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diff --git a/contrib/enquire.c b/contrib/enquire.c
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+/* Everything you wanted to know about your machine and C compiler,
+   but didn't know who to ask.  */
+
+#ifndef VERSION
+#define VERSION "4.3"
+#endif
+
+/* Author: Steven Pemberton, CWI, Amsterdam; steven@cwi.nl
+   Bugfixes and upgrades gratefully received.
+
+   Copyright (c) 1988, 1989, 1990 Steven Pemberton, CWI, Amsterdam.
+   All rights reserved.
+
+   Changes by Richard Stallman:
+   Undef CHAR_BIT, etc., if defined in stdio.h, Richard Stallman, Aug 90.
+   In EPROP, avoid a <= old if bad is set, Richard Stallman, May 91.
+   Use gstddef.h, not stddef.h, Richard Stallman, Nov 91.
+   Don't declare malloc, instead cast the value, Richard Stallman, Nov 91.
+   Include sys/types.h before signal.h, Apr 92.
+   Support NO_LONG_DOUBLE_IO in f_define and f_rep; new fn fake_f_rep, Apr 92.
+   Enclose -f output in #ifndef _FLOAT_H___, Richard Stallman, May 92.
+
+   Change by Jim Wilson:
+   Add #undef before every #define, Dec 92.
+   Use stddef.h not gstddef.h, Mar 94.
+
+   Changes by Paul Eggert, installed Feb 93:
+   (fake_f_rep): Clear all of u, initially.  Make the ints in u unsigned.
+   (f_define): Use ordinary constants for long double
+   if it's same width as double.  Make __convert_long_double_i unsigned.
+   Richard Stallman, May 93:
+   In F_check, check NO_LONG_DOUBLE_IO.
+
+   Changes by Stephen Moshier, installed Sep 93:
+   (FPROP): Recognize 80387 or 68881 XFmode format.
+
+   Change by Manfred Hollstein, installed Mar 98:
+   (bitpattern): Change type of variable i to unsigned int.
+
+
+   COMPILING
+   With luck and a following wind, just the following will work:
+	cc enquire.c -o enquire
+   You may get some messages about unreachable code, which you can ignore.
+
+   If your compiler doesn't support:		add flag:
+	signed char (eg pcc)			-DNO_SC
+	unsigned char				-DNO_UC
+	unsigned short and long			-DNO_UI
+	void					-DNO_VOID
+	signal(), or setjmp/longjmp()		-DNO_SIG
+	%Lf in printf				-DNO_LONG_DOUBLE_IO
+
+   Try to compile first with no flags, and see if you get any errors -
+   you might be surprised. (Most non-ANSI compilers need -DNO_SC, though.)
+   Some compilers need a -f flag for floating point.
+
+   Don't use any optimisation flags: the program may not work if you do.
+   Though "while (a+1.0-a-1.0 == 0.0)" may look like "while(1)" to an
+   optimiser, to a floating-point unit there's a world of difference.
+
+   Some compilers offer various flags for different floating point
+   modes; it's worth trying all possible combinations of these.
+
+   Add -DID=\"name\" if you want the machine/flags identified in the output.
+
+   FAULTY COMPILERS
+   Because of bugs and/or inadequacies, some compilers need the following
+   defines:
+
+   If your C preprocessor doesn't have the predefined __FILE__ macro, and
+   you don't want to call this file enquire.c but, say, tell.c, add the
+   flag -DFILENAME=\"tell.c\" .
+
+   Some compilers won't accept the line "#include FILENAME".
+   Add flag -DNO_FILE. In that case, this file *must* be called enquire.c.
+
+   Some compilers can't cope with "#ifdef __FILE__". Use -DFILENAME=
+   or -DNO_FILE as above.
+
+   Some naughty compilers define __STDC__, but don't really support it.
+   Some define it as 0, in which case we treat it as undefined.
+   But if your compiler defines it, and isn't really ANSI C,
+   add flag -DNO_STDC. (To those compiler writers: for shame).
+
+   Some naughty compilers define __STDC__, but don't have the stddef.h
+   include file. Add flag -DNO_STDDEF.
+
+   Summary of naughty-compiler flags:
+   If your compiler doesn't support:		 add flag:
+	__FILE__ (and you changed the filename)	-DFILENAME=\"name.c\"
+	#ifdef __FILE__				-DNO_FILE or -DFILENAME=...
+	#include FILENAME			-DNO_FILE
+	__STDC__ (properly)			-DNO_STDC
+	stddef.h				-DNO_STDDEF
+
+   Some systems crash when you try to malloc all store. To save users of
+   such defective systems too much grief, they may compile with -DNO_MEM,
+   which ignores that bit of the code.
+
+   While it is not our policy to support defective compilers, pity has been
+   taken on people with compilers that can't produce object files bigger than
+   32k (especially since it was an easy addition). Compile the program
+   into separate parts like this:
+       cc -DSEP -DPASS0 -o p0.o <other flags> enquire.c
+       cc -DSEP -DPASS1 -o p1.o <other flags> enquire.c
+       cc -DSEP -DPASS2 -o p2.o <other flags> enquire.c
+       cc -DSEP -DPASS3 -o p3.o <other flags> enquire.c
+       cc -o enquire p0.o p1.o p2.o p3.o
+
+   SYSTEM DEPENDENCIES
+   You may possibly need to add some calls to signal() for other sorts of
+   exception on your machine than SIGFPE, and SIGOVER. See lines beginning
+   #ifdef SIGxxx in main() (and communicate the differences to me!).
+
+   OUTPUT
+   Run without argument to get the information as English text. If run
+   with argument -l (e.g. enquire -l), output is a series of #define's for
+   the ANSI standard limits.h include file, excluding MB_MAX_CHAR. If run
+   with argument -f, output is a series of #define's for the ANSI standard
+   float.h include file (according to ANSI C Draft of Dec 7, 1988).
+   Flag -v gives verbose output: output includes the English text above
+   as C comments. The program exit(0)'s if everything went ok, otherwise
+   it exits with a positive number, telling how many problems there were.
+
+   VERIFYING THE COMPILER
+   If, having produced the float.h and limits.h header files, you want to
+   verify that the compiler reads them back correctly (there are a lot of
+   boundary cases, of course, like minimum and maximum numbers), you can
+   recompile enquire.c with -DVERIFY set (plus the other flags that you used
+   when compiling the version that produced the header files). This then
+   recompiles the program so that it #includes "limits.h" and "float.h",
+   and checks that the constants it finds there are the same as the
+   constants it produces. Run the resulting program with enquire -fl.
+   Very few compilers have passed without error.
+   NB: You *must* recompile with the same compiler and flags, otherwise
+   you may get odd results.
+
+   You can also use this option if your compiler already has both files,
+   and you want to confirm that this program produces the right results.
+
+   TROUBLESHOOTING.
+   This program is now quite trustworthy, and suspicious and wrong output
+   may well be caused by bugs in the compiler, not in the program (however
+   of course, this is not guaranteed, and no responsibility can be
+   accepted, etc.)
+
+   The program only works if overflows are ignored by the C system or
+   are catchable with signal().
+
+   If the program fails to run to completion (often with the error message
+   "Unexpected signal at point x"), this often turns out to be a bug in the
+   C compiler's run-time system. Check what was about to be printed, and
+   try to narrow the problem down.
+
+   Another possible problem is that you have compiled the program to produce
+   loss-of-precision arithmetic traps. The program cannot cope with these,
+   and you should re-compile without them. (They should never be the default).
+
+   Make sure you compiled with optimisation turned off.
+
+   Output preceded by *** WARNING: identifies behaviour of the C system
+   deemed incorrect by the program. Likely problems are that printf or
+   scanf don't cope properly with certain boundary numbers: this program
+   goes to a lot of trouble to calculate its values, and these values
+   are mostly boundary numbers. Experience has shown that often printf
+   cannot cope with these values, and so in an attempt to increase
+   confidence in the output, for each float and double that is printed,
+   the printed value is checked by using sscanf to read it back.
+       Care is taken that numbers are printed with enough digits to uniquely
+   identify them, and therefore that they can be read back identically.
+   If the number read back is different, then there is probably a bug in
+   printf or sscanf, and the program prints the warning message.
+   If the two numbers in the warning look identical, then printf is more
+   than likely rounding the last digit(s) incorrectly. To put you at ease
+   that the two really are different, the bit patterns of the two numbers
+   are also printed. The difference is very likely in the last bit.
+       Many scanf's read the minimum double back as 0.0, and similarly cause
+   overflow when reading the maximum double. This program quite ruthlessly
+   declares all these behaviours faulty. The point is that if you get
+   one of these warnings, the output may be wrong, so you should check
+   the result carefully if you intend to use the results. Of course, printf
+   and sscanf may both be wrong, and cancel each other out, so you should
+   check the output carefully anyway.
+
+   The warning that "a cast didn't work" refers to cases like this:
+
+      float f;
+      #define C 1.234567890123456789
+      f= C;
+      if (f != (float) C) printf ("Wrong!");
+
+   A faulty compiler will widen f to double and ignore the cast to float,
+   and because there is more accuracy in a double than a float, fail to
+   recognise that they are the same. In the actual case in point, f and C
+   are passed as parameters to a function that discovers they are not equal,
+   so it's just possible that the error was in the parameter passing,
+   not in the cast (see function Validate()).
+   For ANSI C, which has float constants, the error message is "constant has
+   wrong precision".
+
+   REPORTING PROBLEMS
+   If the program doesn't work for you for any reason that can't be
+   narrowed down to a problem in the C compiler, or it has to be changed in
+   order to get it to compile, or it produces suspicious output (like a very
+   low maximum float, for instance), please mail the problem and an example
+   of the incorrect output to steven@cwi.nl or ..!hp4nl!cwi.nl!steven, so that
+   improvements can be worked into future versions; cwi.nl is the European
+   backbone, and is connected to uunet and other fine hosts.
+
+   The program tries to catch and diagnose bugs in the compiler/run-time
+   system. I would be especially pleased to have reports of failures so
+   that I can improve this service.
+
+   I apologise unreservedly for the contorted use of the preprocessor...
+
+   THE SMALL PRINT
+   You may copy and distribute verbatim copies of this source file.
+
+   You may modify this source file, and copy and distribute such
+   modified versions, provided that you leave the copyright notice
+   at the top of the file and also cause the modified file to carry
+   prominent notices stating that you changed the files and the date
+   of any change; and cause the whole of any work that you distribute
+   or publish, that in whole or in part contains or is a derivative of
+   this program or any part thereof, to be licensed at no charge to
+   all third parties on terms identical to those here.
+
+   If you do have a fix to any problem, please send it to me, so that
+   other people can have the benefits.
+
+   While every effort has been taken to make this program as reliable as
+   possible, no responsibility can be taken for the correctness of the
+   output, nor suitability for any particular use.
+
+   This program is an offshoot of a project funded by public funds.
+   If you use this program for research or commercial use (i.e. more
+   than just for the fun of knowing about your compiler) mailing a short
+   note of acknowledgement may help keep enquire.c supported.
+
+   ACKNOWLEDGEMENTS
+   Many people have given time and ideas to making this program what it is.
+   To all of them thanks, and apologies for not mentioning them by name.
+
+   HISTORY
+   Originally started as a program to generate configuration constants
+   for a large piece of software we were writing, which later took on
+   a life of its own...
+   1.0 Length 6658!; end 1984?
+       Unix only. Only printed a dozen maximum int/double values.
+   2.0 Length 10535; Spring 1985
+       Prints values as #defines (about 20 of them)
+       More extensive floating point, using Cody and Waite
+       Handles signals better
+       Programs around optimisations
+       Handles Cybers
+   3.0 Length 12648; Aug 1987; prints about 42 values
+       Added PASS stuff, so treats float as well as double
+   4.0 Length 33891; Feb 1989; prints around 85 values
+       First GNU version (for gcc, where they call it hard-params.c)
+       Generates float.h and limits.h files
+       Handles long double
+       Generates warnings for dubious output
+   4.1 Length 47738; April 1989
+       Added VERIFY and TEST
+   4.2 Length 63442; Feb 1990
+       Added SEP
+       Fixed eps/epsneg
+       Added check for pseudo-unsigned chars
+       Added description for each #define output
+       Added check for absence of defines during verify
+       Added prototypes
+       Added NO_STDC and NO_FILE
+       Fixed alignments output
+   4.3 Length 75000; Oct 1990; around 114 lines of output
+       Function xmalloc defined, Richard Stallman, June 89.
+       Alignments computed from member offsets rather than structure sizes,
+          Richard Stallman, Oct 89.
+       Print whether char* and int* pointers have the same format;
+          also char * and function *.
