+ if (IS_DF_SLOPE(element))
+ {
+ // check if laser scan has crossed element boundaries (not just mini tiles)
+ boolean cross_x = (getLevelFromLaserX(LX) != getLevelFromLaserX(LX + 2));
+ boolean cross_y = (getLevelFromLaserY(LY) != getLevelFromLaserY(LY + 2));
+
+ // check if wall (horizontal or vertical) side of slope was hit
+ if (hit_mask == HIT_MASK_LEFT ||
+ hit_mask == HIT_MASK_RIGHT ||
+ hit_mask == HIT_MASK_TOP ||
+ hit_mask == HIT_MASK_BOTTOM)
+ {
+ return HitReflectingWalls(element, hit_mask);
+ }
+
+ // check if an edge was hit while crossing element borders
+ if (cross_x && cross_y && get_number_of_bits(hit_mask) == 1)
+ {
+ // check both sides of potentially diagonal side of slope
+ int dx1 = (LX + XS) % TILEX;
+ int dy1 = (LY + YS) % TILEY;
+ int dx2 = (LX + XS + 2) % TILEX;
+ int dy2 = (LY + YS + 2) % TILEY;
+ int pos = getMaskFromElement(element);
+
+ // check if we are entering empty space area after hitting edge
+ if (!getPixelFromMask(pos, dx1, dy1) &&
+ !getPixelFromMask(pos, dx2, dy2))
+ {
+ // we already know that we hit an edge, but use this function to go on
+ if (HitOnlyAnEdge(hit_mask))
+ return FALSE;
+ }
+ }
+
+ int mirrored_angle = get_mirrored_angle(laser.current_angle,
+ get_element_angle(element));
+ int opposite_angle = get_opposite_angle(laser.current_angle);
+
+ // check if laser is reflected by slope by 180°
+ if (mirrored_angle == opposite_angle)
+ {
+ AddDamagedField(LX / TILEX, LY / TILEY);
+
+ laser.overloaded = TRUE;
+
+ return TRUE;
+ }
+ }
+ else
+ {
+ if (HitOnlyAnEdge(hit_mask))
+ return FALSE;
+ }