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I'm working in C and need to add and subtract a 64-bit number and a 128-bit number. The result will be held in the 128-bit number. I am using an integer array to store the upper and lower halves of the 128-bit number (i.e. u_int64_t bigNum[2], where bigNum[0] is the least significant).

Can anybody help with an addition and subtraction function that can take in bigNum and add/subtract a u_int64_t to it?

I have seen many incorrect examples on the web, so consider this:

bigNum[0] = 0;  
bigNum[1] = 1;  
subtract(&bigNum, 1);

At this point bigNum[0] should have all bits set, while bigNum[1] should have no bits set.

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FYI: existing libraries such as GMP ( can already take care of that. So if there is no particular reason to avoid it, I would recommend using existing code. And if you want to know how to do it yourself, you can look into the source code of GMP. – steabert Jan 21 '11 at 10:00
I fail to understand your example. Isn't 1 - 1 = 0, not -1? – unwind Jan 21 '11 at 10:04
GMP is giant bloat for just 128-bit integer support. Also it can randomly abort() your program. – R.. Jan 21 '11 at 16:41
External libraries in general are too large and unnecessary. I am doing simple math only. Also as for the 1 - 1 = 0 question... the bytes are little-endian (least significant byte first). So it would really be (1<<32)-1 = 0xffffffff, hope that helps? – Joe Boo Jan 21 '11 at 19:15
up vote 3 down vote accepted

In grade 1 or 2, you should have learn't how to break down the addition of 1 and 10 into parts, by splitting it into multiple separate additions of tens and units. When dealing with big numbers, the same principals can be applied to compute arithmetic operations on arbitrarily large numbers, by realizing your units are now units of 2^bits, your "tens" are 2^bits larger and so on.

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This didn't really answer my question, but it was the closest and I have already solved the issue myself. My functions are probably not very optimal but at least they work. – Joe Boo Jan 21 '11 at 20:35

This should work for the subtraction:

typedef u_int64_t bigNum[2];

void subtract(bigNum *a, u_int64_t b)
  const u_int64_t borrow = b > a[1];

  a[1] -= b;
  a[0] -= borrow;

Addition is very similar. The above could of course be expressed with an explicit test, too, but I find it cleaner to always do the borrowing. Optimization left as an exercise.

For a bigNum equal to { 0, 1 }, subtracting two would make it equal { ~0UL, ~0UL }, which is the proper bit pattern to represent -1. Here, UL is assumed to promote an integer to 64 bits, which is compiler-dependent of course.

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A hint for optimization: Some (most?) assembler instruction sets can give information on carry bits from addition and subtraction :-) – Christoffer Jan 21 '11 at 10:50
I don't believe that will compile... perhaps you meant borrow = b>>a[1];? However, I don't see how that would give the correct answer. – Joe Boo Jan 21 '11 at 19:08
b > a[1] is a valid expression in C which returns 1 if true and 0 if false. You need to read some books about C basics again. – Lưu Vĩnh Phúc Nov 21 '14 at 19:11

For the case the value that your are subtracting is less or equal to bignum[0] you don't have to touch bignum[1].

If it isn't, you subtract it from bignum[0], anyhow. This operation will wrap around, but this is the behavior you need here. In addition you'd then have to substact 1 from bignum[1].

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Most compilers support a __int128 type intrinsically.

Try it and you might be lucky.

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It would seem gcc's implementation of __int128 is machine dependent and only supported when long long is 128 bits wide. If that is wrong, please correct me. – Joe Boo Jan 21 '11 at 18:59
@JoeBoo long long is always 64 bits on current systems. __int128 is a separate type which is often only available on 64-bit systems – Lưu Vĩnh Phúc Jan 25 '15 at 4:31

In assembly it's very easy to do addition/subtraction in any arbitrary-long integers because there a carry flag and add/sub with flag instruction.

In C there's no way to access this carry flag so you must calculate the flag on your own. But this requires many bit manipulation. You can use a simpler solution here

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