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[xemacs-hg @ 2004-11-04 23:05:23 by ben] commit mega-patch configure.in: Turn off -Winline and -Wchar-subscripts. Use the right set of cflags when compiling modules. Rewrite ldap configuration to separate the inclusion of lber (needed in recent Cygwin) from the basic checks for the needed libraries. add a function for MAKE_JUNK_C; initially code was added to generate xemacs.def using this, but it will need to be rewritten. add an rm -f for junk.c to avoid weird Cygwin bug with cp -f onto an existing file. Sort list of auto-detected functions and eliminate unused checks for stpcpy, setlocale and getwd. Add autodetection of Cygwin scanf problems BETA: Rewrite section on configure to indicate what flags are important and what not. digest-doc.c, make-dump-id.c, profile.c, sorted-doc.c: Add proper decls for main(). make-msgfile.c: Document that this is old junk. Move proposal to text.c. make-msgfile.lex: Move proposal to text.c. make-mswin-unicode.pl: Convert error-generating code so that the entire message will be seen as a single unrecognized token. mule/mule-ccl.el: Update docs. lispref/mule.texi: Update CCL docs. ldap/eldap.c: Mule-ize. Use EXTERNAL_LIST_LOOP_2 instead of deleted EXTERNAL_LIST_LOOP. * XEmacs 21.5.18 "chestnut" is released. --------------------------------------------------------------- MULE-RELATED WORK: --------------------------------------------------------------- --------------------------- byte-char conversion --------------------------- buffer.c, buffer.h, insdel.c, text.c: Port FSF algorithm for byte-char conversion, replacing broken previous version. Track the char position of the gap. Add functions to do char-byte conversion downwards as well as upwards. Move comments about algorithm workings to internals manual. --------------------------- work on types --------------------------- alloc.c, console-x-impl.h, dump-data.c, dump-data.h, dumper.c, dialog-msw.c, dired-msw.c, doc.c, editfns.c, esd.c, event-gtk.h, event-msw.c, events.c, file-coding.c, file-coding.h, fns.c, glyphs-eimage.c, glyphs-gtk.c, glyphs-msw.c, glyphs-shared.c, glyphs-x.c, glyphs.c, glyphs.h, gui.c, hpplay.c, imgproc.c, intl-win32.c, lrecord.h, lstream.c, keymap.c, lisp.h, libsst.c, linuxplay.c, miscplay.c, miscplay.h, mule-coding.c, nas.c, nt.c, ntheap.c, ntplay.c, objects-msw.c, objects-tty.c, objects-x.c, print.c, process-nt.c, process.c, redisplay.h, select-common.h, select-gtk.c, select-x.c, sgiplay.c, sound.c, sound.h, sunplay.c, sysfile.h, sysdep.c, syswindows.h, text.c, unexnt.c, win32.c, xgccache.c: Further work on types. This creates a full set of types for all the basic semantics of `char' that I have so far identified, so that its semantics can always be identified for the purposes of proper Mule-safe code, and the raw use of `char' always avoided. (1) More type renaming, for consistency of naming. Char_ASCII -> Ascbyte UChar_ASCII -> UAscbyte Char_Binary -> CBinbyte UChar_Binary -> Binbyte SChar_Binary -> SBinbyte (2) Introduce Rawbyte, CRawbyte, Boolbyte, Chbyte, UChbyte, and Bitbyte and use them. (3) New types Itext, Wexttext and Textcount for separating out the concepts of bytes and textual units (different under UTF-16 and UTF-32, which are potential internal encodings). (4) qxestr*_c -> qxestr*_ascii. lisp.h: New; goes with other qxe() functions. #### Maybe goes in a different section. lisp.h: Group generic int-type defs together with EMACS_INT defs. lisp.h: * lisp.h (WEXTTEXT_IS_WIDE) New defns. lisp.h: New type to replace places where int occurs as a boolean. It's signed because occasionally people may want to use -1 as an error value, and because unsigned ints are viral -- see comments in the internals manual against using them. dynarr.c: int -> Bytecount. --------------------------- Mule-izing --------------------------- device-x.c: Partially Mule-ize. dumper.c, dumper.h: Mule-ize. Use