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git://git.code.sf.net/p/zsh/code
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574 lines
12 KiB
C
574 lines
12 KiB
C
/*
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* mathfunc.c - basic mathematical functions for use in math evaluations
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*
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* This file is part of zsh, the Z shell.
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*
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* Copyright (c) 1999 Peter Stephenson
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* All rights reserved.
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*
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* Permission is hereby granted, without written agreement and without
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* license or royalty fees, to use, copy, modify, and distribute this
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* software and to distribute modified versions of this software for any
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* purpose, provided that the above copyright notice and the following
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* two paragraphs appear in all copies of this software.
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*
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* In no event shall Peter Stephenson or the Zsh Development Group be liable
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* to any party for direct, indirect, special, incidental, or consequential
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* damages arising out of the use of this software and its documentation,
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* even if Peter Stephenson and the Zsh Development Group have been advised of
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* the possibility of such damage.
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*
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* Peter Stephenson and the Zsh Development Group specifically disclaim any
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* warranties, including, but not limited to, the implied warranties of
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* merchantability and fitness for a particular purpose. The software
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* provided hereunder is on an "as is" basis, and Peter Stephenson and the
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* Zsh Development Group have no obligation to provide maintenance,
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* support, updates, enhancements, or modifications.
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*
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*/
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#include "mathfunc.mdh"
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#include "mathfunc.pro"
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#include <math.h>
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enum {
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MF_ABS,
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MF_ACOS,
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MF_ACOSH,
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MF_ASIN,
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MF_ASINH,
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MF_ATAN,
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MF_ATANH,
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MF_CBRT,
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MF_CEIL,
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MF_COPYSIGN,
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MF_COS,
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MF_COSH,
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MF_ERF,
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MF_ERFC,
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MF_EXP,
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MF_EXPM1,
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MF_FABS,
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MF_FLOAT,
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MF_FLOOR,
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MF_FMOD,
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MF_GAMMA,
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MF_HYPOT,
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MF_ILOGB,
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MF_INT,
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MF_J0,
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MF_J1,
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MF_JN,
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MF_LDEXP,
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MF_LGAMMA,
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MF_LOG,
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MF_LOG10,
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MF_LOG1P,
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MF_LOG2,
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MF_LOGB,
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MF_NEXTAFTER,
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MF_RINT,
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MF_SCALB,
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#ifdef HAVE_SIGNGAM
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MF_SIGNGAM,
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#endif
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MF_SIN,
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MF_SINH,
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MF_SQRT,
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MF_TAN,
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MF_TANH,
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MF_Y0,
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MF_Y1,
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MF_YN
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};
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/* also functions taking a string argument */
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enum {
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MS_RAND48
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};
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/*
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* also to do, but differently argument or returned: abs (no type
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* conversion), atan2.
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*/
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/*
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* Flags for type of function: unlike the above, these must
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* be individually bit-testable.
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*/
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enum {
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TF_NOCONV = 1, /* don't convert to float */
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TF_INT1 = 2, /* first argument is integer */
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TF_INT2 = 4, /* second argument is integer */
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TF_NOASS = 8 /* don't assign result as double */
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};
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#define TFLAG(x) ((x) << 8)
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static struct mathfunc mftab[] = {
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NUMMATHFUNC("abs", math_func, 1, 1, MF_ABS |
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TFLAG(TF_NOCONV|TF_NOASS)),
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NUMMATHFUNC("acos", math_func, 1, 1, MF_ACOS),
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NUMMATHFUNC("acosh", math_func, 1, 1, MF_ACOSH),
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NUMMATHFUNC("asin", math_func, 1, 1, MF_ASIN),
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NUMMATHFUNC("asinh", math_func, 1, 1, MF_ASINH),
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NUMMATHFUNC("atan", math_func, 1, 2, MF_ATAN),
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NUMMATHFUNC("atanh", math_func, 1, 1, MF_ATANH),
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NUMMATHFUNC("cbrt", math_func, 1, 1, MF_CBRT),
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NUMMATHFUNC("ceil", math_func, 1, 1, MF_CEIL),
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NUMMATHFUNC("copysign", math_func, 2, 2, MF_COPYSIGN),
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NUMMATHFUNC("cos", math_func, 1, 1, MF_COS),
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NUMMATHFUNC("cosh", math_func, 1, 1, MF_COSH),
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NUMMATHFUNC("erf", math_func, 1, 1, MF_ERF),
