125c28e83SPiotr Jasiukajtis /* 225c28e83SPiotr Jasiukajtis * CDDL HEADER START 325c28e83SPiotr Jasiukajtis * 425c28e83SPiotr Jasiukajtis * The contents of this file are subject to the terms of the 525c28e83SPiotr Jasiukajtis * Common Development and Distribution License (the "License"). 625c28e83SPiotr Jasiukajtis * You may not use this file except in compliance with the License. 725c28e83SPiotr Jasiukajtis * 825c28e83SPiotr Jasiukajtis * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE 925c28e83SPiotr Jasiukajtis * or http://www.opensolaris.org/os/licensing. 1025c28e83SPiotr Jasiukajtis * See the License for the specific language governing permissions 1125c28e83SPiotr Jasiukajtis * and limitations under the License. 1225c28e83SPiotr Jasiukajtis * 1325c28e83SPiotr Jasiukajtis * When distributing Covered Code, include this CDDL HEADER in each 1425c28e83SPiotr Jasiukajtis * file and include the License file at usr/src/OPENSOLARIS.LICENSE. 1525c28e83SPiotr Jasiukajtis * If applicable, add the following below this CDDL HEADER, with the 1625c28e83SPiotr Jasiukajtis * fields enclosed by brackets "[]" replaced with your own identifying 1725c28e83SPiotr Jasiukajtis * information: Portions Copyright [yyyy] [name of copyright owner] 1825c28e83SPiotr Jasiukajtis * 1925c28e83SPiotr Jasiukajtis * CDDL HEADER END 2025c28e83SPiotr Jasiukajtis */ 2125c28e83SPiotr Jasiukajtis 2225c28e83SPiotr Jasiukajtis /* 2325c28e83SPiotr Jasiukajtis * Copyright 2011 Nexenta Systems, Inc. All rights reserved. 2425c28e83SPiotr Jasiukajtis */ 2525c28e83SPiotr Jasiukajtis /* 2625c28e83SPiotr Jasiukajtis * Copyright 2006 Sun Microsystems, Inc. All rights reserved. 2725c28e83SPiotr Jasiukajtis * Use is subject to license terms. 2825c28e83SPiotr Jasiukajtis */ 2925c28e83SPiotr Jasiukajtis 30*ddc0e0b5SRichard Lowe #pragma weak __coshl = coshl 3125c28e83SPiotr Jasiukajtis 3225c28e83SPiotr Jasiukajtis #include "libm.h" 3325c28e83SPiotr Jasiukajtis #include "longdouble.h" 3425c28e83SPiotr Jasiukajtis 3525c28e83SPiotr Jasiukajtis 3625c28e83SPiotr Jasiukajtis /* 3725c28e83SPiotr Jasiukajtis * coshl(X) 3825c28e83SPiotr Jasiukajtis * RETURN THE HYPERBOLIC COSINE OF X 3925c28e83SPiotr Jasiukajtis * 4025c28e83SPiotr Jasiukajtis * Method : 4125c28e83SPiotr Jasiukajtis * 1. Replace x by |x| (coshl(x) = coshl(-x)). 4225c28e83SPiotr Jasiukajtis * 2. 4325c28e83SPiotr Jasiukajtis * [ expl(x) - 1 ]^2 4425c28e83SPiotr Jasiukajtis * 0 <= x <= 0.3465 : coshl(x) := 1 + ------------------- 4525c28e83SPiotr Jasiukajtis * 2*expl(x) 4625c28e83SPiotr Jasiukajtis * 4725c28e83SPiotr Jasiukajtis * expl(x) + 1/expl(x) 4825c28e83SPiotr Jasiukajtis * 0.3465 <= x <= thresh : coshl(x) := ------------------- 4925c28e83SPiotr Jasiukajtis * 2 5025c28e83SPiotr Jasiukajtis * thresh <= x <= lnovft : coshl(x) := expl(x)/2 5125c28e83SPiotr Jasiukajtis * lnovft <= x < INF : coshl(x) := scalbnl(expl(x-1024*ln2),1023) 5225c28e83SPiotr Jasiukajtis * 5325c28e83SPiotr Jasiukajtis * here 5425c28e83SPiotr Jasiukajtis * thr1 a number that is near one half of ln2. 