std::erf,std::erff,std::erfl

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Numerics library

Common mathematical functions

Mathematical special functions(C++17)

Mathematical constants(C++20)

Basic linear algebra algorithms(C++26)

Data-parallel types (SIMD)(C++26)

Floating-point environment(C++11)

Complex numbers

Numeric array (valarray)

Pseudo-random number generation

Bit manipulation(C++20)

Saturation arithmetic(C++26)

(C++17)

(C++17)

(C++20)

(C++20)

Generic numeric operations

iota (C++11)
ranges::iota (C++23)
accumulate
inner_product
adjacent_difference
partial_sum

reduce (C++17)
transform_reduce (C++17)
inclusive_scan (C++17)
exclusive_scan (C++17)
transform_inclusive_scan (C++17)
transform_exclusive_scan (C++17)

C-style checked integer arithmetic

ckd_add (C++26)
ckd_sub (C++26)

ckd_mul (C++26)

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Common mathematical functions

Functions

Basic operations

abs(int)labsllabsimaxabs (C++11)
abs(float)fabs
divldivlldivimaxdiv (C++11)

fmod
remainder (C++11)
remquo (C++11)
fma (C++11)
fmax (C++11)
fmin (C++11)
fdim (C++11)
nannanfnanl (C++11)(C++11)(C++11)

Exponential functions

exp
exp2 (C++11)
expm1 (C++11)

log
log10
log1p (C++11)
log2 (C++11)

Power functions

sqrt
cbrt (C++11)

hypot (C++11)
pow

Trigonometric and
hyperbolic functions

sin
cos
tan
asin
acos
atan
atan2

sinh
cosh
tanh
asinh (C++11)
acosh (C++11)
atanh (C++11)

Error and gamma functions

erf (C++11)
erfc (C++11)

lgamma (C++11)
tgamma (C++11)

Nearest integer floating point operations

ceil
floor
roundlroundllround (C++11)(C++11)(C++11)

trunc (C++11)
nearbyint (C++11)
rintlrintllrint (C++11)(C++11)(C++11)

Floating point manipulation functions

ldexp
scalbnscalbln (C++11)(C++11)
ilogb (C++11)
logb (C++11)

frexp
modf
nextafternexttoward (C++11)(C++11)
copysign (C++11)

Classification and comparison

fpclassify (C++11)
isfinite (C++11)
isinf (C++11)
isnan (C++11)
isnormal (C++11)
signbit (C++11)

isgreater (C++11)
isgreaterequal (C++11)
isless (C++11)
islessequal (C++11)
islessgreater (C++11)
isunordered (C++11)

Types

div_t
ldiv_t
lldiv_t (C++11)

imaxdiv_t (C++11)
float_t (C++11)
double_t (C++11)

Macro constants

HUGE_VALFHUGE_VALHUGE_VALL (C++11)(C++11)
math_errhandlingMATH_ERRNOMATH_ERREXCEPT (C++11)
INFINITY (C++11)
NAN (C++11)

Classification
FP_NORMALFP_SUBNORMALFP_ZEROFP_INFINITEFP_NAN (C++11)(C++11)(C++11)(C++11)(C++11)

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Defined in header`<cmath>`
	(1)
float erf(float num); double erf(double num); longdouble erf(longdouble num);			(until C++23)
/floating-point-type/ erf(/floating-point-type/ num);			(since C++23) (constexpr since C++26)
float erff(float num);		(2)	(since C++11) (constexpr since C++26)
longdouble erfl(longdouble num);		(3)	(since C++11) (constexpr since C++26)
SIMD overload(since C++26)
Defined in header`<simd>`
template</math-floating-point/ V> constexpr/deduced-simd-t/<V> erf(const V& v_num);		(S)	(since C++26)
Additional overloads(since C++11)
Defined in header`<cmath>`
template<class Integer> double erf( Integer num);		(A)	(constexpr since C++26)

1-3) Computes theerror function ofnum. The library provides overloads ofstd::erf for all cv-unqualified floating-point types as the type of the parameter.(since C++23)

S) The SIMD overload performs an element-wisestd::erf onv_num.

(Seemath-floating-point anddeduced-simd-t for their definitions.)

(since C++26)

A) Additional overloads are provided for all integer types, which are treated asdouble.

(since C++11)

[edit]Parameters

num

floating-point or integer value

[edit]Return value

If no errors occur, value of the error function ofnum, that is\(\frac{2}{\sqrt{\pi} }\int_{0}^{num}{e^{-{t^2} }\mathsf{d}t}\)

√π

∫num
0e^-t2dt, is returned.
If a range error occurs due to underflow, the correct result (after rounding), that is\(\frac{2\cdot num}{\sqrt{\pi} }\)

2*num

√π

is returned.

[edit]Error handling

Errors are reported as specified inmath_errhandling.

If the implementation supports IEEE floating-point arithmetic (IEC 60559),

If the argument is ±0, ±0 is returned.
If the argument is ±∞, ±1 is returned.
If the argument is NaN, NaN is returned.

[edit]Notes

Underflow is guaranteed if|num|<DBL_MIN*(std::sqrt(π)/2).

\(\operatorname{erf}(\frac{x}{\sigma \sqrt{2} })\)erf(

σ√2

) is the probability that a measurement whose errors are subject to a normal distribution with standard deviation\(\sigma\)σ is less than\(x\)x away from the mean value.

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

[edit]Example

The following example calculates the probability that a normal variate is on the interval (x1, x2):

Run this code

#include <cmath>#include <iomanip>#include <iostream> double phi(double x1,double x2){return(std::erf(x2/std::sqrt(2))- std::erf(x1/std::sqrt(2)))/2;} int main(){std::cout<<"Normal variate probabilities:\n"<<std::fixed<<std::setprecision(2);for(int n=-4; n<4;++n)std::cout<<'['<<std::setw(2)<< n<<':'<<std::setw(2)<< n+1<<"]: "<<std::setw(5)<<100* phi(n, n+1)<<"%\n"; std::cout<<"Special values:\n"<<"erf(-0) = "<< std::erf(-0.0)<<'\n'<<"erf(Inf) = "<< std::erf(INFINITY)<<'\n';}

Output:

Normal variate probabilities:[-4:-3]:  0.13%[-3:-2]:  2.14%[-2:-1]: 13.59%[-1: 0]: 34.13%[ 0: 1]: 34.13%[ 1: 2]: 13.59%[ 2: 3]:  2.14%[ 3: 4]:  0.13%Special values:erf(-0) = -0.00erf(Inf) = 1.00