Example #1
0
float complex
csinf(float complex z)
{

	z = csinhf(cpackf(-cimagf(z), crealf(z)));
	return (cpackf(cimagf(z), -crealf(z)));
}
Example #2
0
fcomplex
csinf(fcomplex z) {
	float x, y;
	fcomplex ans, ct;

	x = F_RE(z);
	y = F_IM(z);
	F_RE(z) = y;
	F_IM(z) = -x;
	ct = csinhf(z);
	F_RE(ans) = -F_IM(ct);
	F_IM(ans) = F_RE(ct);
	return (ans);
}
Example #3
0
 ld = cacoshl(ld);
 TEST_TRACE(C99 7.3.6.2)
 d = casinh(d);
 f = casinhf(f);
 ld = casinhl(ld);
 TEST_TRACE(C99 7.3.6.3)
 d = catanh(d);
 f = catanhf(f);
 ld = catanhl(ld);
 TEST_TRACE(C99 7.3.6.4)
 d = ccosh(d);
 f = ccoshf(f);
 ld = ccoshl(ld);
 TEST_TRACE(C99 7.3.6.5)
 d = csinh(d);
 f = csinhf(f);
 ld = csinhl(ld);
 TEST_TRACE(C99 7.3.6.6)
 d = ctanh(d);
 f = ctanhf(f);
 ld = ctanhl(ld);
 TEST_TRACE(C99 7.3.7.1)
 d = cexp(d);
 f = cexpf(f);
 ld = cexpl(ld);
 TEST_TRACE(C99 7.3.7.2)
 d = clog(d);
 f = clogf(f);
 ld = clogl(ld);
 TEST_TRACE(C99 7.3.8.1)
 d = cabs(d);
Example #4
0
float complex csinf(float complex z)
{
	z = csinhf(CMPLXF(-cimagf(z), crealf(z)));
	return CMPLXF(cimagf(z), -crealf(z));
}
Example #5
0
void
docomplexf (void)
{
#ifndef NO_FLOAT
  complex float ca, cb, cc;
  float f1;

  ca = 1.0 + 1.0 * I;
  cb = 1.0 - 1.0 * I;

  f1 = cabsf (ca);
  fprintf (stdout, "cabsf  : %f\n", f1);

  cc = cacosf (ca);
  fprintf (stdout, "cacosf : %f %fi\n", crealf (cc),
	   cimagf (cc));

  cc = cacoshf (ca);
  fprintf (stdout, "cacoshf: %f %fi\n", crealf (cc),
	   cimagf (cc));

  f1 = cargf (ca);
  fprintf (stdout, "cargf  : %f\n", f1);

  cc = casinf (ca);
  fprintf (stdout, "casinf : %f %fi\n", crealf (cc),
	   cimagf (cc));

  cc = casinhf (ca);
  fprintf (stdout, "casinhf: %f %fi\n", crealf (cc),
	   cimagf (cc));

  cc = catanf (ca);
  fprintf (stdout, "catanf : %f %fi\n", crealf (cc),
	   cimagf (cc));

  cc = catanhf (ca);
  fprintf (stdout, "catanhf: %f %fi\n", crealf (cc),
	   cimagf (cc));

  cc = ccosf (ca);
  fprintf (stdout, "ccosf  : %f %fi\n", crealf (cc),
	   cimagf (cc));

  cc = ccoshf (ca);
  fprintf (stdout, "ccoshf : %f %fi\n", crealf (cc),
	   cimagf (cc));

  cc = cexpf (ca);
  fprintf (stdout, "cexpf  : %f %fi\n", crealf (cc),
	   cimagf (cc));

  f1 = cimagf (ca);
  fprintf (stdout, "cimagf : %f\n", f1);

  cc = clogf (ca);
  fprintf (stdout, "clogf  : %f %fi\n", crealf (cc),
	   cimagf (cc));

  cc = conjf (ca);
  fprintf (stdout, "conjf  : %f %fi\n", crealf (cc),
	   cimagf (cc));

  cc = cpowf (ca, cb);
  fprintf (stdout, "cpowf  : %f %fi\n", crealf (cc),
	   cimagf (cc));

  cc = cprojf (ca);
  fprintf (stdout, "cprojf : %f %fi\n", crealf (cc),
	   cimagf (cc));

  f1 = crealf (ca);
  fprintf (stdout, "crealf : %f\n", f1);

  cc = csinf (ca);
  fprintf (stdout, "csinf  : %f %fi\n", crealf (cc),
	   cimagf (cc));

  cc = csinhf (ca);
  fprintf (stdout, "csinhf : %f %fi\n", crealf (cc),
	   cimagf (cc));

  cc = csqrtf (ca);
  fprintf (stdout, "csqrtf : %f %fi\n", crealf (cc),
	   cimagf (cc));

  cc = ctanf (ca);
  fprintf (stdout, "ctanf  : %f %fi\n", crealf (cc),
	   cimagf (cc));

  cc = ctanhf (ca);
  fprintf (stdout, "ctanhf : %f %fi\n", crealf (cc),
	   cimagf (cc));
#endif
}
TEST(complex, csinhf) {
  ASSERT_EQ(0.0, csinhf(0));
}