Rawbyte. Use stderr_out not printf. Use wext_*(). sysdep.c, syswindows.h, text.c: New Wexttext API for manipulation of external text that may be Unicode (e.g. startup code under Windows). emacs.c: Mule-ize. Properly deal with argv in external encoding. Use wext_*() and Wexttext. Use Rawbyte. #if 0 some old junk on SCO that is unlikely to be correct. Rewrite allocation code in run-temacs. emacs.c, symsinit.h, win32.c: Rename win32 init function and call it even earlier, to initialize mswindows_9x_p even earlier, for use in startup code (XEUNICODE_P). process.c: Use _wenviron not environ under Windows, to get Unicode environment variables. event-Xt.c: Mule-ize drag-n-drop related stuff. dragdrop.c, dragdrop.h, frame-x.c: Mule-ize. text.h: Add some more stand-in defines for particular kinds of conversion; use in Mule-ization work in frame-x.c etc. --------------------------- Freshening --------------------------- intl-auto-encap-win32.c, intl-auto-encap-win32.h: Regenerate. --------------------------- Unicode-work --------------------------- intl-win32.c, syswindows.h: Factor out common options to MultiByteToWideChar and WideCharToMultiByte. Add convert_unicode_to_multibyte_malloc() and convert_unicode_to_multibyte_dynarr() and use. Add stuff for alloca() conversion of multibyte/unicode. alloc.c: Use dfc_external_data_len() in case of unicode coding system. alloc.c, mule-charset.c: Don't zero out and reinit charset Unicode tables. This fucks up dump-time loading. Anyway, either we load them at dump time or run time, never both. unicode.c: Dump the blank tables as well. --------------------------------------------------------------- DOCUMENTATION, MOSTLY MULE-RELATED: --------------------------------------------------------------- EmacsFrame.c, emodules.c, event-Xt.c, fileio.c, input-method-xlib.c, mule-wnnfns.c, redisplay-gtk.c, redisplay-tty.c, redisplay-x.c, regex.c, sysdep.c: Add comment about Mule work needed. text.h: Add more documentation describing why DFC routines were not written to return their value. Add some other DFC documentation. console-msw.c, console-msw.h: Add pointer to docs in win32.c. emacs.c: Add comments on sources of doc info. text.c, charset.h, unicode.c, intl-win32.c, intl-encap-win32.c, text.h, file-coding.c, mule-coding.c: Collect background comments and related to text matters and internationalization, and proposals for work to be done, in text.c or Internals manual, stuff related to specific textual API's in text.h, and stuff related to internal implementation of Unicode conversion in unicode.c. Put lots of pointers to the comments to make them easier to find. s/mingw32.h, s/win32-common.h, s/win32-native.h, s/windowsnt.h, win32.c: Add bunches of new documentation on the different kinds of builds and environments under Windows and how they work. Collect this info in win32.c. Add pointers to these docs in the relevant s/* files. emacs.c: Document places with long comments. Remove comment about exiting, move to internals manual, put in pointer. event-stream.c: Move docs about event queues and focus to internals manual, put in pointer. events.h: Move docs about event stream callbacks to internals manual, put in pointer. profile.c, redisplay.c, signal.c: Move documentation to the Internals manual. process-nt.c: Add pointer to comment in win32-native.el. lisp.h: Add comments about some comment conventions. lisp.h: Add comment about the second argument. device-msw.c, redisplay-msw.c: @@#### comments are out-of-date. --------------------------------------------------------------- PDUMP WORK (MOTIVATED BY UNICODE CHANGES) --------------------------------------------------------------- alloc.c, buffer.c, bytecode.c, console-impl.h, console.c, device.c, dumper.c, lrecord.h, elhash.c, emodules.h, events.c, extents.c, frame.c, glyphs.c, glyphs.h, mule-charset.c, mule-coding.c, objects.c, profile.c, rangetab.c, redisplay.c, specifier.c, specifier.h, window.c, lstream.c, file-coding.h, file-coding.c: