# Computing padding required for n-byte alignment

Say I have a collection of data (eg: strings) that must be stored in a binary file padded so that each string is, say, 4-byte aligned.

So if I have a string of length 11, it would get padded to 12 (with null bytes).
If I have a string of length 24, then no padding is necessary.
If my string has a length of 6, it would get padded to 8 bytes.

How do I compute the amount of padding required in a single expression?

I tried `4 - (string_length % 4)` but it fails when my string length is a multiple of 4.

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This looks odd but gives the right answer:

``````(4 - (string_length % 4)) % 4
``````
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Ah, mod the result. Didn't think of that. – MxyL Jul 25 '12 at 3:23

I know this Question is outdated, but for others who might come to that side it could be useful:

There is a faster way to compute the padding if the alignment is a power of two (2,4,8,...). The following runs because binary & is similar to % for powers of two: %(2^x) and &(2^x-1) do the same for positive numbers. Attention: & will delete the sign bit and therefore always returns the positive modulo result.

So `(4 - (string_length & 3)) & 3` will do the same as `(4 - (string_length % 4)) % 4`. Using the positive modulo property this can be simplified to `(-string_length) & 3`!

If you wanna add that result to the size you can even do more optimizations:

`padded_length = (string_length + 3) & ~3` Semantically this 'rounds up' the number to the padding size of 4.

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Is there a standard name for this technique? – Denise Skidmore Jan 6 '15 at 22:04
``````public static final int getByteAlignedIndex(final int pVariableDataIndex, final int pVariableDataLength, final int pByteAlignment) {
return pVariableDataIndex + (pVariableDataLength & 0xFFFFFFFC) + ((((pVariableDataLength & 0b1)|((pVariableDataLength & 0b10) >> 1))) << 2);
}
``````
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