- self.maxs_x = (mi_picmax_x - mi_picmin_x) / self.size_x;
- self.maxs_y = (mi_picmax_y - mi_picmin_y) / self.size_y;
- self.maxs_z = mi_max_z - mi_min_z;
- print("Picture mins/maxs: ", ftos(self.maxs_x), " and ", ftos(self.maxs_y), " should match\n");
+ self.maxs_x = (mi_picmax.x - mi_picmin.x) / self.size.x;
+ self.maxs_y = (mi_picmax.y - mi_picmin.y) / self.size.y;
+ self.maxs_z = mi_max.z - mi_min.z;
+ print("Picture mins/maxs: ", ftos(self.maxs.x), " and ", ftos(self.maxs.y), " should match\n");