midend *midend_new(frontend *fe, const game *ourgame,
const drawing_api *drapi, void *drhandle);
void midend_free(midend *me);
+const game *midend_which_game(midend *me);
void midend_set_params(midend *me, game_params *params);
game_params *midend_get_params(midend *me);
void midend_size(midend *me, int *x, int *y, int user_size);
int midend_can_format_as_text_now(midend *me);
char *midend_text_format(midend *me);
char *midend_solve(midend *me);
+int midend_status(midend *me);
+int midend_can_undo(midend *me);
+int midend_can_redo(midend *me);
void midend_supersede_game_desc(midend *me, char *desc, char *privdesc);
char *midend_rewrite_statusbar(midend *me, char *text);
void midend_serialise(midend *me,
char *midend_deserialise(midend *me,
int (*read)(void *ctx, void *buf, int len),
void *rctx);
+char *identify_game(char **name, int (*read)(void *ctx, void *buf, int len),
+ void *rctx);
/* Printing functions supplied by the mid-end */
char *midend_print_puzzle(midend *me, document *doc, int with_soln);
int midend_tilesize(midend *me);
void dsf_init(int *dsf, int len);
/*
+ * tdq.c
+ */
+
+/*
+ * Data structure implementing a 'to-do queue', a simple
+ * de-duplicating to-do list mechanism.
+ *
+ * Specification: a tdq is a queue which can hold integers from 0 to
+ * n-1, where n was some constant specified at tdq creation time. No
+ * integer may appear in the queue's current contents more than once;
+ * an attempt to add an already-present integer again will do nothing,
+ * so that that integer is removed from the queue at the position
+ * where it was _first_ inserted. The add and remove operations take
+ * constant time.
+ *
+ * The idea is that you might use this in applications like solvers:
+ * keep a tdq listing the indices of grid squares that you currently
+ * need to process in some way. Whenever you modify a square in a way
+ * that will require you to re-scan its neighbours, add them to the
+ * list with tdq_add; meanwhile you're constantly taking elements off
+ * the list when you need another square to process. In solvers where
+ * deductions are mostly localised, this should prevent repeated
+ * O(N^2) loops over the whole grid looking for something to do. (But
+ * if only _most_ of the deductions are localised, then you should
+ * respond to an empty to-do list by re-adding everything using
+ * tdq_fill, so _then_ you rescan the whole grid looking for newly
+ * enabled non-local deductions. Only if you've done that and emptied
+ * the list again finding nothing new to do are you actually done.)
+ */
+typedef struct tdq tdq;
+tdq *tdq_new(int n);
+void tdq_free(tdq *tdq);
+void tdq_add(tdq *tdq, int k);
+int tdq_remove(tdq *tdq); /* returns -1 if nothing available */
+void tdq_fill(tdq *tdq); /* add everything to the tdq at once */
+
+/*
* laydomino.c
*/
int *domino_layout(int w, int h, random_state *rs);
void (*decode_ui)(game_ui *ui, char *encoding);
void (*changed_state)(game_ui *ui, game_state *oldstate,
game_state *newstate);
- char *(*interpret_move)(game_state *state, game_ui *ui, game_drawstate *ds,
- int x, int y, int button);
+ char *(*interpret_move)(game_state *state, game_ui *ui,
+ const game_drawstate *ds, int x, int y, int button);
game_state *(*execute_move)(game_state *state, char *move);
int preferred_tilesize;
void (*compute_size)(game_params *params, int tilesize, int *x, int *y);
game_ui *ui);
float (*flash_length)(game_state *oldstate, game_state *newstate, int dir,
game_ui *ui);
+ int (*status)(game_state *state);
int can_print, can_print_in_colour;
void (*print_size)(game_params *params, float *x, float *y);
void (*print)(drawing *dr, game_state *state, int tilesize);