Est-ce que quelqu'un sait comment ajouter 2 nombres binaires, entrés en binaire, en Java?
Par exemple, 1010 + 10 = 1100
.
Utilisez Integer.parseInt(String, int radix)
.
public static String addBinary(){
// The two input Strings, containing the binary representation of the two values:
String input0 = "1010";
String input1 = "10";
// Use as radix 2 because it's binary
int number0 = Integer.parseInt(input0, 2);
int number1 = Integer.parseInt(input1, 2);
int sum = number0 + number1;
return Integer.toBinaryString(sum); //returns the answer as a binary value;
}
Pour plonger dans les fondamentaux:
public static String binaryAddition(String s1, String s2) {
if (s1 == null || s2 == null) return "";
int first = s1.length() - 1;
int second = s2.length() - 1;
StringBuilder sb = new StringBuilder();
int carry = 0;
while (first >= 0 || second >= 0) {
int sum = carry;
if (first >= 0) {
sum += s1.charAt(first) - '0';
first--;
}
if (second >= 0) {
sum += s2.charAt(second) - '0';
second--;
}
carry = sum >> 1;
sum = sum & 1;
sb.append(sum == 0 ? '0' : '1');
}
if (carry > 0)
sb.append('1');
sb.reverse();
return String.valueOf(sb);
}
Martijn a tout à fait raison, se greffer et compléter la réponse
Integer.toBinaryString(sum);
donnerait votre sortie en binaire selon la question OP.
Vous pouvez simplement mettre 0b devant le nombre binaire pour spécifier qu'il est binaire.
Pour cet exemple, vous pouvez simplement faire:
Integer.toString(0b1010 + 0b10, 2);
Cela ajoutera les deux en binaire, et Integer.toString () avec 2 comme deuxième paramètre le reconvertit en binaire.
La solution originale de Martijn ne fonctionnera pas pour les grands nombres binaires. Le code ci-dessous peut être utilisé pour surmonter cela.
public String addBinary(String s1, String s2) {
StringBuilder sb = new StringBuilder();
int i = s1.length() - 1, j = s2.length() -1, carry = 0;
while (i >= 0 || j >= 0) {
int sum = carry;
if (j >= 0) sum += s2.charAt(j--) - '0';
if (i >= 0) sum += s1.charAt(i--) - '0';
sb.append(sum % 2);
carry = sum / 2;
}
if (carry != 0) sb.append(carry);
return sb.reverse().toString();
}
Une autre approche intéressante mais longue consiste à convertir chacun des deux nombres en nombres décimaux, en ajoutant les nombres décimaux et en reconvertissant la réponse obtenue en binaire!
Solution Java
static String addBinary(String a, String b) {
int lenA = a.length();
int lenB = b.length();
int i = 0;
StringBuilder sb = new StringBuilder();
int rem = Math.abs(lenA-lenB);
while(rem >0){
sb.append('0');
rem--;
}
if(lenA > lenB){
sb.append(b);
b = sb.toString();
}else{
sb.append(a);
a = sb.toString();
}
sb = new StringBuilder();
char carry = '0';
i = a.length();
while(i > 0){
if(a.charAt(i-1) == b.charAt(i-1)){
sb.append(carry);
if(a.charAt(i-1) == '1'){
carry = '1';
}else{
carry = '0';
}
}else{
if(carry == '1'){
sb.append('0');
carry = '1';
}else{
carry = '0';
sb.append('1');
}
}
i--;
}
if(carry == '1'){
sb.append(carry);
}
sb.reverse();
return sb.toString();
}
import Java.io.;
import Java.util.;
public class adtbin {
static Scanner sc=new Scanner(System.in);
public void fun(int n1) {
int i=0;
int sum[]=new int[20];