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NUMMATHFUNC("erfc", math_func, 1, 1, MF_ERFC),
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NUMMATHFUNC("exp", math_func, 1, 1, MF_EXP),
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NUMMATHFUNC("expm1", math_func, 1, 1, MF_EXPM1),
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NUMMATHFUNC("fabs", math_func, 1, 1, MF_FABS),
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NUMMATHFUNC("float", math_func, 1, 1, MF_FLOAT),
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NUMMATHFUNC("floor", math_func, 1, 1, MF_FLOOR),
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NUMMATHFUNC("fmod", math_func, 2, 2, MF_FMOD),
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NUMMATHFUNC("gamma", math_func, 1, 1, MF_GAMMA),
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NUMMATHFUNC("hypot", math_func, 2, 2, MF_HYPOT),
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NUMMATHFUNC("ilogb", math_func, 1, 1, MF_ILOGB | TFLAG(TF_NOASS)),
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NUMMATHFUNC("int", math_func, 1, 1, MF_INT | TFLAG(TF_NOASS)),
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NUMMATHFUNC("j0", math_func, 1, 1, MF_J0),
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NUMMATHFUNC("j1", math_func, 1, 1, MF_J1),
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NUMMATHFUNC("jn", math_func, 2, 2, MF_JN | TFLAG(TF_INT1)),
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NUMMATHFUNC("ldexp", math_func, 2, 2, MF_LDEXP | TFLAG(TF_INT2)),
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NUMMATHFUNC("lgamma", math_func, 1, 1, MF_LGAMMA),
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NUMMATHFUNC("log", math_func, 1, 1, MF_LOG),
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NUMMATHFUNC("log10", math_func, 1, 1, MF_LOG10),
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NUMMATHFUNC("log1p", math_func, 1, 1, MF_LOG1P),
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NUMMATHFUNC("log2", math_func, 1, 1, MF_LOG2),
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NUMMATHFUNC("logb", math_func, 1, 1, MF_LOGB),
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NUMMATHFUNC("nextafter", math_func, 2, 2, MF_NEXTAFTER),
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#ifdef HAVE_ERAND48
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STRMATHFUNC("rand48", math_string, MS_RAND48),
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#endif
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NUMMATHFUNC("rint", math_func, 1, 1, MF_RINT),
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NUMMATHFUNC("scalb", math_func, 2, 2, MF_SCALB | TFLAG(TF_INT2)),
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#ifdef HAVE_SIGNGAM
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NUMMATHFUNC("signgam", math_func, 0, 0, MF_SIGNGAM | TFLAG(TF_NOASS)),
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#endif
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NUMMATHFUNC("sin", math_func, 1, 1, MF_SIN),
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NUMMATHFUNC("sinh", math_func, 1, 1, MF_SINH),
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NUMMATHFUNC("sqrt", math_func, 1, 1, MF_SQRT),
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NUMMATHFUNC("tan", math_func, 1, 1, MF_TAN),
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NUMMATHFUNC("tanh", math_func, 1, 1, MF_TANH),
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NUMMATHFUNC("y0", math_func, 1, 1, MF_Y0),
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NUMMATHFUNC("y1", math_func, 1, 1, MF_Y1),
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NUMMATHFUNC("yn", math_func, 2, 2, MF_YN | TFLAG(TF_INT1))
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};
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/**/
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static mnumber
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math_func(UNUSED(char *name), int argc, mnumber *argv, int id)
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{
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mnumber ret;
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double argd = 0, argd2 = 0, retd = 0;
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int argi = 0;
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if (argc && !(id & TFLAG(TF_NOCONV))) {
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if (id & TFLAG(TF_INT1))
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argi = (argv->type == MN_FLOAT) ? (zlong)argv->u.d : argv->u.l;
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else
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argd = (argv->type == MN_INTEGER) ? (double)argv->u.l : argv->u.d;
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if (argc > 1) {
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if (id & TFLAG(TF_INT2))
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argi = (argv[1].type == MN_FLOAT) ? (zlong)argv[1].u.d :
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argv[1].u.l;
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else
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argd2 = (argv[1].type == MN_INTEGER) ? (double)argv[1].u.l :
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argv[1].u.d;
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}
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}
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ret.type = MN_FLOAT;
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ret.u.d = 0;
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if (errflag)
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return ret;
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switch (id & 0xff) {
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case MF_ABS:
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ret.type = argv->type;
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if (argv->type == MN_INTEGER)
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ret.u.l = (argv->u.l < 0) ? - argv->u.l : argv->u.l;
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else
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ret.u.d = fabs(argv->u.d);
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break;
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case MF_ACOS:
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retd = acos(argd);
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break;
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case MF_ACOSH:
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retd = acosh(argd);
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break;
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case MF_ASIN:
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retd = asin(argd);
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break;
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case MF_ASINH:
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retd = asinh(argd);
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break;
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case MF_ATAN:
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if (argc == 2)
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retd = atan2(argd, argd2);
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else
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retd = atan(argd);
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break;
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case MF_ATANH:
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retd = atanh(argd);
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break;
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case MF_CBRT:
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retd = cbrt(argd);
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break;
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case MF_CEIL:
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retd = ceil(argd);
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break;
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case MF_COPYSIGN:
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retd = copysign(argd, argd2);
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break;
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case MF_COS:
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retd = cos(argd);
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break;
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case MF_COSH:
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retd = cosh(argd);
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break;
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case MF_ERF:
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retd = erf(argd);
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break;
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case MF_ERFC:
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retd = erfc(argd);
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break;
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case MF_EXP:
