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I want to use the PI constant and trigonometric functions in some C++ program. I get the trigonometric functions with include <math.h>. However, there doesn't seem to be a definition for PI in this header file.

How can I get PI without defining it manually?

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@tiwo, are you asking what's the difference between 3.14, 3.141592 and atan(1) * 4? –  Nikola Malešević Sep 6 '12 at 16:09
As a side note, cmath should be used in C++ instead of math.h, which is for C. –  juzzlin Nov 20 at 17:13

11 Answers 11

up vote 202 down vote accepted

On some (especially older) platforms (see the comments below) you might need to


and then include the necessary header file:

#include <math.h>

and the value of pi can be accessed via:


In my math.h (2014) it is defined as:

# define M_PI           3.14159265358979323846  /* pi */

but check your math.h for more. An extract from the "old" math.h (in 2009):

/* Define _USE_MATH_DEFINES before including math.h to expose these macro
 * definitions for common math constants.  These are placed under an #ifdef
 * since these commonly-defined names are not part of the C/C++ standards.


  1. on newer platforms (at least on my 64 bit Ubuntu 14.04) I do not need to define the _USE_MATH_DEFINES

  2. On (recent) Linux platforms there are long double values too provided as a GNU Extension:

    # define M_PIl          3.141592653589793238462643383279502884L /* pi */
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#define _USE_MATH_DEFINES followed by #include <math.h> defines M_PI in visual c++. Thanks. –  Etan Nov 13 '09 at 8:30
Works with cygwin headers as well. –  robjb Mar 4 '11 at 5:35
works in xcode aswell –  madoke Mar 5 '12 at 3:05
You can always include cmath instead of math.h. –  Richard J. Ross III Apr 15 '12 at 20:34
Does NOT work in vxworks 6.9 (sigh) –  Doug Null Jul 3 '12 at 21:14

Pi can be calculated as atan(1)*4. You could calculate the value this way and cache it.

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For c++11 users: constexpr double pi() { return std::atan(1)*4; } –  matiu Sep 3 '12 at 16:17
-1: Works only if atan(1)*4 == 3.141592653589793238462643383279502884 (roughly speaking). I wouldn't bet on it. Be normal and use a raw literal to define the constant. Why lose precision when you don't need to? –  Thomas Eding Oct 23 '12 at 23:49
@ThomasEding - my math.h file reads #define M_PI 3.14159265358979323846 (if strict ANSI). –  Steve Nov 27 '12 at 6:41
One can avoid the multiplication operation with atan2(0, -1);. –  legends2k May 29 '13 at 21:18
@matiu atan is not constexpr. –  R. Martinho Fernandes Sep 5 '13 at 15:28

You could also use boost, which defines important math constants with maximum accuracy for the requested type (i.e. float vs double).

const double pi = boost::math::constants::pi<double>();

Check out the boost documentation for more examples.

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Boost: Boosting the already unnecessary complexity of C++ since 1999! –  Dan Moulding Jul 28 '10 at 18:22
Catchy and partly true. On the other hand boost can be phenomenally useful at times... –  BuschnicK Jul 29 '10 at 14:52
@DanMoulding: Uhm. Is C the only other language you know? Because all other languages I know, except C, have a standard library which is magnitudes bigger than C++' (e.g. Python, Haskell, C#, PHP, Delphi, Erlang, Java, ......). From personal experience, that elitist not gonna use libs-opinion is a pest and probably the number one reason for bad software written in C++. –  phresnel Jul 9 '13 at 6:15
@phresnel seriously, boost is the only reason why c++ can be as easily written as php with a massive relative performance increase, not to mention its children: json-spirit & websocket++. –  user1382306 Aug 10 '13 at 23:13
@Gracchus: Yup. C++ without libraries (or without the new C++11 libraries) is, as much as I like that language and as much as I would like to code everything myself, not very productive. –  phresnel Aug 11 '13 at 10:22

I would recommend just typing in pi to the precision you need. This would add no calculation time to your execution, and it would be portable without using any headers or #defines. Calculating acos or atan is always more expensive than using a precalculated value.

