*from
== STOCK
) {
739 to_l
: print_table(&active
, &inactive
);
744 case 'h': cursor_left (&active
); goto to_l
;
746 case 'j': cursor_down (&active
); goto to_l
;
748 case 'k': cursor_up (&active
); goto to_l
;
750 case 'l': cursor_right(&active
); goto to_l
;
752 case 'H': cursor_to(&active
,TAB_1
); goto to_l
;
754 case 'L': cursor_to(&active
,TAB_MAX
); goto to_l
;
756 case 'M': cursor_to(&active
,TAB_MAX
/2); goto to_l
;
757 case 'J': /* fallthrough; just join selected pile */
760 break; /* continues with the foundation/empty tableu check */
762 case MOUSE_RIGHT
: return CMD_NONE
;
764 if (set_mouse(term2pile(mouse
), to
, opt
))
767 //TODO: set opt if to field is empty; suppress "up do" dialog from below
768 if (is_tableu(*to) && f.t[*to][0] == NO_CARD) {
769 int top = find_top(f.t[*from]);
770 if (top < 0) return CMD_INVAL;
771 if (top >= 0 && !is_movable(f.t[*from], top-1)) {
772 *opt = get_rank(f.t[*from][top]);
779 case 'K': /* fallthrough */
780 case '?': return CMD_HINT
;
781 case 'u': return CMD_NONE
; /* cancel selection */
782 case EOF
: return CMD_NONE
; /* sent by SIGCONT */
784 if (t
< '0' || t
> '9') return CMD_INVAL
;
797 if (*from
== FOUNDATION
) {
798 int top
= find_top(f
.t
[*to
]);
799 if (top
< 0) return CMD_INVAL
;
800 int color
= get_color(f
.t
[*to
][top
]);
801 int choice_1
= 1-color
; /* selects piles of */
802 int choice_2
= 2+color
; /* the opposite color */
803 int top_c1
= find_top(f
.f
[choice_1
]);
804 int top_c2
= find_top(f
.f
[choice_2
]);
806 switch ((rank_next(f
.f
[choice_1
][top_c1
], f
.t
[*to
][top
])
807 && top_c1
>= 0 ) << 0
808 |(rank_next(f
.f
[choice_2
][top_c2
], f
.t
[*to
][top
])
809 && top_c2
>= 0 ) << 1) {
810 case ( 1<<0): *opt
= choice_1
; break; /* choice_1 only */
811 case (1<<1 ): *opt
= choice_2
; break; /* choice_2 only */
812 case (1<<1 | 1<<0): /* both, ask user which to pick from */
813 printf ("take from (1-4): "); fflush (stdout
);
814 *opt
= getch(NULL
) - '1';
815 if (*opt
< 0 || *opt
> 3) return CMD_INVAL
;
817 default: return CMD_INVAL
; /* none matched */
819 /* `opt` is the foundation index (0..3) */
822 /* moving to empty tableu? */
823 if (is_tableu(*to
) && f
.t
[*to
][0] == NO_CARD
) {
824 int bottom
= first_movable(f
.t
[*from
]);
825 if (inactive
.opt
>= 0) { /*if from was cursor addressed: */
826 *opt
= get_rank(f
.t
[*from
][bottom
+ inactive
.opt
]);
829 int top
= find_top(f
.t
[*from
]);
830 if (top
< 0) return CMD_INVAL
;
831 if (top
>= 0 && !is_movable(f
.t
[*from
], top
-1)) {
832 *opt
= get_rank(f
.t
[*from
][top
]);
833 } else { /* only ask the user if it's unclear: */
834 printf ("\rup to ([a23456789xjqk] or space/return): ");
837 case ' ': *opt
= get_rank(f
.t
[*from
][top
]); break;
838 case'\n': *opt
= get_rank(f
.t
[*from
][bottom
]); break;
839 case 'a': case 'A': *opt
= RANK_A
; break;
840 case '0': /* fallthrough */
841 case 'x': case 'X': *opt
= RANK_X
; break;
842 case 'j': case 'J': *opt
= RANK_J
; break;
843 case 'q': case 'Q': *opt
