1、栈
2、栈实现
//stack构造函数
class Stack {
items = [];
constructor() {
}
//元素入栈,返回栈的大小
push(el) {
return this.items.push(el);
}
//元素出栈,返回出栈元素
pop() {
return this.items.pop();
}
//获取栈的大小
size() {
return this.items.length;
}
//判断栈是否为空
isEmpty() {
return this.items.length === 0;
}
//清空栈
clear() {
this.items = [];
}
}
3、应用-数值转换
/***
* @description 十进制转化为N进制函数
* @param {Number} metadata 被转化的数值
* @param {Number} n 指定被转化的进制
* @returns {string}
*/
function binaryConversion(metadata, n) {
//初始化一个栈对象
let stack = new Stack();
let remainder = 0;
let res = "";
while(Math.floor(metadata / n) !== 0) {
//计算余数
// debugger;
remainder = metadata % n;
switch(remainder) {
case 10:
remainder = "A";
break;
case 11:
remainder = "B";
break;
case 12:
remainder = "C";
break;
case 13:
remainder = "D";
break;
case 14:
remainder = "E";
break;
case 14:
remainder = "F";
break;
}
//余数入栈
stack.push(remainder);
//metadata重新赋值
metadata = Math.floor(metadata / n);
}
//最后一次计算余数没有入栈,这里需要加一次入栈操作
remainder = metadata % n;
stack.push(remainder);
//输出最后结果
while(!stack.isEmpty()) {
res += stack.pop();
}
return res;
}
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