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retd = exp(argd);
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break;
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case MF_EXPM1:
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retd = expm1(argd);
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break;
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case MF_FABS:
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retd = fabs(argd);
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break;
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case MF_FLOAT:
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retd = argd;
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break;
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case MF_FLOOR:
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retd = floor(argd);
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break;
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case MF_FMOD:
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retd = fmod(argd, argd2);
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break;
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case MF_GAMMA:
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#ifdef HAVE_TGAMMA
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retd = tgamma(argd);
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#else
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#ifdef HAVE_SIGNGAM
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retd = lgamma(argd);
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retd = signgam*exp(retd);
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#else /*XXX assume gamma(x) returns Gamma(x), not log(|Gamma(x)|) */
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retd = gamma(argd);
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#endif
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#endif
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break;
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case MF_HYPOT:
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retd = hypot(argd, argd2);
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break;
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case MF_ILOGB:
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ret.type = MN_INTEGER;
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ret.u.l = ilogb(argd);
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break;
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case MF_INT:
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ret.type = MN_INTEGER;
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ret.u.l = (zlong)argd;
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break;
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case MF_J0:
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retd = j0(argd);
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break;
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case MF_J1:
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retd = j1(argd);
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break;
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case MF_JN:
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retd = jn(argi, argd2);
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break;
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case MF_LDEXP:
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retd = ldexp(argd, argi);
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break;
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case MF_LGAMMA:
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retd = lgamma(argd);
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break;
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case MF_LOG:
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retd = log(argd);
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break;
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case MF_LOG10:
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retd = log10(argd);
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break;
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case MF_LOG1P:
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retd = log1p(argd);
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break;
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case MF_LOG2:
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#ifdef HAVE_LOG2
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retd = log2(argd);
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#else
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retd = log(argd) / log(2);
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#endif
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break;
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case MF_LOGB:
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retd = logb(argd);
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break;
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case MF_NEXTAFTER:
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retd = nextafter(argd, argd2);
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break;
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case MF_RINT:
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retd = rint(argd);
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break;
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case MF_SCALB:
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#ifdef HAVE_SCALBN
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retd = scalbn(argd, argi);
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#else
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retd = scalb(argd, argi);
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#endif
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break;
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#ifdef HAVE_SIGNGAM
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case MF_SIGNGAM:
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ret.type = MN_INTEGER;
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ret.u.l = signgam;
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break;
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#endif
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case MF_SIN:
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retd = sin(argd);
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break;
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case MF_SINH:
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retd = sinh(argd);
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break;
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case MF_SQRT:
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retd = sqrt(argd);
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break;
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case MF_TAN:
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retd = tan(argd);
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break;
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case MF_TANH:
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retd = tanh(argd);
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break;
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case MF_Y0:
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retd = y0(argd);
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break;
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case MF_Y1:
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retd = y1(argd);
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break;
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case MF_YN:
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retd = yn(argi, argd2);
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break;
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#ifdef DEBUG
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default:
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fprintf(stderr, "BUG: mathfunc type not handled: %d", id);
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break;
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#endif
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}
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if (!(id & TFLAG(TF_NOASS)))
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ret.u.d = retd;
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return ret;
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}
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/**/
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static mnumber
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math_string(UNUSED(char *name), char *arg, int id)
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{
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mnumber ret = zero_mnumber;
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char *send;
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/*
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* Post-process the string argument, which is just passed verbatim.
