int movetype;
};
-struct midend_data {
+struct midend {
frontend *frontend;
random_state *random;
const game *ourgame;
- game_params **presets;
- char **preset_names;
- int npresets, presetsize;
+ struct preset_menu *preset_menu;
+ char **encoded_presets; /* for midend_which_preset to check against */
+ int n_encoded_presets;
/*
* `desc' and `privdesc' deserve a comment.
int nstates, statesize, statepos;
struct midend_state_entry *states;
+ void *newgame_undo_buf;
+ int newgame_undo_len, newgame_undo_size;
+
game_params *params, *curparams;
game_drawstate *drawstate;
game_ui *ui;
float elapsed;
char *laststatus;
+ drawing *drawing;
+
int pressed_mouse_button;
- int winwidth, winheight;
+ int preferred_tilesize, tilesize, winwidth, winheight;
+
+ void (*game_id_change_notify_function)(void *);
+ void *game_id_change_notify_ctx;
};
#define ensure(me) do { \
} \
} while (0)
-midend_data *midend_new(frontend *fe, const game *ourgame)
+/*
+ * Structure storing all the decoded data from reading a serialised
+ * game. We keep it in one of these while we check its sanity, and
+ * only once we're completely satisfied do we install it all in the
+ * midend structure proper.
+ */
+struct deserialise_data {
+ char *seed, *parstr, *desc, *privdesc;
+ char *auxinfo, *uistr, *cparstr;
+ float elapsed;
+ game_params *params, *cparams;
+ game_ui *ui;
+ struct midend_state_entry *states;
+ int nstates, statepos;
+};
+
+/*
+ * Forward reference.
+ */
+static char *midend_deserialise_internal(
+ midend *me, int (*read)(void *ctx, void *buf, int len), void *rctx,
+ char *(*check)(void *ctx, midend *, const struct deserialise_data *),
+ void *cctx);
+
+void midend_reset_tilesize(midend *me)
{
- midend_data *me = snew(midend_data);
+ me->preferred_tilesize = me->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;
+ }
+}
+
+midend *midend_new(frontend *fe, const game *ourgame,
+ const drawing_api *drapi, void *drhandle)
+{
+ midend *me = snew(midend);
void *randseed;
int randseedsize;
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->newgame_undo_buf = NULL;
+ me->newgame_undo_size = me->newgame_undo_len = 0;
me->params = ourgame->default_params();
+ me->game_id_change_notify_function = NULL;
+ me->game_id_change_notify_ctx = NULL;
+
+ /*
+ * Allow environment-based changing of the default settings by
+ * defining a variable along the lines of `NET_DEFAULT=25x25w'
+ * in which the value is an encoded parameter string.
+ */
+ {
+ char buf[80], *e;
+ int j, k;
+ sprintf(buf, "%s_DEFAULT", 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)
+ me->ourgame->decode_params(me->params, e);
+ }
me->curparams = NULL;
me->desc = me->privdesc = NULL;
me->seedstr = NULL;
me->genmode = GOT_NOTHING;
me->drawstate = NULL;
me->oldstate = NULL;
- me->presets = NULL;
- me->preset_names = NULL;
- me->npresets = me->presetsize = 0;
+ me->preset_menu = NULL;
me->anim_time = me->anim_pos = 0.0F;
me->flash_time = me->flash_pos = 0.0F;
me->dir = 0;
me->laststatus = NULL;
me->timing = FALSE;
me->elapsed = 0.0F;
- me->winwidth = me->winheight = 0;
+ me->tilesize = me->winwidth = me->winheight = 0;
+ if (drapi)
+ me->drawing = drawing_new(drapi, me, drhandle);
+ else
+ me->drawing = NULL;
+
+ midend_reset_tilesize(me);
sfree(randseed);
return me;
}
-static void midend_free_game(midend_data *me)
+const game *midend_which_game(midend *me)
+{
+ return me->ourgame;
+}
+
+static void midend_purge_states(midend *me)
+{
+ 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);
+ }
+}
+
+static void midend_free_game(midend *me)
{
while (me->nstates > 0) {
me->nstates--;
}
if (me->drawstate)
- me->ourgame->free_drawstate(me->drawstate);
+ me->ourgame->free_drawstate(me->drawing, me->drawstate);
}
-void midend_free(midend_data *me)
+static void midend_free_preset_menu(midend *me, struct preset_menu *menu)
{
- int i;
+ if (menu) {
+ int i;
+ for (i = 0; i < menu->n_entries; i++) {
+ sfree(menu->entries[i].title);
+ if (menu->entries[i].params)
+ me->ourgame->free_params(menu->entries[i].params);
+ midend_free_preset_menu(me, menu->entries[i].submenu);
+ }
+ sfree(menu->entries);
+ sfree(menu);
+ }
+}
+void midend_free(midend *me)
+{
midend_free_game(me);
+ if (me->drawing)
+ drawing_free(me->drawing);
random_free(me->random);
+ sfree(me->newgame_undo_buf);
sfree(me->states);
sfree(me->desc);
sfree(me->privdesc);
sfree(me->seedstr);
sfree(me->aux_info);
me->ourgame->free_params(me->params);
- if (me->npresets) {
- for (i = 0; i < me->npresets; i++) {
- sfree(me->presets[i]);
- sfree(me->preset_names[i]);
- }
- sfree(me->presets);
- sfree(me->preset_names);
- }
+ midend_free_preset_menu(me, me->preset_menu);
if (me->ui)
me->ourgame->free_ui(me->ui);
if (me->curparams)
sfree(me);
}
-void midend_size(midend_data *me, int *x, int *y, int expand)
+static void midend_size_new_drawstate(midend *me)
{
- me->ourgame->size(me->params, me->drawstate, x, y, expand);
- me->winwidth = *x;
- me->winheight = *y;
+ /*
+ * Don't even bother, if we haven't worked out our tile size
+ * anyway yet.
+ */
+ if (me->tilesize > 0) {
+ me->ourgame->compute_size(me->params, me->tilesize,
+ &me->winwidth, &me->winheight);
+ me->ourgame->set_size(me->drawing, me->drawstate,
+ me->params, me->tilesize);
+ }
}
-void midend_set_params(midend_data *me, game_params *params)
+void midend_size(midend *me, int *x, int *y, int user_size)
+{
+ int min, max;
+ 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
+ * `user_size' is TRUE, we must actually find the _largest_ such
+ * tile size, in order to get as close to the user's explicit
+ * request as possible; otherwise, we bound above at the game's
+ * preferred tile size, so that the game gets what it wants
+ * provided that this doesn't break the constraint from the
+ * front-end (which is likely to be a screen size or similar).
+ */
+ if (user_size) {
+ max = 1;
+ do {
+ max *= 2;
+ me->ourgame->compute_size(me->params, max, &rx, &ry);
+ } while (rx <= *x && ry <= *y);
+ } else
+ max = me->preferred_tilesize + 1;
+ min = 1;
+
+ /*
+ * Now binary-search between min and max. We're looking for a
+ * boundary rather than a value: the point at which tile sizes
+ * stop fitting within the given dimensions. Thus, we stop when
+ * max and min differ by exactly 1.
+ */
+ while (max - min > 1) {
+ int mid = (max + min) / 2;
+ me->ourgame->compute_size(me->params, mid, &rx, &ry);
+ if (rx <= *x && ry <= *y)
+ min = mid;
+ else
+ max = mid;
+ }
+
+ /*
+ * Now `min' is a valid size, and `max' isn't. So use `min'.