PDUMP: Properly implement dump_add_root_block(), which never worked before, and is necessary for dumping Unicode tables. Pdump name changes for accuracy: XD_STRUCT_PTR -> XD_BLOCK_PTR. XD_STRUCT_ARRAY -> XD_BLOCK_ARRAY. XD_C_STRING -> XD_ASCII_STRING. *_structure_* -> *_block_*. lrecord.h: some comments added about dump_add_root_block() vs dump_add_root_block_ptr(). extents.c: remove incorrect comment about pdump problems with gap array. --------------------------------------------------------------- ALLOCATION --------------------------------------------------------------- abbrev.c, alloc.c, bytecode.c, casefiddle.c, device-msw.c, device-x.c, dired-msw.c, doc.c, doprnt.c, dragdrop.c, editfns.c, emodules.c, file-coding.c, fileio.c, filelock.c, fns.c, glyphs-eimage.c, glyphs-gtk.c, glyphs-msw.c, glyphs-x.c, gui-msw.c, gui-x.c, imgproc.c, intl-win32.c, lread.c, menubar-gtk.c, menubar.c, nt.c, objects-msw.c, objects-x.c, print.c, process-nt.c, process-unix.c, process.c, realpath.c, redisplay.c, search.c, select-common.c, symbols.c, sysdep.c, syswindows.h, text.c, text.h, ui-byhand.c: New macros {alloca,xnew}_{itext,{i,ext,raw,bin,asc}bytes} for more convenient allocation of these commonly requested items. Modify functions to use alloca_ibytes, alloca_array, alloca_extbytes, xnew_ibytes, etc. also XREALLOC_ARRAY, xnew. alloc.c: Rewrite the allocation functions to factor out repeated code. Add assertions for freeing dumped data. lisp.h: Moved down and consolidated with other allocation stuff. lisp.h, dynarr.c: New functions for allocation that's very efficient when mostly in LIFO order. lisp.h, text.c, text.h: Factor out some stuff for general use by alloca()-conversion funs. text.h, lisp.h: Fill out convenience routines for allocating various kinds of bytes and put them in lisp.h. Use them in place of xmalloc(), ALLOCA(). text.h: Fill out the convenience functions so the _MALLOC() kinds match the alloca() kinds. --------------------------------------------------------------- ERROR-CHECKING --------------------------------------------------------------- text.h: Create ASSERT_ASCTEXT_ASCII() and ASSERT_ASCTEXT_ASCII_LEN() from similar Eistring checkers and change the Eistring checkers to use them instead. --------------------------------------------------------------- MACROS IN LISP.H --------------------------------------------------------------- lisp.h: Redo GCPRO declarations. Create a "base" set of functions that can be used to generate any kind of gcpro sets -- regular, ngcpro, nngcpro, private ones used in GC_EXTERNAL_LIST_LOOP_2. buffer.c, callint.c, chartab.c, console-msw.c, device-x.c, dialog-msw.c, dired.c, extents.c, ui-gtk.c, rangetab.c, nt.c, mule-coding.c, minibuf.c, menubar-msw.c, menubar.c, menubar-gtk.c, lread.c, lisp.h, gutter.c, glyphs.c, glyphs-widget.c, fns.c, fileio.c, file-coding.c, specifier.c: Eliminate EXTERNAL_LIST_LOOP, which does not check for circularities. Use EXTERNAL_LIST_LOOP_2 instead or EXTERNAL_LIST_LOOP_3 or EXTERNAL_PROPERTY_LIST_LOOP_3 or GC_EXTERNAL_LIST_LOOP_2 (new macro). Removed/redid comments on EXTERNAL_LIST_LOOP. --------------------------------------------------------------- SPACING FIXES --------------------------------------------------------------- callint.c, hftctl.c, number-gmp.c, process-unix.c: Spacing fixes. --------------------------------------------------------------- FIX FOR GEOMETRY PROBLEM IN FIRST FRAME --------------------------------------------------------------- unicode.c: Add workaround for newlib bug in sscanf() [should be fixed by release 1.5.12 of Cygwin]. toolbar.c: bug fix for problem of initial frame being 77 chars wide on Windows. will be overridden by my other ws. --------------------------------------------------------------- FIX FOR LEAKING PROCESS HANDLES: --------------------------------------------------------------- process-nt.c: Fixes for leaking handles. Inspired by work done by Adrian Aichner <adrian@xemacs.org>. --------------------------------------------------------------- FIX FOR CYGWIN BUG (Unicode-related): --------------------------------------------------------------- unicode.c: Add workaround for newlib bug in sscanf() [should be fixed by release 1.5.12 of Cygwin]. --------------------------------------------------------------- WARNING FIXES: --------------------------------------------------------------- console-stream.c: `reinit' is unused. compiler.h, event-msw.c, frame-msw.c, intl-encap-win32.c, text.h: Add stuff to deal with ANSI-aliasing warnings I got. regex.c: Gather includes together to avoid warning. --------------------------------------------------------------- CHANGES TO INITIALIZATION ROUTINES: --------------------------------------------------------------- buffer.c, emacs.c, console.c, debug.c, device-x.c, device.c, dragdrop.c, emodules.c, eval.c, event-Xt.c, event-gtk.c, event-msw.c, event-stream.c, event-tty.c, events.c, extents.c, faces.c, file-coding.c, fileio.c, font-lock.c, frame-msw.c, glyphs-widget.c, glyphs.c, gui-x.c, insdel.c, lread.c, lstream.c, menubar-gtk.c, menubar-x.c, minibuf.c, mule-wnnfns.c, objects-msw.c, objects.c, print.c, scrollbar-x.c, search.c, select-x.c, text.c, undo.c, unicode.c, window.c, symsinit.h: Call reinit_*() functions directly from emacs.c, for clarity. Factor out some redundant init code. Move disallowed stuff that had crept into vars_of_glyphs() into complex_vars_of_glyphs(). Call init_eval_semi_early() from eval.c not in the middle of vars_of_() in emacs.c since there should be no order dependency in the latter calls. --------------------------------------------------------------- ARMAGEDDON: --------------------------------------------------------------- alloc.c, emacs.c, lisp.h, print.c: Rename inhibit_non_essential_printing_operations to inhibit_non_essential_conversion_operations. text.c: Assert on !inhibit_non_essential_conversion_operations. console-msw.c, print.c: Don't do conversion in SetConsoleTitle or FindWindow to avoid problems during armageddon. Put #errors for NON_ASCII_INTERNAL_FORMAT in places where problems would arise. --------------------------------------------------------------- CHANGES TO THE BUILD PROCEDURE: --------------------------------------------------------------- config.h.in, s/cxux.h, s/usg5-4-2.h, m/powerpc.h: Add comment about correct ordering of this file. Rearrange everything to follow this -- put all #undefs together and before the s&m files. Add undefs for HAVE_ALLOCA, C_ALLOCA, BROKEN_ALLOCA_IN_FUNCTION_CALLS, STACK_DIRECTION. Remove unused HAVE_STPCPY, HAVE_GETWD, HAVE_SETLOCALE. m/gec63.h: Deleted; totally broken, not used at all, not in FSF. m/7300.h, m/acorn.h, m/alliant-2800.h, m/alliant.h, m/altos.h, m/amdahl.h, m/apollo.h, m/att3b.h, m/aviion.h, m/celerity.h, m/clipper.h, m/cnvrgnt.h, m/convex.h, m/cydra5.h, m/delta.h, m/delta88k.h, m/dpx2.h, m/elxsi.h, m/ews4800r.h, m/gould.h, m/hp300bsd.h, m/hp800.h, m/hp9000s300.h, m/i860.h, m/ibmps2-aix.h, m/ibmrs6000.h, m/ibmrt-aix.h, m/ibmrt.h, m/intel386.h, m/iris4d.h, m/iris5d.h, m/iris6d.h, m/irist.h, m/isi-ov.h, m/luna88k.h, m/m68k.h, m/masscomp.h, m/mg1.h, m/mips-nec.h, m/mips-siemens.h, m/mips.h, m/news.h, m/nh3000.h, m/nh4000.h, m/ns32000.h, m/orion105.h, m/pfa50.h, m/plexus.h, m/pmax.h, m/powerpc.h, m/pyrmips.h, m/sequent-ptx.h, m/sequent.h, m/sgi-challenge.h, m/symmetry.h, m/tad68k.h, m/tahoe.h, m/targon31.h, m/tekxd88.h, m/template.h, m/tower32.h, m/tower32v3.h, m/ustation.h, m/vax.h, m/wicat.h, m/xps100.h: Delete C_ALLOCA, HAVE_ALLOCA, STACK_DIRECTION, BROKEN_ALLOCA_IN_FUNCTION_CALLS. All of this is auto-detected. When in doubt, I followed recent FSF sources, which also have these things deleted.
author ben
date Thu, 04 Nov 2004 23:08:28 +0000
parents 04bc9d2f42c7
children 3d8143fc88e1
line wrap: on
line source

