Using M_PI with C89 standard

Question

I'm using C and trying to get access to the constant M_PI (3.14159...). I have imported the math.h header file, but the M_PI constant was still undefined. Through some searching on StackOverflow I have found that I need to add #define _USE_MATH_DEFINES to my code (see example code below). This works fine when compiling normally, but I need to be able to compile with the std=c89 flag for the work that I'm doing.

How should I access M_PI from some C89 code?

Answer 1

A conforming standard library file math.h is not only not required to, but actually must not define M_PI by default. In this context 'by default' means that M_PI must only get defined through compiler-specific tricks, most often undefined behavior through the use of reserved identifiers.

Just define the constant yourself (you can use the name M_PI freely, but should you want to be able to compile the code with a non-conforming compiler, you must first check that M_PI is not already defined). For convention's sake, do not define M_PI as anything other than (the approximation of) pi.

Answer 2

I would go for

#ifndef M_PI
#    define M_PI 3.14159265358979323846
#endif

Answer 3

M_PI is not required by the C standard, it's just a common extension, so if you want to be standard you shouldn't rely on it. However, you can easily define your own #define for it, last time I checked it was a universal constant so there's not much space for confusion. :)

Answer 4

I fail to see what the problem is here; there is no incompatability between -std=c89 and _USE_MATH_DEFINES, one defines what language the compiler will compile, the other defines what parts of math.h get enabled.

Those parts that are enabled are not defined as part of the ISO C standard library, but that is not the same thing as not being standard C language, language and library are separate entities in C. It is no less C89 compliant than it would be if you had defined your own macros in your own header.

I would however suggest that you define the macro on the command-line rather than in the code:

-std=c89 -D_USE_MATH_DEFINES

If you ever encounter a math.h implementation that does not define M_PI, then that is easily fixed without code modification by similarly using command line defined macros:

-std=c89 -DM_PI=3.14159265358979323846

Answer 5

In addition to M_PI definition missing, recall that the following only defines a double constant.

#ifndef M_PI
  #define M_PI 3.141592653589793238462643383279502984
  //           1 23456789 123456789 123456789 1234567
#endif

Even though the 3.14159... in code is good for about 113-bits, the precision typically becomes 53-bit as it is a double constant.

This can be quite important for long double objects and math.

Be sure to use L when declaring a long double constant

#include <math.h>
#include <stdio.h>
#ifndef M_PI
  #define M_PI 3.141592653589793238462643383279502984
#endif
#define M_PI_L 3.141592653589793238462643383279502984L

#define T(s) #s
#define S(s) T(s)

int main() {
  printf("acos(-1):             %.*g\n", DBL_DECIMAL_DIG, acos(-1));
  printf("M_PI(string):         %s\n", S(M_PI));
  printf("M_PI(double):         %.*g\n", DBL_DECIMAL_DIG, M_PI);
  printf("M_PI(long double):    %.*Lg\n", LDBL_DECIMAL_DIG, (long double) M_PI);
  printf("acosl(-1):            %.*Lg\n", LDBL_DECIMAL_DIG, acosl(-1));
  printf("M_PI_L(string):       %s\n", S(M_PI_L));
  printf("M_PI_L(long double):  %.*Lg\n", LDBL_DECIMAL_DIG, M_PI_L);
}

Sample output:

acos(-1):             3.1415926535897931
M_PI(string):         3.1415926535897932384626433832795
M_PI(double):         3.1415926535897931
M_PI(long double):    3.141592653589793116
acosl(-1):            3.14159265358979323851
M_PI_L(string):       3.141592653589793238462643383279502984L
M_PI_L(long double):  3.14159265358979323851