+       Update to Draft C version Dec 7, 1988
+	  - types of constants produced in limits.h
+	    (whether to put a U after unsigned shorts and chars and
+	     whether to output -1024 as (-1023-1))
+	  - values of SCHAR_MIN/MAX
+	  - values of *_EPSILON (not the smallest but the effective smallest)
+       Added FILENAME, since standard C doesn't allow #define __FILE__
+       Renamed from config.c to enquire.c
+       Added size_t and ptrdiff_t enquiries
+       Added promotion enquiries
+       Added type checks of #defines
+       Added NO_STDDEF
+       Changed endian to allow for cases where not all bits are used
+       Sanity check for max integrals
+       Fixed definition of setjmp for -DNO_SIG
+       Moved #define ... 0.0L inside #ifdef STDC, in case some cpp's tokenize
+       Added NO_MEM
+*/
+
+/* Set FILENAME to the name of this file */
+#ifndef FILENAME
+#ifdef NO_FILE
+#define FILENAME "enquire.c"
+#else
+#ifdef __FILE__ /* It's a compiler bug if this fails. Compile with -DNO_FILE */
+#define FILENAME __FILE__
+#else
+#define FILENAME "enquire.c"
+#endif /* __FILE__ */
+#endif /* NO_FILE */
+#endif /* FILENAME */
+
+/* If PASS isn't defined, then this is the first pass over this file.  */
+#ifndef PASS
+#ifndef SEP
+#define PASS 1
+#define PASS0 1
+#define PASS1 1
+#endif /* SEP */
+
+/* A description of the ANSI constants */
+#define D_CHAR_BIT "Number of bits in a storage unit"
+#define D_CHAR_MAX "Maximum char"
+#define D_CHAR_MIN "Minimum char"
+#define D_SCHAR_MAX "Maximum signed char"
+#define D_SCHAR_MIN "Minimum signed char"
+#define D_UCHAR_MAX "Maximum unsigned char (minimum is always 0)"
+
+#define D_INT_MAX "Maximum %s"
+#define D_INT_MIN "Minimum %s"
+#define D_UINT_MAX "Maximum unsigned %s (minimum is always 0)"
+
+#define D_FLT_ROUNDS "Addition rounds to 0: zero, 1: nearest, 2: +inf, 3: -inf, -1: unknown"
+#define D_FLT_RADIX "Radix of exponent representation"
+#define D_MANT_DIG "Number of base-FLT_RADIX digits in the significand of a %s"
+#define D_DIG "Number of decimal digits of precision in a %s"
+#define D_MIN_EXP "Minimum int x such that FLT_RADIX**(x-1) is a normalised %s"
+#define D_MIN_10_EXP "Minimum int x such that 10**x is a normalised %s"
+#define D_MAX_EXP "Maximum int x such that FLT_RADIX**(x-1) is a representable %s"
+#define D_MAX_10_EXP "Maximum int x such that 10**x is a representable %s"
+#define D_MAX "Maximum %s"
+#define D_EPSILON "Difference between 1.0 and the minimum %s greater than 1.0"
+#define D_MIN "Minimum normalised %s"
+
+/* Procedure just marks the functions that don't return a result */
+#ifdef NO_VOID
+#define Procedure int
+#else
+#define Procedure void
+#endif
+
+/* Some bad compilers define __STDC__, when they don't support it.
+   Compile with -DNO_STDC to get round this.
+*/
+#ifndef NO_STDC
+#ifdef __STDC__
+#if __STDC__ /* If __STDC__ is 0, assume it isn't supported */
+#define STDC
+#endif
+#endif
+#endif
+
+/* Stuff different for ANSI C, and old C:
+   ARGS and NOARGS are used for function prototypes.
+   Volatile is used to reduce the chance of optimisation,
+      and to prevent variables being put in registers (when setjmp/longjmp
+      wouldn't work as we want)
+   Long_double is the longest floating point type available.
+   stdc is used in tests like "if (stdc)", which is less ugly than #ifdef.
+   U is output after unsigned constants.
+ */
+#ifdef STDC
+
+#define ARGS(x) x
+#define NOARGS (void)
+#define Volatile volatile
+#define Long_double long double
+#define stdc 1
+#define U "U"
+
+#else /* Old style C */
+
+#define ARGS(x) ()
+#define NOARGS ()
+#define Volatile static
+#define Long_double double
+#define stdc 0
+#define U ""
+
+#endif /* STDC */
+
+/* include files */
+/* Stdio.h might include limits.h, and limits.h might include float.h, and
+   float.h is probably the float.h put together by the gcc makefile to
+   cause errors.  We use our special define to assure float.h that we don't
+   really need it.  */
+#define __GCC_FLOAT_NOT_NEEDED   
+#include <stdio.h>
+
+#ifdef STDC
+#ifndef NO_STDDEF
+#include <stddef.h> /* for size_t: if this fails, define NO_STDDEF */
+#endif
+#endif
+
+#ifdef NO_SIG
+#define jmp_buf int
+#else
+#include <sys/types.h>
+#include <signal.h>
+#include <setjmp.h>
+#endif
+
+/* Kludge around the possibility that <stdio.h> includes <limits.h> */
+#ifdef CHAR_BIT
+#undef CHAR_BIT
+#undef CHAR_MAX
+#undef CHAR_MIN
+#undef SCHAR_MAX
+#undef SCHAR_MIN
+#undef UCHAR_MAX
+#undef UCHAR_MIN
+#endif
+
+#ifdef VERIFY
+#include "limits.h"
+#endif
+
+#ifndef SYS_FLOAT_H_WRAP
+#define SYS_FLOAT_H_WRAP 0
+#endif
+
+#if SYS_FLOAT_H_WRAP || defined VERIFY
+#include "float.h"
+#endif
+
+#define Vprintf if (V) printf
+#define Unexpected(place) if (setjmp(lab)!=0) croak(place)
+#define fabs(x) (((x)<0.0)?(-x):(x))
+
+#endif /* PASS */
+
+#ifdef PASS0
+
+/* Prototypes for what's to come: */
+
+int false NOARGS;
+
+#ifdef NO_STDDEF
+char *malloc (); /* Old style prototype */
+#else
+char *malloc ARGS((size_t size));
+#endif
+
+Procedure exit ARGS((int status));
+
+char *f_rep ARGS((int precision, Long_double val));
+char *fake_f_rep ARGS((char *type, Long_double val));
+
+int maximum_int NOARGS;
+int cprop NOARGS;
+int basic NOARGS;
+Procedure sprop NOARGS;
+Procedure iprop NOARGS;
+Procedure lprop NOARGS;
+Procedure usprop NOARGS;
+Procedure uiprop NOARGS;
+Procedure ulprop NOARGS;
+int fprop ARGS((int bits_per_byte));
+int dprop ARGS((int bits_per_byte));
+int ldprop ARGS((int bits_per_byte));
+Procedure efprop ARGS((int fprec, int dprec, int lprec));
+Procedure edprop ARGS((int fprec, int dprec, int lprec));
+Procedure eldprop ARGS((int fprec, int dprec, int lprec));
+
+int setmode ARGS((char *s));
+Procedure farewell ARGS((int bugs));
+Procedure describe ARGS((char *description, char *extra));
+Procedure missing ARGS((char *s));
+Procedure fmissing ARGS((char *s));
+Procedure check_defines NOARGS;
+Procedure bitpattern ARGS((char *p, unsigned int size));
+int ceil_log ARGS((int base, Long_double x));
+Procedure croak ARGS((int place));
+Procedure eek_a_bug ARGS((char *problem));
+Procedure endian ARGS((int bits_per_byte));
+int exponent ARGS((Long_double x, double *fract, int *exp));
+int floor_log ARGS((int base, Long_double x));
+Procedure f_define ARGS((char *desc, char *extra, char *sort, char *name,
+			 int prec, Long_double val, Long_double req,
+			 char *mark));
+Procedure i_define ARGS((char *desc, char *extra, char *sort, char *name,
+			 long val, long lim, long req, char *mark));
+Procedure u_define ARGS((char *desc, char *extra, char *sort, char *name,
+			 unsigned long val, unsigned long req, char *mark));
+
+#ifdef NO_SIG  /* There's no signal(), or setjmp/longjmp() */
+
+	/* Dummy routines instead */
+
+	int setjmp ARGS((int lab));
+
+	int lab=1;
+	int setjmp(lab) int lab; { return(0); }
+	Procedure signal(i, p) int i, (*p)(); {}
+
+#else
+	jmp_buf lab;
+	Procedure overflow(sig) int sig; { /* what to do on over/underflow */
+		signal(sig, overflow);
+		longjmp(lab, 1);
+	}
+
+#endif /*NO_SIG*/
+
+int V= 0,	/* verbose */
+    L= 0,	/* produce limits.h */
+    F= 0,	/* produce float.h  */
+    bugs=0;	/* The number of (possible) bugs in the output */
+
+char co[4], oc[4]; /* Comment starter and ender symbols */
+
+int bits_per_byte; /* the number of bits per unit returned by sizeof() */
+int flt_rounds;    /* The calculated value of FLT_ROUNDS */
+int flt_radix;     /* The calculated value of FLT_RADIX */
+
+#ifdef TEST
+/* Set the fp modes on a SUN with 68881 chip, to check that different
+   rounding modes etc. get properly detected.
+   Compile with -f68881 for cc, -m68881 for gcc, and with additional flag
+   -DTEST. Run with additional parameter +hex-number, to set the 68881 mode
+   register to hex-number
+*/
+
+/* Bits 0x30 = rounding mode */
+#define ROUND_BITS	0x30
+#define TO_NEAREST	0x00
+#define TO_ZERO		0x10
+#define TO_MINUS_INF	0x20
+#define TO_PLUS_INF	0x30 /* The SUN FP user's guide seems to be wrong here */
+
+/* Bits 0xc0 = extended rounding */
+#define EXT_BITS	0xc0
+#define ROUND_EXTENDED	0x00
+#define ROUND_SINGLE	0x40
+#define ROUND_DOUBLE	0x80
+
+/* Enabled traps */
+#define EXE_INEX1  0x100
+#define EXE_INEX2  0x200
+#define EXE_DZ	   0x400
+#define EXE_UNFL   0x800
+#define EXE_OVFL  0x1000
+#define EXE_OPERR 0x2000
+#define EXE_SNAN  0x4000
+#define EXE_BSUN  0x8000
+
+/* Only used for testing, on a Sun with 68881 chip */
+/* Print the FP mode */
+printmode(new) unsigned new; {
+	fpmode_(&new);
+	printf("New fp mode:\n");
+	printf("  Round toward ");
+	switch (new & ROUND_BITS) {
+	      case TO_NEAREST:   printf("nearest"); break;
+	      case TO_ZERO:      printf("zero"); break;
+	      case TO_MINUS_INF: printf("minus infinity"); break;
+	      case TO_PLUS_INF:  printf("plus infinity"); break;
+	      default: printf("???"); break;
+	}
+
+	printf("\n  Extended rounding precision: ");
+
+	switch (new & EXT_BITS) {
+	      case ROUND_EXTENDED: printf("extended"); break;
+	      case ROUND_SINGLE:   printf("single"); break;
+	      case ROUND_DOUBLE:   printf("double"); break;
+	      default: printf("???"); break;
+	}
+
+	printf("\n  Enabled exceptions:");
+	if (new & (unsigned) EXE_INEX1) printf(" inex1");
+	if (new & (unsigned) EXE_INEX2) printf(" inex2");
+	if (new & (unsigned) EXE_DZ)    printf(" dz");
+	if (new & (unsigned) EXE_UNFL)  printf(" unfl");
+	if (new & (unsigned) EXE_OVFL)  printf(" ovfl");
+	if (new & (unsigned) EXE_OPERR) printf(" operr");
+	if (new & (unsigned) EXE_SNAN)  printf(" snan");
+	if (new & (unsigned) EXE_BSUN)  printf(" bsun");
+	printf("\n");
+}
+
+/* Only used for testing, on a Sun with 68881 chip */
+/* Set the FP mode */