/* Numeric types for XEmacs.
   Copyright (C) 2004 Jerry James.

This file is part of XEmacs.

XEmacs is free software; you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by the
Free Software Foundation; either version 2, or (at your option) any
later version.

XEmacs is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
for more details.

You should have received a copy of the GNU General Public License
along with XEmacs; see the file COPYING.  If not, write to
the Free Software Foundation, Inc., 59 Temple Place - Suite 330,
Boston, MA 02111-1307, USA.  */

/* Synched up with: Not in FSF. */

#include <config.h>
#include <limits.h>
#include "lisp.h"

Lisp_Object Qrationalp, Qfloatingp, Qrealp;
Lisp_Object Vdefault_float_precision;
Fixnum Vmost_negative_fixnum, Vmost_positive_fixnum;
static Lisp_Object Qunsupported_type;
static Lisp_Object Vbigfloat_max_prec;
static int number_initialized;

#ifdef HAVE_BIGNUM
bignum scratch_bignum, scratch_bignum2;
#endif
#ifdef HAVE_RATIO
ratio scratch_ratio;
#endif
#ifdef HAVE_BIGFLOAT
bigfloat scratch_bigfloat, scratch_bigfloat2;
#endif

/********************************* Bignums **********************************/
#ifdef HAVE_BIGNUM
static void
bignum_print (Lisp_Object obj, Lisp_Object printcharfun,
	      int UNUSED (escapeflag))
{
  CIbyte *bstr = bignum_to_string (XBIGNUM_DATA (obj), 10);
  write_c_string (printcharfun, bstr);
  xfree (bstr, CIbyte *);
}

static int
bignum_equal (Lisp_Object obj1, Lisp_Object obj2, int UNUSED (depth))
{
  return bignum_eql (XBIGNUM_DATA (obj1), XBIGNUM_DATA (obj2));
}

static Hashcode
bignum_hash (Lisp_Object obj, int UNUSED (depth))
{
  return bignum_hashcode (XBIGNUM_DATA (obj));
}

static const struct memory_description bignum_description[] = {
  { XD_OPAQUE_PTR, offsetof (Lisp_Bignum, data) },
  { XD_END }
};

DEFINE_BASIC_LRECORD_IMPLEMENTATION ("bignum", bignum, 0, 0, bignum_print,
				     0, bignum_equal, bignum_hash,
				     bignum_description, Lisp_Bignum);

#endif /* HAVE_BIGNUM */

Lisp_Object Qbignump;

DEFUN ("bignump", Fbignump, 1, 1, 0, /*
Return t if OBJECT is a bignum, nil otherwise.
*/
       (object))
{
  return BIGNUMP (object) ? Qt : Qnil;
}


/********************************* Integers *********************************/
DEFUN ("integerp", Fintegerp, 1, 1, 0, /*
Return t if OBJECT is an integer, nil otherwise.
*/
       (object))
{
  return INTEGERP (object) ? Qt : Qnil;
}

