Remove an unused optimalization

src/optimization.rs

@@ -318,159 +318,4 @@ pub fn improve_merge_pairwise(layout: &mut HouseLayout, print_progress: bool) ->
     }
 
     improved
-}
-
-pub fn improve_move_houses_pairwise(layout: &mut HouseLayout) -> bool {
-    // TODO: Implement layout move house to avoid changing indices
-    for i in 0..layout.houses().len() {
-        for j in i + 1..layout.houses().len() {
-            let house1 = layout.houses()[i];
-            let house2 = layout.houses()[j];
-            let x_dist = (house1.x as i32 - house2.x as i32).abs() as usize;
-            let y_dist = (house1.y as i32 - house2.y as i32).abs() as usize;
-            if x_dist > 2 * HOUSE_RANGE + 1 || y_dist > 2 * HOUSE_RANGE + 1 {
-                // Not close enough to overlap or touch areas (can move on its own)
-                continue;
-            }
-
-            if let Some(distances) = get_dual_move_distances(&layout, i, j) {
-                eprintln!("Houses {} {} move distances: L{} R{} T{} B{}", i, j, distances.left, distances.right, distances.up, distances.down);
-                let mut best_move = None;
-
-                let old_price = layout.city.get_price(house1) + layout.city.get_price(house2);
-
-                let left_deltas = (1..distances.left).map(|x| (-(x as i32), 0));
-                let right_deltas = (1..distances.right).map(|x| (x as i32, 0));
-                let up_deltas = (1..distances.up).map(|x| (0, -(x as i32)));
-                let down_deltas = (1..distances.down).map(|x| (0, x as i32));
-                let move_deltas = left_deltas.chain(right_deltas).chain(up_deltas).chain(down_deltas);
-
-                for (x_delta, y_delta) in move_deltas {
-                    let new_house1 = House::new(
-                        (house1.x as i32 + x_delta) as usize,
-                        (house1.y as i32 + y_delta) as usize,
-                    );
-                    let new_house2 = House::new(
-                        (house2.x as i32 + x_delta) as usize,
-                        (house2.y as i32 + y_delta) as usize,
-                    );
-
-                    if !layout.city.is_house(new_house1) || !layout.city.is_house(new_house2) {
-                        continue;
-                    }
-
-                    let new_price = layout.city.get_price(new_house1) + layout.city.get_price(new_house2);
-                    eprintln!("Move x{} y{}, diff {} (price {}->{})", x_delta, y_delta, new_price as i32 - old_price as i32, old_price, new_price);
-
-                    if new_price < old_price {
-                        match best_move {
-                            None => best_move = Some((x_delta, y_delta, new_price)),
-                            Some((_, _, best_price)) if new_price < best_price => {
-                                best_move = Some((x_delta, y_delta, new_price));
-                            }
-                            _ => {}
-                        }
-                    }
-                }
-
-                if let Some((x_delta, y_delta, best_price)) = best_move {
-                    eprintln!("Best move x{} y{}, diff {} (price {}->{})", x_delta, y_delta, best_price as i32 - old_price as i32, old_price, best_price);
-                    // TODO: IMPLEMENT MOVE
-                } else {
-                    eprintln!("No move worth it.");
-                }
-            }
-        }
-    }
-
-    unimplemented!()
-}
-
-struct MoveDistances {
-    left: usize,
-    right: usize,
-    up: usize,
-    down: usize,
-}
-
-fn get_dual_move_distances(layout: &HouseLayout, house1_index: usize, house2_index: usize) -> Option<MoveDistances> {
-    let house1 = layout.houses()[house1_index];
-    let house2 = layout.houses()[house2_index];
-
-    let rect1 = house1.range_rectangle(layout.city);
-    let rect2 = house2.range_rectangle(layout.city);
-
-    let top1 = rect1.top.min(rect2.top);
-    let top2 = rect1.top.max(rect2.top);
-    let bottom1 = rect1.bottom.min(rect2.bottom);
-    let bottom2 = rect1.bottom.max(rect2.bottom);
-    let left1 = rect1.left.min(rect2.left);
-    let left2 = rect1.left.max(rect2.left);
-    let right1 = rect1.right.min(rect2.right);
-    let right2 = rect1.right.max(rect2.right);
-
-    let left_rect = if house1.x <= house2.x { rect1 } else { rect2 };
-    let right_rect = if house1.x <= house2.x { rect2 } else { rect1 };
-    let top_rect = if house1.y <= house2.y { rect1 } else { rect2 };
-    let bottom_rect = if house1.y <= house2.y { rect2 } else { rect1 };
-
-    let margin_left = left1..left2;
-    let shared_x = left2..=right1;
-    let margin_right = right1 + 1..=right2;
-    let margin_top = top1..top2;
-    let shared_y = top2..=bottom1;
-    let margin_bottom = bottom1 + 1..=bottom2;
-
-    let mut top_distance = usize::MAX;
-    let mut bottom_distance = usize::MAX;
-    let mut right_distance = usize::MAX;
-    let mut left_distance = usize::MAX;
-
-    // We check the same tile twice if it's in both rectangles (and both shared_x and shared_y),
-    // this could be made more efficient by dividing the rectangles into 5 zones.
-    let rect1 = iproduct!(rect1.top..=rect1.bottom, rect1.left..=rect1.right);
-    let rect2 = iproduct!(rect2.top..=rect2.bottom, rect2.left..=rect2.right);
-    for (y, x) in rect1.chain(rect2) {
-        let shared_both = shared_x.contains(&x) && shared_y.contains(&y);
-        let min_cover_count = if shared_both { 2 } else { 1 };
-        if !layout.city.is_house_xy(x, y) && layout.cover_count_xy(x, y) != min_cover_count {
-            continue;
-        }
-
-        if margin_left.contains(&x) {
-            top_distance = top_distance.min(y - left_rect.top);
-            bottom_distance = bottom_distance.min(left_rect.bottom - y);
-        } else if shared_x.contains(&x) {
-            top_distance = top_distance.min(y - left_rect.top.min(right_rect.top));
-            bottom_distance = bottom_distance.min(left_rect.bottom.max(right_rect.bottom) - y);
-        } else if margin_right.contains(&x) {
-            top_distance = top_distance.min(y - right_rect.top);
-            bottom_distance = bottom_distance.min(right_rect.bottom - y);
-        } else {
-            unreachable!();
-        }
-
-        if margin_top.contains(&y) {
-            left_distance = left_distance.min(x - top_rect.left);
-            right_distance = right_distance.min(top_rect.right - x);
-        } else if shared_y.contains(&y) {
-            left_distance = left_distance.min(x - bottom_rect.left.min(top_rect.left));
-            right_distance = right_distance.min(bottom_rect.right.max(top_rect.right) - x);
-        } else if margin_bottom.contains(&y) {
-            left_distance = left_distance.min(x - bottom_rect.left);
-            right_distance = right_distance.min(bottom_rect.right - x);
-        } else {
-            unreachable!()
-        }
-    }
-
-    // TODO: Handle properly
-    assert_ne!(top_distance, usize::MAX);
-
-    Some(MoveDistances {
-        left: left_distance,
-        right: right_distance,
-        up: top_distance,
-        down: bottom_distance,
-    })
 }