# Decimal to binary homework in Java

I have a homework to do a decimal to binary conversation. This is the code I have:

``````int num = 0;
int temp = 0;

Scanner sc = new Scanner(System.in);
num = sc.nextInt();

//System.out.print(""+ num%2+ (num%2)%2);
while(num != 0) {
temp = num;
System.out.print(""+(int) temp % 2);
num = num / 2;
}
``````

It is working fine, but it giving me the output as LSB and not as MSB.

For example:

``````35
110001
``````

but I need it to be `100011`.

I cannot use any function or method to reverse it. I know I can put it in an array, string or whatever and do some magic. But I can use only the `while` loop, modulo and print.

Any Suggestions?

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Is intermediate storage of each binary digit allowed? – Colin D Nov 2 '12 at 14:19

Don't output each digit as you find them. Build your output incrementally and then print it at the end.

``````public static void main(String[] args)
{
int num = 0;
int temp = 0;

Scanner sc = new Scanner(System.in);
num = sc.nextInt();

int place = 1;
int output = 0;

while(num != 0) {
temp = num % 2;
num = num / 2;

output += (place*temp);
place *=10;
}

System.out.print(""+output);
}
``````

You may need to modify this to handle large or negative numbers.

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what is mean += and = is like output=output+(placetemp)? – Ofir Attia Nov 2 '12 at 14:47
@OfirAttia yes, that is exactly it. – Colin D Nov 2 '12 at 14:48
so what you did? the place is always 10, but when you * it in 0 is 0 but what you * it in 1 it 10 , i dont understand the logic here sorry – Ofir Attia Nov 2 '12 at 14:52
you moved the number to the left? – Ofir Attia Nov 2 '12 at 15:00
`place` represents the location where each binary digit is stored in the output. for the first iteration it is stored in the one's place (`place ==1`). the second digit is stored in the ten's place (`place == 10`). the third is stored in the hundreds place (`place == 100`). ect.. – Colin D Nov 2 '12 at 15:00

Instead of starting at the bottom bit, you can start at the top bit.

``````int i = 35;

// find where the top bit is.
int shift = 0;
while (i >>> (shift + 1) > 0) shift++;

// print from the top bit down
while (shift >= 0)
System.out.print((i >>> shift--) & 1);
``````

prints i = 35

``````100011
``````

prints for i = -35

``````11111111111111111111111111011101
``````
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Pretty sure you need to convert it to a long first. Since java doesn't have `uint` . For large cases of i – Woot4Moo Nov 2 '12 at 14:11
@ColinD I would imagine since OP can only use modulo arithmetic to solve this, it may be the solution that is desired. – Woot4Moo Nov 2 '12 at 14:13
A working, concise, and magic-looking solution to a homework task. Exactly what I'd rather never receive if I were a beginner. – 9000 Nov 2 '12 at 14:13
@Woot4Moo It prints as I would expect for negative numbers. – Peter Lawrey Nov 2 '12 at 14:20
@OfirAttia This is intended to give you any idea of what you can do. Only you know what you have learnt in class. – Peter Lawrey Nov 2 '12 at 14:22

Numbers are really right-to-left (guess why they call it 'Arabic numerals'?). The least significant digit of a number is its last digit.

You generate binary digits from least significant to most significant. You have to store them and then print in reverse order, from most significant to least significant.

Try using a `List<Integer>` or an `int[]` for this.

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One work around could be as below:

``````  int indx = 0;
if(num<0){
indx =31;
num = Integer.MAX_VALUE+num+2;
}else{
while((int)Math.pow(2, indx) <= num){
indx++;
}
indx--;//get the highest index
}
System.out.print(""+1);//print the highest bit
num = num % (int)Math.pow(2, indx);
indx--;
//print the bits right to left
for(int i = indx; i >=0; i--){
if(Math.abs(num)<2){
System.out.print(""+num);
}else if((int)Math.pow(2, i) >= num){
System.out.print(""+0);
}else{
num = num % (int)Math.pow(2, i); //get the remaining value
System.out.print(""+1);
}
}
``````
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