According to the C++ ISO spec, §26.2/2:

The effect of instantiating the template complex for any type other than float, double or long double is unspecified.

Why would the standard authors explicitly add this restriction? This makes it unspecified, for example, what happens if you make complex<int> or a complex<MyCustomFixedPointType> and seems like an artificial restriction.

Is there a reason for this limitation? Is there a workaround if you want to instantiate complex with your own custom type?

I'm primarily asking this question because of this earlier question, in which the OP was confused as to why abs was giving bizarre outputs for complex<int>. That said, this still doesn't quite make sense given that we also might want to make complex numbers out of fixed-points types, higher-precision real numbers, etc.

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    I had to laugh after seeing your previous answer, but it really is a good question.
    – chris
    Jun 19, 2012 at 20:19
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    @chris- I felt bad giving that answer without being able to give a high-level reason for it. I'm usually good at saying "this is a bizarre edge case of C++ for reasons X, Y, and Z," but this time I have no idea what's up. Jun 19, 2012 at 20:20
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    "Standardizing complex<integral> has been discussed on the committee off and on for over a decade and there exists significant resistance from at least one vendor for supporting it." lists.cs.uiuc.edu/pipermail/cfe-dev/2012-March/020398.html
    – user195488
    Jun 19, 2012 at 20:26
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    @HristoIliev- The fact that it's difficult to implement complex for arbitrary types doesn't necessarily mean that it should be impossible to do so. The C++ spec could have defined a new set of traits (similar to container requirements or allocator requirements) saying "if you can implement the following, then you can be stored in a complex." Jun 19, 2012 at 20:44
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    "Unspecifed" is not the same as "Undefined" or "ill formed." Unspecified, in standardese, means "This is potentially legal, but the Standard doesn't require it, and you need to check your compiler docs to see if it's allowed in your actual implementation." Jun 19, 2012 at 20:47

2 Answers 2


You can't properly implement many of the std::complex operations on integers. E.g.,

template <class T>
T abs(const complex<T> &z);

for a complex<long> cannot have T = long return value when complex numbers are represented as (real,imag) pairs, since it returns the value of sqrt(pow(z.real(), 2) + pow(z.imag(), 2)). Only a few of the operations would make sense.

Even worse, the polar named constructor cannot be made reliable without breaking the default constructor and vice versa. The standard would have to specify that "complex integers" are Gaussian integers for them to be of any use, and that one of the constructors is severely broken.

Finally, how would you like your "complex integer division" served, and would you like a "complex remainder" with that? :)

Summarizing, I think it would be more sensible to specify a separate gaussian_int<T> type with just a few operations than graft support for integral T onto std::complex.

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    Funny how we chose the exact same function to illustrate. :) Jun 19, 2012 at 20:28
  • Thanks for introducing a solid mathematical reason for the decision. I think this provides an elegant theoretical reason for the decision. I had not previously heard of the Gaussian integers, so thanks for bringing them up! Jun 23, 2012 at 20:07
  • @templatetypedef: Thank you and +1 for the question. I'd never considered what would happen when complex was templated on integral types. [I'm not a mathematician, though, and if anyone can prove me wrong on this, please do.]
    – Fred Foo
    Jun 23, 2012 at 22:45
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    I know it was only meant rhetorically, but the Gaussian integers are a Euclidean domain (and even norm-Euclidean), and so division with remainder behaves essentially the same way as it it does with the ordinary integers; you just have a few more choices of rounding modes.
    – user1084944
    Apr 18, 2015 at 17:41

Probably for compatibility with the helper functions. For example:

template<class T> T abs (const complex<T>& x);

If T == int, abs would return int, which would mean a massive loss in precision.

  • We already accept massive loss of precision in integer division. 5/3 = 1. I think we could similarly accept abs(std::complex<int>(5, 3)) returning either 5 or 6. It's maybe a niche, but I've spent most of my career working with complex integers. For people like me, it's a great shame they are not supported.
    – Harry
    Oct 15, 2021 at 20:28

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