/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2011 Nexenta Systems, Inc. All rights reserved. */ /* * Copyright 2006 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma weak csqrtl = __csqrtl #include "libm.h" /* fabsl/isinfl/sqrtl */ #include "complex_wrapper.h" #include "longdouble.h" /* INDENT OFF */ static const long double twom9001 = 2.6854002716003034957421765100615693043656e-2710L, twom4500 = 2.3174987687592429423263242862381544149252e-1355L, two8999 = 9.3095991180122343502582347372163290310934e+2708L, two4500 = 4.3149968987270974283777803545571722250806e+1354L, zero = 0.0L, half = 0.5L, two = 2.0L; /* INDENT ON */ ldcomplex csqrtl(ldcomplex z) { ldcomplex ans; long double x, y, t, ax, ay; int n, ix, iy, hx, hy; x = LD_RE(z); y = LD_IM(z); hx = HI_XWORD(x); hy = HI_XWORD(y); ix = hx & 0x7fffffff; iy = hy & 0x7fffffff; ay = fabsl(y); ax = fabsl(x); if (ix >= 0x7fff0000 || iy >= 0x7fff0000) { /* x or y is Inf or NaN */ if (isinfl(y)) LD_IM(ans) = LD_RE(ans) = ay; else if (isinfl(x)) { if (hx > 0) { LD_RE(ans) = ax; LD_IM(ans) = ay * zero; } else { LD_RE(ans) = ay * zero; LD_IM(ans) = ax; } } else LD_IM(ans) = LD_RE(ans) = ax + ay; } else if (y == zero) { if (hx >= 0) { LD_RE(ans) = sqrtl(ax); LD_IM(ans) = zero; } else { LD_IM(ans) = sqrtl(ax); LD_RE(ans) = zero; } } else if (ix >= iy) { n = (ix - iy) >> 16; #if defined(__x86) /* 64 significant bits */ if (n >= 35) #else /* 113 significant bits */ if (n >= 60) #endif t = sqrtl(ax); else if (ix >= 0x5f3f0000) { /* x > 2**8000 */ ax *= twom9001; y *= twom9001; t = two4500 * sqrtl(ax + sqrtl(ax * ax + y * y)); } else if (iy <= 0x20bf0000) { /* y < 2**-8000 */ ax *= two8999; y *= two8999; t = twom4500 * sqrtl(ax + sqrtl(ax * ax + y * y)); } else t = sqrtl(half * (ax + sqrtl(ax * ax + y * y))); if (hx >= 0) { LD_RE(ans) = t; LD_IM(ans) = ay / (t + t); } else { LD_IM(ans) = t; LD_RE(ans) = ay / (t + t); } } else { n = (iy - ix) >> 16; #if defined(__x86) /* 64 significant bits */ if (n >= 35) { /* } */ #else /* 113 significant bits */ if (n >= 60) { #endif if (n >= 120) t = sqrtl(half * ay); else if (iy >= 0x7ffe0000) t = sqrtl(half * ay + half * ax); else if (ix <= 0x00010000) t = half * (sqrtl(two * (ax + ay))); else t = sqrtl(half * (ax + ay)); } else if (iy >= 0x5f3f0000) { /* y > 2**8000 */ ax *= twom9001; y *= twom9001; t = two4500 * sqrtl(ax + sqrtl(ax * ax + y * y)); } else if (ix <= 0x20bf0000) { ax *= two8999; y *= two8999; t = twom4500 * sqrtl(ax + sqrtl(ax * ax + y * y)); } else t = sqrtl(half * (ax + sqrtl(ax * ax + y * y))); if (hx >= 0) { LD_RE(ans) = t; LD_IM(ans) = ay / (t + t); } else { LD_IM(ans) = t; LD_RE(ans) = ay / (t + t); } } if (hy < 0) LD_IM(ans) = -LD_IM(ans); return (ans); }