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* Not clear if any other functions that use math_string() will
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* want this, but assume so for now.
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*/
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while (iblank(*arg))
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arg++;
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send = arg + strlen(arg);
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while (send > arg && iblank(send[-1]))
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send--;
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*send = '\0';
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switch (id)
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{
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#ifdef HAVE_ERAND48
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case MS_RAND48:
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{
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static unsigned short seedbuf[3];
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static int seedbuf_init;
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unsigned short tmp_seedbuf[3], *seedbufptr;
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int do_init = 1;
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if (*arg) {
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/* Seed is contained in parameter named by arg */
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char *seedstr;
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seedbufptr = tmp_seedbuf;
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if ((seedstr = getsparam(arg)) && strlen(seedstr) >= 12) {
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int i, j;
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do_init = 0;
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/*
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* Decode three sets of four hex digits corresponding
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* to each unsigned short.
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*/
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for (i = 0; i < 3 && !do_init; i++) {
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unsigned short *seedptr = seedbufptr + i;
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*seedptr = 0;
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for (j = 0; j < 4; j++) {
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if (idigit(*seedstr))
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*seedptr += *seedstr - '0';
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else if (tolower(*seedstr) >= 'a' &&
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tolower(*seedstr) <= 'f')
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*seedptr += tolower(*seedstr) - 'a' + 10;
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else {
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do_init = 1;
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break;
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}
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seedstr++;
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if (j < 3)
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*seedptr *= 16;
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}
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}
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}
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else if (errflag)
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break;
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}
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else
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{
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/* Use default seed: must be initialised. */
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seedbufptr = seedbuf;
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if (!seedbuf_init)
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seedbuf_init = 1;
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else
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do_init = 1;
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}
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if (do_init) {
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seedbufptr[0] = (unsigned short)rand();
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seedbufptr[1] = (unsigned short)rand();
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seedbufptr[2] = (unsigned short)rand();
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/*
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* Some implementations of rand48() need initialization.
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* This is likely to be harmless elsewhere, since
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* according to the documentation erand48() normally
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* doesn't look at the seed set in this way.
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*/
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(void)seed48(seedbufptr);
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}
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ret.type = MN_FLOAT;
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ret.u.d = erand48(seedbufptr);
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if (*arg)
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{
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char outbuf[13];
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sprintf(outbuf, "%04x%04x%04x", (int)seedbufptr[0],
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(int)seedbufptr[1], (int)seedbufptr[2]);
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setsparam(arg, ztrdup(outbuf));
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}
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}
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break;
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#endif
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}
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return ret;
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}
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static struct features module_features = {
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NULL, 0,
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NULL, 0,
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mftab, sizeof(mftab)/sizeof(*mftab),
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NULL, 0,
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0
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};
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/**/
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int
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setup_(UNUSED(Module m))
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{
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return 0;
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}
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/**/
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int
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features_(Module m, char ***features)
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{
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*features = featuresarray(m, &module_features);
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return 0;
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}
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/**/
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int
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|
enables_(Module m, int **enables)
|
|
{
|
|
return handlefeatures(m, &module_features, enables);
|
|
}
|
|
|
|
/**/
|
|
int
|
|
boot_(UNUSED(Module m))
|
|
{
|
|
return 0;
|
|
}
|
|
|
|
/**/
|
|
int
|
|
cleanup_(Module m)
|
|
{
|
|
return setfeatureenables(m, &module_features, NULL);
|
|
}
|
|
|
|
/**/
|
|
int
|
|
finish_(UNUSED(Module m))
|
|
{
|
|
return 0;
|
|
}
|