// File: array_stack.zig // Created Time: 2023-01-08 // Author: codingonion (coderonion@gmail.com) const std = @import("std"); const inc = @import("include"); // 基于数组实现的栈 pub fn ArrayStack(comptime T: type) type { return struct { const Self = @This(); stack: ?std.ArrayList(T) = null, // 构造方法(分配内存+初始化栈) pub fn init(self: *Self, allocator: std.mem.Allocator) void { if (self.stack == null) { self.stack = std.ArrayList(T).init(allocator); } } // 析构方法(释放内存) pub fn deinit(self: *Self) void { if (self.stack == null) return; self.stack.?.deinit(); } // 获取栈的长度 pub fn size(self: *Self) usize { return self.stack.?.items.len; } // 判断栈是否为空 pub fn isEmpty(self: *Self) bool { return self.size() == 0; } // 访问栈顶元素 pub fn peek(self: *Self) T { if (self.isEmpty()) @panic("栈为空"); return self.stack.?.items[self.size() - 1]; } // 入栈 pub fn push(self: *Self, num: T) !void { try self.stack.?.append(num); } // 出栈 pub fn pop(self: *Self) T { var num = self.stack.?.pop(); return num; } // 返回 ArrayList pub fn toList(self: *Self) std.ArrayList(T) { return self.stack.?; } }; } // Driver Code pub fn main() !void { // 初始化栈 var stack = ArrayStack(i32){}; stack.init(std.heap.page_allocator); // 延迟释放内存 defer stack.deinit(); // 元素入栈 try stack.push(1); try stack.push(3); try stack.push(2); try stack.push(5); try stack.push(4); std.debug.print("栈 stack = ", .{}); inc.PrintUtil.printList(i32, stack.toList()); // 访问栈顶元素 var peek = stack.peek(); std.debug.print("\n栈顶元素 peek = {}", .{peek}); // 元素出栈 var top = stack.pop(); std.debug.print("\n出栈元素 pop = {},出栈后 stack = ", .{top}); inc.PrintUtil.printList(i32, stack.toList()); // 获取栈的长度 var size = stack.size(); std.debug.print("\n栈的长度 size = {}", .{size}); // 判断栈是否为空 var is_empty = stack.isEmpty(); std.debug.print("\n栈是否为空 = {}", .{is_empty}); _ = try std.io.getStdIn().reader().readByte(); }