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I'm looking for some C code for signed saturated 64 bit addition that compiles to efficient X86-64 code with the gcc optimizer. Portable code would be ideal, although an asm solution could be used if necessary.

static const int64 kint64max = 0x7fffffffffffffffll;
static const int64 kint64min = 0x8000000000000000ll;

int64 signed_saturated_add(int64 x, int64 y) {
  bool x_is_negative = (x & kint64min) != 0;
  bool y_is_negative = (y & kint64min) != 0;
  int64 sum = x+y;
  bool sum_is_negative = (sum & kint64min) != 0;
  if (x_is_negative != y_is_negative) return sum;  // can't overflow
  if (x_is_negative && !sum_is_negative) return kint64min;
  if (!x_is_negative && sum_is_negative) return kint64max;
  return sum;

The function as written produces a fairly lengthy assembly output with several branches. Any tips on optimization? Seems like it ought to be be implementable with just an ADD with a few CMOV instructions but I'm a little bit rusty with this stuff.

share|improve this question
your way of computing the sign of your values is too complicated, why not just use (x < 0) e.g ? To be portable use [u]int64_t. Then you have INT64_MAX and INT64_MIN for free and don't have to use your own constants for this. – Jens Gustedt Jul 10 '13 at 20:25
possible duplicate of Bitwise saturated addition in C (HW) – jxh Jul 10 '13 at 20:31
gcc can optimize operations on 128-bit numbers. Try something that works like clamp((int128_t)x + y, INT64_MIN, INT64_MAX)) and see if it's acceptable. – zch Jul 10 '13 at 20:32
This implementation invokes undefined behavior. A good implementation should check for overflow before it occurs. – ouah Jul 10 '13 at 20:43
Be careful here. Even computing the sum is undefined behavior should it overflow. Compilers can and do take advantage of this fact when optimizing (e.g. compiling the expression x+1 > x into the constant 1). For this reason alone I do not think this question should be closed, since none of the referenced answers considers this fact... – Nemo Jul 10 '13 at 21:33

3 Answers 3

This may be optimized further but here is a portable solution. It does not invoked undefined behavior and it checks for integer overflow before it could occur.

#include <stdint.h>

int64_t sadd64(int64_t a, int64_t b)
    if (a > 0) {
        if (b > INT64_MAX - a) {
            return INT64_MAX;
    } else if (b < INT64_MIN - a) {
            return INT64_MIN;

    return a + b;
share|improve this answer
Very nice solution. – jxh Jul 10 '13 at 23:00
Agree that this is portable, elegant, and 100% correct. One potential optimization: Instead of return INT64_MAX, try b = INT64_MAX - a. And instead of return INT64_MIN, try b = INT64_MIN - a. On my compiler (GCC 4.7.3), this generates slightly tighter code, replacing two conditional branches with conditional moves. (On the other hand, it introduces more data dependencies so it might be slower...) – Nemo Jul 11 '13 at 5:19
I agree that this is the correct, "straight" solution. @Nemo, there is actually a possibility that results in just one conditional move, see my answer below. Which of those solutions is more efficient only benchmarking could show. – Jens Gustedt Jul 11 '13 at 7:17

This is a solution that continues in the vein that had been given in one of the comments, and has been used in ouah's solution, too. here the generated code should be without conditional jumps

int64_t signed_saturated_add(int64_t x, int64_t y) {
  // determine the lower or upper bound of the result
  int64_t ret =  (x < 0) ? INT64_MIN : INT64_MAX;
  // this is always well defined:
  // if x < 0 this adds a positive value to INT64_MIN
  // if x > 0 this subtracts a positive value from INT64_MAX
  int64_t comp = ret - x;
  // the condition is equivalent to
  // ((x < 0) && (y > comp)) || ((x >=0) && (y <= comp))
  if ((x < 0) == (y > comp)) ret = x + y;
  return ret;

The first looks as if there would be a conditional move to do, but because of the special values my compiler gets off with an addition: in 2's complement INT64_MIN is INT64_MAX+1. There is then only one conditional move for the assignment of the sum, in case anything is fine.

All of this has no UB, because in the abstract state machine the sum is only done if there is no overflow.

share|improve this answer
Pretty (+1). Could use a few comments :-) – Nemo Jul 11 '13 at 13:43
@Nemo, yeah, a bit terse, was too late last night. I now added some explanatory comments. – Jens Gustedt Jul 11 '13 at 13:51

I'm still looking for a decent portable solution, but this is as good as I've come up with so far:

Suggestions for improvements?

int64 saturated_add(int64 x, int64 y) {
#if __GNUC__ && __X86_64__
  asm("add %1, %0\n\t"
      "jno 1f\n\t"
      "cmovge %3, %0\n\t"
      "cmovl %2, %0\n"
      "1:" : "+r"(x) : "r"(y), "r"(kint64min), "r"(kint64max));
  return x;
  return portable_saturated_add(x, y);
share|improve this answer
See my answer for a solution that only generates one conditional move. Whether this is better or not, you'd have to benchmark. – Jens Gustedt Jul 11 '13 at 7:28
I wonder if you could do something like asm("add %[y], %[x]\n\t" "jno 1f\n\t" "xor %%rax, %%rax\n\t" "mov %[MAX], %[x]\n\t" "setge %%al\n\t" "add %%rax, %[x]\n\t" "1:" : [x] "+r"(x) : [y] "r"(y), [MAX] "i"(INT64_MAX) : "eax", "cc");. At first blush, this might look longer than your code, but remember that your code needs to load values into %2 and %3 before calling your asm, even if it's not going to use them. Mine only does the load on overflow (presumably the less common case). NB: It's late and I haven't run this. And as @JensGustedt says, benchmark. – David Wohlferd Sep 12 '14 at 10:41

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