Note: This is a companion problem to the System Design problem: Design TinyURL.
TinyURL is a URL shortening service where you enter a URL such as https://leetcode.com/problems/design-tinyurl
and it returns a short URL such as http://tinyurl.com/4e9iAk
.
Design the encode
and decode
methods for the TinyURL service. There is no restriction on how your encode/decode algorithm should work. You just need to ensure that a URL can be encoded to a tiny URL and the tiny URL can be decoded to the original URL.
TinyURL是一种URL简化服务, 比如:当你输入一个URL https://leetcode.com/problems/design-tinyurl 时,它将返回一个简化的URL http://tinyurl.com/4e9iAk.
要求:设计一个 TinyURL 的加密 encode 和解密 decode 的方法。你的加密和解密算法如何设计和运作是没有限制的,你只需要保证一个URL可以被加密成一个TinyURL,并且这个TinyURL可以用解密方法恢复成原本的URL。
- 简单题。由于题目并无规定
encode()
算法,所以自由度非常高。最简单的做法是把原始URL
存起来,并记录下存在字符串数组中的下标位置。decode()
的时候根据存储的下标还原原始的URL
。
package leetcode
import (
"fmt"
"strconv"
"strings"
)
type Codec struct {
urls []string
}
func Constructor() Codec {
return Codec{[]string{}}
}
// Encodes a URL to a shortened URL.
func (this *Codec) encode(longUrl string) string {
this.urls = append(this.urls, longUrl)
return "http://tinyurl.com/" + fmt.Sprintf("%v", len(this.urls)-1)
}
// Decodes a shortened URL to its original URL.
func (this *Codec) decode(shortUrl string) string {
tmp := strings.Split(shortUrl, "/")
i, _ := strconv.Atoi(tmp[len(tmp)-1])
return this.urls[i]
}
/**
* Your Codec object will be instantiated and called as such:
* obj := Constructor();
* url := obj.encode(longUrl);
* ans := obj.decode(url);
*/