+int setmode(s) char *s; {
+	unsigned mode=0, dig;
+	char c;
+
+	while (*s) {
+		c= *s++;
+		if  (c>='0' && c<='9') dig= c-'0';
+		else if (c>='a' && c<='f') dig= c-'a'+10;
+		else if (c>='A' && c<='F') dig= c-'A'+10;
+		else return 1;
+		mode= mode<<4 | dig;
+	}
+	printmode(mode);
+	return 0;
+}
+#else
+/* ARGSUSED */
+int setmode(s) char *s; {
+	fprintf(stderr, "Can't set mode: not compiled with TEST\n");
+	return(1);
+}
+#endif
+
+Procedure farewell(bugs) int bugs; {
+	if (bugs == 0) exit(0);
+	printf("\n%sFor hints on dealing with the ", co);
+	if (bugs == 1) printf("problem");
+	else printf("%d problems", bugs);
+	printf(" above\n   see the section 'TROUBLESHOOTING' in the file ");
+	printf("%s%s\n", FILENAME, oc);
+	exit(bugs);
+}
+
+/* The program has received a signal where it wasn't expecting one */
+Procedure croak(place) int place; {
+	printf("*** Unexpected signal at point %d\n", place);
+	farewell(bugs+1); /* An exit isn't essential here, but avoids loops */
+}
+
+/* This is here in case alloca.c is used, which calls this.  */
+char *xmalloc(size) unsigned size; {
+	char *value = (char *)malloc(size);
+	if (value == 0) {
+		fprintf(stderr, "Virtual memory exceeded\n");
+		exit(bugs+1);
+	}
+	return value;
+}
+
+int maxint;
+
+int maximum_int() {
+	/* Find the maximum integer */
+	Volatile int newi, int_max, two=2;
+
+	/* Calculate maxint ***********************************/
+	/* Calculate 2**n-1 until overflow - then use the previous value  */
+
+	newi=1; int_max=0;
+
+	if (setjmp(lab)==0) { /* Yields int_max */
+		while(newi>int_max) {
+			int_max=newi;
+			newi=newi*two+1;
+		}
+	}
+	Unexpected(0);
+	return int_max;
+}
+
+int main(argc, argv) int argc; char *argv[]; {
+	int dprec, fprec, lprec;
+	int i; char *s; int bad;
+
+#ifdef SIGFPE
+	signal(SIGFPE, overflow);
+#endif
+#ifdef SIGOVER
+	signal(SIGOVER, overflow);
+#endif
+/* Add more calls as necessary */
+
+	Unexpected(1);
+
+	bad=0;
+	for (i=1; i < argc; i++) {
+		s= argv[i];
+		if (*s == '-') {
+			s++;
+			while (*s) {
+				switch (*(s++)) {
+				      case 'v': V=1; break;
+				      case 'l': L=1; break;
+				      case 'f': F=1; break;
+				      default: bad=1; break;
+				}
+			}
+		} else if (*s == '+') {
+			s++;
+			bad= setmode(s);
+		} else bad= 1;
+	}
+	if (bad) {
+		fprintf(stderr,
+			"Usage: %s [-vlf]\n  v=Verbose l=Limits.h f=Float.h\n",
+			argv[0]);
+		exit(1);
+	}
+	if (L || F) {
+		co[0]= '/'; oc[0]= ' ';
+		co[1]= '*'; oc[1]= '*';
+		co[2]= ' '; oc[2]= '/';
+		co[3]= '\0'; oc[3]= '\0';
+	} else {
+		co[0]= '\0'; oc[0]= '\0';
+		V=1;
+	}
+
+	if (L) printf("%slimits.h%s\n", co, oc);
+	if (F) printf("%sfloat.h%s\n", co, oc);
+	if (F) {
+		printf ("#ifndef _FLOAT_H___\n");
+		printf ("#define _FLOAT_H___\n");
+		if (SYS_FLOAT_H_WRAP)
+			printf (" #include_next <float.h>\n");
+	}
+#ifdef ID
+	printf("%sProduced on %s by enquire version %s, CWI, Amsterdam%s\n",
+	       co, ID, VERSION, oc);
+#else
+	printf("%sProduced by enquire version %s, CWI, Amsterdam%s\n",
+	       co, VERSION, oc);
+#endif
+
+#ifdef VERIFY
+	printf("%sVerification phase%s\n", co, oc);
+#endif
+
+#ifdef NO_SIG
+	Vprintf("%sCompiled without signal(): %s%s\n",
+		co,
+		"there's nothing that can be done if overflow occurs",
+		oc);
+#endif
+#ifdef NO_SC
+	Vprintf("%sCompiled without signed char%s\n", co, oc);
+#endif
+#ifdef NO_UC
+	Vprintf("%Compiled without unsigned char%s\n", co, oc);
+#endif
+#ifdef NO_UI
+	Vprintf("%Compiled without unsigned short or long%s\n", co, oc);
+#endif
+#ifdef __STDC__
+	Vprintf("%sCompiler claims to be ANSI C level %d%s\n",
+		co, __STDC__, oc);
+#else
+	Vprintf("%sCompiler does not claim to be ANSI C%s\n", co, oc);
+#endif
+	printf("\n");
+	check_defines();
+
+	maxint= maximum_int();
+	bits_per_byte= basic();
+	Vprintf("\n");
+	if (F||V) {
+		fprec= fprop(bits_per_byte);
+		dprec= dprop(bits_per_byte);
+		lprec= ldprop(bits_per_byte);
+		efprop(fprec, dprec, lprec);
+		edprop(fprec, dprec, lprec);
+		eldprop(fprec, dprec, lprec);
+	}
+#ifndef NO_MEM
+	if (V) {
+		unsigned int size;
+		long total;
+		/* An extra goody: the approximate amount of data-space */
+		/* Allocate store until no more available */
+		/* Different implementations have a different argument type
+		   to malloc. Here we assume that it's the same type as
+		   that which sizeof() returns */
+		size=1<<((bits_per_byte*sizeof(int))-2);
+		total=0;
+		while (size!=0) {
+			while ( malloc((false()?sizeof(int):size)) !=
+			        (char *)NULL
+			       ) {
+				total+=(size/2);
+			}
+			size/=2;
+		}
+
+		Vprintf("%sMemory allocable ~= %ld Kbytes%s\n",
+			co, (total+511)/512, oc);
+	}
+#endif
+	if (F) {
+		printf ("#endif %s _FLOAT_H___%s\n", co, oc);
+	}
+	farewell(bugs);
+	return bugs; /* To keep compilers and lint happy */
+}
+
+Procedure eek_a_bug(problem) char *problem; {
+	/* The program has discovered a problem */
+	printf("\n%s*** WARNING: %s%s\n", co, problem, oc);
+	bugs++;
+}
+
+Procedure describe(description, extra) char *description, *extra; {
+	/* Produce the description for a #define */
+	printf("   %s", co);
+	printf(description, extra);
+	printf("%s\n", oc);
+}
+
+Procedure i_define(desc, extra, sort, name, val, lim, req, mark)
+     char *desc, *extra, *sort, *name; long val, lim, req; char *mark; {
+	if (SYS_FLOAT_H_WRAP && F && val == req)
+		return;
+	/* Produce a #define for a signed int type */
+	describe(desc, extra);
+	printf("#undef %s%s\n", sort, name);
+	if (val >= 0) {
+		printf("#define %s%s %ld%s\n", sort, name, val, mark);
+	} else if (val + lim < 0) {
+		/* We may not produce a constant like -1024 if the max
+		   allowable value is 1023. It has then to be output as
+		   -1023-1. lim is the max allowable value.  */
+		printf("#define %s%s (%ld%s%ld%s)\n",
+		       sort, name, -lim, mark, val+lim, mark);
+	} else {
+		printf("#define %s%s (%ld%s)\n", sort, name, val, mark);
+	}
+#ifdef VERIFY
+	if (val != req) {
+		printf("%s*** Verify failed for above #define!\n", co);
+		printf("       Compiler has %ld for value%s\n\n", req, oc);
+		bugs++;
+	}
+#endif
+	Vprintf("\n");
+}
+
+Procedure u_define(desc, extra, sort, name, val, req, mark)
+     char *desc, *extra, *sort, *name; unsigned long val, req; char *mark; {
+	/* Produce a #define for an unsigned value */
+	describe(desc, extra);
+	printf("#undef %s%s\n", sort, name);
+	printf("#define %s%s %lu%s%s\n", sort, name, val, U, mark);
+#ifdef VERIFY
+	if (val != req) {
+		printf("%s*** Verify failed for above #define!\n", co);
+		printf("       Compiler has %lu for value%s\n\n", req, oc);
+		bugs++;
+	}
+#endif
+	Vprintf("\n");
+}
+
+Procedure f_define(desc, extra, sort, name, precision, val, req, mark)
+     char *desc, *extra, *sort, *name; int precision;
+     Long_double val, req; char *mark; {
+	if (SYS_FLOAT_H_WRAP && F && val == req)
+		return;
+	/* Produce a #define for a float/double/long double */
+	describe(desc, extra);
+	printf ("#undef %s%s\n", sort, name);
+	if (stdc) {
+#ifdef NO_LONG_DOUBLE_IO
+		static int union_defined = 0;
+		if (sizeof(double) != sizeof(Long_double)
+		    && !strcmp(sort, "LDBL")) {
+			if (!union_defined) {
+				printf("#ifndef __LDBL_UNION__\n");
+				printf("#define __LDBL_UNION__\n");
+				printf("union __convert_long_double {\n");
+				printf("  unsigned __convert_long_double_i[4];\n");
+				printf("  long double __convert_long_double_d;\n");
+				printf("};\n");
+				printf("#endif\n");
+				union_defined = 1;
+			}
+			printf("#define %s%s %s\n",
+			       sort, name, fake_f_rep("long double", val));
+		} else {
+			printf("#define %s%s %s%s\n",
+			       sort, name, f_rep(precision, val), mark);
+		}
+#else
+		printf("#define %s%s %s%s\n",
+		       sort, name, f_rep(precision, val), mark);
+#endif
+	} else if (*mark == 'F') {
+		/* non-ANSI C has no float constants, so cast the constant */
+		printf("#define %s%s ((float)%s)\n",
+		       sort, name, f_rep(precision, val));
+	} else {
+		printf("#define %s%s %s\n", sort, name, f_rep(precision, val));
+	}
+	Vprintf("\n");
+}
+
+int floor_log(base, x) int base; Long_double x; {
+	/* return floor(log base(x)) */
+	int r=0;
+	while (x>=base) { r++; x/=base; }
+	return r;
+}
+
+int ceil_log(base, x) int base; Long_double x; {
+	int r=0;
+	while (x>1.0) { r++; x/=base; }
+	return r;
+}
+
+int exponent(x, fract, exp) Long_double x; double *fract; int *exp; {
+	/* Split x into a fraction and a power of ten;
+	   returns 0 if x is unusable, 1 otherwise.
+	   Only used for error messages about faulty output.
+	*/
+	int r=0, neg=0;
+	Long_double old;
+	*fract=0.0; *exp=0;
+	if (x<0.0) {
+		x= -x;
+		neg= 1;
+	}
+	if (x==0.0) return 1;
+	if (x>=10.0) {
+		while (x>=10.0) {
+			old=x; r++; x/=10.0;
+			if (old==x) return 0;
+		}
+	} else {
+		while (x<1.0) {
+			old=x; r--; x*=10.0;
+			if (old==x) return 0;
+		}
+	}
+	if (neg) *fract= (double) -x;
+	else *fract=(double) x;
+	*exp=r;
+	return 1;
+}
+
+/* Print a value of type TYPE with value VAL,
+   assuming that sprintf can't handle this type properly (without truncation).
+   We create an expression that uses type casting to create the value from
+   a bit pattern.  */
+
+char *fake_f_rep(type, val) char *type; Long_double val; {
+	static char buf[1024];
+	union { unsigned int i[4]; Long_double ld;} u;
+	u.i[0] = u.i[1] = u.i[2] = u.i[3] = 0;
+	u.ld = val;
+	sprintf(buf, "(__extension__ ((union __convert_long_double) {__convert_long_double_i: {0x%x, 0x%x, 0x%x, 0x%x}}).__convert_long_double_d)",
+		u.i[0], u.i[1], u.i[2], u.i[3]);
+	return buf;
+}
+
+char *f_rep(precision, val) int precision; Long_double val; {
+	/* Return the floating representation of val */
+	static char buf[1024];
+#ifdef NO_LONG_DOUBLE_IO
+	if (1)
