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 __lrintl = lrintl 3125c28e83SPiotr Jasiukajtis 3225c28e83SPiotr Jasiukajtis #include <sys/isa_defs.h> /* _ILP32 */ 3325c28e83SPiotr Jasiukajtis #include "libm.h" 3425c28e83SPiotr Jasiukajtis 3525c28e83SPiotr Jasiukajtis #if defined(_ILP32) 3625c28e83SPiotr Jasiukajtis #if defined(__sparc) 3725c28e83SPiotr Jasiukajtis 3825c28e83SPiotr Jasiukajtis #include "fma.h" 3925c28e83SPiotr Jasiukajtis #include "fenv_inlines.h" 4025c28e83SPiotr Jasiukajtis 4125c28e83SPiotr Jasiukajtis long 4225c28e83SPiotr Jasiukajtis lrintl(long double x) { 4325c28e83SPiotr Jasiukajtis union { 4425c28e83SPiotr Jasiukajtis unsigned int i[4]; 4525c28e83SPiotr Jasiukajtis long double q; 4625c28e83SPiotr Jasiukajtis } xx; 4725c28e83SPiotr Jasiukajtis union { 4825c28e83SPiotr Jasiukajtis unsigned int i; 4925c28e83SPiotr Jasiukajtis float f; 5025c28e83SPiotr Jasiukajtis } tt; 5125c28e83SPiotr Jasiukajtis unsigned int hx, sx, frac, l, fsr; 5225c28e83SPiotr Jasiukajtis int rm, j; 5325c28e83SPiotr Jasiukajtis volatile float dummy; 5425c28e83SPiotr Jasiukajtis 5525c28e83SPiotr Jasiukajtis xx.q = x; 5625c28e83SPiotr Jasiukajtis sx = xx.i[0] & 0x80000000; 5725c28e83SPiotr Jasiukajtis hx = xx.i[0] & ~0x80000000; 5825c28e83SPiotr Jasiukajtis 5925c28e83SPiotr Jasiukajtis /* handle trivial cases */ 6025c28e83SPiotr Jasiukajtis if (hx > 0x401e0000) { /* |x| > 2^31 + ... or x is nan */ 6125c28e83SPiotr Jasiukajtis /* convert an out-of-range float */ 6225c28e83SPiotr Jasiukajtis tt.i = sx | 0x7f000000; 6325c28e83SPiotr Jasiukajtis return ((long) tt.f); 6425c28e83SPiotr Jasiukajtis } else if ((hx | xx.i[1] | xx.i[2] | xx.i[3]) == 0) /* x is zero */ 6525c28e83SPiotr Jasiukajtis return (0L); 6625c28e83SPiotr Jasiukajtis 6725c28e83SPiotr Jasiukajtis /* get the rounding mode */ 6825c28e83SPiotr Jasiukajtis __fenv_getfsr32(&fsr); 6925c28e83SPiotr Jasiukajtis rm = fsr >> 30; 7025c28e83SPiotr Jasiukajtis 7125c28e83SPiotr Jasiukajtis /* flip the sense of directed roundings if x is negative */ 7225c28e83SPiotr Jasiukajtis if (sx) 7325c28e83SPiotr Jasiukajtis rm ^= rm >> 1; 7425c28e83SPiotr Jasiukajtis 7525c28e83SPiotr Jasiukajtis /* handle |x| < 1 */ 7625c28e83SPiotr Jasiukajtis if (hx < 0x3fff0000) { 7725c28e83SPiotr Jasiukajtis dummy = 1.0e30F; /* x is nonzero, so raise inexact */ 7825c28e83SPiotr Jasiukajtis dummy += 1.0e-30F; 7925c28e83SPiotr Jasiukajtis if (rm == FSR_RP || (rm == FSR_RN && (hx >= 0x3ffe0000 && 8025c28e83SPiotr Jasiukajtis ((hx & 0xffff) | xx.i[1] | xx.i[2] | xx.i[3])))) 8125c28e83SPiotr Jasiukajtis return (sx ? -1L : 1L); 8225c28e83SPiotr Jasiukajtis return (0L); 8325c28e83SPiotr Jasiukajtis } 8425c28e83SPiotr Jasiukajtis 8525c28e83SPiotr Jasiukajtis /* extract the integer and fractional parts of x */ 8625c28e83SPiotr Jasiukajtis j = 0x406f - (hx >> 16); /* 91 <= j <= 112 */ 8725c28e83SPiotr Jasiukajtis xx.i[0] = 0x10000 | (xx.i[0] & 0xffff); 8825c28e83SPiotr Jasiukajtis if (j >= 96) { /* 96 <= j <= 112 */ 8925c28e83SPiotr Jasiukajtis l = xx.i[0] >> (j - 96); 9025c28e83SPiotr Jasiukajtis frac = ((xx.i[0] << 1) << (127 - j)) | (xx.i[1] >> (j - 96)); 9125c28e83SPiotr Jasiukajtis if (((xx.i[1] << 1) << (127 - j)) | xx.i[2] | xx.i[3]) 