5525c28e83SPiotr Jasiukajtis * thr2 a number such that 5625c28e83SPiotr Jasiukajtis * expl(thresh)+expl(-thresh)=expl(thresh) 5725c28e83SPiotr Jasiukajtis * lnovft: logrithm of the overflow threshold 5825c28e83SPiotr Jasiukajtis * = MEP1*ln2 chopped to machine precision. 5925c28e83SPiotr Jasiukajtis * ME maximum exponent 6025c28e83SPiotr Jasiukajtis * MEP1 maximum exponent plus 1 6125c28e83SPiotr Jasiukajtis * 6225c28e83SPiotr Jasiukajtis * Special cases: 6325c28e83SPiotr Jasiukajtis * coshl(x) is |x| if x is +INF, -INF, or NaN. 6425c28e83SPiotr Jasiukajtis * only coshl(0)=1 is exact for finite x. 6525c28e83SPiotr Jasiukajtis */ 6625c28e83SPiotr Jasiukajtis 6725c28e83SPiotr Jasiukajtis #define ME 16383 6825c28e83SPiotr Jasiukajtis #define MEP1 16384 6925c28e83SPiotr Jasiukajtis #define LNOVFT 1.135652340629414394949193107797076342845e+4L 7025c28e83SPiotr Jasiukajtis /* last 32 bits of LN2HI is zero */ 7125c28e83SPiotr Jasiukajtis #define LN2HI 6.931471805599453094172319547495844850203e-0001L 7225c28e83SPiotr Jasiukajtis #define LN2LO 1.667085920830552208890449330400379754169e-0025L 7325c28e83SPiotr Jasiukajtis #define THR1 0.3465L 7425c28e83SPiotr Jasiukajtis #define THR2 45.L 7525c28e83SPiotr Jasiukajtis 7625c28e83SPiotr Jasiukajtis static const long double 7725c28e83SPiotr Jasiukajtis half = 0.5L, 7825c28e83SPiotr Jasiukajtis tinyl = 7.5e-37L, 7925c28e83SPiotr Jasiukajtis one = 1.0L, 8025c28e83SPiotr Jasiukajtis ln2hi = LN2HI, 8125c28e83SPiotr Jasiukajtis ln2lo = LN2LO, 8225c28e83SPiotr Jasiukajtis lnovftL = LNOVFT, 8325c28e83SPiotr Jasiukajtis thr1 = THR1, 8425c28e83SPiotr Jasiukajtis thr2 = THR2; 8525c28e83SPiotr Jasiukajtis 8625c28e83SPiotr Jasiukajtis long double 8725c28e83SPiotr Jasiukajtis coshl(long double x) { 8825c28e83SPiotr Jasiukajtis long double t, w; 8925c28e83SPiotr Jasiukajtis 9025c28e83SPiotr Jasiukajtis w = fabsl(x); 9125c28e83SPiotr Jasiukajtis if (!finitel(w)) 9225c28e83SPiotr Jasiukajtis return (w + w); /* x is INF or NaN */ 9325c28e83SPiotr Jasiukajtis if (w < thr1) { 9425c28e83SPiotr Jasiukajtis t = w < tinyl ? w : expm1l(w); 9525c28e83SPiotr Jasiukajtis w = one + t; 9625c28e83SPiotr Jasiukajtis if (w != one) 9725c28e83SPiotr Jasiukajtis w = one + (t * t) / (w + w); 9825c28e83SPiotr Jasiukajtis return (w); 9925c28e83SPiotr Jasiukajtis } else if (w < thr2) { 10025c28e83SPiotr Jasiukajtis t = expl(w); 10125c28e83SPiotr Jasiukajtis return (half * (t + one / t)); 10225c28e83SPiotr Jasiukajtis } else if (w <= lnovftL) 10325c28e83SPiotr Jasiukajtis return (half * expl(w)); 10425c28e83SPiotr Jasiukajtis else { 10525c28e83SPiotr Jasiukajtis return (scalbnl(expl((w - MEP1 * ln2hi) - MEP1 * ln2lo), ME)); 10625c28e83SPiotr Jasiukajtis } 10725c28e83SPiotr Jasiukajtis } 108