+ */
+
+ me->tilesize = min;
+ if (user_size)
+ /* If the user requested a change in size, make it permanent. */
+ me->preferred_tilesize = me->tilesize;
+ midend_size_new_drawstate(me);
+ *x = me->winwidth;
+ *y = me->winheight;
+}
+
+int midend_tilesize(midend *me) { return me->tilesize; }
+
+void midend_set_params(midend *me, game_params *params)
{
me->ourgame->free_params(me->params);
me->params = me->ourgame->dup_params(params);
}
-static void midend_set_timer(midend_data *me)
+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 &&
- me->ourgame->timing_state(me->states[me->statepos-1].state));
+ me->ourgame->timing_state(me->states[me->statepos-1].state,
+ me->ui));
if (me->timing || me->flash_time || me->anim_time)
activate_timer(me->frontend);
else
deactivate_timer(me->frontend);
}
-static void midend_size_new_drawstate(midend_data *me)
-{
- me->ourgame->size(me->params, me->drawstate, &me->winwidth, &me->winheight,
- TRUE);
-}
-
-void midend_force_redraw(midend_data *me)
+void midend_force_redraw(midend *me)
{
if (me->drawstate)
- me->ourgame->free_drawstate(me->drawstate);
- me->drawstate = me->ourgame->new_drawstate(me->states[0].state);
+ me->ourgame->free_drawstate(me->drawing, me->drawstate);
+ me->drawstate = me->ourgame->new_drawstate(me->drawing,
+ me->states[0].state);
midend_size_new_drawstate(me);
midend_redraw(me);
}
-void midend_new_game(midend_data *me)
+static void newgame_serialise_write(void *ctx, void *buf, int len)
+{
+ midend *const me = ctx;
+ int new_len;
+
+ assert(len < INT_MAX - me->newgame_undo_len);
+ new_len = me->newgame_undo_len + len;
+ if (new_len > me->newgame_undo_size) {
+ me->newgame_undo_size = new_len + new_len / 4 + 1024;
+ me->newgame_undo_buf = sresize(me->newgame_undo_buf,
+ me->newgame_undo_size, char);
+ }
+ memcpy(me->newgame_undo_buf + me->newgame_undo_len, buf, len);
+ me->newgame_undo_len = new_len;
+}
+
+void midend_new_game(midend *me)
{
+ me->newgame_undo_len = 0;
+ midend_serialise(me, newgame_serialise_write, me);
+
+ midend_stop_anim(me);
midend_free_game(me);
assert(me->nstates == 0);
char newseed[16];
int i;
newseed[15] = '\0';
- newseed[0] = '1' + random_upto(me->random, 9);
+ newseed[0] = '1' + (char)random_upto(me->random, 9);
for (i = 1; i < 15; i++)
- newseed[i] = '0' + random_upto(me->random, 10);
+ newseed[i] = '0' + (char)random_upto(me->random, 10);
sfree(me->seedstr);
me->seedstr = dupstr(newseed);
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
+ * being used for bulk game generation, and hence we should
+ * pass the non-interactive flag to new_desc.
+ */
me->desc = me->ourgame->new_desc(me->curparams, rs,
- &me->aux_info, TRUE);
+ &me->aux_info, (me->drawing != NULL));
me->privdesc = NULL;
random_free(rs);
}
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);
+
+ /*
+ * As part of our commitment to self-testing, test the aux
+ * string to make sure nothing ghastly went wrong.
+ */
+ if (me->ourgame->can_solve && me->aux_info) {
+ game_state *s;
+ char *msg, *movestr;
+
+ msg = NULL;
+ movestr = me->ourgame->solve(me->states[0].state,
+ me->states[0].state,
+ me->aux_info, &msg);
+ assert(movestr && !msg);
+ s = me->ourgame->execute_move(me->states[0].state, movestr);
+ assert(s);
+ me->ourgame->free_game(s);
+ sfree(movestr);
+ }
+
me->states[me->nstates].movestr = NULL;
me->states[me->nstates].movetype = NEWGAME;
me->nstates++;
me->statepos = 1;
- me->drawstate = me->ourgame->new_drawstate(me->states[0].state);
+ me->drawstate = me->ourgame->new_drawstate(me->drawing,
+ me->states[0].state);
midend_size_new_drawstate(me);
me->elapsed = 0.0F;
- midend_set_timer(me);
+ me->flash_pos = me->flash_time = 0.0F;
+ me->anim_pos = me->anim_time = 0.0F;
if (me->ui)
me->ourgame->free_ui(me->ui);
me->ui = me->ourgame->new_ui(me->states[0].state);
+ midend_set_timer(me);
me->pressed_mouse_button = 0;
+
+ if (me->game_id_change_notify_function)
+ me->game_id_change_notify_function(me->game_id_change_notify_ctx);
+}
+
+int midend_can_undo(midend *me)
+{
+ return (me->statepos > 1 || me->newgame_undo_len);
}
-static int midend_undo(midend_data *me)
+int midend_can_redo(midend *me)
{
+ return (me->statepos < me->nstates);
+}
+
+struct newgame_undo_deserialise_read_ctx {
+ midend *me;
+ int len, pos;
+};
+
+static int newgame_undo_deserialise_read(void *ctx, void *buf, int len)
+{
+ struct newgame_undo_deserialise_read_ctx *const rctx = ctx;
+ midend *const me = rctx->me;
+
+ int use = min(len, rctx->len - rctx->pos);
+ memcpy(buf, me->newgame_undo_buf + rctx->pos, use);
+ rctx->pos += use;
+ return use;
+}
+
+struct newgame_undo_deserialise_check_ctx {
+ int refused;
+};
+
+static char *newgame_undo_deserialise_check(
+ void *vctx, midend *me, const struct deserialise_data *data)
+{
+ struct newgame_undo_deserialise_check_ctx *ctx =
+ (struct newgame_undo_deserialise_check_ctx *)vctx;
+ char *old, *new;
+
+ /*
+ * Undoing a New Game operation is only permitted if it doesn't
+ * change the game parameters. The point of having the ability at
+ * all is to recover from the momentary finger error of having hit
+ * the 'n' key (perhaps in place of some other nearby key), or hit
+ * the New Game menu item by mistake when aiming for the adjacent
+ * Restart; in both those situations, the game params are the same
+ * before and after the new-game operation.
+ *
+ * In principle, we could generalise this so that _any_ call to
+ * midend_new_game could be undone, but that would need all front
+ * ends to be alert to the possibility that any keystroke passed
+ * to midend_process_key might (if it turns out to have been one
+ * of the synonyms for undo, which the frontend doesn't
+ * necessarily check for) have various knock-on effects like
+ * needing to select a different preset in the game type menu, or
+ * even resizing the window. At least for the moment, it's easier
+ * not to do that, and to simply disallow any newgame-undo that is
+ * disruptive in either of those ways.
+ *
+ * We check both params and cparams, to be as safe as possible.
+ */
+
+ old = me->ourgame->encode_params(me->params, TRUE);
+ new = me->ourgame->encode_params(data->params, TRUE);
+ if (strcmp(old, new)) {
+ /* Set a flag to distinguish this deserialise failure
+ * from one due to faulty decoding */
+ ctx->refused = TRUE;
+ return "Undoing this new-game operation would change params";
+ }
+
+ old = me->ourgame->encode_params(me->curparams, TRUE);
+ new = me->ourgame->encode_params(data->cparams, TRUE);
+ if (strcmp(old, new)) {
+ ctx->refused = TRUE;
+ return "Undoing this new-game operation would change params";
+ }
+
+ /*
+ * Otherwise, fine, go ahead.
