# Base64 length calculation?

After reading the base64 wiki ...

I'm trying to figure out how's the formula working :

Given a string with length of `n` , the base64 length will be Which is : `4*Math.Ceiling(((double)s.Length/3)))`

I already know that base64 length must be `%4==0` to allow the decoder know what was the original text length.

The max number of padding for a sequence can be `=` or `==`.

wiki :The number of output bytes per input byte is approximately 4 / 3 (33% overhead)

Question:

How does the information above settle with the output length ?

Each character is used to represent 6 bits (`log2(64) = 6`).

Therefore 4 chars are used to represent `4 * 6 = 24 bits = 3 bytes`.

So you need `4*(n/3)` chars to represent `n` bytes, and this needs to be rounded up to a multiple of 4.

The number of unused padding chars resulting from the rounding up to a multiple of 4 will obviously be 0, 1, 2 or 3.

• where is the padding gets here ? – Royi Namir Nov 14 '12 at 12:30
• Consider if you have one byte of input. That will produce four characters of output. But only two output characters are needed to encode the input. So two characters will be padding. – David Schwartz Nov 14 '12 at 12:30
• The output length is always rounded up to a multiple of 4, so 1, 2 or 3 input bytes => 4 chars; 4, 5 or 6 input bytes => 8 chars; 7, 8 or 9 input bytes => 12 chars. – Paul R Nov 14 '12 at 13:17
• I explained all this in the answer above: (i) each output char represents 6 bits of input, (ii) 4 output chars therefore represent 4 * 6 = 24 bits, (iii) 24 bits is 3 bytes, (iv) 3 bytes of input therefore result in 4 chars of output, (v) the ratio of output chars to input bytes is therefore 4 / 3. – Paul R Nov 14 '12 at 13:22
• @techie_28: I make it 27308 characters for 20 * 1024 bytes, but I haven't had coffee yet this morning. – Paul R Jul 22 '16 at 6:21

`4 * n / 3` gives unpadded length.

And round up to the nearest multiple of 4 for padding, and as 4 is a power of 2 can use bitwise logical operations.

``````((4 * n / 3) + 3) & ~3
``````
• You are right! -> 4 * n / 3 gives unpadded length! answers above are not correct. -> ((4 * n / 3) + 3) & ~3 returns the right result – Cadburry Apr 20 '16 at 7:37
• Does not work as an input for window's API CryptBinaryToStringA. – TarmoPikaro May 4 '16 at 6:54
• to spell it out for people using shell: `\$(( ((4 * n / 3) + 3) & ~3 ))` – starfry Aug 1 '16 at 23:10
• `4 * n / 3` already fails at `n = 1`, one byte is encoded using two characters, and the result is clearly one character. – Maarten Bodewes Jul 30 '17 at 14:51
• I think this may need to account for the '\n' every 76th character, which I've seen some base64 implementations say is required per spec. Good catch on the need for padding - I was wondering why my actual and expected values were off. – StoneThrow Nov 1 '17 at 23:35

For reference, the Base64 encoder's length formula is as follows: As you said, a Base64 encoder given `n` bytes of data will produce a string of `4n/3` Base64 characters. Put another way, every 3 bytes of data will result in 4 Base64 characters. EDIT: A comment correctly points out that my previous graphic did not account for padding; the correct formula is `Ceiling(4n/3)`.

The Wikipedia article shows exactly how the ASCII string `Man` encoded into the Base64 string `TWFu` in its example. The input string is 3 bytes, or 24 bits, in size, so the formula correctly predicts the output will be 4 bytes (or 32 bits) long: `TWFu`. The process encodes every 6 bits of data into one of the 64 Base64 characters, so the 24-bit input divided by 6 results in 4 Base64 characters.

You ask in a comment what the size of encoding `123456` would be. Keeping in mind that every every character of that string is 1 byte, or 8 bits, in size (assuming ASCII/UTF8 encoding), we are encoding 6 bytes, or 48 bits, of data. According to the equation, we expect the output length to be `(6 bytes / 3 bytes) * 4 characters = 8 characters`.

Putting `123456` into a Base64 encoder creates `MTIzNDU2`, which is 8 characters long, just as we expected.

• Using this formula, be aware that it doesn't give the padded length. So you can have a longer length. – Spilarix Jul 23 '16 at 17:56

## Integers

Generally we don't want to use doubles because we don't want to use the floating point ops, rounding errors etc. They are just not necessary.

For this it is a good idea to remember how to perform the ceiling division: `ceil(x / y)` in doubles can be written as `(x + y - 1) / y` (while avoiding negative numbers, but beware of overflow).

If you go for readability you can of course also program it like this (example in Java, for C you could use macro's, of course):

``````public static int ceilDiv(int x, int y) {
return (x + y - 1) / y;
}

public static int paddedBase64(int n) {
int blocks = ceilDiv(n, 3);
return blocks * 4;
}

public static int unpaddedBase64(int n) {
int bits = 8 * n;
return ceilDiv(bits, 6);
}

// test only
public static void main(String[] args) {
for (int n = 0; n < 21; n++) {
}
}
``````

## Inlined

We know that we need 4 characters blocks at the time for each 3 bytes (or less). So then the formula becomes (for x = n and y = 3):

``````blocks = (bytes + 3 - 1) / 3
chars = blocks * 4
``````

or combined:

``````chars = ((bytes + 3 - 1) / 3) * 4
``````

your compiler will optimize out the `3 - 1`, so just leave it like this to maintain readability.

