std::rand said,

int rand();
Returns a pseudo-random integral value between ​0​ and RAND_MAX (​0​ and RAND_MAX included).

Since it is guaranteed that a non-negative integer will be returned, why the return type is signed?

I am not talking about if we should use it here. Is it a historical issue or some bad design?

  • 1
    Possibly because int was considered a first-class type in the old days. (K&R C legacy ?) Notice that relatively few languages support unsigned types.
    – user1196549
    Mar 1, 2022 at 9:35
  • 16
    If RAND_MAX is less than 2^31 (and usually its much less) there's no benefit to it being unsigned, there are downsides like if someone does rand() % 100 - 50 they might get surprising results Mar 1, 2022 at 9:36
  • 6
    Note that rand() is a very old function. It was definitely here before C was standardized. It is possible it was created even before unsigned ints were added to the language.
    – freakish
    Mar 1, 2022 at 9:49
  • 7
    It's historical. (Going from memory) rand()/srand() were specified before C supported unsigned (or long!) types. At that time, most C implementations had a 16-bit int and only a few had a 32-bit int, which is why RAND_MAX is only required to be 32767 (or more). Unsigned and long types (among other things) were introduced when Unix was rewritten in C (in 1973). Subsequent evolutions of C (including the C89 standard) maintained backward compatibility, and the first C++ standard (according to the ARM) was required to maintain compatibility to C89 where possible.
    – Peter
    Mar 1, 2022 at 10:02

2 Answers 2


There is much debate about unsigned. Without going too much into subjective territory, consider the following: What matters is not whether the value returned from rand() cannot be negative. What matters is that rand() returns a value of a certain type and that type determines what you can do with that value. rand() never returns a negative value, but does it make sense to apply operations on the value that make the value negative? Certainly yes. For example you might want to do:

 auto x = rand() % 6 - 3;

If rand() would return an unsigned then this would lead to confusing bugs in code that looks ok.

Using unsigned for example for indices is a different story. An index is always positive. If you want to apply operations to it that turn the value negative then it is not an index anymore. rand() % 6 -3 on the other hand is a random number, be it positive or not.

A type is more than the range of values it can represent. Signed and unsigned integers have different semantics.

Note that C++20 introduced std::ssize. It's the size of a container, it can only be positive. Nevertheless it is signed. That's one example for positive values that are signed merely to allow signed arithmetics. Also it was not an option to change std::size to return a signed, because that would break existing code.

And as a sidenote consider that Java has no unsigned integer type at all, because unsigned arithmetics were considered too confusing.

  • 2
    Thanks for your answer. @Alan and you give a similar example to prove that use unsigned is even worse here. Like you said, what matters is the type but not the value. If rand is unsiged, I will definitely don't do the minus. It's something you could avoid by being careful. It could also have the same problem when using std::uniform_int_distribution<unsigend int>. Please correct me if I am something wrong.
    – Nimrod
    Mar 1, 2022 at 10:01
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    @Nimrod when you use std::uniform_int_distribution<unsigned int> then you are specifically asking for unsigned. Being careful is not the best solution to avoid bugs. size() being unsigned is a good example. for (int i= container.size()-1; i>=0; --i) looks correct but it is not (if container is empty the loop will go havoc). The author did not explicitly ask for unsigned when they used size()-1 but thats what they get Mar 1, 2022 at 10:07
  • 3
    "Java has no unsigend integer type at all". Alas, the Java char is a 16 bit unsigned type.
    – Bathsheba
    Mar 1, 2022 at 14:45
  • 3
    @Bathsheba Why alas? I believe that Java's char type represents a UTF-16 code unit, and as such needs to be unsigned.
    – catnip
    Mar 1, 2022 at 15:28
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    @Bathsheba: Java char is not intended to be used for arithmetic.
    – Ben Voigt
    Mar 1, 2022 at 20:34

Stroustrup writes in "The C++ Programming Language: 6.2.4 Integer Types": *The unsigned integer types are ideal for uses that treat storage as a bit array. Using an unsigned instead of an int to gain one more bit to represent positive integers is almost never a good idea. Attempts to ensure that some values are positive by declaring variables unsigned will typically be defeated by the implicit conversion rules.

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