+ */
+ return NULL;
+}
+
+static int midend_undo(midend *me)
+{
+ char *deserialise_error;
+
if (me->statepos > 1) {
if (me->ui)
me->ourgame->changed_state(me->ui,
me->statepos--;
me->dir = -1;
return 1;
+ } else if (me->newgame_undo_len) {
+ /* This undo cannot be undone with redo */
+ struct newgame_undo_deserialise_read_ctx rctx;
+ struct newgame_undo_deserialise_check_ctx cctx;
+ rctx.me = me;
+ rctx.len = me->newgame_undo_len; /* copy for reentrancy safety */
+ rctx.pos = 0;
+ cctx.refused = FALSE;
+ deserialise_error = midend_deserialise_internal(
+ me, newgame_undo_deserialise_read, &rctx,
+ newgame_undo_deserialise_check, &cctx);
+ if (cctx.refused) {
+ /*
+ * Our post-deserialisation check shows that we can't use
+ * this saved game after all. (deserialise_error will
+ * contain the dummy error message generated by our check
+ * function, which we ignore.)
+ */
+ return 0;
+ } else {
+ /*
+ * There should never be any _other_ deserialisation
+ * error, because this serialised data has been held in
+ * our memory since it was created, and hasn't had any
+ * opportunity to be corrupted on disk, accidentally
+ * replaced by the wrong file, etc., by user error.
+ */
+ assert(!deserialise_error);
+ return 1;
+ }
} else
return 0;
}
-static int midend_redo(midend_data *me)
+static int midend_redo(midend *me)
{
if (me->statepos < me->nstates) {
if (me->ui)
return 0;
}
-static void midend_finish_move(midend_data *me)
+static void midend_finish_move(midend *me)
{
float flashtime;
midend_set_timer(me);
}
-void midend_stop_anim(midend_data *me)
+void midend_stop_anim(midend *me)
{
- if (me->oldstate || me->anim_time) {
+ if (me->oldstate || me->anim_time != 0) {
midend_finish_move(me);
midend_redraw(me);
}
}
-void midend_restart_game(midend_data *me)
+void midend_restart_game(midend *me)
{
game_state *s;
- midend_stop_anim(me);
-
assert(me->statepos >= 1);
if (me->statepos == 1)
return; /* no point doing anything at all! */
* Now enter the restarted state as the next move.
*/
midend_stop_anim(me);
- while (me->nstates > me->statepos)
- me->ourgame->free_game(me->states[--me->nstates].state);
+ midend_purge_states(me);
ensure(me);
me->states[me->nstates].state = s;
me->states[me->nstates].movestr = dupstr(me->desc);
me->ourgame->changed_state(me->ui,
me->states[me->statepos-2].state,
me->states[me->statepos-1].state);
- me->anim_time = 0.0;
+ me->flash_pos = me->flash_time = 0.0F;
midend_finish_move(me);
midend_redraw(me);
midend_set_timer(me);
}
-static int midend_really_process_key(midend_data *me, int x, int y, int button)
+static int midend_really_process_key(midend *me, int x, int y, int button)
{
game_state *oldstate =
me->ourgame->dup_game(me->states[me->statepos - 1].state);
- int special = FALSE, gotspecial = FALSE, ret = 1;
+ int type = MOVE, gottype = FALSE, ret = 1;
float anim_time;
+ game_state *s;
+ char *movestr = NULL;
- if (button == 'n' || button == 'N' || button == '\x0E') {
- midend_stop_anim(me);
- midend_new_game(me);
- midend_redraw(me);
- goto done; /* never animate */
- } else if (button == 'u' || button == 'u' ||
- button == '\x1A' || button == '\x1F') {
- midend_stop_anim(me);
- special = special(me->states[me->statepos-1].movetype);
- gotspecial = TRUE;
- if (!midend_undo(me))
+ if (!IS_UI_FAKE_KEY(button)) {
+ movestr = me->ourgame->interpret_move(
+ me->states[me->statepos-1].state,
+ me->ui, me->drawstate, x, y, button);
+ }
+
+ if (!movestr) {
+ if (button == 'n' || button == 'N' || button == '\x0E' ||
+ button == UI_NEWGAME) {
+ midend_new_game(me);
+ midend_redraw(me);
+ goto done; /* never animate */
+ } else if (button == 'u' || button == 'U' ||
+ button == '\x1A' || button == '\x1F' ||
+ button == UI_UNDO) {
+ midend_stop_anim(me);
+ type = me->states[me->statepos-1].movetype;
+ gottype = TRUE;
+ if (!midend_undo(me))
+ goto done;
+ } else if (button == 'r' || button == 'R' ||
+ button == '\x12' || button == '\x19' ||
+ button == UI_REDO) {
+ midend_stop_anim(me);
+ if (!midend_redo(me))
+ goto done;
+ } else if ((button == '\x13' || button == UI_SOLVE) &&
+ me->ourgame->can_solve) {
+ if (midend_solve(me))
+ goto done;
+ } else if (button == 'q' || button == 'Q' || button == '\x11' ||
+ button == UI_QUIT) {
+ ret = 0;
+ goto done;
+ } else
goto done;
- } else if (button == 'r' || button == 'R' ||
- button == '\x12' || button == '\x19') {
- midend_stop_anim(me);
- if (!midend_redo(me))
- goto done;
- } else if (button == 'q' || button == 'Q' || button == '\x11') {
- ret = 0;
- goto done;
} else {
- game_state *s;
- char *movestr;
-
- movestr =
- me->ourgame->interpret_move(me->states[me->statepos-1].state,
- me->ui, me->drawstate, x, y, button);
- if (!movestr)
- s = NULL;
- else if (!*movestr)
+ if (!*movestr)
s = me->states[me->statepos-1].state;
else {
s = me->ourgame->execute_move(me->states[me->statepos-1].state,
* state has been updated and a redraw is called for.
*/
midend_redraw(me);
+ midend_set_timer(me);
goto done;
} else if (s) {
midend_stop_anim(me);
- while (me->nstates > me->statepos)
- me->ourgame->free_game(me->states[--me->nstates].state);
+ midend_purge_states(me);
ensure(me);
assert(movestr != NULL);
me->states[me->nstates].state = s;
me->states[me->nstates].movetype = MOVE;
me->statepos = ++me->nstates;
me->dir = +1;
+ if (me->ui)
+ me->ourgame->changed_state(me->ui,
+ me->states[me->statepos-2].state,
+ me->states[me->statepos-1].state);
} else {
goto done;
}
}
- if (!gotspecial)
- special = special(me->states[me->statepos-1].movetype);
+ if (!gottype)
+ type = me->states[me->statepos-1].movetype;
/*
* See if this move requires an animation.
*/
- if (special) {
+ if (special(type) && !(type == SOLVE &&
+ (me->ourgame->flags & SOLVE_ANIMATES))) {
anim_time = 0;
} else {
anim_time = me->ourgame->anim_length(oldstate,
return ret;
}
-int midend_process_key(midend_data *me, int x, int y, int button)
+int midend_process_key(midend *me, int x, int y, int button)
{
int ret = 1;
* like a left click for the benefit of users of other
* implementations. So the last of the above points is modified
* in the presence of an (optional) button priority order.
+ *
+ * A further addition: we translate certain keyboard presses to
+ * cursor key 'select' buttons, so that a) frontends don't have
+ * to translate these themselves (like they do for CURSOR_UP etc),
+ * and b) individual games don't have to hard-code button presses
+ * of '\n' etc for keyboard-based cursors. The choice of buttons
+ * here could eventually be controlled by a runtime configuration
+ * option.
*/
if (IS_MOUSE_DRAG(button) || IS_MOUSE_RELEASE(button)) {
if (me->pressed_mouse_button) {
* If the new button has lower priority than the old one,
* don't bother doing this.
*/
- if (me->ourgame->mouse_priorities &
+ if (me->ourgame->flags &
BUTTON_BEATS(me->pressed_mouse_button, button))
return ret; /* just ignore it */
(LEFT_RELEASE - LEFT_BUTTON)));
}
+ /*
+ * Translate keyboard presses to cursor selection.
