X-Git-Url: https://git.distorted.org.uk/~mdw/sgt/puzzles/blobdiff_plain/9b4b03d31e30089e9f45f6ea166561c4c0c25a9c..a1d5acfff9de3df31ef5575b2350a6c8973fb2d1:/twiddle.c diff --git a/twiddle.c b/twiddle.c index 4bfd30c..66e8e95 100644 --- a/twiddle.c +++ b/twiddle.c @@ -20,8 +20,6 @@ #define COORD(x) ( (x) * TILE_SIZE + BORDER ) #define FROMCOORD(x) ( ((x) - BORDER + TILE_SIZE) / TILE_SIZE - 1 ) -#define PI 3.141592653589793238462643383279502884197169399 - #define ANIM_PER_RADIUS_UNIT 0.13F #define FLASH_FRAME 0.13F @@ -39,6 +37,7 @@ struct game_params { int w, h, n; int rowsonly; int orientable; + int movetarget; }; struct game_state { @@ -46,7 +45,9 @@ struct game_state { int orientable; int *grid; int completed; - int movecount; + int just_used_solve; /* used to suppress undo animation */ + int used_solve; /* used to suppress completion flash */ + int movecount, movetarget; int lastx, lasty, lastr; /* coordinates of last rotation */ }; @@ -57,6 +58,7 @@ static game_params *default_params(void) ret->w = ret->h = 3; ret->n = 2; ret->rowsonly = ret->orientable = FALSE; + ret->movetarget = 0; return ret; } @@ -99,13 +101,12 @@ static int game_fetch_preset(int i, char **name, game_params **params) return TRUE; } -static game_params *decode_params(char const *string) +static void decode_params(game_params *ret, char const *string) { - game_params *ret = snew(game_params); - ret->w = ret->h = atoi(string); ret->n = 2; ret->rowsonly = ret->orientable = FALSE; + ret->movetarget = 0; while (*string && isdigit(*string)) string++; if (*string == 'x') { string++; @@ -122,19 +123,25 @@ static game_params *decode_params(char const *string) ret->rowsonly = TRUE; } else if (*string == 'o') { ret->orientable = TRUE; + } else if (*string == 'm') { + string++; + ret->movetarget = atoi(string); + while (string[1] && isdigit(string[1])) string++; } string++; } - - return ret; } -static char *encode_params(game_params *params) +static char *encode_params(game_params *params, int full) { char buf[256]; sprintf(buf, "%dx%dn%d%s%s", params->w, params->h, params->n, params->rowsonly ? "r" : "", params->orientable ? "o" : ""); + /* Shuffle limit is part of the limited parameters, because we have to + * supply the target move count. */ + if (params->movetarget) + sprintf(buf + strlen(buf), "m%d", params->movetarget); return dupstr(buf); } @@ -143,7 +150,7 @@ static config_item *game_configure(game_params *params) config_item *ret; char buf[80]; - ret = snewn(6, config_item); + ret = snewn(7, config_item); ret[0].name = "Width"; ret[0].type = C_STRING; @@ -173,11 +180,17 @@ static config_item *game_configure(game_params *params) ret[4].sval = NULL; ret[4].ival = params->orientable; - ret[5].name = NULL; - ret[5].type = C_END; - ret[5].sval = NULL; + ret[5].name = "Number of shuffling moves"; + ret[5].type = C_STRING; + sprintf(buf, "%d", params->movetarget); + ret[5].sval = dupstr(buf); ret[5].ival = 0; + ret[6].name = NULL; + ret[6].type = C_END; + ret[6].sval = NULL; + ret[6].ival = 0; + return ret; } @@ -190,6 +203,7 @@ static game_params *custom_params(config_item *cfg) ret->n = atoi(cfg[2].sval); ret->rowsonly = cfg[3].ival; ret->orientable = cfg[4].ival; + ret->movetarget = atoi(cfg[5].sval); return ret; } @@ -291,7 +305,8 @@ static int grid_complete(int *grid, int wh, int orientable) return ok; } -static char *new_game_seed(game_params *params, random_state *rs) +static char *new_game_desc(game_params *params, random_state *rs, + game_aux_info **aux, int interactive) { int *grid; int w = params->w, h = params->h, n = params->n, wh = w*h; @@ -314,29 +329,78 @@ static char *new_game_seed(game_params *params, random_state *rs) * and simply shuffle the grid by making a long sequence of * randomly chosen moves. */ - total_moves = w*h*n*n*2; - for (i = 0; i < total_moves; i++) { - int x, y; + total_moves = params->movetarget; + if (!total_moves) + /* Add a random move to avoid parity issues. */ + total_moves = w*h*n*n*2 + random_upto(rs, 2); + + do { + int *prevmoves; + int rw, rh; /* w/h of rotation centre space */ + + rw = w - n + 