9225c28e83SPiotr Jasiukajtis frac |= 1; 9325c28e83SPiotr Jasiukajtis } else { /* 91 <= j <= 95 */ 9425c28e83SPiotr Jasiukajtis l = (xx.i[0] << (96 - j)) | (xx.i[1] >> (j - 64)); 9525c28e83SPiotr Jasiukajtis frac = (xx.i[1] << (96 - j)) | (xx.i[2] >> (j - 64)); 9625c28e83SPiotr Jasiukajtis if ((xx.i[2] << (96 - j)) | xx.i[3]) 9725c28e83SPiotr Jasiukajtis frac |= 1; 9825c28e83SPiotr Jasiukajtis } 9925c28e83SPiotr Jasiukajtis 10025c28e83SPiotr Jasiukajtis /* round */ 10125c28e83SPiotr Jasiukajtis if (frac && (rm == FSR_RP || (rm == FSR_RN && (frac > 0x80000000U || 10225c28e83SPiotr Jasiukajtis (frac == 0x80000000 && (l & 1)))))) 10325c28e83SPiotr Jasiukajtis l++; 10425c28e83SPiotr Jasiukajtis 10525c28e83SPiotr Jasiukajtis /* check for result out of range (note that z is |x| at this point) */ 10625c28e83SPiotr Jasiukajtis if (l > 0x80000000U || (l == 0x80000000U && !sx)) { 10725c28e83SPiotr Jasiukajtis tt.i = sx | 0x7f000000; 10825c28e83SPiotr Jasiukajtis return ((long) tt.f); 10925c28e83SPiotr Jasiukajtis } 11025c28e83SPiotr Jasiukajtis 11125c28e83SPiotr Jasiukajtis /* raise inexact if need be */ 11225c28e83SPiotr Jasiukajtis if (frac) { 11325c28e83SPiotr Jasiukajtis dummy = 1.0e30F; 11425c28e83SPiotr Jasiukajtis dummy += 1.0e-30F; 11525c28e83SPiotr Jasiukajtis } 11625c28e83SPiotr Jasiukajtis 11725c28e83SPiotr Jasiukajtis /* negate result if need be */ 11825c28e83SPiotr Jasiukajtis if (sx) 11925c28e83SPiotr Jasiukajtis l = -l; 12025c28e83SPiotr Jasiukajtis return ((long) l); 12125c28e83SPiotr Jasiukajtis } 12225c28e83SPiotr Jasiukajtis #elif defined(__x86) 12325c28e83SPiotr Jasiukajtis long 12425c28e83SPiotr Jasiukajtis lrintl(long double x) { 12525c28e83SPiotr Jasiukajtis /* 12625c28e83SPiotr Jasiukajtis * Note: The following code works on x86 (in the default rounding 12725c28e83SPiotr Jasiukajtis * precision mode), but one ought to just use the fistpl instruction 12825c28e83SPiotr Jasiukajtis * instead. 12925c28e83SPiotr Jasiukajtis */ 13025c28e83SPiotr Jasiukajtis union { 13125c28e83SPiotr Jasiukajtis unsigned i[3]; 13225c28e83SPiotr Jasiukajtis long double e; 13325c28e83SPiotr Jasiukajtis } xx, yy; 13425c28e83SPiotr Jasiukajtis int ex; 13525c28e83SPiotr Jasiukajtis 13625c28e83SPiotr Jasiukajtis xx.e = x; 13725c28e83SPiotr Jasiukajtis ex = xx.i[2] & 0x7fff; 13825c28e83SPiotr Jasiukajtis if (ex < 0x403e) { /* |x| < 2^63 */ 13925c28e83SPiotr Jasiukajtis /* add and subtract a power of two to round x to an integer */ 14025c28e83SPiotr Jasiukajtis yy.i[2] = (xx.i[2] & 0x8000) | 0x403e; 14125c28e83SPiotr Jasiukajtis yy.i[1] = 0x80000000; 14225c28e83SPiotr Jasiukajtis yy.i[0] = 0; 14325c28e83SPiotr Jasiukajtis x = (x + yy.e) - yy.e; 14425c28e83SPiotr Jasiukajtis } 14525c28e83SPiotr Jasiukajtis 14625c28e83SPiotr Jasiukajtis /* now x is nan, inf, or integral */ 14725c28e83SPiotr Jasiukajtis return ((long) x); 14825c28e83SPiotr Jasiukajtis } 14925c28e83SPiotr Jasiukajtis #else 15025c28e83SPiotr Jasiukajtis #error Unknown architecture 15125c28e83SPiotr Jasiukajtis #endif /* defined(__sparc) || defined(__x86) */ 15225c28e83SPiotr Jasiukajtis #else 15325c28e83SPiotr Jasiukajtis #error Unsupported architecture 15425c28e83SPiotr Jasiukajtis #endif /* defined(_ILP32) */ 155