+ */
+ if (button == '\n' || button == '\r')
+ button = CURSOR_SELECT;
+ if (button == ' ')
+ button = CURSOR_SELECT2;
+
+ /*
+ * Normalise both backspace characters (8 and 127) to \b. Easier
+ * to do this once, here, than to require all front ends to
+ * carefully generate the same one - now each front end can
+ * generate whichever is easiest.
+ */
+ if (button == '\177')
+ button = '\b';
+
/*
* Now send on the event we originally received.
*/
return ret;
}
-void midend_redraw(midend_data *me)
+void midend_redraw(midend *me)
{
+ assert(me->drawing);
+
if (me->statepos > 0 && me->drawstate) {
- start_draw(me->frontend);
+ start_draw(me->drawing);
if (me->oldstate && me->anim_time > 0 &&
me->anim_pos < me->anim_time) {
assert(me->dir != 0);
- me->ourgame->redraw(me->frontend, me->drawstate, me->oldstate,
+ me->ourgame->redraw(me->drawing, me->drawstate, me->oldstate,
me->states[me->statepos-1].state, me->dir,
me->ui, me->anim_pos, me->flash_pos);
} else {
- me->ourgame->redraw(me->frontend, me->drawstate, NULL,
+ me->ourgame->redraw(me->drawing, me->drawstate, NULL,
me->states[me->statepos-1].state, +1 /*shrug*/,
me->ui, 0.0, me->flash_pos);
}
- end_draw(me->frontend);
+ end_draw(me->drawing);
}
}
-void midend_timer(midend_data *me, float tplus)
+/*
+ * Nasty hacky function used to implement the --redo option in
+ * gtk.c. Only used for generating the puzzles' icons.
+ */
+void midend_freeze_timer(midend *me, float tprop)
+{
+ me->anim_pos = me->anim_time * tprop;
+ midend_redraw(me);
+ deactivate_timer(me->frontend);
+}
+
+void midend_timer(midend *me, float tplus)
{
+ int need_redraw = (me->anim_time > 0 || me->flash_time > 0);
+
me->anim_pos += tplus;
if (me->anim_pos >= me->anim_time ||
me->anim_time == 0 || !me->oldstate) {
me->flash_pos = me->flash_time = 0;
}
- midend_redraw(me);
+ if (need_redraw)
+ midend_redraw(me);
if (me->timing) {
float oldelapsed = me->elapsed;
me->elapsed += tplus;
if ((int)oldelapsed != (int)me->elapsed)
- status_bar(me->frontend, me->laststatus ? me->laststatus : "");
+ status_bar(me->drawing, me->laststatus ? me->laststatus : "");
}
midend_set_timer(me);
}
-float *midend_colours(midend_data *me, int *ncolours)
+float *midend_colours(midend *me, int *ncolours)
{
- game_state *state = NULL;
float *ret;
- if (me->nstates == 0) {
- char *aux = NULL;
- char *desc = me->ourgame->new_desc(me->params, me->random,
- &aux, TRUE);
- state = me->ourgame->new_game(me, me->params, desc);
- sfree(desc);
- sfree(aux);
- } else
- state = me->states[0].state;
-
- ret = me->ourgame->colours(me->frontend, state, ncolours);
+ ret = me->ourgame->colours(me->frontend, ncolours);
{
int i;
for (i = 0; i < *ncolours; i++) {
char buf[80], *e;
unsigned int r, g, b;
- int j;
+ int j, k;
sprintf(buf, "%s_COLOUR_%d", me->ourgame->name, i);
- for (j = 0; buf[j]; j++)
- buf[j] = toupper((unsigned char)buf[j]);
+ 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, "%2x%2x%2x", &r, &g, &b) == 3) {
- ret[i*3 + 0] = r / 255.0;
- ret[i*3 + 1] = g / 255.0;
- ret[i*3 + 2] = b / 255.0;
+ ret[i*3 + 0] = r / 255.0F;
+ ret[i*3 + 1] = g / 255.0F;
+ ret[i*3 + 2] = b / 255.0F;
}
}
}
- if (me->nstates == 0)
- me->ourgame->free_game(state);
-
return ret;
}
-int midend_num_presets(midend_data *me)
+struct preset_menu *preset_menu_new(void)
{
- if (!me->npresets) {
- char *name;
+ struct preset_menu *menu = snew(struct preset_menu);
+ menu->n_entries = 0;
+ menu->entries_size = 0;
+ menu->entries = NULL;
+ return menu;
+}
+
+static struct preset_menu_entry *preset_menu_add(struct preset_menu *menu,
+ char *title)
+{
+ struct preset_menu_entry *toret;
+ if (menu->n_entries >= menu->entries_size) {
+ menu->entries_size = menu->n_entries * 5 / 4 + 10;
+ menu->entries = sresize(menu->entries, menu->entries_size,
+ struct preset_menu_entry);
+ }
+ toret = &menu->entries[menu->n_entries++];
+ toret->title = title;
+ toret->params = NULL;
+ toret->submenu = NULL;
+ return toret;
+}
+
+struct preset_menu *preset_menu_add_submenu(struct preset_menu *parent,
+ char *title)
+{
+ struct preset_menu_entry *entry = preset_menu_add(parent, title);
+ entry->submenu = preset_menu_new();
+ return entry->submenu;
+}
+
+void preset_menu_add_preset(struct preset_menu *parent,
+ char *title, game_params *params)
+{
+ struct preset_menu_entry *entry = preset_menu_add(parent, title);
+ entry->params = params;
+}
+
+game_params *preset_menu_lookup_by_id(struct preset_menu *menu, int id)
+{
+ int i;
+ game_params *retd;
+
+ for (i = 0; i < menu->n_entries; i++) {
+ if (id == menu->entries[i].id)
+ return menu->entries[i].params;
+ if (menu->entries[i].submenu &&
+ (retd = preset_menu_lookup_by_id(
+ menu->entries[i].submenu, id)) != NULL)
+ return retd;
+ }
+
+ return NULL;
+}
+
+static char *preset_menu_add_from_user_env(
+ midend *me, struct preset_menu *menu, char *p, int top_level)
+{
+ while (*p) {
+ char *name, *val;
game_params *preset;
- while (me->ourgame->fetch_preset(me->npresets, &name, &preset)) {
- if (me->presetsize <= me->npresets) {
- me->presetsize = me->npresets + 10;
- me->presets = sresize(me->presets, me->presetsize,
- game_params *);
- me->preset_names = sresize(me->preset_names, me->presetsize,
- char *);
+ name = p;
+ while (*p && *p != ':') p++;
+ if (*p) *p++ = '\0';
+ val = p;
+ while (*p && *p != ':') p++;
+ if (*p) *p++ = '\0';
+
+ if (!strcmp(val, "#")) {
+ /*
+ * Special case: either open a new submenu with the given
+ * title, or terminate the current submenu.
+ */
+ if (*name) {
+ struct preset_menu *submenu =
+ preset_menu_add_submenu(menu, dupstr(name));
+ p = preset_menu_add_from_user_env(me, submenu, p, FALSE);
+ } else {
+ /*
+ * If we get a 'close submenu' indication at the top
+ * level, there's not much we can do but quietly
+ * ignore it.