+#else
+	if (sizeof(double) == sizeof(Long_double))
+#endif
+	{
+		double d = val;
+		/* Assume they're the same, and use non-stdc format */
+		/* This is for stdc compilers using non-stdc libraries */
+		sprintf(buf, "%.*e", precision, d);
+	} else {
+		/* It had better support Le then */
+		sprintf(buf, "%.*Le", precision, val);
+	}
+	return buf;
+}
+
+Procedure bitpattern(p, size) char *p; unsigned int size; {
+	/* Printf the bit-pattern of p */
+	char c;
+	unsigned int i;
+	int j;
+
+	for (i=1; i<=size; i++) {
+		c= *p;
+		p++;
+		for (j=bits_per_byte-1; j>=0; j--)
+			printf("%c", (c>>j)&1 ? '1' : '0');
+		if (i!=size) printf(" ");
+	}
+}
+
+#define Order(x, px, mode)\
+   printf("%s%s ", co, mode); for (i=0; i<sizeof(x); i++) px[i]= ab[i]; \
+   for (i=1; i<=sizeof(x); i++) { c=((x>>(bits_per_byte*(sizeof(x)-i)))&mask);\
+      putchar(c==0 ? '?' : (char)c); }\
+   printf("%s\n", oc);
+
+Procedure endian(bits_per_byte) int bits_per_byte; {
+	/* Printf the byte-order used on this machine */
+	/*unsigned*/ short s=0;
+	/*unsigned*/ int j=0;
+	/*unsigned*/ long l=0;
+
+	char *ps= (char *) &s,
+	     *pj= (char *) &j,
+	     *pl= (char *) &l,
+	     *ab= "ABCDEFGHIJKLMNOPQRSTUVWXYZ";
+	unsigned int mask, i, c;
+
+	mask=0;
+	for (i=1; i<=(unsigned)bits_per_byte; i++) mask= (mask<<1)|1;
+
+	if (V) {
+		printf("%sCHARACTER ORDER%s\n", co, oc);
+		Order(s, ps, "short:");
+		Order(j, pj, "int:  ");
+		Order(l, pl, "long: ");
+	}
+}
+
+Procedure missing(s) char *s; {
+	printf("%s*** #define %s missing from limits.h%s\n", co, s, oc);
+	bugs++;
+}
+
+Procedure fmissing(s) char *s; {
+	printf("%s*** #define %s missing from float.h%s\n", co, s, oc);
+	bugs++;
+}
+
+/* To try and fool optimisers */
+int false() { return 0; }
+
+#define Promoted(x) (false()?(x):(-1))
+#define is_signed(x) (Promoted(x) < 0)
+#define sign_of(x) ((x)?"signed":"unsigned")
+#define Signed 1
+#define Unsigned 0
+#define sgn(x) ((is_signed(x))?Signed:Unsigned)
+
+#define showtype(t, x) Vprintf("%s%s %s %s%s\n", co, t, sign_of(is_signed(x)), type_of(sizeof(x)), oc)
+
+char *type_of(x) int x; {
+	if (x == sizeof(char)) {
+		if (sizeof(char) == sizeof(int)) return "char/short/int";
+		if (sizeof(char) == sizeof(short)) return "char/short";
+		return "char";
+	}
+	if (x == sizeof(short)) {
+		if (sizeof(short) == sizeof(int)) return "short/int";
+		return "short";
+	}
+	if (x == sizeof(int)) {
+		if (sizeof(int) == sizeof(long)) return "int/long";
+		return "int";
+	}
+	if (x == sizeof(long)) return "long";
+	return "unknown-type";
+}
+
+char *ftype_of(x) int x; {
+	if (x == sizeof(float)) {
+		return "float";
+	}
+	if (x == sizeof(double)) {
+		if (sizeof(double) == sizeof(Long_double))
+		  return "(long)double";
+		return "double";
+	}
+	if (x == sizeof(Long_double)) {
+		return "long double";
+	}
+	return "unknown-type";
+}
+
+Procedure typerr(name, esign, esize, sign, size)
+  char *name; int esign, esize, sign, size;
+{
+       Vprintf("*** %s has wrong type: expected %s %s, found %s %s\n",
+	       name, sign_of(esign), type_of(esize),
+	       sign_of(sign), type_of(size));
+}
+
+Procedure ftyperr(name, esize, size) char *name; int esize, size; {
+       Vprintf("*** %s has wrong type: expected %s, found %s\n",
+	       name, ftype_of(esize), ftype_of(size));
+}
+
+int promotions() {
+	int si = 0; long sl = 0;
+	unsigned int ui; unsigned long ul;
+	short ss; unsigned short us;
+
+	Vprintf("\n%sPROMOTIONS%s\n", co, oc);
+
+	if (
+	    /* Possible warnings here; no problem */
+	    (sizeof(Promoted(si)) != sizeof(int)) ||
+	    (sizeof(Promoted(sl)) != sizeof(long)) ||
+	    (sizeof(Promoted(ss)) != sizeof(int)) ||
+	    (sizeof(Promoted(ui)) != sizeof(int)) ||
+	    (sizeof(Promoted(ul)) != sizeof(long)) ||
+	    (sizeof(Promoted(us)) != sizeof(int)) ||
+	    is_signed(ui) || is_signed(ul) ||
+	    !is_signed(si) || !is_signed(sl)
+	    )
+	  {
+	    eek_a_bug("promotions don't work properly in conditional expressions\n");
+	  }
+
+	showtype("unsigned short promotes to", Promoted((unsigned short) 0));
+	showtype("long+unsigned gives", sl+ui);
+	return 0;
+}
+
+#define checktype(x, n, s, t) if((sgn(x)!=s)||(sizeof(x)!=sizeof(t))) typerr(n, s, sizeof(t), sign_of(x), sizeof(x));
+
+#define fchecktype(x, n, t) if (sizeof(x) != sizeof(t)) ftyperr(n, sizeof(x), sizeof(t));
+
+Procedure check_defines() {
+	/* ensure that all #defines are present and have the correct type */
+#ifdef VERIFY
+	int usign;
+
+#ifdef NO_UI
+	usign= Signed;
+#else
+	/* Implementations promote unsigned short differently */
+	usign= is_signed((unsigned short) 0);
+#endif
+
+	if (L) {
+#ifdef CHAR_BIT
+	checktype(CHAR_BIT, "CHAR_BIT", Signed, int);
+#else
+	missing("CHAR_BIT");
+#endif
+#ifdef CHAR_MAX
+	checktype(CHAR_MAX, "CHAR_MAX", Signed, int);
+#else
+	missing("CHAR_MAX");
+#endif
+#ifdef CHAR_MIN
+	checktype(CHAR_MIN, "CHAR_MIN", Signed, int);
+#else
+	missing("CHAR_MIN");
+#endif
+#ifdef SCHAR_MAX
+	checktype(SCHAR_MAX, "SCHAR_MAX", Signed, int);
+#else
+	missing("SCHAR_MAX");
+#endif
+#ifdef SCHAR_MIN
+	checktype(SCHAR_MIN, "SCHAR_MIN", Signed, int);
+#else
+	missing("SCHAR_MIN");
+#endif
+#ifdef UCHAR_MAX
+	checktype(UCHAR_MAX, "UCHAR_MAX", Signed, int);
+#else
+	missing("UCHAR_MAX");
+#endif
+#ifdef SHRT_MAX
+	checktype(SHRT_MAX, "SHRT_MAX", Signed, int);
+#else
+	missing("SHRT_MAX");
+#endif
+#ifdef SHRT_MIN
+	checktype(SHRT_MIN, "SHRT_MIN", Signed, int);
+#else
+	missing("SHRT_MIN");
+#endif
+#ifdef INT_MAX
+	checktype(INT_MAX, "INT_MAX", Signed, int);
+#else
+	missing("INT_MAX");
+#endif
+#ifdef INT_MIN
+	checktype(INT_MIN, "INT_MIN", Signed, int);
+#else
+	missing("INT_MIN");
+#endif
+#ifdef LONG_MAX
+	checktype(LONG_MAX, "LONG_MAX", Signed, long);
+#else
+	missing("LONG_MAX");
+#endif
+#ifdef LONG_MIN
+	checktype(LONG_MIN, "LONG_MIN", Signed, long);
+#else
+	missing("LONG_MIN");
+#endif
+#ifdef USHRT_MAX
+	checktype(USHRT_MAX, "USHRT_MAX", usign, int);
+#else
+	missing("USHRT_MAX");
+#endif
+#ifdef UINT_MAX
+	checktype(UINT_MAX, "UINT_MAX", Unsigned, int);
+#else
+	missing("UINT_MAX");
+#endif
+#ifdef ULONG_MAX
+	checktype(ULONG_MAX, "ULONG_MAX", Unsigned, long);
+#else
+	missing("ULONG_MAX");
+#endif
+	} /* if (L) */
+
+	if (F) {
+#ifdef FLT_RADIX
+	checktype(FLT_RADIX, "FLT_RADIX", Signed, int);
+#else
+	fmissing("FLT_RADIX");
+#endif
+#ifdef FLT_MANT_DIG
+	checktype(FLT_MANT_DIG, "FLT_MANT_DIG", Signed, int);
+#else
+	fmissing("FLT_MANT_DIG");
+#endif
+#ifdef FLT_DIG
+	checktype(FLT_DIG, "FLT_DIG", Signed, int);
+#else
+	fmissing("FLT_DIG");
+#endif
+#ifdef FLT_ROUNDS
+	checktype(FLT_ROUNDS, "FLT_ROUNDS", Signed, int);
+#else
+	fmissing("FLT_ROUNDS");
+#endif
+#ifdef FLT_EPSILON
+	fchecktype(FLT_EPSILON, "FLT_EPSILON", float);
+#else
+	fmissing("FLT_EPSILON");
+#endif
+#ifdef FLT_MIN_EXP
+	checktype(FLT_MIN_EXP, "FLT_MIN_EXP", Signed, int);
+#else
+	fmissing("FLT_MIN_EXP");
+#endif
+#ifdef FLT_MIN
+	fchecktype(FLT_MIN, "FLT_MIN", float);
+#else
+	fmissing("FLT_MIN");
+#endif
+#ifdef FLT_MIN_10_EXP
+	checktype(FLT_MIN_10_EXP, "FLT_MIN_10_EXP", Signed, int);
+#else
+	fmissing("FLT_MIN_10_EXP");
+#endif
+#ifdef FLT_MAX_EXP
+	checktype(FLT_MAX_EXP, "FLT_MAX_EXP", Signed, int);
+#else
+	fmissing("FLT_MAX_EXP");
+#endif
+#ifdef FLT_MAX
+	fchecktype(FLT_MAX, "FLT_MAX", float);
+#else
+	fmissing("FLT_MAX");
+#endif
+#ifdef FLT_MAX_10_EXP
+	checktype(FLT_MAX_10_EXP, "FLT_MAX_10_EXP", Signed, int);
+#else
+	fmissing("FLT_MAX_10_EXP");
+#endif
+#ifdef DBL_MANT_DIG
+	checktype(DBL_MANT_DIG, "DBL_MANT_DIG", Signed, int);
+#else
+	fmissing("DBL_MANT_DIG");
+#endif
+#ifdef DBL_DIG
+	checktype(DBL_DIG, "DBL_DIG", Signed, int);
+#else
+	fmissing("DBL_DIG");
+#endif
+#ifdef DBL_EPSILON
+	fchecktype(DBL_EPSILON, "DBL_EPSILON", double);
+#else
+	fmissing("DBL_EPSILON");
+#endif
+#ifdef DBL_MIN_EXP
+	checktype(DBL_MIN_EXP, "DBL_MIN_EXP", Signed, int);
+#else
+	fmissing("DBL_MIN_EXP");
+#endif
+#ifdef DBL_MIN
+	fchecktype(DBL_MIN, "DBL_MIN", double);
+#else
+	fmissing("DBL_MIN");
+#endif
+#ifdef DBL_MIN_10_EXP
+	checktype(DBL_MIN_10_EXP, "DBL_MIN_10_EXP", Signed, int);
+#else
+	fmissing("DBL_MIN_10_EXP");
+#endif
+#ifdef DBL_MAX_EXP
+	checktype(DBL_MAX_EXP, "DBL_MAX_EXP", Signed, int);
+#else
+	fmissing("DBL_MAX_EXP");
+#endif
+#ifdef DBL_MAX
+	fchecktype(DBL_MAX, "DBL_MAX", double);
+#else
+	fmissing("DBL_MAX");
+#endif
+#ifdef DBL_MAX_10_EXP
+	checktype(DBL_MAX_10_EXP, "DBL_MAX_10_EXP", Signed, int);
+#else
+	fmissing("DBL_MAX_10_EXP");
+#endif
+#ifdef STDC
+#ifdef LDBL_MANT_DIG
+	checktype(LDBL_MANT_DIG, "LDBL_MANT_DIG", Signed, int);
+#else
+	fmissing("LDBL_MANT_DIG");
+#endif
+#ifdef LDBL_DIG
+	checktype(LDBL_DIG, "LDBL_DIG", Signed, int);
+#else
+	fmissing("LDBL_DIG");
+#endif
+#ifdef LDBL_EPSILON
+	fchecktype(LDBL_EPSILON, "LDBL_EPSILON", long double);
+#else
+	fmissing("LDBL_EPSILON");
+#endif
+#ifdef LDBL_MIN_EXP
+	checktype(LDBL_MIN_EXP, "LDBL_MIN_EXP", Signed, int);
+#else
+	fmissing("LDBL_MIN_EXP");
+#endif
+#ifdef LDBL_MIN
+	fchecktype(LDBL_MIN, "LDBL_MIN", long double);
+#else
+	fmissing("LDBL_MIN");
+#endif
+#ifdef LDBL_MIN_10_EXP
+	checktype(LDBL_MIN_10_EXP, "LDBL_MIN_10_EXP", Signed, int);
+#else
+	fmissing("LDBL_MIN_10_EXP");
+#endif
+#ifdef LDBL_MAX_EXP
+	checktype(LDBL_MAX_EXP, "LDBL_MAX_EXP", Signed, int);
+#else
+	fmissing("LDBL_MAX_EXP");
+#endif
+#ifdef LDBL_MAX
+	fchecktype(LDBL_MAX, "LDBL_MAX", long double);
+#else
+	fmissing("LDBL_MAX");
+#endif
+#ifdef LDBL_MAX_10_EXP
+	checktype(LDBL_MAX_10_EXP, "LDBL_MAX_10_EXP", Signed, int);
+#else
+	fmissing("LDBL_MAX_10_EXP");
+#endif
+#endif /* STDC */
+	} /* if (F) */
+#endif /* VERIFY */
+}
+
+#ifdef VERIFY
+#ifndef SCHAR_MAX
+#define SCHAR_MAX	char_max
+#endif
+#ifndef SCHAR_MIN
+#define SCHAR_MIN	char_min