while(n1>0) {
sum[i]=n1%2; n1=n1/2; i++;
}
for(int a=i-1;a>=0;a--) {
System.out.print(sum[a]);
}
}
public static void main() {
int m,n,add;
adtbin ob=new adtbin();
System.out.println("enter the value of m and n");
m=sc.nextInt();
n=sc.nextInt();
add=m+n;
ob.fun(add);
}
}
package Assignment19thDec;
import Java.util.Scanner;
public class addTwoBinaryNumbers {
private static Scanner sc;
public static void main(String[] args) {
sc = new Scanner(System.in);
System.out.println("Enter 1st Binary Number");
int number1=sc.nextInt();
int reminder1=0;
int number2=sc.nextInt();
int reminder2=0;
int carry=0;
double sumResult=0 ;int add = 0
;
int n;
int power=0;
while (number1>0 || number2>0) {
/*System.out.println(number1 + " " +number2);*/
reminder1=number1%10;
number1=number1/10;
reminder2=number2%10;
number2=number2/10;
/*System.out.println(reminder1 +" "+ reminder2);*/
if(reminder1>1 || reminder2>1 ) {
System.out.println("not a binary number");
System.exit(0);
}
n=reminder1+reminder2+carry;
switch(n) {
case 0:
add=0; carry=0;
break;
case 1: add=1; carry=0;
break;
case 2: add=0; carry=1;
break;
case 3: add=1;carry=1;
break;
default: System.out.println("not a binary number ");
}
sumResult=add*(Math.pow(10, power))+sumResult;
power++;
}
sumResult=carry*(Math.pow(10, power))+sumResult;
System.out.println("\n"+(int)sumResult);
}
}
J'ai effectivement réussi à trouver une solution à cette question sans utiliser la fonction stringbuilder()
. Regarde ça:
public void BinaryAddition(String s1,String s2)
{
int l1=s1.length();int c1=l1;
int l2=s2.length();int c2=l2;
int max=(int)Math.max(l1,l2);
int arr1[]=new int[max];
int arr2[]=new int[max];
int sum[]=new int[max+1];
for(int i=(arr1.length-1);i>=(max-l1);i--)
{
arr1[i]=(int)(s1.charAt(c1-1)-48);
c1--;
}
for(int i=(arr2.length-1);i>=(max-l2);i--)
{
arr2[i]=(int)(s2.charAt(c2-1)-48);
c2--;
}
for(int i=(sum.length-1);i>=1;i--)
{
sum[i]+=arr1[i-1]+arr2[i-1];
if(sum[i]==2)
{
sum[i]=0;
sum[i-1]=1;
}
else if(sum[i]==3)
{
sum[i]=1;
sum[i-1]=1;
}
}
int c=0;
for(int i=0;i<sum.length;i++)
{
System.out.print(sum[i]);
}
}
voici une version python
def binAdd(s1, s2):
if not s1 or not s2:
return ''
maxlen = max(len(s1), len(s2))
s1 = s1.zfill(maxlen)
s2 = s2.zfill(maxlen)
result = ''
carry = 0
i = maxlen - 1
while(i >= 0):
s = int(s1[i]) + int(s2[i])
if s == 2: #1+1
if carry == 0:
carry = 1
result = "%s%s" % (result, '0')
else:
result = "%s%s" % (result, '1')
Elif s == 1: # 1+0
if carry == 1:
result = "%s%s" % (result, '0')
else:
result = "%s%s" % (result, '1')
else: # 0+0
if carry == 1:
result = "%s%s" % (result, '1')
carry = 0
else:
result = "%s%s" % (result, '0')
i = i - 1;
if carry>0:
result = "%s%s" % (result, '1')
return result[::-1]
public class BinaryArithmetic {
/*-------------------------- add ------------------------------------------------------------*/
static String add(double a, double b) {
System.out.println(a + "first val :" + b);
int a1 = (int) a;
int b1 = (int) b;
String s1 = Integer.toString(a1);
String s2 = Integer.toString(b1);
int number0 = Integer.parseInt(s1, 2);
int number1 = Integer.parseInt(s2, 2);
int sum = number0 + number1;
