# Big Hex to binary

I have looked at a lot of post here on stackoverflow concerning this problem, I have found partial solutions but so far I have yet to find a solution that works for me. `new BigDecimal("3324679375210329505").toString(2);` Seems to work best for me (from: Convert a large 2^63 decimal to binary) but I do need leading and trailing zeros. Is there anyway I can convert a large (bigger than a long) hex to a binary (String) representation?

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The BigInteger class handles arbitrarily large numbers.

Trailing zeroes are allready handled. To handle leading zeroes, simply add a "1" at the front, which ensures a leading "1" bit, then strip it back off again:

``````String bits = new BigInteger("1" + hex, 16).toStting(2).substring(1);
``````
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@jlordo It does: `BigInteger(String str, int radix)` –  Valeri Atamaniouk Apr 20 '13 at 20:52
@ValeriAtamaniouk: Yes, you are right, I was looking at BgDecimal. My mistake. –  jlordo Apr 20 '13 at 20:59
But I believe this solution get rids of leading zeros, and for proper conversion to base64(my end goal) I need leading and trailing zeros. –  Elian ten Holder Apr 20 '13 at 21:02
@Jordo See edited answer. (I realised the leading zeroes problem, but was busy for a few minutes) –  Bohemian Apr 20 '13 at 21:10
@EliantenHolder as you can see, this answer does it in one simple line. (FYI, you can "unaccept" answers by re clicking the tick, and accept another answer, like this one for instance - the other answer is clumsy and a heap of unnecessary code) –  Bohemian Apr 20 '13 at 21:17

You need leading zeroes? I don't know of a built-in function, but you can easily implement it yourself:

``````public static String hex2binary(String hex) {
StringBuilder result = new StringBuilder(hex.length() * 4);
for (char c : hex.toUpperCase().toCharArray()) {
switch (c) {
case '0': result.append("0000"); break;
case '1': result.append("0001"); break;
case '2': result.append("0010"); break;
case '3': result.append("0011"); break;
case '4': result.append("0100"); break;
case '5': result.append("0101"); break;
case '6': result.append("0110"); break;
case '7': result.append("0111"); break;
case '8': result.append("1000"); break;
case '9': result.append("1001"); break;
case 'A': result.append("1010"); break;
case 'B': result.append("1011"); break;
case 'C': result.append("1100"); break;
case 'D': result.append("1101"); break;
case 'E': result.append("1110"); break;
case 'F': result.append("1111"); break;
default: throw new IllegalArgumentException("Invalid hex: '" + hex + "'");
}
}
return result.toString();
}
``````
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Nice one. I suspect handling lower-case characters in switch might be faster, then calling `toUpperCase`... –  Valeri Atamaniouk Apr 20 '13 at 21:03
@ValeriAtamaniouk: You mean extra cases? I was too lazy to type ;) No matter how long the input is, this won't be the bottleneck of the application... –  jlordo Apr 20 '13 at 21:03
Great that is the answer I was looking for, very simplistic yet very useful :) –  Elian ten Holder Apr 20 '13 at 21:06
@EliantenHolder: Then why didn't you write it yourself? ;) –  jlordo Apr 20 '13 at 21:07
@jlordo It's quite late and tbh I was thinking of a solution way to complex for the problem. I wish I came up with your answer by my self would have been faster :) Thanks for your fast answer you've helped me along :) –  Elian ten Holder Apr 20 '13 at 23:16