# Could someone explain this simple code to me please?

I just wanted to understand this bit of code.

``````static int convert2binary(int Decimal)
{
int remainder, final = 0;
string result = "";
bool NaN;

while (Decimal > 0)
{
remainder = Decimal % 2;
Decimal /= 2;
result = remainder + result;
NaN = int.TryParse(result, out final);
}
return final;
}
``````

It's a binary converter, how does it work exactly? I just don't get the modulus, decimal /= 2 and then plus them both together, how does that give binary?

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Take a piece of paper and pen, take a number work on that. Let us know when you struck and what you have tried. –  Sandeep Apr 17 '12 at 14:20
ugh, thats the autocorrect, dont mind that –  Nicholas Apr 17 '12 at 14:23
@balls: please post code that actually compiles. –  Mitch Wheat Apr 17 '12 at 14:23
@AndrasZoltan: I'm also sorry to be a complete pedant, but the code actually compiles. Yes, it is definitely lousy naming of variables, but it is allowed. –  Nailuj Apr 17 '12 at 14:25

Let's just input some data, OK?

``````convert2binary(10)
-> remainder, final = 0
-> result = ""
-> NaN (= false)

loop:
Decimal > 0, so: remainder = Decimal % 2 (= 0) and Decimal /= 2 ( = 5)
result = remainder + result = 0 + ""
NaN = false
repeat:
Decimal > 0, so: remainder = Decimal % 2 (= 1) and Decimal /= 2 ( = 2)
result = remainder + result = "10"
NaN = false
repeat:
Decimal > 0, so: remainder = Decimal % 2 (= 0) and Decimal /= 2 ( = 1)
result = remainder + result = "010"
NaN = false
repeat:
Decimal > 0, so: remainder = Decimal % 2 (= 1) and Decimal /= 2 ( = 0)
result = remainder + result = "1010"
NaN = false
repeat: WHOOPS: Decimal == 0, so we return the final (int representation) of result.
``````

Now, why does this work?

Basically, on each iteration, you split off the last binary digit from the right of your number (this is the `%2` bit). Since you then divide the rest by 2 (the `/=2` bit), you can do this in a loop.

Each iteration will give you a successive position in the numbers polynom:

``````decimal(10) == 1 * 2^3 + 0 * 2^2 + 1 * 2^1 + 0 * 2^0 = binary(1010)
``````

You can go in the other direction too: If you wanted to write an `int.ToString()` method for printing out the decimal variant of the number, you would split off the last digit with `% 10` (the remainder of dividing the number by ten) and that is the rightest-most digit to print. Divide the rest by 10 to so you can repeat for the tens position, the hundreds position etc...

lets try this out!

``````int number = 123;
// this is equivalent to: (1 * 10^2) + (2 * 10^1) + (3 * 10^0)
int remainder = number % 10; // remainder = 3
number /= 10 // number = 12 (integer division!!)
result = remainder + ""; // result = "3"
// number is now: (1 * 10^1) + (2 * 10^0), because we divided by 10!
remainder = number % 10; // remainder = 2
number /= 10 // number = 1
result = remainder + result; // result = "23"
// number is now: (1 * 10^0)
remainder = number % 10; // remainder = 1
number /= 10 // number = 0 - we're going to STOP now!
result = remainder + result; // result = "123"
// yay! hurray!!
``````

So, you see, your number system (be it binary or octal or decimal or hexadecimal or whatever) is just shorthand for writing down a polynom of powers of your base. The right-most digit is always base^0, and the exponent increases by one for each digit you move left.

Bonus points if you figure out what the decimal point does ;)

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This is what your algorithm is trying to do.

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When converting between decimal and binary, remember that each binary digit is a a power of 2 in decimal.

100110 = 1*2^5 + 0*2^4 + 0*2^3 + 1*2^2 + 1*2^1 + 0*2^0 = 38

So to build the binary string from an integer, starting from the right:

• Take the modulus of the decimal number and 2 (the remainder of your number divided by 2)
• Append the result to the left of your binary string
• Divide your number by 2
• Repeat until entire number is processed

Finally convert that string to a number.

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