String s3 = Integer.toBinaryString(sum);
return s3;
}
/*-------------------------------multiply-------------------------------------------------------*/
static String multiply(double a, double b) {
System.out.println(a + "first val :" + b);
int a1 = (int) a;
int b1 = (int) b;
String s1 = Integer.toString(a1);
String s2 = Integer.toString(b1);
int number0 = Integer.parseInt(s1, 2);
int number1 = Integer.parseInt(s2, 2);
int sum = number0 * number1;
String s3 = Integer.toBinaryString(sum);
return s3;
}
/*----------------------------------------substraction----------------------------------------------*/
static String sub(double a, double b) {
System.out.println(a + "first val :" + b);
int a1 = (int) a;
int b1 = (int) b;
String s1 = Integer.toString(a1);
String s2 = Integer.toString(b1);
int number0 = Integer.parseInt(s1, 2);
int number1 = Integer.parseInt(s2, 2);
int sum = number0 - number1;
String s3 = Integer.toBinaryString(sum);
return s3;
}
/*--------------------------------------division------------------------------------------------*/
static String div(double a, double b) {
System.out.println(a + "first val :" + b);
int a1 = (int) a;
int b1 = (int) b;
String s1 = Integer.toString(a1);
String s2 = Integer.toString(b1);
int number0 = Integer.parseInt(s1, 2);
int number1 = Integer.parseInt(s2, 2);
int sum = number0 / number1;
String s3 = Integer.toBinaryString(sum);
return s3;
}
}
Une des manières simples est comme:
// Le code Java est comme
static String binaryAdd(String a, String b){
int len = 0;
int size = 0;
char[] c1 = a.toCharArray();
char[] c2 = b.toCharArray();
char[] max;
if(c1.length > c2.length){
len = c2.length;
size = c1.length;
max = c1;
}
else
{
len = c1.length;
size = c2.length;
max = c2;
}
StringBuilder sb = new StringBuilder();
int carry = 0;
int p = c1.length - 1;
int q = c2.length - 1;
for(int i=len-1; i>=0; i--){
if(c1[p] == '0' && c2[q] == '0'){
if(carry == 0){
sb.append(0);
carry = 0;
}
else{
sb.append(1);
carry = 0;
}
}
if((c1[p] == '0' && c2[q] == '1') || (c1[p] == '1' && c2[q] == '0')){
if(carry == 0){
sb.append(1);
carry = 0;
}
else{
sb.append(0);
carry = 1;
}
}
if((c1[p] == '1' && c2[q] == '1')){
if(carry == 0){
sb.append(0);
carry = 1;
}
else{
sb.append(1);
carry = 1;
}
}
p--;
q--;
}
for(int j = size-len-1; j>=0; j--){
if(max[j] == '0'){
if(carry == 0){
sb.append(0);
carry = 0;
}
else{
sb.append(1);
carry = 0;
}
}
if(max[j] == '1'){
if(carry == 0){
sb.append(1);
carry = 0;
}
else{
sb.append(0);
carry = 1;
}
}
}
if(carry == 1)
sb.append(1);
return sb.reverse().toString();
}
vous pouvez écrire votre propre One.
long a =100011111111L;
long b =1000001111L;
int carry = 0 ;
long result = 0;
long multiplicity = 1;
while(a!=0 || b!=0 || carry ==1){
if(a%10==1){
if(b%10==1){
result+= (carry*multiplicity);
carry = 1;
}else if(carry == 1){
carry = 1;
}else{
result += multiplicity;
}
}else if (b%10 == 1){
if(carry == 1){
carry = 1;
}else {
result += multiplicity;
}
}else {
result += (carry*multiplicity);
carry = 0;
}
a/=10;
b/=10;
multiplicity *= 10;
}
System.out.print(result);
cela fonctionne seulement par des nombres, pas besoin de chaîne, pas besoin de SubString et ...