1; + rh = h - n + 1; + prevmoves = snewn(rw * rh, int); + for (i = 0; i < rw * rh; i++) + prevmoves[i] = 0; + + for (i = 0; i < total_moves; i++) { + int x, y, r, oldtotal, newtotal, dx, dy; + + do { + x = random_upto(rs, w - n + 1); + y = random_upto(rs, h - n + 1); + r = 2 * random_upto(rs, 2) - 1; + + /* + * See if any previous rotations has happened at + * this point which nothing has overlapped since. + * If so, ensure we haven't either undone a + * previous move or repeated one so many times that + * it turns into fewer moves in the inverse + * direction (i.e. three identical rotations). + */ + oldtotal = prevmoves[y*rw+x]; + newtotal = oldtotal + r; + } while (abs(newtotal) < abs(oldtotal) || abs(newtotal) > 2); + + do_rotate(grid, w, h, n, params->orientable, x, y, r); + + /* + * Log the rotation we've just performed at this point, + * for inversion detection in the next move. + * + * Also zero a section of the prevmoves array, because + * any rotation area which _overlaps_ this one is now + * entirely safe to perform further moves in. + * + * Two rotation areas overlap if their top left + * coordinates differ by strictly less than n in both + * directions + */ + prevmoves[y*rw+x] += r; + for (dy = -n+1; dy <= n-1; dy++) { + if (y + dy < 0 || y + dy >= rh) + continue; + for (dx = -n+1; dx <= n-1; dx++) { + if (x + dx < 0 || x + dx >= rw) + continue; + if (dx == 0 && dy == 0) + continue; + prevmoves[(y+dy)*rw+(x+dx)] = 0; + } + } + } - x = random_upto(rs, w - n + 1); - y = random_upto(rs, h - n + 1); - do_rotate(grid, w, h, n, params->orientable, - x, y, 1 + random_upto(rs, 3)); + sfree(prevmoves); - /* - * Optionally one more move in case the entire grid has - * happened to come out solved. - */ - if (i == total_moves - 1 && grid_complete(grid, wh, - params->orientable)) - i--; - } + } while (grid_complete(grid, wh, params->orientable)); /* - * Now construct the game seed, by describing the grid as a - * simple sequence of integers. They're comma-separated, unless - * the puzzle is orientable in which case they're separated by - * orientation letters `u', `d', `l' and `r'. + * Now construct the game description, by describing the grid + * as a simple sequence of integers. They're comma-separated, + * unless the puzzle is orientable in which case they're + * separated by orientation letters `u', `d', `l' and `r'. */ ret = NULL; retlen = 0; @@ -358,13 +422,18 @@ static char *new_game_seed(game_params *params, random_state *rs) return ret; } -static char *validate_seed(game_params *params, char *seed) +static void game_free_aux_info(game_aux_info *aux) +{ + assert(!"Shouldn't happen"); +} + +static char *validate_desc(game_params *params, char *desc) { char *p, *err; int w = params->w, h = params->h, wh = w*h; int i; - p = seed; + p = desc; err = NULL; for (i = 0; i < wh; i++) { @@ -388,7 +457,7 @@ static char *validate_seed(game_params *params, char *seed) return NULL; } -static game_state *new_game(game_params *params, char *seed) +static game_state *new_game(midend_data *me, game_params *params, char *desc) { game_state *state = snew(game_state); int w = params->w, h = params->h, n = params->n, wh = w*h; @@ -400,12 +469,14 @@ static game_state *new_game(game_params *params, char *seed) state->n = n; state->orientable = params->orientable; state->completed = 0; + state->used_solve = state->just_used_solve = FALSE; state->movecount = 0; + state->movetarget = params->movetarget; state->lastx = state->lasty = state->lastr = -1; state->grid = snewn(wh, int); - p = seed; + p = desc; for (i = 0; i < wh; i++) { state->grid[i] = 4 * atoi(p); @@ -436,9 +507,12 @@ static game_state *dup_game(game_state *state) ret->orientable = state->orientable; ret->completed = state->completed; ret->movecount = state->movecount; + ret->movetarget = state->movetarget; ret->lastx = state->lastx; ret->lasty = state->lasty; ret->lastr = state->lastr; + ret->used_solve = state->used_solve; + ret->just_used_solve = state->just_used_solve; ret->grid = snewn(ret->w * ret->h, int); memcpy(ret->grid, state->grid, ret->w * ret->h * sizeof(int)); @@ -452,9 +526,85 @@ static void free_game(game_state *state) sfree(state); } +static int compare_int(const void *av, const void *bv) +{ + const int *a = (const int *)av; + const int *b = (const int *)bv; + if (*a < *b) + return -1; + else if (*a > *b) + return +1; + else + return 0; +} + +static game_state *solve_game(game_state *state, game_aux_info *aux, + char **error) +{ + game_state *ret = dup_game(state); + int i; + + /* + * Simply replace the grid with a solved one. For this game, + * this isn't a useful operation for actually telling the user + * what they should have done, but it is useful for + * conveniently being able to get hold of a clean state from + * which to practise manoeuvres. + */ + qsort(ret->grid, ret->w*ret->h, sizeof(int), compare_int); + for (i = 0; i < ret->w*ret->h; i++) + ret->grid[i] &= ~3; + ret->used_solve = ret->just_used_solve = TRUE; + ret->completed = ret->movecount = 1; + + return ret; +} + static char *game_text_format(game_state *state) { - return NULL; + char *ret, *p, buf[80]; + int i, x, y, col, o, maxlen; + + /* + * First work out how many characters we need to display each + * number. We're pretty flexible on grid contents here, so we + * have to scan the entire grid. + */ + col = 0; + for (i = 0; i < state->w * state->h; i++) { + x = sprintf(buf, "%d", state->grid[i] / 4); + if (col < x) col = x; + } + o = (state->orientable ? 1 : 0); + + /* + * Now we know the exact total size of the grid we're going to + * produce: it's got h rows, each containing w lots of col+o, + * w-1 spaces and a trailing newline. + */ + maxlen = state->h * state->w * (col+o+1); + + ret = snewn(maxlen+1, char); + p = ret; + + for (y = 0; y < state->h; y++) { + for (x = 0; x < state->w; x++) { + int v = state->grid[state->w*y+x]; + sprintf(buf, "%*d", col, v/4); + memcpy(p, buf, col); + p += col; + if (o) + *p++ = "^"[v & 3]; + if (x+1 == state->w) + *p++ = '\n'; + else + *p++ = ' '; + } + } + + assert(p - ret == maxlen); + *p = '\0'; + return ret; } static game_ui *new_ui(game_state *state) @@ -466,13 +616,15 @@ static void free_ui(game_ui *ui) { } -static game_state *make_move(game_state *from, game_ui *ui, int x, int y, - int button) +static game_state *make_move(game_state *from, game_ui *ui, game_drawstate *ds, + int x, int y, int button) { int w = from->w, h = from->h, n = from->n, wh = w*h; game_state *ret; int dir; + button = button & (~MOD_MASK | MOD_NUM_KEYPAD); + if (button == LEFT_BUTTON || button == RIGHT_BUTTON) { /* * Determine the coordinates of the click. We offset by n-1 @@ -483,29 +635,66 @@ static game_state *make_move(game_state *from, game_ui *ui, int x, int y, y -= (n-1) * TILE_SIZE / 2; x = FROMCOORD(x); y = FROMCOORD(y); - if (x < 0 || x > w-n || y < 0 || y > w-n) + dir = (button == LEFT_BUTTON ? 1 : -1); + if (x < 0 || x > w-n || y < 0 || y > h-n) return NULL; + } else if (button == 'a' || button == 'A' || button==MOD_NUM_KEYPAD+'7') { + x = y = 0; + dir = (button == 'A' ? -1 : +1); + } else if (button == 'b' || button == 'B' || button==MOD_NUM_KEYPAD+'9') { + x = w-n; + y = 0; + dir = (button == 'B' ? -1 : +1); + } else if (button == 'c' || button == 'C' || button==MOD_NUM_KEYPAD+'1') { + x = 0; + y = h-n; + dir = (button == 'C' ? -1 : +1); + } else if (button == 'd' || button == 'D' || button==MOD_NUM_KEYPAD+'3') { + x = w-n; + y = h-n; + dir = (button == 'D' ? -1 : +1); + } else if (button==MOD_NUM_KEYPAD+'8' && (w-n) % 2 == 0) { + x = (w-n) / 2; + y = 0; + dir = +1; + } else if (button==MOD_NUM_KEYPAD+'2' && (w-n) % 2 == 0) { + x = (w-n) / 2; + y = h-n; + dir = +1; + } else if (button==MOD_NUM_KEYPAD+'4' && (h-n) % 2 == 0) { + x = 0; + y = (h-n) / 2; + dir = +1; + } else if (button==MOD_NUM_KEYPAD+'6' && (h-n) % 2 == 0) { + x = w-n; + y = (h-n) / 2; + dir = +1; + } else if (button==MOD_NUM_KEYPAD+'5' && (w-n) % 2 == 0 && (h-n) % 2 == 0){ + x = (w-n) / 2; + y = (h-n) / 2; + dir = +1; + } else { + return NULL; /* no move to be made */ + } - /* - * This is a valid move. Make it. - */ - ret = dup_game(from); - ret->movecount++; - dir = (button == LEFT_BUTTON ? 