+#endif
+#ifndef UCHAR_MAX
+#define UCHAR_MAX	char_max
+#endif
+#endif /* VERIFY */
+
+#ifndef CHAR_BIT
+#define CHAR_BIT	char_bit
+#endif
+#ifndef CHAR_MAX
+#define CHAR_MAX	char_max
+#endif
+#ifndef CHAR_MIN
+#define CHAR_MIN	char_min
+#endif
+#ifndef SCHAR_MAX
+#define SCHAR_MAX	char_max
+#endif
+#ifndef SCHAR_MIN
+#define SCHAR_MIN	char_min
+#endif
+#ifndef UCHAR_MAX
+#define UCHAR_MAX	char_max
+#endif
+
+int cprop() {
+	/* Properties of type char */
+	Volatile char c, char_max, char_min;
+	Volatile int bits_per_byte, c_signed;
+	long char_bit;
+
+	Unexpected(2);
+
+	/* Calculate number of bits per character *************************/
+	c=1; bits_per_byte=0;
+	do { c=c<<1; bits_per_byte++; } while(c!=0);
+	c= (char)(-1);
+	if (((int)c)<0) c_signed=1;
+	else c_signed=0;
+	Vprintf("%schar = %d bits, %ssigned%s\n",
+		co, (int)sizeof(c)*bits_per_byte, (c_signed?"":"un"), oc);
+	char_bit=(long)(sizeof(c)*bits_per_byte);
+	if (L) i_define(D_CHAR_BIT, "", "CHAR", "_BIT",
+			char_bit, 0L, (long) CHAR_BIT, "");
+
+	c=0; char_max=0;
+	c++;
+	if (bits_per_byte <= 16) {
+	     if (setjmp(lab)==0) { /* Yields char_max */
+		  while (c>char_max) {
+		       char_max=c;
+		       c++;
+		  }
+	     } else {
+		  Vprintf("%sCharacter overflow generates a trap!%s\n",
+			  co, oc);
+	     }
+	     c=0; char_min=0;
+	     c--;
+	     if (setjmp(lab)==0) { /* Yields char_min */
+		  while (c<char_min) {
+		       char_min=c;
+		       c--;
+		  }
+	     }
+	} else {
+	     /* An exhaustive search here is impracticable ;-)  */
+	     c = (1 << (bits_per_byte - 1)) - 1;
+	     char_max = c;
+	     c++;
+	     if (c > char_max)
+		  char_max = ~0;
+	     c = 0;
+	     char_min = 0;
+	     c--;
+	     if (c < char_min) {
+		  c = (1 << (bits_per_byte - 1)) - 1;
+		  c = -c;
+		  char_min = c;
+		  c--;
+		  if (c < char_min)
+		       char_min = c;
+	     }
+	}
+	if (c_signed && char_min == 0) {
+		Vprintf("%sBEWARE! Chars are pseudo-unsigned:%s\n", co, oc);
+		Vprintf("%s   %s%s%s\n",
+			"They contain only nonnegative values, ",
+			"but sign extend when used as integers.", co, oc);
+	}
+	Unexpected(3);
+
+	if (L) {
+		/* Because of the integer promotions, you must use a U after
+		   the MAX_CHARS in the following cases */
+		if ((sizeof(char) == sizeof(int)) && !c_signed) {
+			u_define(D_CHAR_MAX, "", "CHAR", "_MAX",
+				 (long) char_max,
+				 (long) CHAR_MAX, "");
+		} else {
+			i_define(D_CHAR_MAX, "", "CHAR", "_MAX",
+				 (long) char_max, 0L,
+				 (long) CHAR_MAX, "");
+		}
+		i_define(D_CHAR_MIN, "", "CHAR", "_MIN",
+			 (long) char_min, (long) maxint,
+			 (long) CHAR_MIN, "");
+		if (c_signed) {
+			i_define(D_SCHAR_MAX, "", "SCHAR", "_MAX",
+				 (long) char_max, 0L,
+				 (long) SCHAR_MAX, "");
+			i_define(D_SCHAR_MIN, "", "SCHAR", "_MIN",
+				 (long) char_min, (long) maxint,
+				 (long) SCHAR_MIN, "");
+		} else {
+			if (sizeof(char) == sizeof(int)) {
+				u_define(D_UCHAR_MAX, "", "UCHAR", "_MAX",
+					 (long) char_max,
+					 (long) UCHAR_MAX, "");
+			} else {
+				i_define(D_UCHAR_MAX, "", "UCHAR", "_MAX",
+					 (long) char_max, 0L,
+					 (long) UCHAR_MAX, "");
+			}
+		}
+
+		if (c_signed) {
+#ifndef NO_UC
+			Volatile unsigned char c, char_max;
+			c=0; char_max=0;
+			c++;
+			if (setjmp(lab)==0) { /* Yields char_max */
+				while (c>char_max) {
+					char_max=c;
+					c++;
+				}
+			}
+			Unexpected(4);
+			if (sizeof(char) == sizeof(int)) {
+				u_define(D_UCHAR_MAX, "", "UCHAR", "_MAX",
+					 (long) char_max,
+					 (long) UCHAR_MAX, "");
+			} else {
+				i_define(D_UCHAR_MAX, "", "UCHAR", "_MAX",
+					 (long) char_max, 0L,
+					 (long) UCHAR_MAX, "");
+			}
+#endif
+		} else {
+#ifndef NO_SC
+/* Define NO_SC if this gives a syntax error */ Volatile signed char c, char_max, char_min;
+			c=0; char_max=0;
+			c++;
+			if (setjmp(lab)==0) { /* Yields char_max */
+				while (c>char_max) {
+					char_max=c;
+					c++;
+				}
+			}
+			c=0; char_min=0;
+			c--;
+			if (setjmp(lab)==0) { /* Yields char_min */
+				while (c<char_min) {
+					char_min=c;
+					c--;
+				}
+			}
+			Unexpected(5);
+			i_define(D_SCHAR_MIN, "", "SCHAR", "_MIN",
+				 (long) char_min, (long) maxint,
+				 (long) SCHAR_MIN, "");
+			i_define(D_SCHAR_MAX, "", "SCHAR", "_MAX",
+				 (long) char_max, 0L,
+				 (long) SCHAR_MAX, "");
+#endif /* NO_SC */
+		}
+	}
+	return bits_per_byte;
+}
+
+int basic() {
+	/* The properties of the basic types.
+	   Returns number of bits per sizeof unit */
+	Volatile int bits_per_byte;
+	typedef int function ();
+	int variable;
+	int *p, *q;
+
+	Vprintf("%sSIZES%s\n", co, oc);
+	bits_per_byte= cprop();
+
+	/* Shorts, ints and longs *****************************************/
+	Vprintf("%sshort=%d int=%d long=%d float=%d double=%d bits %s\n",
+		co,
+		(int) sizeof(short)*bits_per_byte,
+		(int) sizeof(int)*bits_per_byte,
+		(int) sizeof(long)*bits_per_byte,
+		(int) sizeof(float)*bits_per_byte,
+		(int) sizeof(double)*bits_per_byte, oc);
+	if (stdc) {
+		Vprintf("%slong double=%d bits%s\n",
+			co, (int) sizeof(Long_double)*bits_per_byte, oc);
+	}
+	Vprintf("%schar*=%d bits%s%s\n",
+		co, (int)sizeof(char *)*bits_per_byte,
+		sizeof(char *)>sizeof(int)?" BEWARE! larger than int!":"",
+		oc);
+	Vprintf("%sint* =%d bits%s%s\n",
+		co, (int)sizeof(int *)*bits_per_byte,
+		sizeof(int *)>sizeof(int)?" BEWARE! larger than int!":"",
+		oc);
+	Vprintf("%sfunc*=%d bits%s%s\n",
+		co, (int)sizeof(function *)*bits_per_byte,
+		sizeof(function *)>sizeof(int)?" BEWARE! larger than int!":"",
+		oc);
+if (V) printf ("%s%s %s %s%s\n", co, "Type size_t is",
+		       ((((false()?( sizeof(int)):(-1))  < 0) )?
+			"signed":"unsigned") ,
+		       type_of(sizeof(
+				      sizeof(int)+0
+				      )
+			       ),
+	       oc);
+	showtype("Type size_t is", sizeof(0));
+
+	/* Alignment constants ********************************************/
+
+#define alignment(TYPE) \
+	((long)((char *)&((struct{char c; TYPE d;}*)0)->d - (char *) 0))
+
+	Vprintf("\n%sALIGNMENTS%s\n", co, oc);
+
+	Vprintf("%schar=%ld short=%ld int=%ld long=%ld%s\n",
+		co,
+		alignment(char), alignment(short),
+		alignment(int), alignment(long),
+		oc);
+
+	Vprintf("%sfloat=%ld double=%ld%s\n",
+		co,
+		alignment(float), alignment(double),
+		oc);
+
+	if (stdc) {
+		Vprintf("%slong double=%ld%s\n",
+			co,
+			alignment(Long_double),
+			oc);
+	}
+	Vprintf("%schar*=%ld int*=%ld func*=%ld%s\n",
+		co,
+		alignment(char *), alignment(int *), alignment(function *),
+		oc);
+
+	Vprintf("\n");
+
+	/* Ten little endians *********************************************/
+
+	endian(bits_per_byte);
+
+	/* Pointers *******************************************************/
+
+	Vprintf("\n%sPROPERTIES OF POINTERS%s\n", co, oc);
+
+	if ((long) (char *) &variable == (long) (int *) &variable) {
+		Vprintf("%sChar and int pointer formats seem identical%s\n",
+		       co, oc);
+	} else {
+		Vprintf("%sChar and int pointer formats are different%s\n",
+		       co, oc);
+	}
+	if ((long) (char *) &variable == (long) (function *) &variable) {
+		Vprintf("%sChar and function pointer formats seem identical%s\n",
+		       co, oc);
+	} else {
+		Vprintf("%sChar and function pointer formats are different%s\n",
+		       co, oc);
+	}
+
+	if (V) {
+		if ("abcd"=="abcd")
+			printf("%sStrings are shared%s\n", co, oc);
+		else printf("%sStrings are not shared%s\n", co, oc);
+	}
+
+	p=0; q=0;
+	showtype("Type ptrdiff_t is", p-q);
+
+	Vprintf("\n%sPROPERTIES OF INTEGRAL TYPES%s\n", co, oc);
+
+	sprop();
+	iprop();
+	lprop();
+	usprop();
+	uiprop();
+	ulprop();
+
+	promotions();
+
+	Unexpected(6);
+
+	return bits_per_byte;
+}
+
+#else /* not PASS0 */
+
+#ifdef SEP
+extern jmp_buf lab;
+extern int V, L, F, bugs, bits_per_byte;
+extern char co[], oc[];
+extern char *f_rep();
+#endif /* SEP */
+#endif /* ifdef PASS0 */
+
+/* As I said, I apologise for the contortions below. The functions are
+   expanded by the preprocessor twice or three times (for float and double,
+   and maybe for long double, and for short, int and long). That way,
+   I never make a change to one that I forget to make to the other.
+   You can look on it as C's fault for not supporting multi-line macro's.
+   This whole file is read 3 times by the preprocessor, with PASSn set for
+   n=1, 2 or 3, to decide which parts to reprocess.
+*/
+
+/* #undef on an already undefined thing is (wrongly) flagged as an error
+   by some compilers, therefore the #ifdef that follows:
+*/
+#ifdef Number
+#undef Number
+#undef THING
+#undef Thing
+#undef thing
+#undef FPROP
+#undef Fname
+#undef Store
+#undef Sum
+#undef Diff
+#undef Mul
+#undef Div
+#undef ZERO
+#undef HALF
+#undef ONE
+#undef TWO
+#undef THREE
+#undef FOUR
+#undef Self
+#undef F_check
+#undef Validate
+#undef EPROP
+#undef MARK
+
+/* These are the float.h constants */
+#undef F_RADIX
+#undef F_MANT_DIG
+#undef F_DIG
+#undef F_ROUNDS
+#undef F_EPSILON
+#undef F_MIN_EXP
+#undef F_MIN
+#undef F_MIN_10_EXP
+#undef F_MAX_EXP
+#undef F_MAX
+#undef F_MAX_10_EXP
+#endif
+
+#ifdef Integer
+#undef Integer
+#undef INT
+#undef IPROP
+#undef Iname
+#undef UPROP
+#undef Uname
+#undef OK_UI
+#undef IMARK
+
+#undef I_MAX
+#undef I_MIN
+#undef U_MAX
+#endif
+
+#ifdef PASS1
+
+/* Define the things we're going to use this pass */
+
+#define Number	float
+#define THING	"FLOAT"
+#define Thing	"Float"
+#define thing	"float"
+#define Fname	"FLT"
+#define FPROP	fprop
+#define Store	fStore
+#define Sum	fSum
+#define Diff	fDiff
+#define Mul	fMul
+#define Div	fDiv
+#define ZERO	0.0
+#define HALF	0.5
+#define ONE	1.0
+#define TWO	2.0
+#define THREE	3.0
+#define FOUR	4.0
+#define Self	fSelf
+#define F_check	fCheck
+#define MARK	"F"
+#ifdef VERIFY
