// File: deque.zig // Created Time: 2023-01-15 // Author: sjinzh (sjinzh@gmail.com) const std = @import("std"); const inc = @import("include"); // Driver Code pub fn main() !void { // 初始化双向队列 const L = std.TailQueue(i32); var deque = L{}; // 元素入队 var node1 = L.Node{ .data = 2 }; var node2 = L.Node{ .data = 5 }; var node3 = L.Node{ .data = 4 }; var node4 = L.Node{ .data = 3 }; var node5 = L.Node{ .data = 1 }; deque.append(&node1); deque.append(&node2); deque.append(&node3); deque.prepend(&node4); deque.prepend(&node5); std.debug.print("双向队列 deque = ", .{}); inc.PrintUtil.printQueue(i32, deque); // 访问元素 var peekFirst = deque.first.?.data; std.debug.print("\n队首元素 peekFirst = {}", .{peekFirst}); var peekLast = deque.last.?.data; std.debug.print("\n队首元素 peekLast = {}", .{peekLast}); // 元素出队 var pollFirst = deque.popFirst().?.data; std.debug.print("\n队首出队元素 pollFirst = {},队首出队后 deque = ", .{pollFirst}); inc.PrintUtil.printQueue(i32, deque); var pollLast = deque.pop().?.data; std.debug.print("\n队尾出队元素 pollLast = {},队尾出队后 deque = ", .{pollLast}); inc.PrintUtil.printQueue(i32, deque); // 获取双向队列的长度 var size = deque.len; std.debug.print("\n双向队列长度 size = {}", .{size}); // 判断队列是否为空 var isEmpty = if (deque.len == 0) true else false; std.debug.print("\n双向队列是否为空 = {}", .{isEmpty}); _ = try std.io.getStdIn().reader().readByte(); }