+ */
+ if (!top_level)
+ return p;
}
+ continue;
+ }
+
+ preset = me->ourgame->default_params();
+ me->ourgame->decode_params(preset, val);
- me->presets[me->npresets] = preset;
- me->preset_names[me->npresets] = name;
- me->npresets++;
+ if (me->ourgame->validate_params(preset, TRUE)) {
+ /* Drop this one from the list. */
+ me->ourgame->free_params(preset);
+ continue;
}
+
+ preset_menu_add_preset(menu, dupstr(name), preset);
+ }
+
+ return p;
+}
+
+static void preset_menu_alloc_ids(midend *me, struct preset_menu *menu)
+{
+ int i;
+
+ for (i = 0; i < menu->n_entries; i++)
+ menu->entries[i].id = me->n_encoded_presets++;
+
+ for (i = 0; i < menu->n_entries; i++)
+ if (menu->entries[i].submenu)
+ preset_menu_alloc_ids(me, menu->entries[i].submenu);
+}
+
+static void preset_menu_encode_params(midend *me, struct preset_menu *menu)
+{
+ int i;
+
+ for (i = 0; i < menu->n_entries; i++) {
+ if (menu->entries[i].params) {
+ me->encoded_presets[menu->entries[i].id] =
+ me->ourgame->encode_params(menu->entries[i].params, TRUE);
+ } else {
+ preset_menu_encode_params(me, menu->entries[i].submenu);
+ }
+ }
+}
+
+struct preset_menu *midend_get_presets(midend *me, int *id_limit)
+{
+ int i;
+
+ if (me->preset_menu)
+ return me->preset_menu;
+
+#if 0
+ /* Expect the game to implement exactly one of the two preset APIs */
+ assert(me->ourgame->fetch_preset || me->ourgame->preset_menu);
+ assert(!(me->ourgame->fetch_preset && me->ourgame->preset_menu));
+#endif
+
+ if (me->ourgame->fetch_preset) {
+ char *name;
+ game_params *preset;
+
+ /* Simple one-level menu */
+ assert(!me->ourgame->preset_menu);
+ me->preset_menu = preset_menu_new();
+ for (i = 0; me->ourgame->fetch_preset(i, &name, &preset); i++)
+ preset_menu_add_preset(me->preset_menu, name, preset);
+
+ } else {
+ /* Hierarchical menu provided by the game backend */
+ me->preset_menu = me->ourgame->preset_menu();
}
{
/*
- * Allow environment-based extensions to the preset list by
- * defining a variable along the lines of `SOLO_PRESETS=2x3
- * Advanced:2x3da'. Colon-separated list of items,
- * alternating between textual titles in the menu and
- * encoded parameter strings.
+ * Allow user extensions to the preset list by defining an
+ * environment variable <gamename>_PRESETS whose value is a
+ * colon-separated list of items, alternating between textual
+ * titles in the menu and encoded parameter strings. For
+ * example, "SOLO_PRESETS=2x3 Advanced:2x3da" would define
+ * just one additional preset for Solo.
*/
- char buf[80], *e, *p;
- int j;
+ char buf[80], *e;
+ int j, k;
sprintf(buf, "%s_PRESETS", me->ourgame->name);
- for (j = 0; buf[j]; j++)
- buf[j] = toupper((unsigned char)buf[j]);
+ 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) {
- p = e = dupstr(e);
-
- while (*p) {
- char *name, *val;
- game_params *preset;
-
- name = p;
- while (*p && *p != ':') p++;
- if (*p) *p++ = '\0';
- val = p;
- while (*p && *p != ':') p++;
- if (*p) *p++ = '\0';
-
- preset = me->ourgame->default_params();
- me->ourgame->decode_params(preset, val);
-
- if (me->ourgame->validate_params(preset)) {
- /* Drop this one from the list. */
- me->ourgame->free_params(preset);
- continue;
- }
-
- if (me->presetsize <= me->npresets) {
- me->presetsize = me->npresets + 10;
- me->presets = sresize(me->presets, me->presetsize,
- game_params *);
- me->preset_names = sresize(me->preset_names,
- me->presetsize, char *);
- }
-
- me->presets[me->npresets] = preset;
- me->preset_names[me->npresets] = dupstr(name);
- me->npresets++;
- }
+ e = dupstr(e);
+ preset_menu_add_from_user_env(me, me->preset_menu, e, TRUE);
+ sfree(e);
}
}
- return me->npresets;
+ /*
+ * Finalise the menu: allocate an integer id to each entry, and
+ * store string encodings of the presets' parameters in
+ * me->encoded_presets.
+ */
+ me->n_encoded_presets = 0;
+ preset_menu_alloc_ids(me, me->preset_menu);
+ me->encoded_presets = snewn(me->n_encoded_presets, char *);
+ for (i = 0; i < me->n_encoded_presets; i++)
+ me->encoded_presets[i] = NULL;
+ preset_menu_encode_params(me, me->preset_menu);
+
+ if (id_limit)
+ *id_limit = me->n_encoded_presets;
+ return me->preset_menu;
+}
+
+int midend_which_preset(midend *me)
+{
+ char *encoding = me->ourgame->encode_params(me->params, TRUE);
+ int i, ret;
+
+ ret = -1;
+ for (i = 0; i < me->n_encoded_presets; i++)
+ if (me->encoded_presets[i] &&
+ !strcmp(encoding, me->encoded_presets[i])) {
+ ret = i;
+ break;
+ }
+
+ sfree(encoding);
+ return ret;
}
-void midend_fetch_preset(midend_data *me, int n,
- char **name, game_params **params)
+int midend_wants_statusbar(midend *me)
{
- assert(n >= 0 && n < me->npresets);
- *name = me->preset_names[n];
- *params = me->presets[n];
+ return me->ourgame->wants_statusbar;
}
-int midend_wants_statusbar(midend_data *me)
+void midend_request_id_changes(midend *me, void (*notify)(void *), void *ctx)
{
- return me->ourgame->wants_statusbar();
+ me->game_id_change_notify_function = notify;
+ me->game_id_change_notify_ctx = ctx;
}
-void midend_supersede_game_desc(midend_data *me, char *desc, char *privdesc)
+void midend_supersede_game_desc(midend *me, char *desc, char *privdesc)
{
sfree(me->desc);
sfree(me->privdesc);
me->desc = dupstr(desc);
me->privdesc = privdesc ? dupstr(privdesc) : NULL;
+ if (me->game_id_change_notify_function)
+ me->game_id_change_notify_function(me->game_id_change_notify_ctx);
}
-config_item *midend_get_config(midend_data *me, int which, char **wintitle)
+config_item *midend_get_config(midend *me, int which, char **wintitle)
{
char *titlebuf, *parstr, *rest;
config_item *ret;
return NULL;
}
-static char *midend_game_id_int(midend_data *me, char *id, int defmode)
+static char *midend_game_id_int(midend *me, char *id, int defmode)
{
char *error, *par, *desc, *seed;
game_params *newcurparams, *newparams, *oldparams1, *oldparams2;
newcurparams = newparams = oldparams1 = oldparams2 = NULL;
if (par) {
- newcurparams = me->ourgame->dup_params(me->params);
+ /*
+ * The params string may underspecify the game parameters, so
+ * we must first initialise newcurparams with a full set of
+ * params from somewhere else before we decode_params the
+ * input string over the top.
+ *
+ * But which set? It depends on what other data we have.
+ *
+ * If we've been given a _descriptive_ game id, then that may
+ * well underspecify by design, e.g. Solo game descriptions
+ * often start just '3x3:' without specifying one of Solo's
+ * difficulty settings, because it isn't necessary once a game
+ * has been generated (and you might not even know it, if
+ * you're manually transcribing a game description). In that
+ * situation, I've always felt that the best thing to set the
+ * difficulty to (for use if the user hits 'New Game' after
+ * pasting in that game id) is whatever it was previously set
+ * to. That is, we use whatever is already in me->params as
+ * the basis for our decoding of this input string.
+ *
+ * A random-seed based game id, however, should use the real,
+ * built-in default params, and not even check the
+ * <game>_DEFAULT environment setting, because when people
+ * paste each other random seeds - whether it's two users
+ * arranging to generate the same game at the same time to
+ * race solving them, or a user sending a bug report upstream
+ * - the whole point is for the random game id to always be
+ * interpreted the same way, even if it does underspecify.
+ *
+ * A parameter string typed in on its own, with no seed _or_
+ * description, gets treated the same way as a random seed,
+ * because again I think the most likely reason for doing that
+ * is to have a portable representation of a set of params.
