if (solver_show_working) {
printf("%*slink elimination, (%d,%d) > (%d,%d):\n",
solver_recurse_depth*4, "",
- link->gx, link->gy, link->lx, link->ly);
+ link->gx+1, link->gy+1, link->lx+1, link->ly+1);
printf("%*s ruling out %d at (%d,%d)\n",
solver_recurse_depth*4, "",
- j+1, link->gx, link->gy);
+ j+1, link->gx+1, link->gy+1);
}
#endif
cube(link->gx, link->gy, j+1) = FALSE;
if (solver_show_working) {
printf("%*slink elimination, (%d,%d) > (%d,%d):\n",
solver_recurse_depth*4, "",
- link->gx, link->gy, link->lx, link->ly);
+ link->gx+1, link->gy+1, link->lx+1, link->ly+1);
printf("%*s ruling out %d at (%d,%d)\n",
solver_recurse_depth*4, "",
- j+1, link->lx, link->ly);
+ j+1, link->lx+1, link->ly+1);
}
#endif
cube(link->lx, link->ly, j+1) = FALSE;
if (solver_show_working) {
printf("%*sadjacent elimination, (%d,%d):%d %s (%d,%d):\n",
solver_recurse_depth*4, "",
- x, y, grid(x, y), isadjacent ? "|" : "!|", nx, ny);
+ x+1, y+1, grid(x, y), isadjacent ? "|" : "!|", nx+1, ny+1);
printf("%*s ruling out %d at (%d,%d)\n",
- solver_recurse_depth*4, "", n+1, nx, ny);
+ solver_recurse_depth*4, "", n+1, nx+1, ny+1);
}
#endif
cube(nx, ny, n+1) = FALSE;
for (x = 0; x < o; x++) {
for (y = 0; y < o; y++) {
- for (i = 0; i < o; i++) {
+ for (i = 0; i < 4; i++) {
int isadjacent = (GRID(ctx->state, flags, x, y) & adjthan[i].f);
nx = x + adjthan[i].dx, ny = y + adjthan[i].dy;
if (solver_show_working) {
printf("%*sadjacent possible elimination, (%d,%d) %s (%d,%d):\n",
solver_recurse_depth*4, "",
- x, y, isadjacent ? "|" : "!|", nx, ny);
+ x+1, y+1, isadjacent ? "|" : "!|", nx+1, ny+1);
printf("%*s ruling out %d at (%d,%d)\n",
- solver_recurse_depth*4, "", n+1, nx, ny);
+ solver_recurse_depth*4, "", n+1, nx+1, ny+1);
}
#endif
cube(nx, ny, n+1) = FALSE;
#ifdef STANDALONE_SOLVER
if (state->nums[loc] != latin[loc]) {
printf("inconsistency for (%d,%d): state %d latin %d\n",
- x, y, state->nums[loc], latin[loc]);
+ x+1, y+1, state->nums[loc], latin[loc]);
}
#endif
assert(state->nums[loc] == latin[loc]);
#ifdef STANDALONE_SOLVER
if (solver_show_working)
printf("gg_remove_clue: removing %d at (%d,%d)",
- state->nums[loc], x, y);
+ state->nums[loc], x+1, y+1);
#endif
state->nums[loc] = 0;
}
#ifdef STANDALONE_SOLVER
if (solver_show_working)
printf("gg_remove_clue: removing %c at (%d,%d)",
- adjthan[which].c, x, y);
+ adjthan[which].c, x+1, y+1);
#endif
state->flags[loc] &= ~adjthan[which].f;
}
#ifdef STANDALONE_SOLVER
if (solver_show_working)
printf("gg_best_clue: b%d (%d,%d) new best [%d poss, %d clues].\n",
- best, x, y, nposs, nclues);
+ best, x+1, y+1, nposs, nclues);
#endif
}
}
static void draw_gt(drawing *dr, int ox, int oy,
int dx1, int dy1, int dx2, int dy2, int col)
{
- draw_line(dr, ox, oy, ox+dx1, oy+dy1, col);
- draw_line(dr, ox+dx1, oy+dy1, ox+dx1+dx2, oy+dy1+dy2, col);
+ int coords[12];
+ int xdx = (dx1+dx2 ? 0 : 1), xdy = (dx1+dx2 ? 1 : 0);
+ coords[0] = ox + xdx;
+ coords[1] = oy + xdy;
+ coords[2] = ox + xdx + dx1;
+ coords[3] = oy + xdy + dy1;
+ coords[4] = ox + xdx + dx1 + dx2;
+ coords[5] = oy + xdy + dy1 + dy2;
+ coords[6] = ox - xdx + dx1 + dx2;
+ coords[7] = oy - xdy + dy1 + dy2;
+ coords[8] = ox - xdx + dx1;
+ coords[9] = oy - xdy + dy1;
+ coords[10] = ox - xdx;
+ coords[11] = oy - xdy;
+ draw_polygon(dr, coords, 6, col, col);
}
static void draw_gts(drawing *dr, game_drawstate *ds, int ox, int oy,