= RANK_Q
; break;
844 case 'k': case 'K': *opt
= RANK_K
; break;
845 default: *opt
-= '1';
847 if (*opt
< RANK_A
|| *opt
> RANK_K
) return ERR
;
849 /* `opt` is the rank of the highest card to move */
855 int getctrlseq(unsigned char* buf
) {
863 int offset
= 0x20; /* never sends control chars as data */
864 while ((c
= getchar()) != EOF
) {
868 case '\033': state
=ESC_SENT
; break;
874 case '[': state
=CSI_SENT
; break;
875 default: return KEY_INVAL
;
880 case 'A': return KEY_UP
;
881 case 'B': return KEY_DOWN
;
882 case 'C': return KEY_RIGHT
;
883 case 'D': return KEY_LEFT
;
884 /*NOTE: home/end send ^[[x~ . no support for modifiers*/
885 case 'H': return KEY_HOME
;
886 case 'F': return KEY_END
;
887 case '2': getchar(); return KEY_INS
;
888 case '5': getchar(); return KEY_PGUP
;
889 case '6': getchar(); return KEY_PGDN
;
890 case 'M': state
=MOUSE_EVENT
; break;
891 default: return KEY_INVAL
;
895 if (buf
== NULL
) return KEY_INVAL
;
897 buf
[1] = getchar() - offset
;
898 buf
[2] = getchar() - offset
;
906 int term2pile(unsigned char *mouse
) {
907 int line
= (mouse
[2]-1);
908 int column
= (mouse
[1]-1) / op
.s
->width
;
910 if (line
< op
.s
->height
) { /* first line */
913 case 0: return STOCK
;
914 case 1: return WASTE
;
915 case 2: return -1; /* spacer */
916 case 3: return FOUNDATION
+0;
917 case 4: return FOUNDATION
+1;
918 case 5: return FOUNDATION
+2;
919 case 6: return FOUNDATION
+3;
922 if (column
< 3) return STOCK
;
925 } else if (line
> op
.s
->height
) { /* tableu */
926 if (column
<= TAB_MAX
) return column
;
930 int wait_mouse_up(unsigned char* mouse
) {
931 struct cursor cur
= {-1,-1};
933 /* note: if dragged [3]==1 and second position is in mouse[0,4,5] */
935 /* display a cursor while mouse button is pushed: */
936 int pile
= term2pile(mouse
);
939 if (pile
>= FOUNDATION
) {
940 cur
.pile
= FOUNDATION
;
941 cur
.opt
= pile
-FOUNDATION
;
944 /* need to temporarily show the cursor, then revert to last state: */
945 int old_show_cursor_hi
= op
.h
; //TODO: ARGH! that's awful!
947 print_table(&cur
, NO_HI
); //TODO: should not overwrite inactive cursor!
948 op
.h
= old_show_cursor_hi
;
951 if (getctrlseq (mouse
+3) == MOUSE_ANY
) {
952 /* ignore mouse wheel events: */
953 if (mouse
[3] & 0x40) continue;
955 else if((mouse
[3]&3) == 3) level
--; /* release event */
956 else level
++; /* another button pressed */
960 int success
= mouse
[1] == mouse
[4] && mouse
[2] == mouse
[5];
967 int getch(unsigned char* buf
) {
968 /* returns a character, EOF, or constant for an escape/control sequence - NOT
969 compatible with the ncurses implementation of same name */
972 /* mouse was dragged; return 'ungetted' previous destination */
974 /* keep original [0], as [3] only contains release event */
979 action
= getctrlseq(buf
);
984 if (buf
[0] > 3) break; /* ignore wheel events */
989 case 0: return MOUSE_LEFT
;
990 case 1: return MOUSE_MIDDLE
;
991 case 2: return MOUSE_RIGHT
;
999 // shuffling and dealing {{{