+ */
+ if (desc) {
+ newcurparams = me->ourgame->dup_params(me->params);
+ } else {
+ newcurparams = me->ourgame->default_params();
+ }
me->ourgame->decode_params(newcurparams, par);
- error = me->ourgame->validate_params(newcurparams);
+ error = me->ourgame->validate_params(newcurparams, desc == NULL);
if (error) {
me->ourgame->free_params(newcurparams);
return error;
return NULL;
}
-char *midend_game_id(midend_data *me, char *id)
+char *midend_game_id(midend *me, char *id)
{
return midend_game_id_int(me, id, DEF_PARAMS);
}
-char *midend_set_config(midend_data *me, int which, config_item *cfg)
+char *midend_get_game_id(midend *me)
+{
+ char *parstr, *ret;
+
+ parstr = me->ourgame->encode_params(me->curparams, FALSE);
+ assert(parstr);
+ assert(me->desc);
+ ret = snewn(strlen(parstr) + strlen(me->desc) + 2, char);
+ sprintf(ret, "%s:%s", parstr, me->desc);
+ sfree(parstr);
+ return ret;
+}
+
+char *midend_get_random_seed(midend *me)
+{
+ char *parstr, *ret;
+
+ if (!me->seedstr)
+ return NULL;
+
+ parstr = me->ourgame->encode_params(me->curparams, TRUE);
+ assert(parstr);
+ ret = snewn(strlen(parstr) + strlen(me->seedstr) + 2, char);
+ sprintf(ret, "%s#%s", parstr, me->seedstr);
+ sfree(parstr);
+ return ret;
+}
+
+char *midend_set_config(midend *me, int which, config_item *cfg)
{
char *error;
game_params *params;
switch (which) {
case CFG_SETTINGS:
params = me->ourgame->custom_params(cfg);
- error = me->ourgame->validate_params(params);
+ error = me->ourgame->validate_params(params, TRUE);
if (error) {
me->ourgame->free_params(params);
return NULL;
}
-char *midend_text_format(midend_data *me)
+int midend_can_format_as_text_now(midend *me)
+{
+ if (me->ourgame->can_format_as_text_ever)
+ return me->ourgame->can_format_as_text_now(me->params);
+ else
+ return FALSE;
+}
+
+char *midend_text_format(midend *me)
{
- if (me->ourgame->can_format_as_text && me->statepos > 0)
+ if (me->ourgame->can_format_as_text_ever && me->statepos > 0 &&
+ me->ourgame->can_format_as_text_now(me->params))
return me->ourgame->text_format(me->states[me->statepos-1].state);
else
return NULL;
}
-char *midend_solve(midend_data *me)
+char *midend_solve(midend *me)
{
game_state *s;
char *msg, *movestr;
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)
- me->ourgame->free_game(me->states[--me->nstates].state);
+ midend_purge_states(me);
ensure(me);
me->states[me->nstates].state = s;
me->states[me->nstates].movestr = movestr;
me->ourgame->changed_state(me->ui,
me->states[me->statepos-2].state,
me->states[me->statepos-1].state);
- me->anim_time = 0.0;
- midend_finish_move(me);
- midend_redraw(me);
+ me->dir = +1;
+ if (me->ourgame->flags & SOLVE_ANIMATES) {
+ me->oldstate = me->ourgame->dup_game(me->states[me->statepos-2].state);
+ me->anim_time =
+ me->ourgame->anim_length(me->states[me->statepos-2].state,
+ me->states[me->statepos-1].state,
+ +1, me->ui);
+ me->anim_pos = 0.0;
+ } else {
+ me->anim_time = 0.0;
+ midend_finish_move(me);
+ }
+ if (me->drawing)
+ midend_redraw(me);
midend_set_timer(me);
return NULL;
}
-char *midend_rewrite_statusbar(midend_data *me, char *text)
+int midend_status(midend *me)
+{
+ /*
+ * We should probably never be called when the state stack has no
+ * states on it at all - ideally, midends should never be left in
+ * that state for long enough to get put down and forgotten about.
+ * But if we are, I think we return _true_ - pedantically speaking
+ * a midend in that state is 'vacuously solved', and more
+ * practically, a user whose midend has been left in that state
+ * probably _does_ want the 'new game' option to be prominent.
+ */
+ if (me->statepos == 0)
+ return +1;
+
+ return me->ourgame->status(me->states[me->statepos-1].state);
+}
+
+char *midend_rewrite_statusbar(midend *me, char *text)
{
/*
* An important special case is that we are occasionally called
char timebuf[100], *ret;
int min, sec;
- sec = me->elapsed;
+ sec = (int)me->elapsed;
min = sec / 60;
sec %= 60;
sprintf(timebuf, "[%d:%02d] ", min, sec);
#define SERIALISE_MAGIC "Simon Tatham's Portable Puzzle Collection"
#define SERIALISE_VERSION "1"
-void midend_serialise(midend_data *me,
+void midend_serialise(midend *me,
void (*write)(void *ctx, void *buf, int len),
void *wctx)
{
#define wr(h,s) do { \
char hbuf[80]; \
char *str = (s); \
- sprintf(hbuf, "%-8.8s:%d:", (h), (int)strlen(str)); \
+ char lbuf[9]; \
+ copy_left_justified(lbuf, sizeof(lbuf), h); \
+ sprintf(hbuf, "%s:%d:", lbuf, (int)strlen(str)); \
write(wctx, hbuf, strlen(hbuf)); \
write(wctx, str, strlen(str)); \
write(wctx, "\n", 1); \
}
/*
- * This function returns NULL on success, or an error message.
+ * Internal version of midend_deserialise, taking an extra check
+ * function to be called just before beginning to install things in
+ * the midend.
+ *
+ * Like midend_deserialise proper, this function returns NULL on
+ * success, or an error message.
*/
-char *midend_deserialise(midend_data *me,
- int (*read)(void *ctx, void *buf, int len),
- void *rctx)
+static char *midend_deserialise_internal(
+ midend *me, int (*read)(void *ctx, void *buf, int len), void *rctx,
+ char *(*check)(void *ctx, midend *, const struct deserialise_data *data),
+ void *cctx)
{
- int nstates = 0, statepos = -1, gotstates = 0;
+ struct deserialise_data data;
+ int gotstates = 0;
int started = FALSE;
int i;
/* Initially all errors give the same report */
char *ret = "Data does not appear to be a saved game file";
- /*
- * We construct all the new state in local variables while we
- * check its sanity. Only once we have finished reading the
- * serialised data and detected no errors at all do we start
- * modifying stuff in the midend_data passed in.
- */
- char *seed = NULL, *parstr = NULL, *desc = NULL, *privdesc = NULL;
- char *auxinfo = NULL, *uistr = NULL, *cparstr = NULL;
- float elapsed = 0.0F;
- game_params *params = NULL, *cparams = NULL;
- game_ui *ui = NULL;
- struct midend_state_entry *states = NULL;
+ data.seed = data.parstr = data.desc = data.privdesc = NULL;
+ data.auxinfo = data.uistr = data.cparstr = NULL;
+ data.elapsed = 0.0F;
+ data.params = data.cparams = NULL;
+ data.ui = NULL;
+ data.states = NULL;
+ data.nstates = 0;
+ data.statepos = -1;
/*
* Loop round and round reading one key/value pair at a time
* from the serialised stream, until we have enough game states
* to finish.
