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@ -10,17 +10,17 @@ include!("../include/include.rs");
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use tree_node::TreeNode;
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/* 构建二叉树:分治 */
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fn dfs(preorder: &[i32], inorderMap: &HashMap<i32, i32>, i: i32, l: i32, r: i32) -> Option<Rc<RefCell<TreeNode>>> {
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fn dfs(preorder: &[i32], inorder_map: &HashMap<i32, i32>, i: i32, l: i32, r: i32) -> Option<Rc<RefCell<TreeNode>>> {
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// 子树区间为空时终止
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if r - l < 0 { return None; }
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// 初始化根节点
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let root = TreeNode::new(preorder[i as usize]);
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// 查询 m ,从而划分左右子树
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let m = inorderMap.get(&preorder[i as usize]).unwrap();
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let m = inorder_map.get(&preorder[i as usize]).unwrap();
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// 子问题:构建左子树
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root.borrow_mut().left = dfs(preorder, inorderMap, i + 1, l, m - 1);
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root.borrow_mut().left = dfs(preorder, inorder_map, i + 1, l, m - 1);
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// 子问题:构建右子树
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root.borrow_mut().right = dfs(preorder, inorderMap, i + 1 + m - l, m + 1, r);
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root.borrow_mut().right = dfs(preorder, inorder_map, i + 1 + m - l, m + 1, r);
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// 返回根节点
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Some(root)
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}
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@ -28,11 +28,11 @@ fn dfs(preorder: &[i32], inorderMap: &HashMap<i32, i32>, i: i32, l: i32, r: i32)
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/* 构建二叉树 */
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fn build_tree(preorder: &[i32], inorder: &[i32]) -> Option<Rc<RefCell<TreeNode>>> {
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// 初始化哈希表,存储 inorder 元素到索引的映射
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let mut inorderMap: HashMap<i32, i32> = HashMap::new();
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let mut inorder_map: HashMap<i32, i32> = HashMap::new();
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for i in 0..inorder.len() {
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inorderMap.insert(inorder[i], i as i32);
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inorder_map.insert(inorder[i], i as i32);
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}
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let root = dfs(preorder, &inorderMap, 0, 0, inorder.len() as i32 - 1);
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let root = dfs(preorder, &inorder_map, 0, 0, inorder.len() as i32 - 1);
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root
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}
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易春风
1 year ago
committed by
GitHub