Defined in header <complex.h> | ||
---|---|---|
float cargf( float complex z ); | (1) | (since C99) |
double carg( double complex z ); | (2) | (since C99) |
long double cargl( long double complex z ); | (3) | (since C99) |
Defined in header <tgmath.h> | ||
#define carg( z ) | (4) | (since C99) |
z
, with a branch cut along the negative real axis.z
has type long double complex
, long double imaginary
, or long double
, cargl
is called. If z
has type float complex
, float imaginary
, or float
, cargf
is called. If z
has type double complex
, double imaginary
, double
, or any integer type, carg
is called.z | - | complex argument |
If no errors occur, returns the phase angle of z
in the interval [−π; π].
Errors and special cases are handled as if the function is implemented as atan2(cimag(z), creal(z))
.
#include <stdio.h> #include <complex.h> int main(void) { double complex z1 = 1.0+0.0*I; printf("phase angle of %.1f%+.1fi is %f\n", creal(z1), cimag(z1), carg(z1)); double complex z2 = 0.0+1.0*I; printf("phase angle of %.1f%+.1fi is %f\n", creal(z2), cimag(z2), carg(z2)); double complex z3 = -1.0+0.0*I; printf("phase angle of %.1f%+.1fi is %f\n", creal(z3), cimag(z3), carg(z3)); double complex z4 = conj(z3); // or CMPLX(-1, -0.0) printf("phase angle of %.1f%+.1fi (the other side of the cut) is %f\n", creal(z4), cimag(z4), carg(z4)); }
Output:
phase angle of 1.0+0.0i is 0.000000 phase angle of 0.0+1.0i is 1.570796 phase angle of -1.0+0.0i is 3.141593 phase angle of -1.0-0.0i (the other side of the cut) is -3.141593
(C99)(C99)(C99) | computes the magnitude of a complex number (function) |
(C99)(C99) | computes arc tangent, using signs to determine quadrants (function) |
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