+#define Validate(prec, val, req, same) fValidate(prec, val, req, same)
+#endif
+
+#define EPROP	efprop
+
+#define Integer	short
+#define INT	"short"
+#define IPROP	sprop
+#define Iname	"SHRT"
+#ifndef NO_UI
+#define OK_UI 1
+#endif
+#define IMARK	""
+
+#define UPROP	usprop
+#define Uname	"USHRT"
+
+#ifdef SHRT_MAX
+#define I_MAX		SHRT_MAX
+#endif
+#ifdef SHRT_MIN
+#define I_MIN		SHRT_MIN
+#endif
+#ifdef USHRT_MAX
+#define U_MAX		USHRT_MAX
+#endif
+
+#ifdef FLT_RADIX
+#define F_RADIX		FLT_RADIX
+#endif
+#ifdef FLT_MANT_DIG
+#define F_MANT_DIG	FLT_MANT_DIG
+#endif
+#ifdef FLT_DIG
+#define F_DIG		FLT_DIG
+#endif
+#ifdef FLT_ROUNDS
+#define F_ROUNDS	FLT_ROUNDS
+#endif
+#ifdef FLT_EPSILON
+#define F_EPSILON	FLT_EPSILON
+#endif
+#ifdef FLT_MIN_EXP
+#define F_MIN_EXP	FLT_MIN_EXP
+#endif
+#ifdef FLT_MIN
+#define F_MIN		FLT_MIN
+#endif
+#ifdef FLT_MIN_10_EXP
+#define F_MIN_10_EXP	FLT_MIN_10_EXP
+#endif
+#ifdef FLT_MAX_EXP
+#define F_MAX_EXP	FLT_MAX_EXP
+#endif
+#ifdef FLT_MAX
+#define F_MAX		FLT_MAX
+#endif
+#ifdef FLT_MAX_10_EXP
+#define F_MAX_10_EXP	FLT_MAX_10_EXP
+#endif
+
+#endif /* PASS1 */
+
+#ifdef PASS2
+
+#define Number	double
+#define THING	"DOUBLE"
+#define Thing	"Double"
+#define thing	"double"
+#define Fname	"DBL"
+#define FPROP	dprop
+#define Store	dStore
+#define Sum	dSum
+#define Diff	dDiff
+#define Mul	dMul
+#define Div	dDiv
+#define ZERO	0.0
+#define HALF	0.5
+#define ONE	1.0
+#define TWO	2.0
+#define THREE	3.0
+#define FOUR	4.0
+#define Self	dSelf
+#define F_check	dCheck
+#define MARK	""
+#ifdef VERIFY
+#define Validate(prec, val, req, same) dValidate(prec, val, req, same)
+#endif
+
+#define EPROP	edprop
+
+#define Integer	int
+#define INT	"int"
+#define IPROP	iprop
+#define Iname	"INT"
+#define OK_UI	1 /* Unsigned int is always possible */
+#define IMARK	""
+
+#define UPROP	uiprop
+#define Uname	"UINT"
+
+#ifdef INT_MAX
+#define I_MAX		INT_MAX
+#endif
+#ifdef INT_MIN
+#define I_MIN		INT_MIN
+#endif
+#ifdef UINT_MAX
+#define U_MAX		UINT_MAX
+#endif
+
+#ifdef DBL_MANT_DIG
+#define F_MANT_DIG	DBL_MANT_DIG
+#endif
+#ifdef DBL_DIG
+#define F_DIG		DBL_DIG
+#endif
+#ifdef DBL_EPSILON
+#define F_EPSILON	DBL_EPSILON
+#endif
+#ifdef DBL_MIN_EXP
+#define F_MIN_EXP	DBL_MIN_EXP
+#endif
+#ifdef DBL_MIN
+#define F_MIN		DBL_MIN
+#endif
+#ifdef DBL_MIN_10_EXP
+#define F_MIN_10_EXP	DBL_MIN_10_EXP
+#endif
+#ifdef DBL_MAX_EXP
+#define F_MAX_EXP	DBL_MAX_EXP
+#endif
+#ifdef DBL_MAX
+#define F_MAX		DBL_MAX
+#endif
+#ifdef DBL_MAX_10_EXP
+#define F_MAX_10_EXP	DBL_MAX_10_EXP
+#endif
+
+#endif /* PASS2 */
+
+#ifdef PASS3
+
+#ifdef STDC
+#define Number	long double
+
+#define ZERO	0.0L
+#define HALF	0.5L
+#define ONE	1.0L
+#define TWO	2.0L
+#define THREE	3.0L
+#define FOUR	4.0L
+#endif
+
+#define THING	"LONG DOUBLE"
+#define Thing	"Long double"
+#define thing	"long double"
+#define Fname	"LDBL"
+#define FPROP	ldprop
+#define Store	ldStore
+#define Sum	ldSum
+#define Diff	ldDiff
+#define Mul	ldMul
+#define Div	ldDiv
+#define Self	ldSelf
+#define F_check	ldCheck
+#define MARK	"L"
+#ifdef VERIFY
+#define Validate(prec, val, req, same) ldValidate(prec, val, req, same)
+#endif
+
+#define EPROP	eldprop
+
+#define Integer	long
+#define INT	"long"
+#define IPROP	lprop
+#define Iname	"LONG"
+#ifndef NO_UI
+#define OK_UI	1
+#endif
+#define IMARK	"L"
+
+#define UPROP	ulprop
+#define Uname	"ULONG"
+
+#ifdef LONG_MAX
+#define I_MAX	LONG_MAX
+#endif
+#ifdef LONG_MIN
+#define I_MIN	LONG_MIN
+#endif
+#ifdef ULONG_MAX
+#define U_MAX	ULONG_MAX
+#endif
+
+#ifdef LDBL_MANT_DIG
+#define F_MANT_DIG	LDBL_MANT_DIG
+#endif
+#ifdef LDBL_DIG
+#define F_DIG		LDBL_DIG
+#endif
+#ifdef LDBL_EPSILON
+#define F_EPSILON	LDBL_EPSILON
+#endif
+#ifdef LDBL_MIN_EXP
+#define F_MIN_EXP	LDBL_MIN_EXP
+#endif
+#ifdef LDBL_MIN
+#define F_MIN		LDBL_MIN
+#endif
+#ifdef LDBL_MIN_10_EXP
+#define F_MIN_10_EXP	LDBL_MIN_10_EXP
+#endif
+#ifdef LDBL_MAX_EXP
+#define F_MAX_EXP	LDBL_MAX_EXP
+#endif
+#ifdef LDBL_MAX
+#define F_MAX		LDBL_MAX
+#endif
+#ifdef LDBL_MAX_10_EXP
+#define F_MAX_10_EXP	LDBL_MAX_10_EXP
+#endif
+
+#endif /* PASS3 */
+
+#define UNDEFINED (-2)
+
+#ifndef I_MAX
+#define I_MAX	((unsigned long) UNDEFINED)
+#endif
+#ifndef I_MIN
+#define I_MIN	((unsigned long) UNDEFINED)
+#endif
+#ifndef U_MAX
+#define U_MAX	((unsigned long) UNDEFINED)
+#endif
+
+#ifndef F_RADIX
+#define F_RADIX		UNDEFINED
+#endif
+#ifndef F_MANT_DIG
+#define F_MANT_DIG	UNDEFINED
+#endif
+#ifndef F_DIG
+#define F_DIG		UNDEFINED
+#endif
+#ifndef F_ROUNDS
+#define F_ROUNDS	UNDEFINED
+#endif
+#ifndef F_EPSILON
+#define F_EPSILON	((Number) UNDEFINED)
+#endif
+#ifndef F_MIN_EXP
+#define F_MIN_EXP	UNDEFINED
+#endif
+#ifndef F_MIN
+#define F_MIN		((Number) UNDEFINED)
+#endif
+#ifndef F_MIN_10_EXP
+#define F_MIN_10_EXP	UNDEFINED
+#endif
+#ifndef F_MAX_EXP
+#define F_MAX_EXP	UNDEFINED
+#endif
+#ifndef F_MAX
+#define F_MAX		((Number) UNDEFINED)
+#endif
+#ifndef F_MAX_10_EXP
+#define F_MAX_10_EXP	UNDEFINED
+#endif
+
+#ifndef VERIFY
+#define Validate(prec, val, req, same) {;}
+#endif
+
+#ifdef Integer
+
+Procedure IPROP() {
+	/* the properties of short, int, and long */
+	Volatile Integer newi, int_max, maxeri, int_min, minneri;
+	Volatile int ibits, ipower, two=2;
+
+	/* Calculate max short/int/long ***********************************/
+	/* Calculate 2**n-1 until overflow - then use the previous value  */
+
+	newi=1; int_max=0;
+
+	if (setjmp(lab)==0) { /* Yields int_max */
+		for(ipower=0; newi>int_max; ipower++) {
+			int_max=newi;
+			newi=newi*two+1;
+		}
+		Vprintf("%sOverflow of a%s %s does not generate a trap%s\n",
+			co, INT[0]=='i'?"n":"", INT, oc);
+	} else {
+		Vprintf("%sOverflow of a%s %s generates a trap%s\n",
+			co, INT[0]=='i'?"n":"", INT, oc);
+	}
+	Unexpected(7);
+
+	/* Minimum value: assume either two's or one's complement *********/
+	int_min= -int_max;
+	if (setjmp(lab)==0) { /* Yields int_min */
+		if (int_min-1 < int_min) int_min--;
+	}
+	Unexpected(8);
+
+	/* Now for those daft Cybers */
+
+	maxeri=0; newi=int_max;
+
+	if (setjmp(lab)==0) { /* Yields maxeri */
+		for(ibits=ipower; newi>maxeri; ibits++) {
+			maxeri=newi;
+			newi=newi+newi+1;
+		}
+	}
+	Unexpected(9);
+
+	minneri= -maxeri;
+	if (setjmp(lab)==0) { /* Yields minneri */
+		if (minneri-1 < minneri) minneri--;
+	}
+	Unexpected(10);
+
+	Vprintf("%sMaximum %s = %ld (= 2**%d-1)%s\n",
+		co, INT, (long)int_max, ipower, oc);
+	Vprintf("%sMinimum %s = %ld%s\n", co, INT, (long)int_min, oc);
+
+	if (L) i_define(D_INT_MAX, INT, Iname, "_MAX",
+			(long) int_max, 0L,
+			(long) I_MAX, IMARK);
+	if (L) i_define(D_INT_MIN, INT, Iname, "_MIN",
+			(long) int_min, (long) (PASS==1?maxint:int_max),
+			(long) I_MIN, IMARK);
+
+	if(int_max < 0) { /* It has happened */
+		eek_a_bug("signed integral comparison faulty?");
+	}
+
+	if (maxeri>int_max) {
+		Vprintf("%sThere is a larger %s, %ld (= 2**%d-1), %s %s%s\n",
+			co, INT, (long)maxeri, ibits,
+			"but only for addition, not multiplication",
+			"(I smell a Cyber!)",
+			oc);
+	}
+
+	if (minneri<int_min) {
+		Vprintf("%sThere is a smaller %s, %ld, %s %s%s\n",
+			co, INT, (long)minneri,
+			"but only for addition, not multiplication",
+			"(I smell a Cyber!)",
+			oc);
+	}
+}
+
+Procedure UPROP () {
+	/* The properties of unsigned short/int/long */
+#ifdef OK_UI
+	Volatile unsigned Integer u_max, newi, two;
+	newi=1; u_max=0; two=2;
+
+	if (setjmp(lab)==0) { /* Yields u_max */
+		while(newi>u_max) {
+			u_max=newi;
+			newi=newi*two+1;
+		}
+	}
+	Unexpected(11);
+	Vprintf("%sMaximum unsigned %s = %lu%s\n",
+		co, INT, (unsigned long) u_max, oc);
+
+	/* Oh woe: new standard C defines value preserving promotions */
+	if (L) {
+		if (PASS == 1 && sizeof(short) < sizeof(int)) {
+			/* Special only for short */
+			i_define(D_UINT_MAX, INT, Uname, "_MAX",
+				 (unsigned long) u_max, 0L,
+				 (unsigned long) U_MAX, IMARK);
+		} else {
+			u_define(D_UINT_MAX, INT, Uname, "_MAX",
+				 (unsigned long) u_max,
+				 (unsigned long) U_MAX, IMARK);
+		}
+	}
+#endif
+}
+
+#endif /* Integer */
+
+#ifdef Number
+
+/* The following routines are intended to defeat any attempt at optimisation
+   or use of extended precision, and to defeat faulty narrowing casts.
+   The weird prototypes are because of widening incompatibilities.
+*/
+#ifdef STDC
+#define ARGS1(atype, a) (atype a)
+#define ARGS2(atype, a, btype, b) (atype a, btype b)
+#else
+#define ARGS1(atype, a) (a) atype a;
+#define ARGS2(atype, a, btype, b) (a, b) atype a; btype b;
+#endif
+
+Procedure Store ARGS2(Number, a, Number *, b) { *b=a; }
+Number Sum ARGS2(Number, a, Number, b) {Number r; Store(a+b, &r); return (r); }
+Number Diff ARGS2(Number, a, Number, b){Number r; Store(a-b, &r); return (r); }
+Number Mul ARGS2(Number, a, Number, b) {Number r; Store(a*b, &r); return (r); }
+Number Div ARGS2(Number, a, Number, b) {Number r; Store(a/b, &r); return (r); }
+Number Self ARGS1(Number, a)	       {Number r; Store(a,   &r); return (r); }
+
+Procedure F_check ARGS((int precision, Long_double val1));
+
+Procedure F_check(precision, val1) int precision; Long_double val1; {
+	/* You don't think I'm going to go to all the trouble of writing
+	   a program that works out what all sorts of values are, only to
+	   have printf go and print the wrong values out, do you?
+	   No, you're right, so this function tries to see if printf
+	   has written the right value, by reading it back again.
+	   This introduces a new problem of course: suppose printf writes
+	   the correct value, and scanf reads it back wrong... oh well.
+	   But I'm adamant about this: the precision given is enough
+	   to uniquely identify the printed number, therefore I insist
+	   that sscanf read the number back identically. Harsh yes, but
+	   sometimes you've got to be cruel to be kind.
