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There is a rather silly problem with the number pi in C and C++. As far as I know M_PI defined in math.h is not required by any standard.

New C++ standards introduced a lot of complicated math in the standard library - hyperbolic functions, std::hermite and std::cyl_bessel_i, different random number generators and so on and so forth.

Did any of the 'new' standards bring in a constant for pi? If not - why? How does all this complicated math work without it?

I am aware of similar questions about pi in C++ (they are several years and standards old); I would like to know the current state of the problem.

I am also very interested in why oh why C++ still doesn't have a pi constant but has a lot of more complicated math.

UPD: I know that I can define pi myself as 4*atan(1) or acos(1) or double pi = 3.14. Sure. But why in 2018 do I still have to do it? How do standard math functions work without pi?

UPD2: According to this trip report for C++ Committee meeting in July 2019 in Cologne, proposal P0631 (math constants) was accepted into C++20. So it looks like at long last we will have number pi in the standard library!

  • You note the existence of old questions such as Best platform independent pi constant?. If you worry they are out of date you could always set a bounty on one of them asking for answers based on C++17 etc... Then all the answers would be in one place. Why is still a good question but perhaps this should focus on why and asking for up to date should be a bounty on existing questions. – Shafik Yaghmour Apr 13 '18 at 5:48
  • I think it may worth adding new answers since C++20 added a pi constant as far as I know – Guillaume Racicot Aug 5 '19 at 16:18
  • @GuillaumeRacicot i updated the question. Not sure if we should address C++20 since it's not officially out yet. – Amomum Aug 5 '19 at 16:22
  • @GuillaumeRacicot: It’s a bit late to add one… – Davis Herring Oct 9 '19 at 22:16
97

No, pi is still not a constant introduced into the language, and it's a pain in the neck.

I'm fortunate in that I use Boost (www.boost.org) and they define pi with a sufficiently large number of decimal places for even a 128 bit long double.

If you don't use Boost then hardcode it yourself. Defining it with a trigonometric function is tempting but if you do that you can't then make it a constexpr. The accuracy of the trigonometric functions is also not guaranteed by any standard I know of (cf. std::sqrt), so really you are on dangerous ground indeed relying on such a function.

There is a way of getting a constexpr value for pi using metaprogramming: see http://timmurphy.org/2013/06/27/template-metaprogramming-in-c/

31

No, none of the standards introduces the constant that would represent the number pi (π). You can approximate the number in your code:

constexpr double pi = 3.14159265358979323846;

Other languages such as C# have the constant declared in their libraries. C++ doesn't.

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    You might want to add inline for C++17+. – Deduplicator Apr 11 '18 at 15:05
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    Ta. Have an upvote, but note that your definition is still vulnerable to imprecision with platforms with different definitions of double. C# has it easy since the double type is fixed. If I were on the C++ standards committee I'd propose something like std::constants<double>::pi – Bathsheba Apr 11 '18 at 15:15
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    @Deduplicator isn't constexpr implicitly inline as well...? – whn Apr 11 '18 at 15:32
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    @R. Fair enough, although you should static assert on std::numeric_limits<double>::is_iec559; in that case. Which, I confess, is what I have in my "master header". Note that formally you need to check all the floating point types separately. Just because one is IEEE754 doesn't mean they all are. – Bathsheba Apr 11 '18 at 15:51
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    @DanielSchepler So, what is that "number" supposed to be? I didn't know there are double numbers with 16 base. – BЈовић Apr 13 '18 at 9:40
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As others said there is no std::pi but if you want precise PI value you can use:

constexpr double pi = std::acos(-1);

This assumes that your C++ implementation produces a correctly-rounded value of PI from acos(-1.0), which is common but not guaranteed.

It's not constexpr, but in practice optimizing compilers like gcc and clang evaluate it at compile time. Declaring it const is important for the optimizer to do a good job, though.

  • 1
    This is dangerous because the acos() function has an infinite slope at x = -1. Consequently, this method relies on the acos() implementation to basically explicitly catch the case of a precise -1 argument, and return the correct constant directly. Better use something like 4*atan(1) which is mathematically much more robust (well-behaved slope at x = 1 and multiplication by 4 is always precise with floating point math). – cmaster - reinstate monica Aug 5 '19 at 16:17
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    We are not allowed to use std::acos in a constant expression. clang reports this as error. Kindly note that this is a non-conforming extension and should eventually be fixed in gcc. Kindly refer to this answer for more details. – badola Sep 12 '19 at 6:31
27

M_PI is defined by "a standard", if not a language standard: POSIX with the X/Open System Interfaces extension (which is very commonly supported and required for official UNIX branding).

