int pressed_mouse_button;
- int tilesize, winwidth, winheight;
+ int preferred_tilesize, tilesize, winwidth, winheight;
};
#define ensure(me) do { \
me->frontend = fe;
me->ourgame = ourgame;
- me->random = random_init(randseed, randseedsize);
+ me->random = random_new(randseed, randseedsize);
me->nstates = me->statesize = me->statepos = 0;
me->states = NULL;
me->params = ourgame->default_params();
else
me->drawing = NULL;
+ me->preferred_tilesize = ourgame->preferred_tilesize;
+ {
+ /*
+ * Allow an environment-based override for the default tile
+ * size by defining a variable along the lines of
+ * `NET_TILESIZE=15'.
+ */
+
+ char buf[80], *e;
+ int j, k, ts;
+
+ sprintf(buf, "%s_TILESIZE", me->ourgame->name);
+ for (j = k = 0; buf[j]; j++)
+ if (!isspace((unsigned char)buf[j]))
+ buf[k++] = toupper((unsigned char)buf[j]);
+ buf[k] = '\0';
+ if ((e = getenv(buf)) != NULL && sscanf(e, "%d", &ts) == 1 && ts > 0)
+ me->preferred_tilesize = ts;
+ }
+
sfree(randseed);
return me;
int rx, ry;
/*
+ * We can't set the size on the same drawstate twice. So if
+ * we've already sized one drawstate, we must throw it away and
+ * create a new one.
+ */
+ if (me->drawstate && me->tilesize > 0) {
+ me->ourgame->free_drawstate(me->drawing, me->drawstate);
+ me->drawstate = me->ourgame->new_drawstate(me->drawing,
+ me->states[0].state);
+ }
+
+ /*
* Find the tile size that best fits within the given space. If
* `expand' is TRUE, we must actually find the _largest_ such
* tile size; otherwise, we bound above at the game's preferred
me->ourgame->compute_size(me->params, max, &rx, &ry);
} while (rx <= *x && ry <= *y);
} else
- max = me->ourgame->preferred_tilesize + 1;
+ max = me->preferred_tilesize + 1;
min = 1;
/*
me->params = me->ourgame->dup_params(params);
}
+game_params *midend_get_params(midend *me)
+{
+ return me->ourgame->dup_params(me->params);
+}
+
static void midend_set_timer(midend *me)
{
me->timing = (me->ourgame->is_timed &&
sfree(me->aux_info);
me->aux_info = NULL;
- rs = random_init(me->seedstr, strlen(me->seedstr));
+ rs = random_new(me->seedstr, strlen(me->seedstr));
/*
* If this midend has been instantiated without providing a
* drawing API, it is non-interactive. This means that it's
}
ensure(me);
+
+ /*
+ * It might seem a bit odd that we're using me->params to
+ * create the initial game state, rather than me->curparams
+ * which is better tailored to this specific game and which we
+ * always know.
+ *
+ * It's supposed to be an invariant in the midend that
+ * me->params and me->curparams differ in no aspect that is
+ * important after generation (i.e. after new_desc()). By
+ * deliberately passing the _less_ specific of these two
+ * parameter sets, we provoke play-time misbehaviour in the
+ * case where a game has failed to encode a play-time parameter
+ * in the non-full version of encode_params().
+ */
me->states[me->nstates].state =
me->ourgame->new_game(me, me->params, me->desc);
+
me->states[me->nstates].movestr = NULL;
me->states[me->nstates].movetype = NEWGAME;
me->nstates++;
if (me->statepos < 1)
return "No game set up to solve"; /* _shouldn't_ happen! */
- msg = "Solve operation failed"; /* game _should_ overwrite on error */
+ msg = NULL;
movestr = me->ourgame->solve(me->states[0].state,
me->states[me->statepos-1].state,
me->aux_info, &msg);
- if (!movestr)
+ if (!movestr) {
+ if (!msg)
+ msg = "Solve operation failed"; /* _shouldn't_ happen, but can */
return msg;
+ }
s = me->ourgame->execute_move(me->states[me->statepos-1].state, movestr);
assert(s);
* Now enter the solved state as the next move.
*/
midend_stop_anim(me);
- while (me->nstates > me->statepos)
+ while (me->nstates > me->statepos) {
me->ourgame->free_game(me->states[--me->nstates].state);
+ if (me->states[me->nstates].movestr)
+ sfree(me->states[me->nstates].movestr);
+ }
ensure(me);
me->states[me->nstates].state = s;
me->states[me->nstates].movestr = movestr;
~mdw / sgt / puzzles / blobdiff