// 2 = 2..3
// 3 = 1..3
// 4 = 1..4
- tet_piecemins_x = floor(3.0 - sz.x * 0.5);
- tet_piecemaxs_x = floor(2.0 + sz.x * 0.5);
- if(sz_y == 1)
+ tet_piecemins.x = floor(3.0 - sz.x * 0.5);
+ tet_piecemaxs.x = floor(2.0 + sz.x * 0.5);
+ if(sz.y == 1)
{
// special case for "I"
- tet_piecemins_y = tet_piecemaxs_y = 2;
+ tet_piecemins.y = tet_piecemaxs.y = 2;
}
else
{
- tet_piecemins_y = 1;
- tet_piecemaxs_y = sz.y;
+ tet_piecemins.y = 1;
+ tet_piecemaxs.y = sz.y;
}
//printf("ce%v sz%v mi%v ma%v\n", ce, sz, tet_piecemins, tet_piecemaxs);
if (rot == 1) // 90 degrees
{
t = tet_piecemins.y;
- tet_piecemins_y = -tet_piecemins.x + ce.y + ce.x;
- tet_piecemins_x = t - ce.y + ce.x;
+ tet_piecemins.y = -tet_piecemins.x + ce.y + ce.x;
+ tet_piecemins.x = t - ce.y + ce.x;
t = tet_piecemaxs.y;
- tet_piecemaxs_y = -tet_piecemaxs.x + ce.y + ce.x;
- tet_piecemaxs_x = t - ce.y + ce.x;
+ tet_piecemaxs.y = -tet_piecemaxs.x + ce.y + ce.x;
+ tet_piecemaxs.x = t - ce.y + ce.x;
// swap mins_y, maxs_y
t = tet_piecemins.y;
- tet_piecemins_y = tet_piecemaxs.y;
- tet_piecemaxs_y = t;
+ tet_piecemins.y = tet_piecemaxs.y;
+ tet_piecemaxs.y = t;
// TODO OPTIMIZE
}
else if (rot == 2)//180
else if (rot == 3) // 270
{
t = tet_piecemins.y;
- tet_piecemins_y = tet_piecemins.x - ce.x + ce.y;
- tet_piecemins_x = -t + ce.x + ce.y;
+ tet_piecemins.y = tet_piecemins.x - ce.x + ce.y;
+ tet_piecemins.x = -t + ce.x + ce.y;
t = tet_piecemaxs.y;
- tet_piecemaxs_y = tet_piecemaxs.x - ce.x + ce.y;
- tet_piecemaxs_x = -t + ce.x + ce.y;
+ tet_piecemaxs.y = tet_piecemaxs.x - ce.x + ce.y;
+ tet_piecemaxs.x = -t + ce.x + ce.y;
// swap mins_x, maxs_x
t = tet_piecemins.x;
- tet_piecemins_x = tet_piecemaxs.x;
- tet_piecemaxs_x = t;
+ tet_piecemins.x = tet_piecemaxs.x;
+ tet_piecemaxs.x = t;
// TODO OPTIMIZE
}
#ifdef VERIFY
for(j = 1; j <= 4; ++j)
if(PieceMetric(i, j, rot, pc))
{
- realmins_x = min(realmins.x, i);
- realmins_y = min(realmins.y, j);
- realmaxs_x = max(realmaxs.x, i);
- realmaxs_y = max(realmaxs.y, j);
+ realmins.x = min(realmins.x, i);
+ realmins.y = min(realmins.y, j);
+ realmaxs.x = max(realmaxs.x, i);
+ realmaxs.y = max(realmaxs.y, j);
}
if(realmins != tet_piecemins || realmaxs != tet_piecemaxs)
error(sprintf("incorrect mins/maxs: %v %v in %d rot %d mins %v maxs %v\n", realmins, realmaxs, rot, pc, tet_piecemins, tet_piecemaxs));
nudge = 0;
if (keyss & TETKEY_RIGHT)
{
- check_pos_x = check_pos.x + 1;
+ check_pos.x = check_pos.x + 1;
tetsnd("tetmove");
}
else if (keyss & TETKEY_LEFT)
{
- check_pos_x = check_pos.x - 1;
+ check_pos.x = check_pos.x - 1;
tetsnd("tetmove");
}
else if (keyss & TETKEY_ROTRIGHT)
{
- check_pos_z = check_pos.z + 1;
+ check_pos.z = check_pos.z + 1;
piece_data = PieceShape(self.piece_type);
nudge = 1;
tetsnd("tetrot");
}
else if (keyss & TETKEY_ROTLEFT)
{
- check_pos_z = check_pos.z - 1;
+ check_pos.z = check_pos.z - 1;
piece_data = PieceShape(self.piece_type);
nudge = 1;
tetsnd("tetrot");
}
// bounds check
if (check_pos.z > 3)
- check_pos_z = 0;
+ check_pos.z = 0;
else if (check_pos.z < 0)
- check_pos_z = 3;
+ check_pos.z = 3;
// reality check
if (CheckMetrics(self.piece_type, check_pos.x, check_pos.y, check_pos.z))
}
else if (keyss & TETKEY_DOWN)
{
- check_pos_y = check_pos.y + 1;
+ check_pos.y = check_pos.y + 1;
self.tet_autodown = time + 2 / (1 + Tetris_Level());
}
else if (self.tet_autodown < time)
{
- check_pos_y = check_pos.y + 1;
+ check_pos.y = check_pos.y + 1;
self.tet_autodown = time + 2 / (1 + Tetris_Level());
}
if (CheckMetrics(self.piece_type, check_pos.x, check_pos.y, check_pos.z))