1000 void deal(long seed
) {
1001 f
= (const struct playfield
){0}; /* clear playfield */
1002 card_t deck
[DECK_SIZE
*NUM_DECKS
];
1003 int avail
= DECK_SIZE
*NUM_DECKS
;
1004 for (int i
= 0; i
< DECK_SIZE
*NUM_DECKS
; i
++) deck
[i
] = (i
%DECK_SIZE
)+1;
1006 if (op
.m
!= NORMAL
) for (int i
= 0; i
< DECK_SIZE
*NUM_DECKS
; i
++) {
1007 if (op
.m
== MEDIUM
) deck
[i
] = 1+((deck
[i
]-1) | 2);
1008 if (op
.m
== EASY
) deck
[i
] = 1+((deck
[i
]-1) | 2 | 1);
1009 /* the 1+ -1 dance gets rid of the offset created by NO_CARD */
1013 for (int i
= DECK_SIZE
*NUM_DECKS
-1; i
> 0; i
--) { /* fisher-yates */
1014 int j
= rand() % (i
+1);
1015 if (j
-i
) deck
[i
]^=deck
[j
],deck
[j
]^=deck
[i
],deck
[i
]^=deck
[j
];
1019 for (int i
= 0; i
< NUM_PILES
; i
++) {
1021 int closed
= i
; /* pile n has n closed cards, then 1 open */
1022 #elif defined SPIDER
1023 int closed
= i
<4?5:4; /* pile 1-4 have 5, 5-10 have 4 closed */
1025 /* face down cards are negated: */
1026 for (int j
= 0; j
< closed
; j
++) f
.t
[i
][j
] = -deck
[--avail
];
1027 f
.t
[i
][closed
] = deck
[--avail
]; /* the face-up card */
1029 /* rest of the cards to the stock; NOTE: assert(avail==50) for spider */
1030 for (f
.z
= 0; avail
; f
.z
++) f
.s
[f
.z
] = deck
[--avail
];
1032 f
.w
= -1; /* @start: nothing on waste */
1033 #elif defined SPIDER
1034 f
.w
= 0; /* number of used foundations */
1037 f
.u
= &undo_sentinel
;
1041 // screen drawing routines {{{
1042 void print_hi(int invert
, int grey_bg
, int bold
, char* str
) {
1043 if (!op
.h
) invert
= 0; /* don't show invert if we used the mouse last */
1044 if (bold
&& op
.s
== &unicode_large_color
){ //awful hack for bold + faint
1045 int offset
= str
[3]==017?16:str
[4]==017?17:0;
1046 printf ("%s%s%s""%.*s%s%s""%s%s%s",
1047 "\033[1m", invert
?"\033[7m":"", grey_bg
?"\033[100m":"",
1048 offset
, str
, bold
?"\033[1m":"", str
+offset
,
1049 grey_bg
?"\033[49m":"", invert
?"\033[27m":"","\033[22m");
1052 printf ("%s%s%s%s%s%s%s",
1053 bold
?"\033[1m":"", invert
?"\033[7m":"", grey_bg
?"\033[100m":"",
1055 grey_bg
?"\033[49m":"", invert
?"\033[27m":"",bold
?"\033[22m":"");
1057 void print_table(const struct cursor
* active
, const struct cursor
* inactive
) {
1058 printf("\033[2J\033[H"); /* clear screen, reset cursor */
1060 /* print stock, waste and foundation: */
1061 for (int line
= 0; line
< op
.s
->height
; line
++) {
1063 print_hi (active
->pile
== STOCK
, inactive
->pile
== STOCK
, 1, (
1064 (f
.w
< f
.z
-1)?op
.s
->facedown
1065 :op
.s
->placeholder
)[line
]);
1067 print_hi (active
->pile
== WASTE
, inactive
->pile
== WASTE
, 1, (
1068 /* NOTE: cast, because f.w sometimes is (short)-1 !? */
1069 ((short)f
.w
>= 0)?op
.s
->card
[f
.s
[f
.w
]]
1070 :op
.s
->placeholder
)[line
]);
1071 printf ("%s", op
.s
->card
[NO_CARD
][line
]); /* spacer */
1073 for (int pile
= 0; pile
< NUM_SUITS
; pile
++) {
1074 int card
= find_top(f
.f
[pile
]);
1075 print_hi (active
->pile
==FOUNDATION
&& active
->opt
==pile
,
1076 inactive
