/* * 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. */ #if defined(ELFOBJ) #pragma weak nearbyintf = __nearbyintf #endif #include "libm.h" #include "fenv_synonyms.h" #include float __nearbyintf(float x) { union { unsigned i; float f; } xx; unsigned hx, sx, i, frac; int rm; xx.f = x; sx = xx.i & 0x80000000; hx = xx.i & ~0x80000000; /* handle trivial cases */ if (hx >= 0x4b000000) { /* x is nan, inf, or already integral */ if (hx > 0x7f800000) /* x is nan */ return (x * x); /* + -> * for Cheetah */ return (x); } else if (hx == 0) /* x is zero */ return (x); /* get the rounding mode */ rm = fegetround(); /* flip the sense of directed roundings if x is negative */ if (sx && (rm == FE_UPWARD || rm == FE_DOWNWARD)) rm = (FE_UPWARD + FE_DOWNWARD) - rm; /* handle |x| < 1 */ if (hx < 0x3f800000) { if (rm == FE_UPWARD || (rm == FE_TONEAREST && hx > 0x3f000000)) xx.i = sx | 0x3f800000; else xx.i = sx; return (xx.f); } /* round x at the integer bit */ i = 1 << (0x96 - (hx >> 23)); frac = hx & (i - 1); if (!frac) return (x); hx &= ~(i - 1); if (rm == FE_UPWARD || (rm == FE_TONEAREST && (frac > (i >> 1) || ((frac == (i >> 1)) && (hx & i))))) xx.i = sx | (hx + i); else xx.i = sx | hx; return (xx.f); } #if 0 /* * Alternate implementations for SPARC, x86, using fp ops. These may * be faster depending on how expensive saving and restoring the fp * modes and status flags is. */ #include "libm.h" #include "fma.h" #if defined(__sparc) float __nearbyintf(float x) { union { unsigned i; float f; } xx, yy; float z; unsigned hx, sx, fsr, oldfsr; int rm; xx.f = x; sx = xx.i & 0x80000000; hx = xx.i & ~0x80000000; /* handle trivial cases */ if (hx >= 0x4b000000) /* x is nan, inf, or already integral */ return (x + 0.0f); else if (hx == 0) /* x is zero */ return (x); /* save the fsr */ __fenv_getfsr(&oldfsr); /* handle |x| < 1 */ if (hx < 0x3f800000) { /* flip the sense of directed roundings if x is negative */ rm = oldfsr >> 30; if (sx) rm ^= rm >> 1; if (rm == FSR_RP || (rm == FSR_RN && hx > 0x3f000000)) xx.i = sx | 0x3f800000; else xx.i = sx; return (xx.f); } /* clear the inexact trap */ fsr = oldfsr & ~FSR_NXM; __fenv_setfsr(&fsr); /* round x at the integer bit */ yy.i = sx | 0x4b000000; z = (x + yy.f) - yy.f; /* restore the old fsr */ __fenv_setfsr(&oldfsr); return (z); } #elif defined(__x86) /* inline template */ extern long double frndint(long double); float __nearbyintf(float x) { long double z; unsigned oldcwsw, cwsw; /* save the control and status words, mask the inexact exception */ __fenv_getcwsw(&oldcwsw); cwsw = oldcwsw | 0x00200000; __fenv_setcwsw(&cwsw); z = frndint((long double) x); /* * restore the control and status words, preserving all but the * inexact flag */ __fenv_getcwsw(&cwsw); oldcwsw |= (cwsw & 0x1f); __fenv_setcwsw(&oldcwsw); /* note: the value of z is representable in single precision */ return (z); } #else #error Unknown architecture #endif #endif