Defined in header <cmath> | ||
|---|---|---|
float rint ( float arg ); float rintf( float arg ); | (1) | (since C++11) |
double rint ( double arg ); | (2) | (since C++11) |
long double rint ( long double arg ); long double rintl( long double arg ); | (3) | (since C++11) |
double rint ( IntegralType arg ); | (4) | (since C++11) |
long lrint ( float arg ); long lrintf( float arg ); | (5) | (since C++11) |
long lrint ( double arg ); | (6) | (since C++11) |
long lrint ( long double arg ); long lrintl( long double arg ); | (7) | (since C++11) |
long lrint ( IntegralType arg ); | (8) | (since C++11) |
long long llrint ( float arg ); long long llrintf( float arg ); | (9) | (since C++11) |
long long llrint ( double arg ); | (10) | (since C++11) |
long long llrint ( long double arg ); long long llrintl( long double arg ); | (11) | (since C++11) |
long long llrint ( IntegralType arg ); | (12) | (since C++11) |
arg to an integer value (in floating-point format), using the current rounding mode.arg to an integer value, using the current rounding mode. double).| arg | - | floating point value |
If no errors occur, the nearest integer value to arg, according to the current rounding mode, is returned.
Errors are reported as specified in math_errhandling.
If the result of std::lrint or std::llrint is outside the range representable by the return type, a domain error or a range error may occur.
If the implementation supports IEEE floating-point arithmetic (IEC 60559), For the std::rint function:
arg is ±∞, it is returned, unmodified arg is ±0, it is returned, unmodified arg is NaN, NaN is returned std::lrint and std::llrint functions: arg is ±∞, FE_INVALID is raised and an implementation-defined value is returned FE_INVALID is raised and an implementation-defined value is returned arg is NaN, FE_INVALID is raised and an implementation-defined value is returned POSIX specifies that all cases where std::lrint or std::llrint raise FE_INEXACT are domain errors.
As specified in math_errhandling, FE_INEXACT may be (but isn't required to be on non-IEEE floating-point platforms) raised by std::rint when rounding a non-integer finite value.
The only difference between std::rint and std::nearbyint is that std::nearbyint never raises FE_INEXACT.
The largest representable floating-point values are exact integers in all standard floating-point formats, so std::rint never overflows on its own; however the result may overflow any integer type (including std::intmax_t), when stored in an integer variable.
If the current rounding mode is...
FE_DOWNWARD, then std::rint is equivalent to std::floor. FE_UPWARD, then std::rint is equivalent to std::ceil. FE_TOWARDZERO, then std::rint is equivalent to std::trunc FE_TONEAREST, then std::rint differs from std::round in that halfway cases are rounded to even rather than away from zero. #include <iostream>
#include <cmath>
#include <cfenv>
#include <climits>
int main()
{
#pragma STDC FENV_ACCESS ON
std::fesetround(FE_TONEAREST);
std::cout << "rounding to nearest (halfway cases to even):\n"
<< "rint(+2.3) = " << std::rint(2.3)
<< " rint(+2.5) = " << std::rint(2.5)
<< " rint(+3.5) = " << std::rint(3.5) << '\n'
<< "rint(-2.3) = " << std::rint(-2.3)
<< " rint(-2.5) = " << std::rint(-2.5)
<< " rint(-3.5) = " << std::rint(-3.5) << '\n';
std::fesetround(FE_DOWNWARD);
std::cout << "rounding down:\n"
<< "rint(+2.3) = " << std::rint(2.3)
<< " rint(+2.5) = " << std::rint(2.5)
<< " rint(+3.5) = " << std::rint(3.5) << '\n'
<< "rint(-2.3) = " << std::rint(-2.3)
<< " rint(-2.5) = " << std::rint(-2.5)
<< " rint(-3.5) = " << std::rint(-3.5) << '\n'
<< "rounding down with lrint\n"
<< "lrint(+2.3) = " << std::lrint(2.3)
<< " lrint(+2.5) = " << std::lrint(2.5)
<< " lrint(+3.5) = " << std::lrint(3.5) << '\n'
<< "lrint(-2.3) = " << std::lrint(-2.3)
<< " lrint(-2.5) = " << std::lrint(-2.5)
<< " lrint(-3.5) = " << std::lrint(-3.5) << '\n';
std::cout << "lrint(-0.0) = " << std::lrint(-0.0) << '\n'
<< "lrint(-Inf) = " << std::lrint(-INFINITY) << '\n';
// error handling
std::feclearexcept(FE_ALL_EXCEPT);
std::cout << "std::rint(0.1) = " << std::rint(.1) << '\n';
if (std::fetestexcept(FE_INEXACT))
std::cout << " FE_INEXACT was raised\n";
std::feclearexcept(FE_ALL_EXCEPT);
std::cout << "std::lrint(LONG_MIN-2048.0) = "
<< std::lrint(LONG_MIN-2048.0) << '\n';
if (std::fetestexcept(FE_INVALID))
std::cout << " FE_INVALID was raised\n";
}Possible output:
rounding to nearest (halfway cases to even):
rint(+2.3) = 2 rint(+2.5) = 2 rint(+3.5) = 4
rint(-2.3) = -2 rint(-2.5) = -2 rint(-3.5) = -4
rounding down:
rint(+2.3) = 2 rint(+2.5) = 2 rint(+3.5) = 3
rint(-2.3) = -3 rint(-2.5) = -3 rint(-3.5) = -4
rounding down with lrint
lrint(+2.3) = 2 lrint(+2.5) = 2 lrint(+3.5) = 3
lrint(-2.3) = -3 lrint(-2.5) = -3 lrint(-3.5) = -4
lrint(-0.0) = 0
lrint(-Inf) = -9223372036854775808
std::rint(0.1) = 0
FE_INEXACT was raised
std::lrint(LONG_MIN-2048.0) = -9223372036854775808
FE_INVALID was raised|
(C++11)(C++11)(C++11) | nearest integer not greater in magnitude than the given value (function) |
|
(C++11)(C++11)(C++11) | nearest integer using current rounding mode (function) |
|
(C++11)(C++11) | gets or sets rounding direction (function) |
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