const double PI  =3.141592653589793238463;
const float  PI_F=3.14159265358979f;
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+3.14: ****THIS**** –  Thomas Eding Oct 23 '12 at 23:54
The final 2 should be a 3 you mean to round correctly –  Johan Lundberg Dec 25 '12 at 22:03
@JohanLundberg Stack Overflow is a wiki (; –  Francisco Presencia Jan 19 at 5:40
This is a great example why we should not take this approach, we people make mistakes, rounding, copy&pasting, etc. I think using M_PI is the right approach. –  nacho4d Jan 21 at 1:47
If one is doing this in C++11, make the const a constexpr. –  legends2k Jan 23 at 10:51

Rather than writing


I would recommend using -D_USE_MATH_DEFINES or /D_USE_MATH_DEFINES depending on your compiler.

This way you are assured that even in the event of someone including the header before you do (and without the #define) you will still have the constants instead of an obscure compiler error that you will take ages to track down.

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Good tip. If "you" are a compilation unit then of course you can ensure the macro is defined before anything is included. But if "you" are a header file, it's out of your control. –  Steve Jessop Nov 13 '09 at 19:18
In fact even if "you" are a compilation unit... depending on the ordering of the headers is a the shortest path toward maintenance nightmare... –  Matthieu M. Nov 13 '09 at 19:37
You don't have to depend on the ordering of the headers, though. It doesn't matter whether headers include each other, provided that you do the #define before you #include anything at all (at least, assuming that nothing #undefs it). Same applies to NDEBUG. –  Steve Jessop Nov 14 '09 at 3:13

Since the official standard library doesn't define a constant PI you would have to define it yourself. So the answer to your question "How can I get PI without defining it manually?" is "You don't -- or you rely on some compiler-specific extensions.". If you're not concerned about portability you could check your compiler's manual for this.

C++ allows you to write

const double PI = std::atan(1.0)*4;

but the initialization of this constant is not guaranteed to be static. The G++ compiler however handles those math functions as intrinsics and is able to compute this constant expression at compile-time.

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The standard does not define pi? You got to be kidding me... –  Navin Mar 30 at 5:14
I usually use acos(-1), as you say, they are compile-time evaluated. When I tested M_PI, acos(-1) and atan(1)*4, I got identical values. –  Micah Sep 9 at 19:14

From the Posix man page of math.h:

   The  <math.h>  header  shall  provide for the following constants.  The
   values are of type double and are accurate within the precision of  the
   double type.

   M_PI   Value of pi

   M_PI_2 Value of pi/2

   M_PI_4 Value of pi/4

   M_1_PI Value of 1/pi

   M_2_PI Value of 2/pi

          Value of 2/ sqrt pi
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Standard C++ doesn't have a constant for PI.

Many C++ compilers define M_PI in cmath (or in math.h for C) as a non-standard extension. You may have to #define _USE_MATH_DEFINES before you can see it.

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I generally prefer defining my own: const double PI = 2*acos(0.0); because not all implementations provide it for you.

The question of whether this function gets called at runtime or is static'ed out at compile time is usually not an issue, because it only happens once anyway.

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acos(-1) is also pi. –  Roderick Taylor Aug 5 '11 at 2:55
It's often less CPU instructions and/or less latency to load an immediate operand than read an operand from a memory location. Also, only expressions that are known at compile-time could be pre-computed (I mean double x = pi * 1.5; and the like). If you ever intend to use PI in crunchy math in tight loops, you better make sure the value is known to the compiler. –  Eugene Ryabtsev Aug 19 at 7:55

Or you could define your own PI constant!

using namespace std;

int main()
    const double PI =  3.141592;
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The question was How can I get PI without defining it manually?. You are defining it manually. –  blalasaadri Dec 15 at 13:10

On windows (cygwin + g++), I've found it necessary to add the flag -D_XOPEN_SOURCE=500 for the preprocessor to process the definition of M_PI in math.h.

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