cproj
Retrieve the projection of a complex number on the Reimann sphere.
Interface Definition
C interface:
float complex cprojf(float complex x);
double complex cproj(double complex x);
long double complex cprojl(long double complex x);
Parameters
Parameter |
Type |
Description |
Input/Output |
|---|---|---|---|
x |
|
Floating-point value of the input data. |
Input |
Return Value
- The projection y of x on the Reimann sphere is returned.
- If the input x.real or x.imag is ±∞, the output y.real is +∞ and y.imag is 0. The sign of y.imag is the same as that of x.imag.
- If both the input x.real and x.imag are not ±∞, the output y = x.
Dependencies
C: "kc.h"
Examples
C interface:
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 | // typical usage double x1 = INFINITY, y1 = INFINITY; double x2 = 2.0, y2 = 3.0; double x3 = -2.5, y3 = -3.4; double x4 = NAN, y4 = NAN; double x5 = 0, y5 = 0; double complex z1 = cproj(__builtin_complex(x1, y1)); double complex z2 = cproj(__builtin_complex(x2, y2)); double complex z3 = cproj(__builtin_complex(x3, y3)); double complex z4 = cproj(__builtin_complex(x4, y4)); double complex z5 = cproj(__builtin_complex(x5, y5)); // print result printf("/*\n"); printf(" * cproj(%.2f + %.2f*I) = %.6f + %.6f*I\n", x1, y1, __real__(z1), __imag__(z1)); printf(" * cproj(%.2f + %.2f*I) = %.6f + %.6f*I\n", x2, y2, __real__(z2), __imag__(z2)); printf(" * cproj(%.2f + %.2f*I) = %.6f + %.6f*I\n", x3, y3, __real__(z3), __imag__(z3)); printf(" * cproj(%.2f + %.2f*I) = %.6f + %.6f*I\n", x4, y4, __real__(z4), __imag__(z4)); printf(" * cproj(%.2f + %.2f*I) = %.6f + %.6f*I\n", x5, y5, __real__(z5), __imag__(z5)); printf(" **/\n"); /* * cproj(inf + inf*I) = inf + 0.000000*I * cproj(2.00 + 3.00*I) = 2.000000 + 3.000000*I * cproj(-2.50 + -3.40*I) = -2.500000 + -3.400000*I * cproj(nan + nan*I) = nan + nan*I * cproj(0.00 + 0.00*I) = 0.000000 + 0.000000*I **/ |
Parent topic: Complex Functions