->pile
==FOUNDATION
&& (
1077 /* cursor addr. || direct addr. */
1078 inactive
->opt
==pile
|| inactive
->opt
< 0
1080 (card
< 0)?op
.s
->placeholder
[line
]
1081 :op
.s
->card
[f
.f
[pile
][card
]][line
]);
1086 #elif defined SPIDER
1087 int fdone
; for (fdone
= NUM_DECKS
*NUM_SUITS
; fdone
; fdone
--)
1088 if (f
.f
[fdone
-1][RANK_K
]) break; /*number of completed stacks*/
1089 int spacer_from
= f
.z
?(f
.z
/10-1) * op
.s
->halfwidth
[0] + op
.s
->width
:0;
1090 int spacer_to
= NUM_PILES
*op
.s
->width
-
1091 ((fdone
?(fdone
-1) * op
.s
->halfwidth
[1]:0)+op
.s
->width
);
1092 for (int line
= 0; line
< op
.s
->height
; line
++) {
1093 /* available stock: */
1094 for (int i
= f
.z
/10; i
; i
--) {
1095 if (i
==1) printf ("%s", op
.s
->facedown
[line
]);
1096 else printf ("%s", op
.s
->halfstack
[line
]);
1099 for (int i
= spacer_from
; i
< spacer_to
; i
++) printf (" ");
1100 /* foundation (overlapping): */
1101 for (int i
= NUM_DECKS
*NUM_SUITS
-1, half
= 0; i
>= 0; i
--) {
1102 int overlap
= half
? op
.s
->halfcard
[line
]: 0;
1103 if (f
.f
[i
][RANK_K
]) printf ("%.*s", op
.s
->halfwidth
[2],
1104 op
.s
->card
[f
.f
[i
][RANK_K
]][line
]+overlap
),
1112 #define DO_HI(cursor) (cursor->pile == pile && (movable || empty))
1113 #define TOP_HI(c) 1 /* can't select partial stacks in KLONDIKE */
1115 #elif defined SPIDER
1116 int offset
[NUM_PILES
]={1,1,1,1,1,1,1,1,1,1}; // :|
1117 #define DO_HI(cursor) (cursor->pile == pile && (movable || empty) \
1118 && offset[pile] > cursor->opt)
1119 #define TOP_HI(cursor) (cursor->pile == pile && movable \
1120 && offset[pile]-1 == cursor->opt)
1121 #define INC_OFFSET if (movable) offset[pile]++
1123 /* print tableu piles: */
1124 int row
[NUM_PILES
] = {0};
1125 int line
[NUM_PILES
]= {0};
1126 int label
[NUM_PILES
]={0};
1128 int did_placeholders
= 0;
1131 for (int pile
= 0; pile
< NUM_PILES
; pile
++) {
1132 card_t card
= f
.t
[pile
][row
[pile
]];
1133 card_t next
= f
.t
[pile
][row
[pile
]+1];
1134 int movable
= is_movable(f
.t
[pile
], row
[pile
]);
1135 int empty
= !card
&& row
[pile
] == 0;
1137 print_hi (DO_HI(active
), DO_HI(inactive
), movable
, (
1138 (!card
&& row
[pile
] == 0)?op
.s
->placeholder
1139 :(card
<0)?op
.s
->facedown
1143 int extreme_overlap
= ( 3 /* spacer, labels, status */
1144 + 2 * op
.s
->height
/* stock, top tableu card */
1145 + find_top(f
.t
[pile
]) * op
.s
->overlap
) >op
.w
[0];
1146 /* normal overlap: */
1147 if (++line
[pile
] >= (next
?op
.s
->overlap
:op
.s
->height
)
1148 /* extreme overlap on closed cards: */
1149 || (extreme_overlap
&&
1151 f
.t
[pile
][row
[pile
]] < 0 &&
1152 f
.t
[pile
][row
[pile
]+1] <0)
1153 /* extreme overlap on sequences: */
1154 || (extreme_overlap
&&
1155 !TOP_HI(active
) && /*always show top selected card*/
1156 line
[pile
] >= 1 && row
[pile
] > 0 &&
1157 f
.t
[pile
][row
[pile
]-1] > NO_CARD
&&
1158 is_consecutive (f
.t
[pile
], row
[pile
]) &&
1159 is_consecutive (f
.t
[pile
], row
[pile
]-1) &&
1160 f
.t
[pile
][row