*/
- while (nstates <= 0 || statepos < 0 || gotstates < nstates-1) {
+ while (data.nstates <= 0 || data.statepos < 0 ||
+ gotstates < data.nstates-1) {
char key[9], c;
int len;
if (key[8] != ':') {
if (started)
ret = "Data was incorrectly formatted for a saved game file";
+ goto cleanup;
}
len = strcspn(key, ": ");
assert(len <= 8);
goto cleanup;
}
} else if (!strcmp(key, "PARAMS")) {
- sfree(parstr);
- parstr = val;
+ sfree(data.parstr);
+ data.parstr = val;
val = NULL;
} else if (!strcmp(key, "CPARAMS")) {
- sfree(cparstr);
- cparstr = val;
+ sfree(data.cparstr);
+ data.cparstr = val;
val = NULL;
} else if (!strcmp(key, "SEED")) {
- sfree(seed);
- seed = val;
+ sfree(data.seed);
+ data.seed = val;
val = NULL;
} else if (!strcmp(key, "DESC")) {
- sfree(desc);
- desc = val;
+ sfree(data.desc);
+ data.desc = val;
val = NULL;
} else if (!strcmp(key, "PRIVDESC")) {
- sfree(privdesc);
- privdesc = val;
+ sfree(data.privdesc);
+ data.privdesc = val;
val = NULL;
} else if (!strcmp(key, "AUXINFO")) {
unsigned char *tmp;
tmp = hex2bin(val, len);
obfuscate_bitmap(tmp, len*8, TRUE);
- sfree(auxinfo);
- auxinfo = snewn(len + 1, char);
- memcpy(auxinfo, tmp, len);
- auxinfo[len] = '\0';
+ sfree(data.auxinfo);
+ data.auxinfo = snewn(len + 1, char);
+ memcpy(data.auxinfo, tmp, len);
+ data.auxinfo[len] = '\0';
sfree(tmp);
} else if (!strcmp(key, "UI")) {
- sfree(uistr);
- uistr = val;
+ sfree(data.uistr);
+ data.uistr = val;
val = NULL;
} else if (!strcmp(key, "TIME")) {
- elapsed = atof(val);
+ data.elapsed = (float)atof(val);
} else if (!strcmp(key, "NSTATES")) {
- nstates = atoi(val);
- if (nstates <= 0) {
+ data.nstates = atoi(val);
+ if (data.nstates <= 0) {
ret = "Number of states in save file was negative";
goto cleanup;
}
- if (states) {
+ if (data.states) {
ret = "Two state counts provided in save file";
goto cleanup;
}
- states = snewn(nstates, struct midend_state_entry);
- for (i = 0; i < nstates; i++) {
- states[i].state = NULL;
- states[i].movestr = NULL;
- states[i].movetype = NEWGAME;
+ data.states = snewn(data.nstates, struct midend_state_entry);
+ for (i = 0; i < data.nstates; i++) {
+ data.states[i].state = NULL;
+ data.states[i].movestr = NULL;
+ data.states[i].movetype = NEWGAME;
}
} else if (!strcmp(key, "STATEPOS")) {
- statepos = atoi(val);
+ data.statepos = atoi(val);
} else if (!strcmp(key, "MOVE")) {
gotstates++;
- states[gotstates].movetype = MOVE;
- states[gotstates].movestr = val;
+ data.states[gotstates].movetype = MOVE;
+ data.states[gotstates].movestr = val;
val = NULL;
} else if (!strcmp(key, "SOLVE")) {
gotstates++;
- states[gotstates].movetype = SOLVE;
- states[gotstates].movestr = val;
+ data.states[gotstates].movetype = SOLVE;
+ data.states[gotstates].movestr = val;
val = NULL;
} else if (!strcmp(key, "RESTART")) {
gotstates++;
- states[gotstates].movetype = RESTART;
- states[gotstates].movestr = val;
+ data.states[gotstates].movetype = RESTART;
+ data.states[gotstates].movestr = val;
val = NULL;
}
}
val = NULL;
}
- params = me->ourgame->default_params();
- me->ourgame->decode_params(params, parstr);
- if (me->ourgame->validate_params(params)) {
+ data.params = me->ourgame->default_params();
+ me->ourgame->decode_params(data.params, data.parstr);
+ if (me->ourgame->validate_params(data.params, TRUE)) {
ret = "Long-term parameters in save file are invalid";
goto cleanup;
}
- cparams = me->ourgame->default_params();
- me->ourgame->decode_params(cparams, cparstr);
- if (me->ourgame->validate_params(cparams)) {
+ data.cparams = me->ourgame->default_params();
+ me->ourgame->decode_params(data.cparams, data.cparstr);
+ if (me->ourgame->validate_params(data.cparams, FALSE)) {
ret = "Short-term parameters in save file are invalid";
goto cleanup;
}
- if (!desc) {
+ if (data.seed && me->ourgame->validate_params(data.cparams, TRUE)) {
+ /*
+ * The seed's no use with this version, but we can perfectly
+ * well use the rest of the data.
+ */
+ sfree(data.seed);
+ data.seed = NULL;
+ }
+ if (!data.desc) {
ret = "Game description in save file is missing";
goto cleanup;
- } else if (me->ourgame->validate_desc(params, desc)) {
+ } else if (me->ourgame->validate_desc(data.cparams, data.desc)) {
ret = "Game description in save file is invalid";
goto cleanup;
}
- if (privdesc && me->ourgame->validate_desc(params, privdesc)) {
+ if (data.privdesc &&
+ me->ourgame->validate_desc(data.cparams, data.privdesc)) {
ret = "Game private description in save file is invalid";
goto cleanup;
}
- if (statepos < 0 || statepos >= nstates) {
+ if (data.statepos < 0 || data.statepos >= data.nstates) {
ret = "Game position in save file is out of range";
}
- states[0].state = me->ourgame->new_game(me, params,
- privdesc ? privdesc : desc);
- for (i = 1; i < nstates; i++) {
- assert(states[i].movetype != NEWGAME);
- switch (states[i].movetype) {
+ data.states[0].state = me->ourgame->new_game(
+ me, data.cparams, data.privdesc ? data.privdesc : data.desc);
+ for (i = 1; i < data.nstates; i++) {
+ assert(data.states[i].movetype != NEWGAME);
+ switch (data.states[i].movetype) {
case MOVE:
case SOLVE:
- states[i].state = me->ourgame->execute_move(states[i-1].state,
- states[i].movestr);
- if (states[i].state == NULL) {
+ data.states[i].state = me->ourgame->execute_move(
+ data.states[i-1].state, data.states[i].movestr);
+ if (data.states[i].state == NULL) {
ret = "Save file contained an invalid move";
goto cleanup;
}
break;
case RESTART:
- if (me->ourgame->validate_desc(params, states[i].movestr)) {
+ if (me->ourgame->validate_desc(
+ data.cparams, data.states[i].movestr)) {
ret = "Save file contained an invalid restart move";
goto cleanup;
}
- states[i].state = me->ourgame->new_game(me, params,
- states[i].movestr);
+ data.states[i].state = me->ourgame->new_game(
+ me, data.cparams, data.states[i].movestr);
break;
}
}
- ui = me->ourgame->new_ui(states[0].state);
- me->ourgame->decode_ui(ui, uistr);
+ data.ui = me->ourgame->new_ui(data.states[0].state);
+ me->ourgame->decode_ui(data.ui, data.uistr);
+
+ /*
+ * Run the externally provided check function, and abort if it
+ * returns an error message.