Less common is the unpadded variant, for this we remember that each we need a character for each 6 bits, rounded up:

``````bits = bytes * 8
chars = (bits + 6 - 1) / 6
``````

or combined:

``````chars = (bytes * 8 + 6 - 1) / 6
``````

we can however still divide by two (if we want to):

``````chars = (bytes * 4 + 3 - 1) / 3
``````

In case you don't trust your compiler to do the final optimizations for you (or if you want to confuse your colleagues):

``````((n + 2) / 3) << 2
``````

``````((n << 2) | 2) / 3
``````

So there we are, two logical ways of calculation, and we don't need any branches, bit-ops or modulo ops - unless we really want to.

Notes:

• Obviously you may need to add 1 to the calculations to include a null termination byte.
• For Mime you may need to take care of possible line termination characters and such (look for other answers for that).

I think the given answers miss the point of the original question, which is how much space needs to be allocated to fit the base64 encoding for a given binary string of length n bytes.

The answer is `(floor(n / 3) + 1) * 4 + 1`

This includes padding and a terminating null character. You may not need the floor call if you are doing integer arithmetic.

Including padding, a base64 string requires four bytes for every three-byte chunk of the original string, including any partial chunks. One or two bytes extra at the end of the string will still get converted to four bytes in the base64 string when padding is added. Unless you have a very specific use, it is best to add the padding, usually an equals character. I added an extra byte for a null character in C, because ASCII strings without this are a little dangerous and you'd need to carry the string length separately.

• Your formula is wrong. Consider n=3, the expected result (without null padding) is 4, but your formula returns 8. – CodesInChaos Mar 23 '14 at 16:16
• I also think including the null terminator is silly, especially since we're talking about .net here. – CodesInChaos Mar 23 '14 at 16:18
• Works correctly in windows, using CryptBinaryToStringA. My vote for this. – TarmoPikaro May 4 '16 at 6:53

Here is a function to calculate the original size of an encoded Base 64 file as a String in KB:

``````private Double calcBase64SizeInKBytes(String base64String) {
Double result = -1.0;
if(StringUtils.isNotEmpty(base64String)) {
Integer padding = 0;
if(base64String.endsWith("==")) {
}
else {
if (base64String.endsWith("=")) padding = 1;
}
result = (Math.ceil(base64String.length() / 4) * 3 ) - padding;
}
return result / 1000;
}
``````

Seems to me that the right formula should be:

``````n64 = 4 * (n / 3) + (n % 3 != 0 ? 4 : 0)
``````
• Ascii zero fill is not taken into account - does not work in Windows. (CryptBinaryToStringA) – TarmoPikaro May 4 '16 at 6:52

While everyone else is debating algebraic formulas, I'd rather just use BASE64 itself to tell me:

``````\$ echo "Including padding, a base64 string requires four bytes for every three-byte chunk of the original string, including any partial chunks. One or two bytes extra at the end of the string will still get converted to four bytes in the base64 string when padding is added. Unless you have a very specific use, it is best to add the padding, usually an equals character. I added an extra byte for a null character in C, because ASCII strings without this are a little dangerous and you'd need to carry the string length separately."| wc -c
``````

525

``````\$ echo "Including padding, a base64 string requires four bytes for every three-byte chunk of the original string, including any partial chunks. One or two bytes extra at the end of the string will still get converted to four bytes in the base64 string when padding is added. Unless you have a very specific use, it is best to add the padding, usually an equals character. I added an extra byte for a null character in C, because ASCII strings without this are a little dangerous and you'd need to carry the string length separately." | base64 | wc -c
``````

710

So it seems the formula of 3 bytes being represented by 4 base64 characters seems correct.

• I've got something against calculations that require a lot of memory and CPU time while the calculations can be performed in 1 ns and one or two registers. – Maarten Bodewes Jul 30 '17 at 16:06
• So when you're trying to deal with unknown amounts of binary data - how does this help? – UKMonkey Oct 23 '17 at 11:43
• The question is all about formulas, which help in calculating the output size without doing the base64 itself. While this answer is useful in some situations, it doesn't helps with this question. – Alejandro Jan 3 at 15:50

In windows - I wanted to estimate size of mime64 sized buffer, but all precise calculation formula's did not work for me - finally I've ended up with approximate formula like this:

Mine64 string allocation size (approximate) = (((4 * ((binary buffer size) + 1)) / 3) + 1)

So last +1 - it's used for ascii-zero - last character needs to allocated to store zero ending - but why "binary buffer size" is + 1 - I suspect that there is some mime64 termination character ? Or may be this is some alignment issue.

Simple implementantion in javascript

``````function sizeOfBase64String(base64String) {
if (!base64String) return 0;
const padding = (base64String.match(/(=*)\$/) || []).length;
return 4 * Math.ceil((base64String.length / 3)) - padding;
}
``````

I believe that this one is an exact answer if n%3 not zero, no ?

``````    (n + 3-n%3)
4 * ---------
3
``````

Mathematica version :

``````SizeB64[n_] := If[Mod[n, 3] == 0, 4 n/3, 4 (n + 3 - Mod[n, 3])/3]
``````

Have fun

GI