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280 lines
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280 lines
14 KiB
Plaintext
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/*
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* Copyright (c) 1985, 1993
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* The Regents of the University of California. All rights reserved.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions
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* are met:
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* 1. Redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer.
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* 2. Redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in the
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* documentation and/or other materials provided with the distribution.
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* 3. All advertising materials mentioning features or use of this software
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* must display the following acknowledgement:
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* This product includes software developed by the University of
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* California, Berkeley and its contributors.
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* 4. Neither the name of the University nor the names of its contributors
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* may be used to endorse or promote products derived from this software
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* without specific prior written permission.
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*
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* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
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* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
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* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
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* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
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* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
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* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
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* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
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* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
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* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
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* SUCH DAMAGE.
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*
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* K.C. Ng, with Z-S. Alex Liu, S. McDonald, P. Tang, W. Kahan.
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* Revised on 5/10/85, 5/13/85, 6/14/85, 8/20/85, 8/27/85, 9/11/85.
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*
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* @(#)README 8.1 (Berkeley) 6/4/93
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*/
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******************************************************************************
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* This is a description of the upgraded elementary functions (listed in 1). *
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* Bessel functions (j0, j1, jn, y0, y1, yn), floor, and fabs passed over *
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* from 4.2BSD without change except perhaps for the way floating point *
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* exception is signaled on a VAX. Three lines that contain "errno" in erf.c*
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* (error functions erf, erfc) have been deleted to prevent overriding the *
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* system "errno". *
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******************************************************************************
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0. Total number of files: 40
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IEEE/Makefile VAX/Makefile VAX/support.s erf.c lgamma.c
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IEEE/atan2.c VAX/argred.s VAX/tan.s exp.c log.c
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IEEE/cabs.c VAX/atan2.s acosh.c exp__E.c log10.c
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IEEE/cbrt.c VAX/cabs.s asincos.c expm1.c log1p.c
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IEEE/support.c VAX/cbrt.s asinh.c floor.c log__L.c
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IEEE/trig.c VAX/infnan.s atan.c j0.c pow.c
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Makefile VAX/sincos.s atanh.c j1.c sinh.c
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README VAX/sqrt.s cosh.c jn.c tanh.c
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1. Functions implemented :
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(A). Standard elementary functions (total 22) :
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acos(x) ...in file asincos.c
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asin(x) ...in file asincos.c
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atan(x) ...in file atan.c
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atan2(x,y) ...in files IEEE/atan2.c, VAX/atan2.s
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sin(x) ...in files IEEE/trig.c, VAX/sincos.s
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cos(x) ...in files IEEE/trig.c, VAX/sincos.s
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tan(x) ...in files IEEE/trig.c, VAX/tan.s
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cabs(x,y) ...in files IEEE/cabs.c, VAX/cabs.s
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hypot(x,y) ...in files IEEE/cabs.c, VAX/cabs.s
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cbrt(x) ...in files IEEE/cbrt.c, VAX/cbrt.s
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exp(x) ...in file exp.c
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expm1(x):=exp(x)-1 ...in file expm1.c
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log(x) ...in file log.c
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log10(x) ...in file log10.c
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log1p(x):=log(1+x) ...in file log1p.c
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pow(x,y) ...in file pow.c
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sinh(x) ...in file sinh.c
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cosh(x) ...in file cosh.c
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tanh(x) ...in file tanh.c
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asinh(x) ...in file asinh.c
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acosh(x) ...in file acosh.c
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atanh(x) ...in file atanh.c
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(B). Kernel functions :
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exp__E(x,c) ...in file exp__E.c, used by expm1/exp/pow/cosh
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log__L(s) ...in file log__L.c, used by log1p/log/pow
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libm$argred ...in file VAX/argred.s, used by VAX version of sin/cos/tan
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(C). System supported functions :
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sqrt() ...in files IEEE/support.c, VAX/sqrt.s
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drem() ...in files IEEE/support.c, VAX/support.s
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finite() ...in files IEEE/support.c, VAX/support.s
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logb() ...in files IEEE/support.c, VAX/support.s
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scalb() ...in files IEEE/support.c, VAX/support.s
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copysign() ...in files IEEE/support.c, VAX/support.s
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rint() ...in file floor.c
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Notes:
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i. The codes in files ending with ".s" are written in VAX assembly
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language. They are intended for VAX computers.
