Namespaces
Variants

    std::isfinite

    From cppreference.com
     
    C++
     
    Numerics library
     
    Common mathematical functions
    Functions
    Basic operations
    (C++11)  
    (C++11)
    (C++11)
    (C++11)
    (C++11)
    (C++11)
    (C++11)(C++11)(C++11)
    Exponential functions
    (C++11)
    (C++11)

    (C++11)
    (C++11)
    Power functions
    (C++11)
    (C++11)
    Trigonometric and
    hyperbolic functions
    (C++11)
    (C++11)
    (C++11)

    Error and gamma functions
    (C++11)
    (C++11)
    (C++11)
    (C++11)
    Nearest integer floating point operations
    (C++11)(C++11)(C++11)
    (C++11)
    (C++11)
    (C++11)(C++11)(C++11)
    Floating point manipulation functions
    (C++11)(C++11)
    (C++11)
    (C++11)
    (C++11)(C++11)
    (C++11)
    Classification and comparison
    (C++11)
    (C++11)
    (C++11)
    (C++11)
    (C++11)
    (C++11)
    (C++11)
    (C++11)
    (C++11)
    (C++11)
    (C++11)
    (C++11)
    Types
    (C++11)
    (C++11)
    (C++11)
    Macro constants
     
    Defined in header <cmath>
    (1)
    bool isfinite( float num ); bool isfinite( double num ); bool isfinite( long double num );
    		 (since C++11)
    (until C++23)
    constexpr bool isfinite( /*floating-point-type*/ num );
    		 (since C++23)
    SIMD overload (since C++26)
    Defined in header <simd>
    template< /*math-floating-point*/ V > constexpr typename /*deduced-simd-t*/<V>::mask_type isfinite ( const V& v_num );
    		 (S) (since C++26)
    Defined in header <cmath>
    template< class Integer > bool isfinite( Integer num );
    		 (A) (since C++11)
    (constexpr since C++23)
    1) Determines if the given floating point number num has finite value i.e. it is normal, subnormal or zero, but not infinite or NaN. The library provides overloads for all cv-unqualified floating-point types as the type of the parameter num.(since C++23)
    S) The SIMD overload performs an element-wise std::isfinite on v_num.
    (See math-floating-point and deduced-simd-t for their definitions.)
    		 (since C++26)
    A) Additional overloads are provided for all integer types, which are treated as double.

    Parameters

    num - floating-point or integer value
    v_num - a data-parallel object of std::basic_simd specialization where its element type is a floating-point type

    Return value

    1) true if num has finite value, false otherwise.
    S) A data-parallel mask object where the ith element equals true if v_num[i] has finite value or false otherwise for all i in the range [0v_num.size()).

    Notes

    See More

    The additional overloads are not required to be provided exactly as (A). They only need to be sufficient to ensure that for their argument num of integer type, std::isfinite(num) has the same effect as std::isfinite(static_cast<double>(num)).

    Examples

    Run this code
    #include <cfloat>
#include <cmath>
#include <iostream>

int main()
{
    std::cout << std::boolalpha
              << "isfinite(NaN) = " << std::isfinite(NAN) << '\n'
              << "isfinite(Inf) = " << std::isfinite(INFINITY) << '\n'
              << "isfinite(-Inf) = " << std::isfinite(-INFINITY) << '\n'
              << "isfinite(HUGE_VAL) = " << std::isfinite(HUGE_VAL) << '\n'
              << "isfinite(0.0) = " << std::isfinite(0.0) << '\n'
              << "isfinite(exp(800)) = " << std::isfinite(std::exp(800)) << '\n'
              << "isfinite(DBL_MIN/2.0) = " << std::isfinite(DBL_MIN / 2.0) << '\n';
}

    Output: 

    isfinite(NaN) = false
isfinite(Inf) = false
isfinite(-Inf) = false
isfinite(HUGE_VAL) = false
isfinite(0.0) = true
isfinite(exp(800)) = false
isfinite(DBL_MIN/2.0) = true

    See also

    (C++11)
    		 categorizes the given floating-point value
    (function) [edit]
    (C++11)
    		 checks if the given number is infinite
    (function) [edit]
    (C++11)
    		 checks if the given number is NaN
    (function) [edit]
    (C++11)
    		 checks if the given number is normal
    (function) [edit]
    C documentation for isfinite