8

I want signed integers to overflow when they become too big. How do I achieve that without using the next biggest datatype (or when I am already at int128_t)?

For example using 8bit integers 19*12 is commonly 260, but I want the result 1 11 10 01 00 with the 9th bit cut off, thus -27.

1
  • 5
    isn't 19 * 12 == 228? even in 8-bit unsigned integers?
    – Lee
    Nov 21, 2010 at 22:57

7 Answers 7

7

Signed overflow is undefined in C, and that's for real.

One solution follows:

signed_result = (unsigned int)one_argument + (unsigned int)other_argument;

The above solution involves implementation-defined behavior in the final conversion from unsigned to int but do not invoke undefined behavior. With most compilation platforms' implementation-defined choices, the result is exactly the two's complement result that you expect.

Finally, an optimizing compiler for one of the numerous platforms on which implementation-defined choices force the compiler to give you the behavior you expect will compile the above code to the obvious assembly instruction.

Alternately, if you are using gcc, then the options -fwrapv/-fno-strict-overflow may be exactly what you want. They provide an additional guarantee with respect to the standard that signed overflows wrap around. I'm not sure about the difference between the two.

7
  • The second paragraph to this answer is the closest thing to a correct answer to this question. That's the way I'd go. Nov 22, 2010 at 0:45
  • Your solution of signed_result = unsigned_expression is not well-defined because of the following phrase in the standard: "if the new type is signed and the value cannot be represented in it; either the result is implementation-defined or an implementation-defined signal is raised" Section 6.3.1.3 of the C11 standard.
    – wich
    Apr 1, 2016 at 12:40
  • @wich I see that the sentence “The above solution involves implementation-defined behavior.” included in my answer is confusing, at least to some readers. How do you think it should be better phrased? Apr 1, 2016 at 20:29
  • Firstly I wouldn't call it a solution, at best it is a non-portable non-guaranteed workaround. As for the phrasing of the sentence you quoted, perhaps something like "The above will only do what you want when the compiler implements signed to unsigned int conversion the way you want it to be, as this behaviour is not defined in the standard." That would lead nicely into your following sentence, though also there you may want to separate between what is undefined, (unsigned to signed conversion,) and what is not, (everything else.)
    – wich
    Apr 2, 2016 at 18:38
  • I see the somewhat awkward phrasing of the second sentence is a leftover of the previous version of your answer, as it stands it reads like the whole process is implementation-defined instead of just the unsigned to signed conversion. I'd remove the colon, and make clear the bit after the colon is an explanation of what the code is supposed to do.
    – wich
    Apr 2, 2016 at 18:41
2

Signed integer overflow is undefined according to both C and C++ standards. There's no way to accomplish what you want without a specific platform in mind.

2

It is possible to do this in a correct standard C manner, so long as you have access to an unsigned type that is of the same width as your signed type (that is, has one more value bit). To demonstrate with int64_t:

int64_t mult_wrap_2scomp(int64_t a, int64_t b)
{
    uint64_t result = (uint64_t)a * (uint64_t)b;

    if (result > INT64_MAX)
        return (int64_t)(result - INT64_MAX - 1) - INT64_MAX - 1;
    else
        return (int64_t)result;
}

This does not produce any problematic intermediate results.

1

You could create an objective wrapper around int, but that would involve quite a lot of overhead code.

1

Assuming two's complement signed integer arithmetic (which is a reasonable assumption these days), for addition and subtraction, just cast to unsigned to do the calculation. For multiplication and division, ensure the operands are positive, cast to unsigned, calculate and adjust the signs.

0

It sounds like you want to do unsinged integer arithmetic, then stuff the result into a signed integer:

unsigned char a = 19;
unsigned char b = 12;

signed char c = (signed char)(a*b);

should give you what you're looking for. Let us know if it doesn't.

8
  • That code still exhibits undefined behavior. (Still a signed overflow) Nov 21, 2010 at 22:55
  • @Billy - not disagreeing with you at all... but I have seen a substantial amount of C code (usually realtime/embedded stuff) that relies on signed-subtraction of unsigned integer counter values, in order to obtain a "rolling delta". I thought that the signed-to-unsigned cast was well-defined, while an overflow was not. Just out of curiosity, can you provide a reference to the relevant part of the C standard that declares all this stuff to be "undefined behavior"?
    – Lee
    Nov 21, 2010 at 23:16
  • @Lee: 1. I did not downvote this. 2. I don't see how that cast is not an overflow. I don't have a specific reference saying that the cast is invalid, but I don't have a specific reference saying that it's valid either. Nov 21, 2010 at 23:29
  • 1
    It's not undefined, it's implementation-defined. A cast or implicit conversion to a signed type that's too small to hold the value is not considered an overflow by the standard. Rather an implementation-defined conversion is performed or an implementation-defined signal is raised. Nov 22, 2010 at 0:43
  • And if you want to avoid the implementation-definedness, try this: signed char c; *(unsigned char *)&c = (a*b); Nov 22, 2010 at 0:44
-1

Use bigger datatypes. With GMP you will have all the space you probably need.

2
  • Question specifically asked how to do it without larger datatypes. And GMP is always a bad answer since it likes to abort() the calling program without warning. Nov 22, 2010 at 0:45
  • The way I understood "(or when I am already at int128_t)?" is that he is willing to use larger datatypes if he can. GMP aborts when too much memory is requested.
    – Milan
    Nov 22, 2010 at 1:51

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