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Files that end with ".c" are written in C. They are intended
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for either a VAX or a machine that conforms to the IEEE
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standard 754 for double precision floating-point arithmetic.
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ii. On other than VAX or IEEE machines, run the original math
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library, formerly "/usr/lib/libm.a", now "/usr/lib/libom.a", if
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nothing better is available.
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iii. The trigonometric functions sin/cos/tan/atan2 in files "VAX/sincos.s",
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"VAX/tan.s" and "VAX/atan2.s" are different from those in
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"IEEE/trig.c" and "IEEE/atan2.c". The VAX assembler code uses the
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true value of pi to perform argument reduction, while the C code uses
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a machine value of PI (see "IEEE/trig.c").
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2. A computer system that conforms to IEEE standard 754 should provide
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sqrt(x),
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drem(x,p), (double precision remainder function)
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copysign(x,y),
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finite(x),
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scalb(x,N),
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logb(x) and
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rint(x).
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These functions are either required or recommended by the standard.
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For convenience, a (slow) C implementation of these functions is
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provided in the file "IEEE/support.c".
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Warning: The functions in IEEE/support.c are somewhat machine dependent.
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Some modifications may be necessary to run them on a different machine.
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Currently, if compiled with a suitable flag, "IEEE/support.c" will work
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on a National 32000, a Zilog 8000, a VAX, and a SUN (cf. the "Makefile"
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in this directory). Invoke the C compiler thus:
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cc -c -DVAX IEEE/support.c ... on a VAX, D-format
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cc -c -DNATIONAL IEEE/support.c ... on a National 32000
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cc -c IEEE/support.c ... on other IEEE machines,
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we hope.
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Notes:
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1. Faster versions of "drem" and "sqrt" for IEEE double precision
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(coded in C but intended for assembly language) are given at the
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end of "IEEE/support.c" but commented out since they require certain
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machine-dependent functions.
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2. A fast VAX assembler version of the system supported functions
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copysign(), logb(), scalb(), finite(), and drem() appears in file
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"VAX/support.s". A fast VAX assembler version of sqrt() is in
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file "VAX/sqrt.s".
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3. Two formats are supported by all the standard elementary functions:
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the VAX D-format (56-bit precision), and the IEEE double format
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(53-bit precision). The cbrt() in "IEEE/cbrt.c" is for IEEE machines
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only. The functions in files that end with ".s" are for VAX computers
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only. The functions in files that end with ".c" (except "IEEE/cbrt.c")
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are for VAX and IEEE machines. To use the VAX D-format, compile the code
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with -DVAX; to use IEEE double format on various IEEE machines, see
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"Makefile" in this directory).
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Example:
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cc -c -DVAX sin.c ... for VAX D-format
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Warning: The values of floating-point constants used in the code are
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given in both hexadecimal and decimal. The hexadecimal values
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are the intended ones. The decimal values may be used provided
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that the compiler converts from decimal to binary accurately
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enough to produce the hexadecimal values shown. If the
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conversion is inaccurate, then one must know the exact machine
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representation of the constants and alter the assembly
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language output from the compiler, or play tricks like
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the following in a C program.
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Example: to store the floating-point constant
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p1= 2^-6 * .F83ABE67E1066A (Hexadecimal)
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on a VAX in C, we use two longwords to store its
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machine value and define p1 to be the double constant
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at the location of these two longwords:
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static long p1x[] = { 0x3abe3d78, 0x066a67e1};
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#define p1 (*(double*)p1x)
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Note: On a VAX, some functions have two codes. For example, cabs() has
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one implementation in "IEEE/cabs.c", and another in "VAX/cabs.s".
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In this case, the assembly language version is preferred.
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4. Accuracy.
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The errors in expm1(), log1p(), exp(), log(), cabs(), hypot()
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and cbrt() are below 1 ULP (Unit in the Last Place).