1 : -1); - do_rotate(ret->grid, w, h, n, ret->orientable, x, y, dir); - ret->lastx = x; - ret->lasty = y; - ret->lastr = dir; + /* + * This is a valid move. Make it. + */ + ret = dup_game(from); + ret->just_used_solve = FALSE; /* zero this in a hurry */ + ret->movecount++; + do_rotate(ret->grid, w, h, n, ret->orientable, x, y, dir); + ret->lastx = x; + ret->lasty = y; + ret->lastr = dir; - /* - * See if the game has been completed. To do this we simply - * test that the grid contents are in increasing order. - */ - if (!ret->completed && grid_complete(ret->grid, wh, ret->orientable)) - ret->completed = ret->movecount; - return ret; - } - return NULL; + /* + * See if the game has been completed. To do this we simply + * test that the grid contents are in increasing order. + */ + if (!ret->completed && grid_complete(ret->grid, wh, ret->orientable)) + ret->completed = ret->movecount; + return ret; } /* ---------------------------------------------------------------------- @@ -605,6 +794,16 @@ static void draw_tile(frontend *fe, game_state *state, int x, int y, int coords[8]; char str[40]; + /* + * If we've been passed a rotation region but we're drawing a + * tile which is outside it, we must draw it normally. This can + * occur if we're cleaning up after a completion flash while a + * new move is also being made. + */ + if (rot && (x < rot->cx || y < rot->cy || + x >= rot->cx+rot->cw || y >= rot->cy+rot->ch)) + rot = NULL; + if (rot) clip(fe, rot->cx, rot->cy, rot->cw, rot->ch); @@ -675,7 +874,7 @@ static void draw_tile(frontend *fe, game_state *state, int x, int y, } /* - * Next, the colour bars for orientation. + * Next, the triangles for orientation. */ if (state->orientable) { int xdx, xdy, ydx, ydy; @@ -772,15 +971,20 @@ static int highlight_colour(float angle) } static float game_anim_length(game_state *oldstate, game_state *newstate, - int dir) + int dir, game_ui *ui) { - return ANIM_PER_RADIUS_UNIT * sqrt(newstate->n-1); + if ((dir > 0 && newstate->just_used_solve) || + (dir < 0 && oldstate->just_used_solve)) + return 0.0F; + else + return ANIM_PER_RADIUS_UNIT * sqrt(newstate->n-1); } static float game_flash_length(game_state *oldstate, game_state *newstate, - int dir) + int dir, game_ui *ui) { - if (!oldstate->completed && newstate->completed) + if (!oldstate->completed && newstate->completed && + !oldstate->used_solve && !newstate->used_solve) return 2 * FLASH_FRAME; else return 0.0F; @@ -837,7 +1041,7 @@ static void game_redraw(frontend *fe, game_drawstate *ds, game_state *oldstate, */ if (oldstate) { float angle; - float anim_max = game_anim_length(oldstate, state, dir); + float anim_max = game_anim_length(oldstate, state, dir, ui); if (dir > 0) { lastx = state->lastx; @@ -915,9 +1119,17 @@ static void game_redraw(frontend *fe, game_drawstate *ds, game_state *oldstate, if (oldstate) state = oldstate; - sprintf(statusbuf, "%sMoves: %d", - (state->completed ? "COMPLETED! " : ""), - (state->completed ? state->completed : state->movecount)); + if (state->used_solve) + sprintf(statusbuf, "Moves since auto-solve: %d", + state->movecount - state->completed); + else { + sprintf(statusbuf, "%sMoves: %d", + (state->completed ? "COMPLETED! " : ""), + (state->completed ? state->completed : state->movecount)); + if (state->movetarget) + sprintf(statusbuf+strlen(statusbuf), " (target %d)", + state->movetarget); + } status_bar(fe, statusbuf); } @@ -928,6 +1140,11 @@ static int game_wants_statusbar(void) return TRUE; } +static int game_timing_state(game_state *state) +{ + return TRUE; +} + #ifdef COMBINED #define thegame twiddle #endif @@ -942,12 +1159,14 @@ const struct game thegame = { dup_params, TRUE, game_configure, custom_params, validate_params, - new_game_seed, - validate_seed, + new_game_desc, + game_free_aux_info, + validate_desc, new_game, dup_game, free_game, - FALSE, game_text_format, + TRUE, solve_game, + TRUE, game_text_format, new_ui, free_ui, make_move, @@ -959,4 +1178,5 @@ const struct game thegame = { game_anim_length, game_flash_length, game_wants_statusbar, + FALSE, game_timing_state, };