[pile
]+1] != NO_CARD
)
1166 /* tableu labels: */
1167 if(!card
&& !label
[pile
] && row
[pile
]>0&&line
[pile
]>0) {
1169 printf ("\b\b%d ", (pile
+1) % 10); //XXX: hack
1171 line_had_card
|= !!card
;
1172 did_placeholders
|= row
[pile
] > 0;
1175 } while (line_had_card
|| !did_placeholders
);
1178 void visbell (void) {
1179 printf ("\033[?5h"); fflush (stdout
);
1181 printf ("\033[?5l"); fflush (stdout
);
1183 void win_anim(void) {
1184 printf ("\033[?25l"); /* hide cursor */
1186 /* set cursor to random location */
1187 int row
= 1+rand()%(24-op
.s
->width
);
1188 int col
= 1+rand()%(80-op
.s
->height
);
1190 /* draw random card */
1191 int face
= 1 + rand() % 52;
1192 for (int l
= 0; l
< op
.s
->height
; l
++) {
1193 printf ("\033[%d;%dH", row
+l
, col
);
1194 printf ("%s", op
.s
->card
[face
][l
]);
1198 /* exit on keypress */
1199 struct pollfd p
= {STDIN_FILENO
, POLLIN
, 0};
1200 if (poll (&p
, 1, 80)) goto fin
;
1203 printf ("\033[?25h"); /* show cursor */
1209 void undo_push (int _f
, int t
, int n
, int o
) {
1210 struct undo
* new = malloc(sizeof(struct undo
));
1220 void undo_pop (struct undo
* u
) {
1221 if (u
== &undo_sentinel
) return;
1224 if (u
->f
== FOUNDATION
) {
1225 /* foundation -> tableu */
1226 int top_f
= find_top(f
.f
[u
->n
]);
1227 int top_t
= find_top(f
.t
[u
->t
]);
1228 f
.f
[u
->n
][top_f
+1] = f
.t
[u
->t
][top_t
];
1229 f
.t
[u
->t
][top_t
] = NO_CARD
;
1230 } else if (u
->f
== WASTE
&& u
->t
== FOUNDATION
) {
1231 /* waste -> foundation */
1232 /* split u->n into wst and fnd: */
1233 int wst
= u
->n
& 0xffff;
1234 int fnd
= u
->n
>> 16;
1235 /* move stock cards one position up to make room: */
1236 for (int i
= f
.z
; i
>= wst
; i
--) f
.s
[i
+1] = f
.s
[i
];
1237 /* move one card from foundation to waste: */
1238 int top
= find_top(f
.f
[fnd
]);
1239 f
.s
[wst
] = f
.f
[fnd
][top
];
1240 f
.f
[fnd
][top
] = NO_CARD
;
1243 } else if (u
->f
== WASTE
) {
1244 /* waste -> tableu */
1245 /* move stock cards one position up to make room: */
1246 for (int i
= f
.z
; i
>= u
->n
; i
--) f
.s
[i
+1] = f
.s
[i
];
1247 /* move one card from tableu to waste: */
1248 int top
= find_top(f
.t
[u
->t
]);
1249 f
.s
[u
->n
] = f
.t
[u
->t
][top
];
1250 f
.t
[u
->t
][top
] = NO_CARD
;
1253 } else if (u
->t
== FOUNDATION
) {
1254 /* tableu -> foundation */
1255 int top_f
= find_top(f
.t
[u
->f
]);
1256 int top_t
= find_top(f
.f
[u
->n
]);
1257 /* close topcard if previous action caused turn_over(): */
1258 if (u
->o
) f
.t
[u
->f
][top_f
] *= -1;
1259 /* move one card from foundation to tableu: */
1260 f
.t
[u
->f
][top_f
+1] = f
.f
[u
->n
][top_t
];
1261 f
.f
[u
->n
][top_t
] = NO_CARD
;
1263 /* tableu -> tableu */
1264 int top_f
= find_top(f
.t
[u
->f
]);
1265 int top_t
= find_top(f
.t
[u
->t
]);
1266 /* close topcard if previous action caused turn_over(): */
1267 if (u
->o
) f
.t
[u
->f
][top_f
] *= -1;
1268 /* move n cards from tableu[f] to tableu[t]: */
1269 for (int i
= 0; i
< u
->n
; i
++) {
1270 f
.t