It's (still) not certain what will be in C++20, but since you asked: it probably will have such constants. The paper was merged in the last round of C++20 features (for the Committee Draft in August 2019).

Specifically, there will both be std::numbers::pi (of type double) and a variable template that you can use if you want a different floating point type, e.g. std::numbers::pi_v<float>. The full list of constants can be see in [numbers.syn].

  • Feel free to reword my edit as you see fit - I just wanted to add the actual spelling of the new constants in here for posterity. – Barry Oct 9 '19 at 15:30
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It is not obviously a good idea because there is no obvious type with which define pi that is universally applicable across domains.

Pi is, of course, an irrational number so it cannot be correctly represented by any C++ type. You might argue that the natural approach, therefore, is to define it in the largest floating point type available. However, the size of the largest standard floating point type long double is not defined by the C++ standard so the value of the constant would vary between systems. Worse, for any program in which the working type was not this largest type, the definition of pi would be inappropriate since it would impose a performance cost on every use of pi.

It is also trivial for any programmer to find the value of pi and define their own constant suitable for use, so it does not provide any great advantage to include it in the maths headers.

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    C++14 gave us variable templates. Isn't it what they are for? – Amomum Apr 11 '18 at 15:43
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    spoken like a true committee member, talk about all the ways it can't be done despite clear path forward being presented. See the suprisingly relevant example Variable Templates. I don't think your answer is bad, but I'm sure it wouldn't help Bjarne Stroustrup's eternal depression over the regret of handing control of C++'s future to a very indecisive committee. – whn Apr 11 '18 at 15:48
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    @snb I agree that making pi a polymorphic constant is the clear path forward – in a language with Hindley-Milner type inference. In Haskell, we've always had pi :: Floating a => a, so that pi would automatically have the value 3.1415927 in a Float context, 3.141592653589793 in a Double context, and π in an symbolic-computation context. But would people really like having to explicitly instantiate the template parameter? Seems a bit awkward, especially if a fixed long double implementation would give identical results in most applications. – leftaroundabout Apr 11 '18 at 19:59
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    @leftaroundabout I believe writing auto a = pi<float>; is completely fine, certainly more readable then notorious 4*atan(1) – Amomum Apr 12 '18 at 8:53
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    Ugh, I downvoted this by misclick and now I can't undo it. Sorry. This deserves a +1 for a pretty good explanation of the committee's reasoning for why it hasn't been added, even if I personally think the reasoning is fundamentally flawed for the reasons people have already pointed out. – Fund Monica's Lawsuit Apr 14 '18 at 5:49
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Edited - To remove the term necessary, because it proved controversial. It is too much of an absolute term.

C++ is a large and complex language, for that reason the Standards Committee only include things which are strongly required. As much as possible is left to non-language standard libraries... like Boost.
boost::math::constants

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    Sure, std::hermite and std::cyl_bessel_i and std::cosh and std::mersenne_twister_engine and std::ranlux48 and std::cauchy_distribution and std::assoc_laguerre and std::beta all were absolutely necessary, we all use them every day! – Amomum Apr 13 '18 at 9:24
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    I'm pretty sure you couldn't get even the committee itself to sign off on the idea that everything they vote in is "absolutely necessary". It's not about necessity but about adding value to the language -- almost nothing in the standard library is necessary to write programs, and for that matter most of the core language can be tossed out as well (if you don't mind working in a Turing tarpit, that is). The value of the inclusion of a constant for pi can be debated, but the idea that it's not in there because it's just not necessary doesn't hold water. – Jeroen Mostert Apr 13 '18 at 9:38
  • Don't complain at me, I'm just quoting the standards committee. There were long open discussions about how much of boost should be included in the C++11 standard. The reason why such a small subset made it is because the compiler writers complained about how much testing was involved. Therefore, if something is in the standards, it's there because someone thought it necessary to standardise it. Just because you don't know why, doesn't mean there was no reason. – Tiger4Hire Apr 13 '18 at 10:11
  • @Tiger4Hire I'm sure there is reason for everything, I just can't understand why constant for pi was not added when a lot of more complex things were. Constant is easy to write with variable templates and won't require a lot of testing from compiler writers. – Amomum Apr 13 '18 at 14:33
  • @Amomum : Yes, adding pi seems like a small overhead for a big win. Mind, personally I'd prefer to see std::network before std::math::constants. – Tiger4Hire Apr 13 '18 at 16:25

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