+ */
+ if (check && (ret = check(cctx, me, &data)) != NULL)
+ goto cleanup; /* error message is already in ret */
/*
* Now we've run out of possible error conditions, so we're
char *tmp;
tmp = me->desc;
- me->desc = desc;
- desc = tmp;
+ me->desc = data.desc;
+ data.desc = tmp;
tmp = me->privdesc;
- me->privdesc = privdesc;
- privdesc = tmp;
+ me->privdesc = data.privdesc;
+ data.privdesc = tmp;
tmp = me->seedstr;
- me->seedstr = seed;
- seed = tmp;
+ me->seedstr = data.seed;
+ data.seed = tmp;
tmp = me->aux_info;
- me->aux_info = auxinfo;
- auxinfo = tmp;
+ me->aux_info = data.auxinfo;
+ data.auxinfo = tmp;
}
me->genmode = GOT_NOTHING;
- me->statesize = nstates;
- nstates = me->nstates;
+ me->statesize = data.nstates;
+ data.nstates = me->nstates;
me->nstates = me->statesize;
{
struct midend_state_entry *tmp;
tmp = me->states;
- me->states = states;
- states = tmp;
+ me->states = data.states;
+ data.states = tmp;
}
- me->statepos = statepos;
+ me->statepos = data.statepos;
+
+ /*
+ * Don't save the "new game undo" state. So "new game" twice or
+ * (in some environments) switching away and back, will make a
+ * "new game" irreversible. Maybe in the future we will have a
+ * more sophisticated way to decide when to discard the previous
+ * game state.
+ */
+ me->newgame_undo_len = 0;
{
game_params *tmp;
tmp = me->params;
- me->params = params;
- params = tmp;
+ me->params = data.params;
+ data.params = tmp;
tmp = me->curparams;
- me->curparams = cparams;
- cparams = tmp;
+ me->curparams = data.cparams;
+ data.cparams = tmp;
}
me->oldstate = NULL;
game_ui *tmp;
tmp = me->ui;
- me->ui = ui;
- ui = tmp;
+ me->ui = data.ui;
+ data.ui = tmp;
}
- me->elapsed = elapsed;
+ me->elapsed = data.elapsed;
me->pressed_mouse_button = 0;
midend_set_timer(me);
if (me->drawstate)
- me->ourgame->free_drawstate(me->drawstate);
+ me->ourgame->free_drawstate(me->drawing, me->drawstate);
me->drawstate =
- me->ourgame->new_drawstate(me->states[me->statepos-1].state);
+ me->ourgame->new_drawstate(me->drawing,
+ me->states[me->statepos-1].state);
midend_size_new_drawstate(me);
+ if (me->game_id_change_notify_function)
+ me->game_id_change_notify_function(me->game_id_change_notify_ctx);
ret = NULL; /* success! */
cleanup:
sfree(val);
- sfree(seed);
- sfree(parstr);
- sfree(cparstr);
- sfree(desc);
- sfree(privdesc);
- sfree(auxinfo);
- sfree(uistr);
- if (params)
- me->ourgame->free_params(params);
- if (cparams)
- me->ourgame->free_params(cparams);
- if (ui)
- me->ourgame->free_ui(ui);
- if (states) {
+ sfree(data.seed);
+ sfree(data.parstr);
+ sfree(data.cparstr);
+ sfree(data.desc);
+ sfree(data.privdesc);
+ sfree(data.auxinfo);
+ sfree(data.uistr);
+ if (data.params)
+ me->ourgame->free_params(data.params);
+ if (data.cparams)
+ me->ourgame->free_params(data.cparams);
+ if (data.ui)
+ me->ourgame->free_ui(data.ui);
+ if (data.states) {
int i;
- for (i = 0; i < nstates; i++) {
- if (states[i].state)
- me->ourgame->free_game(states[i].state);
- sfree(states[i].movestr);
+ for (i = 0; i < data.nstates; i++) {
+ if (data.states[i].state)
+ me->ourgame->free_game(data.states[i].state);
+ sfree(data.states[i].movestr);
+ }
+ sfree(data.states);
+ }
+
+ return ret;
+}
+
+char *midend_deserialise(
+ midend *me, int (*read)(void *ctx, void *buf, int len), void *rctx)
+{
+ return midend_deserialise_internal(me, read, rctx, NULL, NULL);
+}
+
+/*
+ * This function examines a saved game file just far enough to
+ * determine which game type it contains. It returns NULL on success
+ * and the game name string in 'name' (which will be dynamically
+ * allocated and should be caller-freed), or an error message on
+ * failure.
+ */
+char *identify_game(char **name, int (*read)(void *ctx, void *buf, int len),
+ void *rctx)
+{
+ int nstates = 0, statepos = -1, gotstates = 0;
+ int started = FALSE;
+
+ char *val = NULL;
+ /* Initially all errors give the same report */
+ char *ret = "Data does not appear to be a saved game file";
+
+ *name = NULL;
+
+ /*
+ * Loop round and round reading one key/value pair at a time from
+ * the serialised stream, until we've found the game name.
+ */
+ while (nstates <= 0 || statepos < 0 || gotstates < nstates-1) {
+ char key[9], c;
+ int len;
+
+ do {
+ if (!read(rctx, key, 1)) {
+ /* unexpected EOF */
+ goto cleanup;
+ }
+ } while (key[0] == '\r' || key[0] == '\n');
+
+ if (!read(rctx, key+1, 8)) {
+ /* unexpected EOF */
+ goto cleanup;
+ }
+
+ if (key[8] != ':') {
+ if (started)
+ ret = "Data was incorrectly formatted for a saved game file";
+ goto cleanup;
+ }
+ len = strcspn(key, ": ");
+ assert(len <= 8);
+ key[len] = '\0';
+
+ len = 0;
+ while (1) {
+ if (!read(rctx, &c, 1)) {
+ /* unexpected EOF */
+ goto cleanup;
+ }
+
+ if (c == ':') {
+ break;
+ } else if (c >= '0' && c <= '9') {
+ len = (len * 10) + (c - '0');
+ } else {
+ if (started)
+ ret = "Data was incorrectly formatted for a"
+ " saved game file";
+ goto cleanup;
+ }
}
- sfree(states);
+
+ val = snewn(len+1, char);
+ if (!read(rctx, val, len)) {
+ if (started)
+ goto cleanup;
+ }
+ val[len] = '\0';
+
+ if (!started) {
+ if (strcmp(key, "SAVEFILE") || strcmp(val, SERIALISE_MAGIC)) {
+ /* ret already has the right message in it */
+ goto cleanup;
+ }
+ /* Now most errors are this one, unless otherwise specified */
+ ret = "Saved data ended unexpectedly";
+ started = TRUE;
+ } else {
+ if (!strcmp(key, "VERSION")) {
+ if (strcmp(val, SERIALISE_VERSION)) {
+ ret = "Cannot handle this version of the saved game"
+ " file format";
+ goto cleanup;
+ }
+ } else if (!strcmp(key, "GAME")) {
+ *name = dupstr(val);
+ ret = NULL;
+ goto cleanup;
+ }
+ }
+
+ sfree(val);
+ val = NULL;
}
+ cleanup:
+ sfree(val);
return ret;
}
+
+char *midend_print_puzzle(midend *me, document *doc, int with_soln)
+{
+ game_state *soln = NULL;
+
+ if (me->statepos < 1)
+ return "No game set up to print";/* _shouldn't_ happen! */
+
+ if (with_soln) {
+ char *msg, *movestr;
+
+ if (!me->ourgame->can_solve)
+ return "This game does not support the Solve operation";
+
+ msg = "Solve operation failed";/* game _should_ overwrite on error */
+ movestr = me->ourgame->solve(me->states[0].state,
+ me->states[me->statepos-1].state,
+ me->aux_info, &msg);
+ if (!movestr)
+ return msg;
+ soln = me->ourgame->execute_move(me->states[me->statepos-1].state,
+ movestr);
+ assert(soln);
+
+ sfree(movestr);
+ } else
+ soln = NULL;
+
+ /*
+ * This call passes over ownership of the two game_states and
+ * the game_params. Hence we duplicate the ones we want to
+ * keep, and we don't have to bother freeing soln if it was
+ * non-NULL.
+ */
+ document_add_puzzle(doc, me->ourgame,
+ me->ourgame->dup_params(me->curparams),
+ me->ourgame->dup_game(me->states[0].state), soln);
+
+ return NULL;
+}
~ian / sgt-puzzles.git / blobdiff