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* 双向队列: java 代码 * 双向队列: markdown 内容 * Rewrite array_deque.java Update array_queue.java, linkedlist_deque.java * Add ArrayDeque figures and rewrite the contents --------- Co-authored-by: krahets <krahets@163.com>
140 lines
4.5 KiB
Zig
140 lines
4.5 KiB
Zig
// File: array_queue.zig
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// Created Time: 2023-01-15
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// Author: sjinzh (sjinzh@gmail.com)
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const std = @import("std");
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const inc = @import("include");
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// 基于环形数组实现的队列
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pub fn ArrayQueue(comptime T: type) type {
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return struct {
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const Self = @This();
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nums: []T = undefined, // 用于存储队列元素的数组
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cap: usize = 0, // 队列容量
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front: usize = 0, // 队首指针,指向队首元素
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queSize: usize = 0, // 尾指针,指向队尾 + 1
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mem_arena: ?std.heap.ArenaAllocator = null,
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mem_allocator: std.mem.Allocator = undefined, // 内存分配器
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// 构造方法(分配内存+初始化数组)
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pub fn init(self: *Self, allocator: std.mem.Allocator, cap: usize) !void {
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if (self.mem_arena == null) {
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self.mem_arena = std.heap.ArenaAllocator.init(allocator);
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self.mem_allocator = self.mem_arena.?.allocator();
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}
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self.cap = cap;
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self.nums = try self.mem_allocator.alloc(T, self.cap);
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std.mem.set(T, self.nums, @as(T, 0));
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}
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// 析构方法(释放内存)
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pub fn deinit(self: *Self) void {
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if (self.mem_arena == null) return;
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self.mem_arena.?.deinit();
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}
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// 获取队列的容量
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pub fn capacity(self: *Self) usize {
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return self.cap;
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}
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// 获取队列的长度
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pub fn size(self: *Self) usize {
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return self.queSize;
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}
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// 判断队列是否为空
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pub fn isEmpty(self: *Self) bool {
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return self.queSize == 0;
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}
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// 入队
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pub fn push(self: *Self, num: T) !void {
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if (self.size() == self.capacity()) {
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std.debug.print("队列已满\n", .{});
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return;
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}
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// 计算尾指针,指向队尾索引 + 1
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// 通过取余操作,实现 rear 越过数组尾部后回到头部
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var rear = (self.front + self.queSize) % self.capacity();
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// 将 num 添加至队尾
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self.nums[rear] = num;
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self.queSize += 1;
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}
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// 出队
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pub fn poll(self: *Self) T {
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var num = self.peek();
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// 队首指针向后移动一位,若越过尾部则返回到数组头部
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self.front = (self.front + 1) % self.capacity();
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self.queSize -= 1;
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return num;
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}
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// 访问队首元素
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pub fn peek(self: *Self) T {
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if (self.isEmpty()) @panic("队列为空");
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return self.nums[self.front];
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}
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// 返回数组
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pub fn toArray(self: *Self) ![]T {
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// 仅转换有效长度范围内的列表元素
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var res = try self.mem_allocator.alloc(T, self.size());
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std.mem.set(T, res, @as(T, 0));
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var i: usize = 0;
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var j: usize = self.front;
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while (i < self.size()) : ({ i += 1; j += 1; }) {
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res[i] = self.nums[j % self.capacity()];
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}
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return res;
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}
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};
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}
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// Driver Code
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pub fn main() !void {
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// 初始化队列
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var capacity: usize = 10;
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var queue = ArrayQueue(i32){};
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try queue.init(std.heap.page_allocator, capacity);
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defer queue.deinit();
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// 元素入队
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try queue.push(1);
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try queue.push(3);
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try queue.push(2);
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try queue.push(5);
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try queue.push(4);
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std.debug.print("队列 queue = ", .{});
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inc.PrintUtil.printArray(i32, try queue.toArray());
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// 访问队首元素
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var peek = queue.peek();
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std.debug.print("\n队首元素 peek = {}", .{peek});
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// 元素出队
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var poll = queue.poll();
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std.debug.print("\n出队元素 poll = {},出队后 queue = ", .{poll});
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inc.PrintUtil.printArray(i32, try queue.toArray());
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// 获取队列的长度
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var size = queue.size();
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std.debug.print("\n队列长度 size = {}", .{size});
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// 判断队列是否为空
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var is_empty = queue.isEmpty();
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std.debug.print("\n队列是否为空 = {}", .{is_empty});
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// 测试环形数组
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var i: i32 = 0;
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while (i < 10) : (i += 1) {
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try queue.push(i);
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_ = queue.poll();
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std.debug.print("\n第 {} 轮入队 + 出队后 queue = ", .{i});
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inc.PrintUtil.printArray(i32, try queue.toArray());
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}
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_ = try std.io.getStdIn().reader().readByte();
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}
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