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I've tried searching for information on long double, and so far I understand it is implemented differently by compilers.

When using GCC on Ubuntu (XUbuntu) Linux 12.10 I get this:

double PId = acos(-1);
long double PIl = acos(-1);

std::cout << "PId " << sizeof(double) << " : " << PId << std::endl;
std::cout << "PIl " << sizeof(long double)  << " : " << PIl << std::endl;


PId 8  : 3.141592653589793115997963468544185161590576171875
PIl 16 : 3.141592653589793115997963468544185161590576171875

Anyone understand why they output (almost) the same thing?

share|improve this question
acos won't return a long double as long as you don't pass a long double as argument.. – stefan Dec 16 '12 at 17:39
Side note: g++-4.6.3 requires the use of std::acos instead of acos to show a difference (at least on my ubuntu x86 machine) – stefan Dec 16 '12 at 17:46
up vote 5 down vote accepted

To get the correct number of significant digits use std::numeric_limits. In C++11 we have digits10 for decimal significant digits (as opposed to digits which gives significant bits).

#include <cmath>
#include <iostream>
#include <limits>

  double PIf = acos(-1.0F);
  std::cout << "PIf " << sizeof(float) << " :  " << PIf << std::endl;

  double PId = acos(-1.0);
  std::cout << "PId " << sizeof(double) << " :  " << PId << std::endl;

  std::cout.precision(std::numeric_limits<long double>::digits10);
  long double PIl = std::acos(-1.0L);
  std::cout << "PIl " << sizeof(long double)  << " : " << PIl << std::endl;

On x86_64 linux I get:

PIf 4 :  3.14159
PId 8 :  3.14159265358979
PIl 16 : 3.14159265358979324
share|improve this answer
It needs to use std::numeric_limits<float>::digits10 + 1. E.g. std::numeric_limits<uint8_t>::digits10 + 1 == 3 – Maxim Egorushkin Mar 3 '15 at 16:43
@MaximEgorushkin C++11 adds std::numeric_limits<Tp>::digits10 that is guaranteed to round trip. In g++ this is routed to __glibcxx_max_digits(__FLT_MANT_DIG__) where the arg is a macro gotten from configuration. The result is digits10 + 2 for floating point types. For integral types max_digits10 is set to 0 (why?). For the above code I should edit to max_digits10. Also, digits10 has always been there - i.e. before C++11. – emsr Mar 3 '15 at 21:02
I'm going to look further about the integral versions of digits10 and max_digits10. I wonder if either g++ of the standard is making a mistake. – emsr Mar 3 '15 at 21:05
I could argue that, for display purposes, digits10 is correct. The extra digits provided by using max_digits10 are inaccurate but are necessary to ensure that enough bits are loaded after a read so that rewriting the decimal to digits10 still retains accuracy. Still not sure what's up with integral types. – emsr Mar 3 '15 at 21:09
The standard is pretty clear on digits10: is the number of base-10 digits that can be represented by the type T without change, that is, any number with this many decimal digits can be converted to a value of type T and back to decimal form, without change due to rounding or overflow. E.g. any 3 digits cannot be represented by uint8_t, whereas any 2 can. – Maxim Egorushkin Mar 4 '15 at 11:09

According to the reference of acos, it will return a long double only if you pass a long double to it. You'll also have to use std::acos like baboon suggested. This works for me:

#include <cmath>
#include <iostream>

int main() {

  double PId = acos((double)-1);
  long double PIl = std::acos(-1.0l);

  std::cout << "PId " << sizeof(double) << " :  " << PId << std::endl;
  std::cout << "PIl " << sizeof(long double)  << " : " << PIl << std::endl;


PId 8  : 3.141592653589793115997963468544185161590576171875
PIl 12 : 3.14159265358979323851280895940618620443274267017841339111328125


The last line is not part of the output and contains the correct digits for pi to this precision.

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Use std::acos, as suggested by @bamboon. Then 1.0l works fine. – Barmaley.exe Dec 16 '12 at 17:51
Not for MinGW, it seems: error: 'acos' is not a member of 'std' – schnaader Dec 16 '12 at 17:51
Did you include cmath? – stefan Dec 16 '12 at 17:52
Ah, thanks for that, it works. – schnaader Dec 16 '12 at 17:53


long double PIl = std::acos(-1.0L);

That makes you pass a long double and not just an int which gets converted.

Note that mostly all of these numbers are rubbish anyway. With an 8 byte double you get 15 Numbers of precision, if you compare your numbers with the real PI


You see that only the first 15 Numbers fit.

As noted in the comments, you probably won't get double the precision as the implementation might only use a 80Bit representation and then it depends on how many bits it reserves for the mantissa.

share|improve this answer
Ah yes, thank you I get a few extra characters printed. (13 more) Is this expected? I would have thought I should get something about twice the length printed out? – user3728501 Dec 16 '12 at 17:45
@EdwardBird No, that totally depends on how many bit the implementation will reserve for the mantissa. – inf Dec 16 '12 at 17:56

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