+	*/
+	Number val, new, diff;
+	double rem;
+	int e;
+	char *rep;
+	char *f2;
+
+#ifdef NO_LONG_DOUBLE_IO
+	double new1;
+	/* On the Sun 3, sscanf clobbers 4 words,
+	   which leads to a crash when this function tries to return.  */
+	f2= "%le";   /* Input */
+	/* It is no use checking long doubles if we can't
+	   read and write them.  */
+	if (sizeof (Number) > sizeof(double))
+	  return;
+#else
+	Long_double new1;
+	if (sizeof(double) == sizeof(Long_double)) {
+		/* Assume they're the same, and use non-stdc format */
+		/* This is for stdc compilers using non-stdc libraries */
+		f2= "%le";   /* Input */
+	} else {
+		/* It had better support Le then */
+		f2= "%Le";
+	}
+#endif
+	val= val1;
+	rep= f_rep(precision, (Long_double) val);
+	if (setjmp(lab)==0) {
+		sscanf(rep, f2, &new1);
+	} else {
+		eek_a_bug("sscanf caused a trap");
+		printf("%s    scanning: %s format: %s%s\n\n", co, rep, f2, oc);
+		Unexpected(12);
+		return;
+	}
+
+	if (setjmp(lab)==0) { /* See if new is usable */
+		new= new1;
+		if (new != 0.0) {
+			diff= val/new - 1.0;
+			if (diff < 0.1) diff= 1.0;
+			/* That should be enough to generate a trap */
+		}
+	} else {
+		eek_a_bug("sscanf returned an unusable number");
+		printf("%s    scanning: %s with format: %s%s\n\n",
+		       co, rep, f2, oc);
+		Unexpected(13);
+		return;
+	}
+
+	Unexpected(14);
+	if (new != val) {
+		eek_a_bug("Possibly bad output from printf above");
+		if (!exponent((Long_double)val, &rem, &e)) {
+			printf("%s    but value was an unusable number%s\n\n",
+			       co, oc);
+			return;
+		}
+		printf("%s    expected value around %.*fe%d, bit pattern:\n    ",
+		       co, precision, rem, e);
+		bitpattern((char *) &val, (unsigned)sizeof(val));
+		printf ("%s\n", oc);
+		printf("%s    sscanf gave           %s, bit pattern:\n    ",
+		       co, f_rep(precision, (Long_double) new));
+		bitpattern((char *) &new, (unsigned)sizeof(new));
+		printf ("%s\n", oc);
+		if (setjmp(lab) == 0) {
+			diff= val-new;
+			printf("%s    difference= %s%s\n\n",
+			       co, f_rep(precision, (Long_double) diff), oc);
+		} /* else forget it */
+		Unexpected(15);
+	}
+}
+
+#ifdef VERIFY
+Procedure Validate(prec, val, req, same) int prec, same; Long_double val, req; {
+	/* Check that the compiler has read a #define value correctly */
+	Unexpected(16);
+	if (!same) {
+		printf("%s*** Verify failed for above #define!\n", co);
+		if (setjmp(lab) == 0) { /* for the case that req == nan */
+			printf("       Compiler has %s for value%s\n",
+			       f_rep(prec, req), oc);
+		} else {
+			printf("       Compiler has %s for value%s\n",
+			       "an unusable number", oc);
+		}
+		if (setjmp(lab) == 0) {
+			F_check(prec, (Long_double) req);
+		} /*else forget it*/
+		if (setjmp(lab) == 0) {
+			if (req > 0.0 && val > 0.0) {
+				printf("%s    difference= %s%s\n",
+				       co, f_rep(prec, val-req), oc);
+			}
+		} /*else forget it*/
+		Unexpected(17);
+		printf("\n");
+		bugs++;
+	} else if (val != req) {
+		if (stdc) eek_a_bug("constant has the wrong precision");
+		else eek_a_bug("the cast didn't work");
+		printf("\n");
+	}
+}
+#endif /* VERIFY */
+
+int FPROP(bits_per_byte) int bits_per_byte; {
+	/* Properties of floating types, using algorithms by Cody and Waite
+	   from MA Malcolm, as modified by WM Gentleman and SB Marovich.
+	   Further extended by S Pemberton.
+
+	   Returns the number of digits in the fraction.
+	*/
+
+	Volatile int
+		i, f_radix, iexp, irnd, mrnd, f_rounds, f_mant_dig,
+		iz, k, inf, machep, f_max_exp, f_min_exp, mx, negeps,
+		mantbits, digs, f_dig, trap,
+		hidden, normal, f_min_10_exp, f_max_10_exp;
+	Volatile Number
+		a, b, base, basein, basem1, f_epsilon, epsneg,
+		eps, epsp1, etop, ebot,
+		f_max, newxmax, f_min, xminner, y, y1, z, z1, z2;
+
+	Unexpected(18);
+
+	Vprintf("%sPROPERTIES OF %s%s\n", co, THING, oc);
+
+	/* Base and size of significand **************************************/
+	/* First repeatedly double until adding 1 has no effect.	  */
+	/* For instance, if base is 10, with 3 significant digits	  */
+	/* it will try 1, 2, 4, 8, ... 512, 1024, and stop there,	  */
+	/* since 1024 is only representable as 1020.			  */
+	a=1.0;
+	if (setjmp(lab)==0) { /* inexact trap? */
+		do { a=Sum(a, a); }
+		while (Diff(Diff(Sum(a, ONE), a), ONE) == ZERO);
+	} else {
+		fprintf(stderr, "*** Program got loss-of-precision trap!\n");
+		/* And supporting those is just TOO much trouble! */
+		farewell(bugs+1);
+	}
+	Unexpected(19);
+	/* Now double until you find a number that can be added to the	  */
+	/* above number. For 1020 this is 8 or 16, depending whether the  */
+	/* result is rounded or truncated.				  */
+	/* In either case the result is 1030. 1030-1020= the base, 10.	  */
+	b=1.0;
+	do { b=Sum(b, b); } while ((base=Diff(Sum(a, b), a)) == ZERO);
+	f_radix=base;
+	Vprintf("%sBase = %d%s\n", co, f_radix, oc);
+
+	/* Sanity check; if base<2, I can't guarantee the rest will work  */
+	if (f_radix < 2) {
+		eek_a_bug("Function return or parameter passing faulty? (This is a guess.)");
+		printf("\n");
+		return(0);
+	}
+
+	if (PASS == 1) { /* only for FLT */
+		flt_radix= f_radix;
+		if (F) i_define(D_FLT_RADIX, "", "FLT", "_RADIX",
+				(long) f_radix, 0L, (long) F_RADIX, "");
+	} else if (f_radix != flt_radix) {
+		printf("\n%s*** WARNING: %s %s (%d) %s%s\n",
+		       co, thing, "arithmetic has a different radix",
+		       f_radix, "from float", oc);
+		bugs++;
+	}
+
+	/* Now the number of digits precision */
+	f_mant_dig=0; b=1.0;
+	do { f_mant_dig++; b=Mul(b, base); }
+	while (Diff(Diff(Sum(b, ONE), b), ONE) == ZERO);
+	f_dig=floor_log(10, (Long_double)(b/base)) + (base==10?1:0);
+	Vprintf("%sSignificant base digits = %d %s %d %s%s\n",
+		co, f_mant_dig, "(= at least", f_dig, "decimal digits)", oc);
+	if (F) i_define(D_MANT_DIG, thing, Fname, "_MANT_DIG",
+			(long) f_mant_dig, 0L, (long) F_MANT_DIG, "");
+	if (F) i_define(D_DIG, thing, Fname, "_DIG",
+			(long) f_dig, 0L, (long) F_DIG, "");
+	digs= ceil_log(10, (Long_double)b); /* the number of digits to printf */
+
+	/* Rounding *******************************************************/
+	basem1=Diff(base, HALF);
+	if (Diff(Sum(a, basem1), a) != ZERO) {
+		if (f_radix == 2) basem1=0.375;
+		else basem1=1.0;
+		if (Diff(Sum(a, basem1), a) != ZERO) irnd=2; /* away from 0 */
+		else irnd=1; /* to nearest */
+	} else irnd=0; /* towards 0 */
+
+	basem1=Diff(base, HALF);
+
+	if (Diff(Diff(-a, basem1), -a) != ZERO) {
+		if (f_radix == 2) basem1=0.375;
+		else basem1=1.0;
+		if (Diff(Diff(-a, basem1), -a) != ZERO) mrnd=2; /* away from 0*/
+		else mrnd=1; /* to nearest */
+	} else mrnd=0; /* towards 0 */
+
+	f_rounds= -1; /* Unknown rounding */
+	if (irnd==0 && mrnd==0) f_rounds=0; /* zero = chops */
+	if (irnd==1 && mrnd==1) f_rounds=1; /* nearest */
+	if (irnd==2 && mrnd==0) f_rounds=2; /* +inf */
+	if (irnd==0 && mrnd==2) f_rounds=3; /* -inf */
+
+	if (f_rounds != -1) {
+		Vprintf("%sArithmetic rounds towards ", co);
+		switch (f_rounds) {
+		      case 0: Vprintf("zero (i.e. it chops)"); break;
+		      case 1: Vprintf("nearest"); break;
+		      case 2: Vprintf("+infinity"); break;
+		      case 3: Vprintf("-infinity"); break;
+		      default: Vprintf("???"); break;
+		}
+		Vprintf("%s\n", oc);
+	} else { /* Hmm, try to give some help here */
+		Vprintf("%sArithmetic rounds oddly: %s\n", co, oc);
+		Vprintf("%s    Negative numbers %s%s\n",
+			co, mrnd==0 ? "towards zero" :
+			    mrnd==1 ? "to nearest" :
+				      "away from zero",
+			oc);
+		Vprintf("%s    Positive numbers %s%s\n",
+			co, irnd==0 ? "towards zero" :
+			    irnd==1 ? "to nearest" :
+				      "away from zero",
+			oc);
+	}
+	/* An extra goody */
+	if (f_radix == 2 && f_rounds == 1) {
+		if (Diff(Sum(a, ONE), a) != ZERO) {
+			Vprintf("%s   Tie breaking rounds up%s\n", co, oc);
+		} else if (Diff(Sum(a, THREE), a) == FOUR) {
+			Vprintf("%s   Tie breaking rounds to even%s\n", co, oc);
+		} else {
+			Vprintf("%s   Tie breaking rounds down%s\n", co, oc);
+		}
+	}
+	if (PASS == 1) { /* only for FLT */
+		flt_rounds= f_rounds;
+		/* Prefer system float.h definition of F_ROUNDS,
+		   since it's more likely to be right than our "1".  */
+		if (F && (!SYS_FLOAT_H_WRAP || F_ROUNDS == UNDEFINED))
+		  i_define(D_FLT_ROUNDS, "", "FLT", "_ROUNDS",
+			   (long) f_rounds, 1L, (long) F_ROUNDS, "");
+	} else if (f_rounds != flt_rounds) {
+		printf("\n%s*** WARNING: %s %s (%d) %s%s\n",
+		       co, thing, "arithmetic rounds differently",
+		       f_rounds, "from float", oc);
+		bugs++;
+	}
+
+	/* Various flavours of epsilon ************************************/
+	negeps=f_mant_dig+f_mant_dig;
+	basein=1.0/base;
+	a=1.0;
+	for(i=1; i<=negeps; i++) a*=basein;
+
+	b=a;
+	while (Diff(Diff(ONE, a), ONE) == ZERO) {
+		a*=base;
+		negeps--;
+	}
+	negeps= -negeps;
+	Vprintf("%sSmallest x such that 1.0-base**x != 1.0 = %d%s\n",
+		co, negeps, oc);
+
+	etop = ONE;
+	ebot = ZERO;
+	eps = Sum(ebot, Div(Diff(etop, ebot), TWO));
+	/* find the smallest epsneg (1-epsneg != 1) by binary search.
+	   ebot and etop are the current bounds */
+	while (eps != ebot && eps != etop) {
+		epsp1 = Diff(ONE, eps);
+		if (epsp1 < ONE) etop = eps;
+		else ebot = eps;
+		eps = Sum(ebot, Div(Diff(etop, ebot), TWO));
+	}
+	eps= etop;
+	/* Sanity check */
+	if (Diff(ONE, etop) >= ONE || Diff(ONE, ebot) != ONE) {
+		eek_a_bug("internal error calculating epsneg");
+	}
+	Vprintf("%sSmallest x such that 1.0-x != 1.0 = %s%s\n",
+		co, f_rep(digs, (Long_double) eps), oc);
+	if (V) F_check(digs, (Long_double) eps);
+
+	epsneg=a;
+	if ((f_radix!=2) && irnd) {
+	/*	a=(a*(1.0+a))/(1.0+1.0); => */
+		a=Div(Mul(a, Sum(ONE, a)), Sum(ONE, ONE));
+	/*	if ((1.0-a)-1.0 != 0.0) epsneg=a; => */
+		if (Diff(Diff(ONE, a), ONE) != ZERO) epsneg=a;
+	}
+	/* epsneg is used later */
+	Unexpected(20);
+
+	machep= -f_mant_dig-f_mant_dig;
+	a=b;
+	while (Diff(Sum(ONE, a), ONE) == ZERO) { a*=base; machep++; }
+	Vprintf("%sSmallest x such that 1.0+base**x != 1.0 = %d%s\n",
+		co, machep, oc);
+
+	etop = ONE;
+	ebot = ZERO;
+	eps = Sum(ebot, Div(Diff(etop, ebot), TWO));
+	/* find the smallest eps (1+eps != 1) by binary search.
