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COMPLEX(3) BSD Library Functions Manual COMPLEX(3)
NAME
complex -- complex floating-point functions
SYNOPSIS
#include <complex.h>
DESCRIPTION
The header file complex.h provides function prototypes and macros for
working with C99 complex floating-point values. The functions conform to
the ISO/IEC 9899:1999(E) standard. In particular, arguments with infi-nite infinite
nite real or imaginary parts are regarded as infinities, even if the
other part is a NaN.
complex.h defines the macro complex for use as a type specifier, and the
macro I to be the imaginary unit, which can be used to construct complex
floating-point numbers from two real floating-point numbers. For exam-ple: example:
ple:
#include <complex.h>
double complex z = 1.0 + 1.0 * I; // z = 1 + i
Each of the functions that use complex floating-point values are provided
in single, double, and extended precision; the double precision proto-types prototypes
types are listed here. The man pages for the individual functions pro-vide provide
vide more details on their use, special cases, and prototypes for their
single and extended precision versions.
The double-precision functions defined in complex.h are:
double creal(double complex z)
double cimag(double complex z)
creal() and cimag() take a complex floating-point number and return its
real and imaginary part, respectively, as real floating-point numbers.
double cabs(double complex z)
double carg(double complex z)
cabs() and carg() take a complex floating-point number and return its
norm and argument (phase angle), respectively, as real floating-point
numbers. They are used to convert between rectangular and polar coordi-nates, coordinates,
nates, and are fully specified in terms of real functions:
cabs(x + iy) = hypot(x,y)
carg(x + iy) = atan2(y,x)
double complex conj(double complex z)
conj() takes a complex floating-point number and returns its complex con-jugate. conjugate.
jugate.
double complex cproj(double complex z)
cproj() takes a complex floating-point number and returns its projection
onto the Riemann sphere, as defined in C99. For non-infinite inputs, the
return value is equal to the input value.
double complex csqrt(double complex z)
csqrt() takes a complex floating-point number and returns its square
root, with a branch cut on the negative real axis.
double complex cexp(double complex z)
double complex clog(double complex z)
cexp() and clog() take a complex floating-point number and return its
base-e exponential and logarithm, respectively. clog() has a branch cut
on the negative real axis.
double complex cpow(double complex z, double complex w)
cpow() takes two complex floating-point numbers, and returns the first
raised to the power of the second, with a branch cut for the first param-eter parameter
eter along the negative real axis.
double complex csin(double complex z)
double complex ccos(double complex z)
double complex ctan(double complex z)
csin(), ccos(), and ctan() take a complex floating-point number and
return its sine, cosine, and tangent, respectively.
double complex casin(double complex z)
double complex cacos(double complex z)
double complex catan(double complex z)
casin(), cacos(), and catan() take a complex floating-point number and
return its inverse sine, cosine, and tangent, respectively.
casin() and cacos() have branch cuts outside the interval [-1, 1] on the
real axis, and catan() has a branch cut outside the interval [-i, i] on
the imaginary axis.
double complex csinh(double complex z)
double complex ccosh(double complex z)
double complex ctanh(double complex z)
csinh(), ccosh(), and ctanh() take a complex floating-point number and
return its hyperbolic sine, cosine, and tangent, respectively.
double complex casinh(double complex z)
double complex cacosh(double complex z)
double complex catanh(double complex z)
casinh(), cacosh(), and catanh() take a complex floating-point number and
return its inverse hyperbolic sine, cosine, and tangent, respectively.
casinh() has a branch cut outside the interval [-i, i] on the imaginary
axis. cacosh() has a branch cut at values less than 1 on the real axis.
catanh() has a branch cut outside the interval [-1, 1] on the real axis.
NOTE
Note that the complex math functions are not, in general, equivalent to
their real counterparts for inputs on the real axis. For example,
csqrt(-1 + 0i) is 0 + i, whereas sqrt(-1) is NaN.
SEE ALSO
cabs(3), cacos(3), cacosh(3), carg(3), casin(3), casinh(3), catan(3),
catanh(3), ccos(3), ccosh(3), cexp(3), cimag(3), clog(3), conj(3),
cpow(3), cproj(3), creal(3), csin(3), csinh(3), csqrt(3), ctan(3),
ctanh(3), math(3)
STANDARDS
The <complex.h> functions conform to ISO/IEC 9899:1999(E).
BSD October 10, 2006 BSD
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