return dupstr("S");
}
+static int game_can_format_as_text_now(game_params *params)
+{
+ return TRUE;
+}
+
static char *game_text_format(game_state *state)
{
return NULL;
if (from->solved) return NULL;
- if (x >= COL_OX && x <= (COL_OX + COL_W) &&
- y >= COL_OY && y <= (COL_OY + COL_H)) {
+ if (x >= COL_OX && x < (COL_OX + COL_W) &&
+ y >= COL_OY && y < (COL_OY + COL_H)) {
over_col = ((y - COL_OY) / PEGOFF) + 1;
+ assert(over_col >= 1 && over_col <= ds->colours->npegs);
} else if (x >= guess_ox &&
- y >= guess_oy && y <= (guess_oy + GUESS_H)) {
- if (x <= (guess_ox + GUESS_W)) {
+ y >= guess_oy && y < (guess_oy + GUESS_H)) {
+ if (x < (guess_ox + GUESS_W)) {
over_guess = (x - guess_ox) / PEGOFF;
+ assert(over_guess >= 0 && over_guess < ds->solution->npegs);
} else {
over_hint = 1;
}
- } else if (x >= guess_ox && x <= (guess_ox + GUESS_W) &&
+ } else if (x >= guess_ox && x < (guess_ox + GUESS_W) &&
y >= GUESS_OY && y < guess_oy) {
over_past_guess_y = (y - GUESS_OY) / PEGOFF;
over_past_guess_x = (x - guess_ox) / PEGOFF;
+ assert(over_past_guess_y >= 0 && over_past_guess_y < from->next_go);
+ assert(over_past_guess_x >= 0 && over_past_guess_x < ds->solution->npegs);
}
debug(("make_move: over_col %d, over_guess %d, over_hint %d,"
" over_past_guess (%d,%d)", over_col, over_guess, over_hint,
if (button == CURSOR_LEFT && ui->peg_cur > 0)
ui->peg_cur--;
ret = "";
- } else if (button == CURSOR_SELECT || button == ' ' || button == '\r' ||
- button == '\n') {
+ } else if (IS_CURSOR_SELECT(button)) {
ui->display_cur = 1;
if (ui->peg_cur == from->params.npegs) {
ret = encode_move(from, ui);
/* We also want to be able to tell the difference between BACKGROUND
* and EMPTY, for similar distinguishing-hint reasons. */
- ret[COL_EMPTY * 3 + 0] = ret[COL_BACKGROUND * 3 + 0] * 2.0 / 3.0;
- ret[COL_EMPTY * 3 + 1] = ret[COL_BACKGROUND * 3 + 1] * 2.0 / 3.0;
- ret[COL_EMPTY * 3 + 2] = ret[COL_BACKGROUND * 3 + 2] * 2.0 / 3.0;
+ ret[COL_EMPTY * 3 + 0] = ret[COL_BACKGROUND * 3 + 0] * 2.0F / 3.0F;
+ ret[COL_EMPTY * 3 + 1] = ret[COL_BACKGROUND * 3 + 1] * 2.0F / 3.0F;
+ ret[COL_EMPTY * 3 + 2] = ret[COL_BACKGROUND * 3 + 2] * 2.0F / 3.0F;
*ncolours = NCOLOURS;
return ret;
game_state *state, int dir, game_ui *ui,
float animtime, float flashtime)
{
- int i, new_move, last_go;
+ int i, new_move;
new_move = (state->next_go != ds->next_go) || !ds->started;
- last_go = (state->next_go == state->params.nguesses-1);
if (!ds->started) {
draw_rect(dr, 0, 0, ds->w, ds->h, COL_BACKGROUND);
return 0.0F;
}
+static int game_is_solved(game_state *state)
+{
+ /*
+ * We return true whenever the solution has been revealed, even
+ * (on spoiler grounds) if it wasn't guessed correctly.
+ *
+ * However, in that situation, 'solved' is still true, so we don't
+ * have to make any effort to arrange this.
+ */
+ return state->solved;
+}
+
static int game_timing_state(game_state *state, game_ui *ui)
{
return TRUE;
#endif
const struct game thegame = {
- "Guess", "games.guess",
+ "Guess", "games.guess", "guess",
default_params,
game_fetch_preset,
decode_params,
dup_game,
free_game,
TRUE, solve_game,
- FALSE, game_text_format,
+ FALSE, game_can_format_as_text_now, game_text_format,
new_ui,
free_ui,
encode_ui,
game_redraw,
game_anim_length,
game_flash_length,
+ game_is_solved,
FALSE, FALSE, game_print_size, game_print,
FALSE, /* wants_statusbar */
FALSE, game_timing_state,