import Java.util.*;
public class BitAddition {
/**
* @param args
*/
public static void main(String[] args) {
// TODO Auto-generated method stub
Scanner sc = new Scanner(System.in);
int len = sc.nextInt();
int[] arr1 = new int[len];
int[] arr2 = new int[len];
int[] sum = new int[len+1];
Arrays.fill(sum, 0);
for(int i=0;i<len;i++){
arr1[i] =sc.nextInt();
}
for(int i=0;i<len;i++){
arr2[i] =sc.nextInt();
}
for(int i=len-1;i>=0;i--){
if(sum[i+1] == 0){
if(arr1[i]!=arr2[i]){
sum[i+1] = 1;
}
else if(arr1[i] ==1 && arr2[i] == 1){
sum[i+1] =0 ;
sum[i] = 1;
}
}
else{
if((arr1[i]!=arr2[i])){
sum[i+1] = 0;
sum[i] = 1;
}
else if(arr1[i] == 1){
sum[i+1] = 1;
sum[i] = 1;
}
}
}
for(int i=0;i<=len;i++){
System.out.print(sum[i]);
}
}
}
j'ai essayé de le rendre simple c'était qi je devais traiter avec ma cryptographie prj ce n'est pas efficace mais j'espère
public String binarysum(String a, String b){
int carry=0;
int maxim;
int minim;
maxim=Math.max(a.length(),b.length());
minim=Math.min(a.length(),b.length());
char smin[]=new char[minim];
char smax[]=new char[maxim];
if(a.length()==minim){
for(int i=0;i<smin.length;i++){
smin[i]=a.charAt(i);
}
for(int i=0;i<smax.length;i++){
smax[i]=b.charAt(i);
}
}
else{
for(int i=0;i<smin.length;i++){
smin[i]=b.charAt(i);
}
for(int i=0;i<smax.length;i++){
smax[i]=a.charAt(i);
}
}
char[]sum=new char[maxim];
char[] st=new char[maxim];
for(int i=0;i<st.length;i++){
st[i]='0';
}
int k=st.length-1;
for(int i=smin.length-1;i>-1;i--){
st[k]=smin[i];
k--;
}
// *************************** sum begins here
for(int i=maxim-1;i>-1;i--){
char x= smax[i];
char y= st[i];
if(x==y && x=='0'){
if(carry==0)
sum[i]='0';
else if(carry==1){
sum[i]='1';
carry=0;
}
}
else if(x==y && x=='1'){
if(carry==0){
sum[i]='0';
carry=1;
}
else if(carry==1){
sum[i]='1';
carry=1;
}
}
else if(x!=y){
if(carry==0){
sum[i]='1';
}
else if(carry==1){
sum[i]='0';
carry=1;
}
} }
String s=new String(sum);
return s;
}
class Sum{
public int number;
public int carry;
Sum(int number, int carry){
this.number = number;
this.carry = carry;
}
}
public String addBinary(String a, String b) {
int lengthOfA = a.length();
int lengthOfB = b.length();
if(lengthOfA > lengthOfB){
for(int i=0; i<(lengthOfA - lengthOfB); i++){
b="0"+b;
}
}
else{
for(int i=0; i<(lengthOfB - lengthOfA); i++){
a="0"+a;
}
}
String result = "";
Sum s = new Sum(0,0);
for(int i=a.length()-1; i>=0; i--){
s = addNumber(Character.getNumericValue(a.charAt(i)), Character.getNumericValue(b.charAt(i)), s.carry);
result = result + Integer.toString(s.number);
}
if(s.carry == 1) { result += s.carry ;}
return new StringBuilder(result).reverse().toString();
}
Sum addNumber(int number1, int number2, int carry){
Sum sum = new Sum(0,0);
sum.number = number1 ^ number2 ^ carry;
sum.carry = (number1 & number2) | (number2 & carry) | (number1 & carry);
return sum;
}