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The error in pow(x,y) grows with the size of y. Nevertheless,
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for integers x and y, pow(x,y) returns the correct integer value
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on all tested machines (VAX, SUN, NATIONAL, ZILOG), provided that
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x to the power of y is representable exactly.
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cosh, sinh, acosh, asinh, tanh, atanh and log10 have errors below
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about 3 ULPs.
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For trigonometric and inverse trigonometric functions:
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Let [trig(x)] denote the value actually computed for trig(x),
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1) Those codes using the machine's value PI (true pi rounded):
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(source codes: IEEE/{trig.c,atan2.c}, asincos.c and atan.c)
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The errors in [sin(x)], [cos(x)], and [atan(x)] are below
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1 ULP compared with sin(x*pi/PI), cos(x*pi/PI), and
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atan(x)*PI/pi respectively, where PI is the machine's
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value of pi rounded. [tan(x)] returns tan(x*pi/PI) within
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about 2 ULPs; [acos(x)], [asin(x)], and [atan2(y,x)]
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return acos(x)*PI/pi, asin(x)*PI/pi, and atan2(y,x)*PI/pi
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respectively to similar accuracy.
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2) Those using true pi (for VAX D-format only):
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(source codes: VAX/{sincos.s,tan.s,atan2.s}, asincos.c and
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atan.c)
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The errors in [sin(x)], [cos(x)], and [atan(x)] are below
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1 ULP. [tan(x)], [atan2(y,x)], [acos(x)], and [asin(x)]
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have errors below about 2 ULPs.
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Here are the results of some test runs to find worst errors on
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the VAX :
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tan : 2.09 ULPs ...1,024,000 random arguments (machine PI)
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sin : .861 ULPs ...1,024,000 random arguments (machine PI)
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cos : .857 ULPs ...1,024,000 random arguments (machine PI)
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(compared with tan, sin, cos of (x*pi/PI))
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acos : 2.07 ULPs .....200,000 random arguments (machine PI)
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asin : 2.06 ULPs .....200,000 random arguments (machine PI)
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atan2 : 1.41 ULPs .....356,000 random arguments (machine PI)
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atan : 0.86 ULPs ...1,536,000 random arguments (machine PI)
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(compared with (PI/pi)*(atan, asin, acos, atan2 of x))
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tan : 2.15 ULPs ...1,024,000 random arguments (true pi)
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sin : .814 ULPs ...1,024,000 random arguments (true pi)
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cos : .792 ULPs ...1,024,000 random arguments (true pi)
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acos : 2.15 ULPs ...1,024,000 random arguments (true pi)
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asin : 1.99 ULPs ...1,024,000 random arguments (true pi)
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atan2 : 1.48 ULPs ...1,024,000 random arguments (true pi)
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atan : .850 ULPs ...1,024,000 random arguments (true pi)
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acosh : 3.30 ULPs .....512,000 random arguments
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asinh : 1.58 ULPs .....512,000 random arguments
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atanh : 1.71 ULPs .....512,000 random arguments
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cosh : 1.23 ULPs .....768,000 random arguments
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sinh : 1.93 ULPs ...1,024,000 random arguments
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tanh : 2.22 ULPs ...1,024,000 random arguments
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log10 : 1.74 ULPs ...1,536,000 random arguments
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pow : 1.79 ULPs .....100,000 random arguments, 0 < x, y < 20.
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exp : .768 ULPs ...1,156,000 random arguments
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expm1 : .844 ULPs ...1,166,000 random arguments
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log1p : .846 ULPs ...1,536,000 random arguments
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log : .826 ULPs ...1,536,000 random arguments
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cabs : .959 ULPs .....500,000 random arguments
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cbrt : .666 ULPs ...5,120,000 random arguments
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5. Speed.
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Some functions coded in VAX assembly language (cabs(), hypot() and
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sqrt()) are significantly faster than the corresponding ones in 4.2BSD.
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In general, to improve performance, all functions in "IEEE/support.c"
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should be written in assembly language and, whenever possible, should
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be called via short subroutine calls.
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6. j0, j1, jn.
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The modifications to these routines were only in how an invalid
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floating point operations is signaled.
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