[u
->f
][top_f
+u
->n
-i
] = f
.t
[u
->t
][top_t
-i
];
1271 f
.t
[u
->t
][top_t
-i
] = NO_CARD
;
1274 #elif defined SPIDER
1275 if (u
->f
== STOCK
) {
1276 /* stock -> tableu */
1277 /*remove a card from each pile and put it back onto the stock:*/
1278 for (int pile
= NUM_PILES
-1; pile
>= 0; pile
--) {
1279 int top
= find_top(f
.t
[pile
]);
1280 f
.s
[f
.z
++] = f
.t
[pile
][top
];
1281 f
.t
[pile
][top
] = NO_CARD
;
1283 } else if (u
->t
== FOUNDATION
) {
1284 /* tableu -> foundation */
1285 int top
= find_top(f
.t
[u
->f
]);
1286 /* close topcard if previous action caused turn_over(): */
1287 if (u
->o
) f
.t
[u
->f
][top
] *= -1;
1288 /* append cards from foundation to tableu */
1289 for (int i
= RANK_K
; i
>= RANK_A
; i
--) {
1290 f
.t
[u
->f
][++top
] = f
.f
[u
->n
][i
];
1291 f
.f
[u
->n
][i
] = NO_CARD
;
1293 f
.w
--; /* decrement complete-foundation-counter */
1296 /* tableu -> tableu */
1297 int top_f
= find_top(f
.t
[u
->f
]);
1298 int top_t
= find_top(f
.t
[u
->t
]);
1299 /* close topcard if previous action caused turn_over(): */
1300 if (u
->o
) f
.t
[u
->f
][top_f
] *= -1;
1301 /* move n cards from tableu[f] to tableu[t]: */
1302 for (int i
= 0; i
< u
->n
; i
++) {
1303 f
.t
[u
->f
][top_f
+u
->n
-i
] = f
.t
[u
->t
][top_t
-i
];
1304 f
.t
[u
->t
][top_t
-i
] = NO_CARD
;
1313 void free_undo (struct undo
* u
) {
1314 while (u
&& u
!= &undo_sentinel
) {
1322 // initialization stuff {{{
1323 void screen_setup (int enable
) {
1326 printf ("\033[s\033[?47h"); /* save cursor, alternate screen */
1327 printf ("\033[H\033[J"); /* reset cursor, clear screen */
1328 printf ("\033[?1000h"); /* enable mouse */
1330 printf ("\033[?1000l"); /* disable mouse */
1331 printf ("\033[?47l\033[u"); /* primary screen, restore cursor */
1336 void raw_mode(int enable
) {
1337 static struct termios saved_term_mode
;
1338 struct termios raw_term_mode
;
1341 if (saved_term_mode
.c_lflag
== 0)/*don't overwrite stored mode*/
1342 tcgetattr(STDIN_FILENO
, &saved_term_mode
);
1343 raw_term_mode
= saved_term_mode
;
1344 raw_term_mode
.c_lflag
&= ~(ICANON
| ECHO
);
1345 raw_term_mode
.c_cc
[VMIN
] = 1 ;
1346 raw_term_mode
.c_cc
[VTIME
] = 0;
1347 tcsetattr(STDIN_FILENO
, TCSAFLUSH
, &raw_term_mode
);
1349 tcsetattr(STDIN_FILENO
, TCSAFLUSH
, &saved_term_mode
);
1353 void signal_handler (int signum
) {
1358 signal(SIGTSTP
, SIG_DFL
); /* NOTE: assumes SysV semantics! */
1363 print_table(NO_HI
, NO_HI
);
1365 case SIGINT
: //TODO: don't exit; just warn like vim does
1368 ioctl(STDOUT_FILENO
, TIOCGWINSZ
, &w
);
1374 void signal_setup(void) {
1375 struct sigaction saction
;
1377 saction
.sa_handler
= signal_handler
;
1378 sigemptyset(&saction
.sa_mask
);
1379 saction
.sa_flags
= 0;
1380 if (sigaction(SIGTSTP
, &saction
, NULL
) < 0) {
1384 if (sigaction(SIGCONT
, &saction
, NULL
) < 0) {
1388 if (sigaction(SIGINT
, &saction
, NULL
) < 0) {
1392 if (sigaction(SIGWINCH
, &saction
, NULL
) < 0) {
1393 perror ("SIGWINCH");
1399 //vim: foldmethod=marker