已遷往:http://www.wypblog.com/archives/141
題目描述:
將一個長度超過100位元字的十進位非負整數轉換為位元輸出。
多組資料,每行為一個長度不超過30位的十進位非負整數。
(注意是10進位數位個數可能有30個,而非30bits的整數)
每行輸出對應的位元。
0138
01111000
分析:這個數不應該儲存到一個int類型變數裡面去,同樣和前幾篇文章一樣,也是用向量來處理,處理出的結果用binary儲存,最後輸出就是我們要的結果
C++代碼如下:
//w397090770//wyphao.2007@163.com//2012.07.14#include <iostream>#include <string>#include <vector>using namespace std;//convert decimal to Binaryvoid dec2bin(string s){int sum(0);vector<char>v;int i, j;string binary;char ch; //把每一位存到v裡面去 for(int i(s.length() - 1); i >= 0; --i){v.insert(v.begin(), s[i] - '0');}//計算二進位 while(1){j = v.size() - 1; ch = v[j] % 2 + '0';binary.insert(binary.begin(), 1, ch);for(sum = 0, i = 0; i <= j; i++){if(i < j){//v[i + 1] += (v[i] % 2) * 10;v[i + 1] += (v[i] - ((v[i] >> 1) << 1)) * 10;}//v[i] /= 2;v[i] >>= 1;sum += v[i];}if(sum == 0){break;}}cout<< binary <<endl;}int main(){string dec;while(cin>>dec){dec2bin(dec);}return 0;}
運行結果:
我在網上搜尋了一下,看到有人用java寫了一個版本,函數很簡單:如下:
import java.math.BigInteger;import java.util.Scanner;public class Q1138 { public static void main(String[] args) { Scanner cin = new Scanner(System.in); while(cin.hasNext()){ System.out.println(new BigInteger(cin.next()).toString(2)); } }}
結果:
從上面看出,java語言的確很方便,很強大,但是java代碼已耗用時間明顯要比C++實現的要長。
(轉載請註明:http://www.wypblog.com/archives/141,請不要用於商業目的。)
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