/* mpc_asin -- arcsine of a complex number. Copyright (C) 2009, 2010, 2011 INRIA This file is part of GNU MPC. GNU MPC is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. GNU MPC is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details. You should have received a copy of the GNU Lesser General Public License along with this program. If not, see http://www.gnu.org/licenses/ . */ #include "mpc-impl.h" int mpc_asin (mpc_ptr rop, mpc_srcptr op, mpc_rnd_t rnd) { mpfr_prec_t p, p_re, p_im, incr_p = 0; mpfr_rnd_t rnd_re, rnd_im; mpc_t z1; int inex; /* special values */ if (mpfr_nan_p (mpc_realref (op)) || mpfr_nan_p (mpc_imagref (op))) { if (mpfr_inf_p (mpc_realref (op)) || mpfr_inf_p (mpc_imagref (op))) { mpfr_set_nan (mpc_realref (rop)); mpfr_set_inf (mpc_imagref (rop), mpfr_signbit (mpc_imagref (op)) ? -1 : +1); } else if (mpfr_zero_p (mpc_realref (op))) { mpfr_set (mpc_realref (rop), mpc_realref (op), GMP_RNDN); mpfr_set_nan (mpc_imagref (rop)); } else { mpfr_set_nan (mpc_realref (rop)); mpfr_set_nan (mpc_imagref (rop)); } return 0; } if (mpfr_inf_p (mpc_realref (op)) || mpfr_inf_p (mpc_imagref (op))) { int inex_re; if (mpfr_inf_p (mpc_realref (op))) { int inf_im = mpfr_inf_p (mpc_imagref (op)); inex_re = set_pi_over_2 (mpc_realref (rop), (mpfr_signbit (mpc_realref (op)) ? -1 : 1), MPC_RND_RE (rnd)); mpfr_set_inf (mpc_imagref (rop), (mpfr_signbit (mpc_imagref (op)) ? -1 : 1)); if (inf_im) mpfr_div_2ui (mpc_realref (rop), mpc_realref (rop), 1, GMP_RNDN); } else { mpfr_set_zero (mpc_realref (rop), (mpfr_signbit (mpc_realref (op)) ? -1 : 1)); inex_re = 0; mpfr_set_inf (mpc_imagref (rop), (mpfr_signbit (mpc_imagref (op)) ? -1 : 1)); } return MPC_INEX (inex_re, 0); } /* pure real argument */ if (mpfr_zero_p (mpc_imagref (op))) { int inex_re; int inex_im; int s_im; s_im = mpfr_signbit (mpc_imagref (op)); if (mpfr_cmp_ui (mpc_realref (op), 1) > 0) { if (s_im) inex_im = -mpfr_acosh (mpc_imagref (rop), mpc_realref (op), INV_RND (MPC_RND_IM (rnd))); else inex_im = mpfr_acosh (mpc_imagref (rop), mpc_realref (op), MPC_RND_IM (rnd)); inex_re = set_pi_over_2 (mpc_realref (rop), (mpfr_signbit (mpc_realref (op)) ? -1 : 1), MPC_RND_RE (rnd)); if (s_im) mpc_conj (rop, rop, MPC_RNDNN); } else if (mpfr_cmp_si (mpc_realref (op), -1) < 0) { mpfr_t minus_op_re; minus_op_re[0] = mpc_realref (op)[0]; MPFR_CHANGE_SIGN (minus_op_re); if (s_im) inex_im = -mpfr_acosh (mpc_imagref (rop), minus_op_re, INV_RND (MPC_RND_IM (rnd))); else inex_im = mpfr_acosh (mpc_imagref (rop), minus_op_re, MPC_RND_IM (rnd)); inex_re = set_pi_over_2 (mpc_realref (rop), (mpfr_signbit (mpc_realref (op)) ? -1 : 1), MPC_RND_RE (rnd)); if (s_im) mpc_conj (rop, rop, MPC_RNDNN); } else { inex_im = mpfr_set_ui (mpc_imagref (rop), 0, MPC_RND_IM (rnd)); if (s_im) mpfr_neg (mpc_imagref (rop), mpc_imagref (rop), GMP_RNDN); inex_re = mpfr_asin (mpc_realref (rop), mpc_realref (op), MPC_RND_RE (rnd)); } return MPC_INEX (inex_re, inex_im); } /* pure imaginary argument */ if (mpfr_zero_p (mpc_realref (op))) { int inex_im; int s; s = mpfr_signbit (mpc_realref (op)); mpfr_set_ui (mpc_realref (rop), 0, GMP_RNDN); if (s) mpfr_neg (mpc_realref (rop), mpc_realref (rop), GMP_RNDN); inex_im = mpfr_asinh (mpc_imagref (rop), mpc_imagref (op), MPC_RND_IM (rnd)); return MPC_INEX (0, inex_im); } /* regular complex: asin(z) = -i*log(i*z+sqrt(1-z^2)) */ p_re = mpfr_get_prec (mpc_realref(rop)); p_im = mpfr_get_prec (mpc_imagref(rop)); rnd_re = MPC_RND_RE(rnd); rnd_im = MPC_RND_IM(rnd); p = p_re >= p_im ? p_re : p_im; mpc_init2 (z1, p); while (1) { mpfr_exp_t ex, ey, err; p += mpc_ceil_log2 (p) + 3 + incr_p; /* incr_p is zero initially */ incr_p = p / 2; mpfr_set_prec (mpc_realref(z1), p); mpfr_set_prec (mpc_imagref(z1), p); /* z1 <- z^2 */ mpc_sqr (z1, op, MPC_RNDNN); /* err(x) <= 1/2 ulp(x), err(y) <= 1/2 ulp(y) */ /* z1 <- 1-z1 */ ex = mpfr_get_exp (mpc_realref(z1)); mpfr_ui_sub (mpc_realref(z1), 1, mpc_realref(z1), GMP_RNDN); mpfr_neg (mpc_imagref(z1), mpc_imagref(z1), GMP_RNDN); ex = ex - mpfr_get_exp (mpc_realref(z1)); ex = (ex <= 0) ? 0 : ex; /* err(x) <= 2^ex * ulp(x) */ ex = ex + mpfr_get_exp (mpc_realref(z1)) - p; /* err(x) <= 2^ex */ ey = mpfr_get_exp (mpc_imagref(z1)) - p - 1; /* err(y) <= 2^ey */ ex = (ex >= ey) ? ex : ey; /* err(x), err(y) <= 2^ex, i.e., the norm of the error is bounded by |h|<=2^(ex+1/2) */ /* z1 <- sqrt(z1): if z1 = z + h, then sqrt(z1) = sqrt(z) + h/2/sqrt(t) */ ey = mpfr_get_exp (mpc_realref(z1)) >= mpfr_get_exp (mpc_imagref(z1)) ? mpfr_get_exp (mpc_realref(z1)) : mpfr_get_exp (mpc_imagref(z1)); /* we have |z1| >= 2^(ey-1) thus 1/|z1| <= 2^(1-ey) */ mpc_sqrt (z1, z1, MPC_RNDNN); ex = (2 * ex + 1) - 2 - (ey - 1); /* |h^2/4/|t| <= 2^ex */ ex = (ex + 1) / 2; /* ceil(ex/2) */ /* express ex in terms of ulp(z1) */ ey = mpfr_get_exp (mpc_realref(z1)) <= mpfr_get_exp (mpc_imagref(z1)) ? mpfr_get_exp (mpc_realref(z1)) : mpfr_get_exp (mpc_imagref(z1)); ex = ex - ey + p; /* take into account the rounding error in the mpc_sqrt call */ err = (ex <= 0) ? 1 : ex + 1; /* err(x) <= 2^err * ulp(x), err(y) <= 2^err * ulp(y) */ /* z1 <- i*z + z1 */ ex = mpfr_get_exp (mpc_realref(z1)); ey = mpfr_get_exp (mpc_imagref(z1)); mpfr_sub (mpc_realref(z1), mpc_realref(z1), mpc_imagref(op), GMP_RNDN); mpfr_add (mpc_imagref(z1), mpc_imagref(z1), mpc_realref(op), GMP_RNDN); if (mpfr_cmp_ui (mpc_realref(z1), 0) == 0 || mpfr_cmp_ui (mpc_imagref(z1), 0) == 0) continue; ex -= mpfr_get_exp (mpc_realref(z1)); /* cancellation in x */ ey -= mpfr_get_exp (mpc_imagref(z1)); /* cancellation in y */ ex = (ex >= ey) ? ex : ey; /* maximum cancellation */ err += ex; err = (err <= 0) ? 1 : err + 1; /* rounding error in sub/add */ /* z1 <- log(z1): if z1 = z + h, then log(z1) = log(z) + h/t with |t| >= min(|z1|,|z|) */ ex = mpfr_get_exp (mpc_realref(z1)); ey = mpfr_get_exp (mpc_imagref(z1)); ex = (ex >= ey) ? ex : ey; err += ex - p; /* revert to absolute error <= 2^err */ mpc_log (z1, z1, GMP_RNDN); err -= ex - 1; /* 1/|t| <= 1/|z| <= 2^(1-ex) */ /* express err in terms of ulp(z1) */ ey = mpfr_get_exp (mpc_realref(z1)) <= mpfr_get_exp (mpc_imagref(z1)) ? mpfr_get_exp (mpc_realref(z1)) : mpfr_get_exp (mpc_imagref(z1)); err = err - ey + p; /* take into account the rounding error in the mpc_log call */ err = (err <= 0) ? 1 : err + 1; /* z1 <- -i*z1 */ mpfr_swap (mpc_realref(z1), mpc_imagref(z1)); mpfr_neg (mpc_imagref(z1), mpc_imagref(z1), GMP_RNDN); if (mpfr_can_round (mpc_realref(z1), p - err, GMP_RNDN, GMP_RNDZ, p_re + (rnd_re == GMP_RNDN)) && mpfr_can_round (mpc_imagref(z1), p - err, GMP_RNDN, GMP_RNDZ, p_im + (rnd_im == GMP_RNDN))) break; } inex = mpc_set (rop, z1, rnd); mpc_clear (z1); return inex; }