# cexp(3) [osx man page]

```CEXP(3) 						   BSD Library Functions Manual 						   CEXP(3)

NAME
cexp -- complex exponential function

SYNOPSIS
#include <complex.h>

double complex
cexp(double complex z);

long double complex
cexpl(long double complex z);

float complex
cexpf(float complex z);

DESCRIPTION
cexp(z) returns the complex exponential of z.

cexp(conj(z)) = conj(cexp(z)), for all complex floating-point numbers z.

SPECIAL VALUES
The conjugate symmetry of cexp() is used to abbreviate the specification of special values.

cexp(+-0 + 0i) returns 1 + 0i.

cexp(x + inf i) returns NaN + NaN i, and raises the invalid flag, for finite x.

cexp(x + NaN i) returns NaN + NaN i, for finite x.

cexp(inf + 0i) returns inf + 0i.

For the following two cases, cis(y) denotes cos(y) + I*sin(y).

cexp(-inf + yi) returns 0*cis(y), for finite y.

cexp(inf + yi) returns inf*cis(y), for finite nonzero y.

cexp(-inf + inf i) returns -0 + 0i.

cexp(inf + inf i) returns -inf + NaN i, and raises the invalid flag.

cexp(-inf + NaN i) returns -0 + 0i.

cexp(inf + NaN i) returns -inf + NaN i.

cexp(NaN + 0i) returns NaN + 0i.

cexp(NaN + yi) returns NaN + NaN i for all nonzero numbers y.

cexp(NaN + NaN i) returns NaN + NaN i.

exp(3) clog(3) complex(3)

STANDARDS
The cexp() function conforms to ISO/IEC 9899:2011.

4th Berkeley Distribution					 December 11, 2006					 4th Berkeley Distribution```

## Check Out this Related Man Page

```CEXP(3) 						   BSD Library Functions Manual 						   CEXP(3)

NAME
cexp -- complex exponential function

SYNOPSIS
#include <complex.h>

double complex
cexp(double complex z);

long double complex
cexpl(long double complex z);

float complex
cexpf(float complex z);

DESCRIPTION
cexp(z) returns the complex exponential of z.

cexp(conj(z)) = conj(cexp(z)), for all complex floating-point numbers z.

SPECIAL VALUES
The conjugate symmetry of cexp() is used to abbreviate the specification of special values.

cexp(+-0 + 0i) returns 1 + 0i.

cexp(x + inf i) returns NaN + NaN i, and raises the invalid flag, for finite x.

cexp(x + NaN i) returns NaN + NaN i, for finite x.

cexp(inf + 0i) returns inf + 0i.

For the following two cases, cis(y) denotes cos(y) + I*sin(y).

cexp(-inf + yi) returns 0*cis(y), for finite y.

cexp(inf + yi) returns inf*cis(y), for finite nonzero y.

cexp(-inf + inf i) returns -0 + 0i.

cexp(inf + inf i) returns -inf + NaN i, and raises the invalid flag.

cexp(-inf + NaN i) returns -0 + 0i.

cexp(inf + NaN i) returns -inf + NaN i.

cexp(NaN + 0i) returns NaN + 0i.

cexp(NaN + yi) returns NaN + NaN i for all nonzero numbers y.

cexp(NaN + NaN i) returns NaN + NaN i.