// File: binary_tree_bfs.zig // Created Time: 2023-01-15 // Author: codingonion (coderonion@gmail.com) const std = @import("std"); const inc = @import("include"); // 層序走訪 fn levelOrder(comptime T: type, mem_allocator: std.mem.Allocator, root: *inc.TreeNode(T)) !std.ArrayList(T) { // 初始化佇列,加入根節點 const L = std.TailQueue(*inc.TreeNode(T)); var queue = L{}; var root_node = try mem_allocator.create(L.Node); root_node.data = root; queue.append(root_node); // 初始化一個串列,用於儲存走訪序列 var list = std.ArrayList(T).init(std.heap.page_allocator); while (queue.len > 0) { var queue_node = queue.popFirst().?; // 隊列出隊 var node = queue_node.data; try list.append(node.val); // 儲存節點值 if (node.left != null) { var tmp_node = try mem_allocator.create(L.Node); tmp_node.data = node.left.?; queue.append(tmp_node); // 左子節點入列 } if (node.right != null) { var tmp_node = try mem_allocator.create(L.Node); tmp_node.data = node.right.?; queue.append(tmp_node); // 右子節點入列 } } return list; } // Driver Code pub fn main() !void { // 初始化記憶體分配器 var mem_arena = std.heap.ArenaAllocator.init(std.heap.page_allocator); defer mem_arena.deinit(); const mem_allocator = mem_arena.allocator(); // 初始化二元樹 // 這裡藉助了一個從陣列直接生成二元樹的函式 var nums = [_]i32{1, 2, 3, 4, 5, 6, 7}; var root = try inc.TreeUtil.arrToTree(i32, mem_allocator, &nums); std.debug.print("初始化二元樹\n", .{}); try inc.PrintUtil.printTree(root, null, false); // 層序走訪 var list = try levelOrder(i32, mem_allocator, root.?); defer list.deinit(); std.debug.print("\n層序走訪的節點列印序列 = ", .{}); inc.PrintUtil.printList(i32, list); _ = try std.io.getStdIn().reader().readByte(); }