+	   ebot and etop are the current bounds */
+	while (eps != ebot && eps != etop) {
+		epsp1 = Sum(ONE, eps);
+		if (epsp1 > ONE) etop = eps;
+		else ebot = eps;
+		eps = Sum(ebot, Div(Diff(etop, ebot), TWO));
+	}
+	/* Sanity check */
+	if (Sum(ONE, etop) <= ONE || Sum(ONE, ebot) != ONE) {
+		eek_a_bug("internal error calculating eps");
+	}
+	f_epsilon=etop;
+
+	Vprintf("%sSmallest x such that 1.0+x != 1.0 = %s%s\n",
+		co, f_rep(digs, (Long_double) f_epsilon), oc);
+
+	f_epsilon= Diff(Sum(ONE, f_epsilon), ONE); /* New C standard defn */
+	Vprintf("%s(Above number + 1.0) - 1.0 = %s%s\n",
+		co, f_rep(digs, (Long_double) (f_epsilon)), oc);
+
+	/* Possible loss of precision warnings here from non-stdc compilers */
+	if (F) f_define(D_EPSILON, thing,
+			Fname, "_EPSILON", digs,
+			(Long_double) f_epsilon,
+			(Long_double) F_EPSILON, MARK);
+	if (V || F) F_check(digs, (Long_double) f_epsilon);
+	Unexpected(21);
+	if (F) Validate(digs, (Long_double) f_epsilon, (Long_double) F_EPSILON,
+			f_epsilon == Self(F_EPSILON));
+	Unexpected(22);
+
+	/* Extra chop info *************************************************/
+	if (f_rounds == 0) {
+		if (Diff(Mul(Sum(ONE,f_epsilon),ONE),ONE) !=  ZERO) {
+			Vprintf("%sAlthough arithmetic chops, it uses guard digits%s\n", co, oc);
+		}
+	}
+
+	/* Size of and minimum normalised exponent ************************/
+	y=0; i=0; k=1; z=basein; z1=(1.0+f_epsilon)/base;
+
+	/* Coarse search for the largest power of two */
+	if (setjmp(lab)==0) { /* for underflow trap */ /* Yields i, k, y, y1 */
+		do {
+			y=z; y1=z1;
+			z=Mul(y,y); z1=Mul(z1, y);
+			a=Mul(z,ONE);
+			z2=Div(z1,y);
+			if (z2 != y1) break;
+			if ((Sum(a,a) == ZERO) || (fabs(z) >= y)) break;
+			i++;
+			k+=k;
+		} while(1);
+	} else {
+		Vprintf("%s%s underflow generates a trap%s\n", co, Thing, oc);
+	}
+	Unexpected(23);
+
+	if (f_radix != 10) {
+		iexp=i+1; /* for the sign */
+		mx=k+k;
+	} else {
+		iexp=2;
+		iz=f_radix;
+		while (k >= iz) { iz*=f_radix; iexp++; }
+		mx=iz+iz-1;
+	}
+
+	/* Fine tune starting with y and y1 */
+	if (setjmp(lab)==0) { /* for underflow trap */ /* Yields k, f_min */
+		do {
+			f_min=y; z1=y1;
+			y=Div(y,base); y1=Div(y1,base);
+			a=Mul(y,ONE);
+			z2=Mul(y1,base);
+			if (z2 != z1) break;
+			if ((Sum(a,a) == ZERO) || (fabs(y) >= f_min)) break;
+			k++;
+		} while (1);
+	}
+	Unexpected(24);
+
+	f_min_exp=(-k)+1;
+
+	if ((mx <= k+k-3) && (f_radix != 10)) { mx+=mx; iexp+=1; }
+	Vprintf("%sNumber of bits used for exponent = %d%s\n", co, iexp, oc);
+	Vprintf("%sMinimum normalised exponent = %d%s\n", co, f_min_exp-1, oc);
+	if (F)
+	  i_define(D_MIN_EXP, thing, Fname, "_MIN_EXP",
+		   (long) f_min_exp, (long) maxint, (long) F_MIN_EXP, "");
+
+	if (setjmp(lab)==0) {
+		Vprintf("%sMinimum normalised positive number = %s%s\n",
+			co, f_rep(digs, (Long_double) f_min), oc);
+	} else {
+		eek_a_bug("printf can't print the smallest normalised number");
+		printf("\n");
+	}
+	Unexpected(25);
+	/* Possible loss of precision warnings here from non-stdc compilers */
+	if (setjmp(lab) == 0) {
+		if (F) f_define(D_MIN, thing,
+				Fname, "_MIN", digs,
+				(Long_double) f_min,
+				(Long_double) F_MIN, MARK);
+		if (V || F) F_check(digs, (Long_double) f_min);
+	} else {
+		eek_a_bug("xxx_MIN caused a trap");
+		printf("\n");
+	}
+
+	if (setjmp(lab) == 0) {
+		if (F) Validate(digs, (Long_double) f_min, (Long_double) F_MIN,
+				f_min == Self(F_MIN));
+	} else {
+		printf("%s*** Verify failed for above #define!\n    %s %s\n\n",
+		       co, "Compiler has an unusable number for value", oc);
+		bugs++;
+	}
+	Unexpected(26);
+
+	a=1.0; f_min_10_exp=0;
+	while (a > f_min*10.0) { a/=10.0; f_min_10_exp--; }
+	if (F) i_define(D_MIN_10_EXP, thing, Fname, "_MIN_10_EXP",
+			(long) f_min_10_exp, (long) maxint,
+			(long) F_MIN_10_EXP, "");
+
+	/* Minimum exponent ************************************************/
+	if (setjmp(lab)==0) { /* for underflow trap */ /* Yields xminner */
+		do {
+			xminner=y;
+			y=Div(y,base);
+			a=Mul(y,ONE);
+			if ((Sum(a,a) == ZERO) || (fabs(y) >= xminner)) break;
+		} while (1);
+	}
+	Unexpected(27);
+
+	if (xminner != 0.0 && xminner != f_min) {
+		normal= 0;
+		Vprintf("%sThe smallest numbers are not kept normalised%s\n",
+			co, oc);
+		if (setjmp(lab)==0) {
+		    Vprintf("%sSmallest unnormalised positive number = %s%s\n",
+			    co, f_rep(digs, (Long_double) xminner), oc);
+		    if (V) F_check(digs, (Long_double) xminner);
+		} else {
+			eek_a_bug("printf can't print the smallest unnormalised number.");
+			printf("\n");
+		}
+		Unexpected(28);
+	} else {
+		normal= 1;
+		Vprintf("%sThe smallest numbers are normalised%s\n", co, oc);
+	}
+
+	/* Maximum exponent ************************************************/
+	f_max_exp=2; f_max=1.0; newxmax=base+1.0;
+	inf=0; trap=0;
+	while (f_max<newxmax) {
+		f_max=newxmax;
+		if (setjmp(lab) == 0) { /* Yields inf, f_max_exp */
+			newxmax=Mul(newxmax, base);
+		} else {
+			trap=1;
+			break;
+		}
+		if (Div(newxmax, base) != f_max) {
+			inf=1; /* ieee infinity */
+			break;
+		}
+		f_max_exp++;
+	}
+	Unexpected(29);
+	if (trap) {
+		Vprintf("%s%s overflow generates a trap%s\n", co, Thing, oc);
+	}
+
+	if (inf) Vprintf("%sThere is an 'infinite' value%s\n", co, oc);
+	Vprintf("%sMaximum exponent = %d%s\n", co, f_max_exp, oc);
+	if (F) i_define(D_MAX_EXP, thing, Fname, "_MAX_EXP",
+			(long) f_max_exp, 0L, (long) F_MAX_EXP, "");
+
+	/* Largest number ***************************************************/
+	f_max=Diff(ONE, epsneg);
+	if (Mul(f_max,ONE) != f_max) f_max=Diff(ONE, Mul(base,epsneg));
+	for (i=1; i<=f_max_exp; i++) f_max=Mul(f_max, base);
+
+	if (setjmp(lab)==0) {
+		Vprintf("%sMaximum number = %s%s\n",
+			co, f_rep(digs, (Long_double) f_max), oc);
+	} else {
+		eek_a_bug("printf can't print the largest double.");
+		printf("\n");
+	}
+	if (setjmp(lab)==0) {
+	/* Possible loss of precision warnings here from non-stdc compilers */
+		if (F) f_define(D_MAX, thing,
+				Fname, "_MAX", digs,
+				(Long_double) f_max,
+				(Long_double) F_MAX, MARK);
+		if (V || F) F_check(digs, (Long_double) f_max);
+	} else {
+		eek_a_bug("xxx_MAX caused a trap");
+		printf("\n");
+	}
+	if (setjmp(lab)==0) {
+		if (F) Validate(digs, (Long_double) f_max, (Long_double) F_MAX,
+				f_max == Self(F_MAX));
+	} else {
+		printf("%s*** Verify failed for above #define!\n    %s %s\n\n",
+		       co, "Compiler has an unusable number for value", oc);
+		bugs++;
+	}
+	Unexpected(30);
+
+	a=1.0; f_max_10_exp=0;
+	while (a < f_max/10.0) { a*=10.0; f_max_10_exp++; }
+	if (F) i_define(D_MAX_10_EXP, thing, Fname, "_MAX_10_EXP",
+			(long) f_max_10_exp, 0L, (long) F_MAX_10_EXP, "");
+
+	/* Hidden bit + sanity check ****************************************/
+	if (f_radix != 10) {
+		hidden=0;
+		mantbits=floor_log(2, (Long_double)f_radix)*f_mant_dig;
+		if (mantbits == 64
+		    && iexp == 15
+		    && f_max_exp+f_min_exp > 0 /* ??? f_min_exp may be wrong.  */
+		    && mantbits+iexp+17 == (int)sizeof(Number)*bits_per_byte) {
+			Vprintf("%sArithmetic probably doesn't use a hidden bit%s\n", co, oc);
+			Vprintf("%sIt's probably 80387 or 68881 extended real%s\n", co, oc);
+			goto is_extended;
+		}
+		if (mantbits+iexp == (int)sizeof(Number)*bits_per_byte) {
+			hidden=1;
+			Vprintf("%sArithmetic uses a hidden bit%s\n", co, oc);
+		} else if (mantbits+iexp+1 == (int)sizeof(Number)*bits_per_byte) {
+			Vprintf("%sArithmetic doesn't use a hidden bit%s\n",
+				co, oc);
+		} else {
+			printf("\n%s%s\n    %s %s %s!%s\n\n",
+			       co,
+			       "*** Something fishy here!",
+			       "Exponent size + significand size doesn't match",
+			       "with the size of a", thing,
+			       oc);
+		}
+		if (hidden && f_radix == 2 && f_max_exp+f_min_exp==3) {
+			Vprintf("%sIt looks like %s length IEEE format%s\n",
+				co, f_mant_dig==24 ? "single" :
+				    f_mant_dig==53 ? "double" :
+				    f_mant_dig >53 ? "extended" :
+						"some", oc);
+is_extended:
+			if (f_rounds != 1 || normal) {
+				Vprintf("%s   though ", co);
+				if (f_rounds != 1) {
+					Vprintf("the rounding is unusual");
+					if (normal) Vprintf(" and ");
+				}
+				if (normal) Vprintf("the normalisation is unusual");
+				Vprintf("%s\n", oc);
+			}
+		} else {
+			Vprintf("%sIt doesn't look like IEEE format%s\n",
+				co, oc);
+		}
+	}
+	printf("\n"); /* regardless of verbosity */
+	return f_mant_dig;
+}
+
+Procedure EPROP(fprec, dprec, lprec) int fprec, dprec, lprec; {
+	/* See if expressions are evaluated in extended precision.
+	   Some compilers optimise even if you don't want it,
+	   and then this function fails to produce the right result.
+	   We try to diagnose this if it happens.
+	*/
+	Volatile int eprec;
+	Volatile double a, b, base, old;
+	Volatile Number d, oldd, dbase, one, zero;
+	Volatile int bad=0;
+
+	/* Size of significand **************************************/
+	a=1.0;
+	if (setjmp(lab) == 0) { /* Yields nothing */
+		do { old=a; a=a+a; }
+		while ((((a+1.0)-a)-1.0) == 0.0 && a>old);
+	} else bad=1;
+
+	/* Avoid the comparison if bad is set,
+	   to avoid trouble on the convex.  */
+	if (!bad && (a <= old)) bad=1;
+
+	if (!bad) {
+		b=1.0;
+		if (setjmp(lab) == 0) { /* Yields nothing */
+			do { old=b; b=b+b; }
+			while ((base=((a+b)-a)) == 0.0 && b>old);
+			if (b <= old) bad=1;
+		} else bad=1;
+	}
+
+	if (!bad) {
+		eprec=0; d=1.0; dbase=base; one=1.0; zero=0.0;
+		if (setjmp(lab) == 0) { /* Yields nothing */
+			do { eprec++; oldd=d; d=d*dbase; }
+			while ((((d+one)-d)-one) == zero && d>oldd);
+			if (d <= oldd) bad=1;
+		} else bad=1;
+	}
+
+	Unexpected(31);
+
+	if (bad) {
+	  Vprintf("%sCan't determine precision for %s expressions:\n%s%s\n",
+		 co, thing, "   check that you compiled without optimisation!",
+		 oc);
+	} else if (eprec==dprec) {
+	  Vprintf("%s%s expressions are evaluated in double precision%s\n",
+		  co, Thing, oc);
+	} else if (eprec==fprec) {
+	  Vprintf("%s%s expressions are evaluated in float precision%s\n",
+		  co, Thing, oc);
+	} else if (eprec==lprec) {
+	  Vprintf("%s%s expressions are evaluated in long double precision%s\n",
+		  co, Thing, oc);
+	} else {
+		Vprintf("%s%s expressions are evaluated in a %s %s %d %s%s\n",
+			co, Thing, eprec>dprec ? "higher" : "lower",
+			"precision than double,\n   using",
+			eprec, "base digits",
+		        oc);
+	}
+}
+
+#else /* not Number */
+
+#ifdef FPROP /* Then create dummy routines for long double */
+/* ARGSUSED */
+int FPROP(bits_per_byte) int bits_per_byte; { return 0; }
+#endif
+#ifdef EPROP
+/* ARGSUSED */
+Procedure EPROP(fprec, dprec, lprec) int fprec, dprec, lprec; {}
+#endif
+
+#endif /* ifdef Number */
+
+/* Increment the pass number */
+#undef PASS
+
+#ifdef PASS2
+#undef PASS2
+#define PASS 3
+#define PASS3 1
+#endif
+
+#ifdef PASS1
+#undef PASS1
+#define PASS 2
+#define PASS2 1
+#endif
+
+#ifdef PASS0
+#undef PASS0
+#endif
+
+#ifdef PASS /* then rescan this file */
+#ifdef NO_FILE
+#include "enquire.c"
+#else
+#include FILENAME  /* if this line fails to compile, define NO_FILE */
+#endif
+#endif /* PASS */
+