DEFUN ("evenp", Fevenp, 1, 1, 0, /*
Return t if INTEGER is even, nil otherwise.
*/
       (integer))
{
  CONCHECK_INTEGER (integer);
  return (BIGNUMP (integer)
	  ? bignum_evenp (XBIGNUM_DATA (integer))
	  : XTYPE (integer) == Lisp_Type_Int_Even) ? Qt : Qnil;
}

DEFUN ("oddp", Foddp, 1, 1, 0, /*
Return t if INTEGER is odd, nil otherwise.
*/
       (integer))
{
  CONCHECK_INTEGER (integer);
  return (BIGNUMP (integer)
	  ? bignum_oddp (XBIGNUM_DATA (integer))
	  : XTYPE (integer) == Lisp_Type_Int_Odd) ? Qt : Qnil;
}


/********************************** Ratios **********************************/
#ifdef HAVE_RATIO
static void
ratio_print (Lisp_Object obj, Lisp_Object printcharfun,
	     int UNUSED (escapeflag))
{
  CIbyte *rstr = ratio_to_string (XRATIO_DATA (obj), 10);
  write_c_string (printcharfun, rstr);
  xfree (rstr, CIbyte *);
}

static int
ratio_equal (Lisp_Object obj1, Lisp_Object obj2, int UNUSED (depth))
{
  return ratio_eql (XRATIO_DATA (obj1), XRATIO_DATA (obj2));
}

static Hashcode
ratio_hash (Lisp_Object obj, int UNUSED (depth))
{
  return ratio_hashcode (XRATIO_DATA (obj));
}

static const struct memory_description ratio_description[] = {
  { XD_OPAQUE_PTR, offsetof (Lisp_Ratio, data) },
  { XD_END }
};

DEFINE_BASIC_LRECORD_IMPLEMENTATION ("ratio", ratio, 0, 0, ratio_print,
				     0, ratio_equal, ratio_hash,
				     ratio_description, Lisp_Ratio);

#endif /* HAVE_RATIO */

Lisp_Object Qratiop;

DEFUN ("ratiop", Fratiop, 1, 1, 0, /*
Return t if OBJECT is a ratio, nil otherwise.
*/
       (object))
{
  return RATIOP (object) ? Qt : Qnil;
}


/******************************** Rationals *********************************/
DEFUN ("rationalp", Frationalp, 1, 1, 0, /*
Return t if OBJECT is a rational, nil otherwise.
*/
       (object))
{
  return RATIONALP (object) ? Qt : Qnil;
}

DEFUN ("numerator", Fnumerator, 1, 1, 0, /*
Return the numerator of the canonical form of RATIONAL.
If RATIONAL is an integer, RATIONAL is returned.
*/
       (rational))
{
  CONCHECK_RATIONAL (rational);
#ifdef HAVE_RATIO
  return RATIOP (rational)
    ? make_bignum_bg (XRATIO_NUMERATOR (rational))
    : rational;
#else
  return rational;
#endif
}

DEFUN ("denominator", Fdenominator, 1, 1, 0, /*
Return the denominator of the canonical form of RATIONAL.
If RATIONAL is an integer, 1 is returned.
*/
       (rational))
{
  CONCHECK_RATIONAL (rational);
#ifdef HAVE_RATIO
  return RATIOP (rational)
    ? make_bignum_bg (XRATIO_DENOMINATOR (rational))
    : make_int (1);
#else
  return rational;
#endif
}


/******************************** Bigfloats *********************************/
#ifdef HAVE_BIGFLOAT
static void
bigfloat_print (Lisp_Object obj, Lisp_Object printcharfun,
		int UNUSED (escapeflag))
{
  CIbyte *fstr = bigfloat_to_string (XBIGFLOAT_DATA (obj), 10);
  write_c_string (printcharfun, fstr);
  xfree (fstr, CIbyte *);
}

static int
bigfloat_equal (Lisp_Object obj1, Lisp_Object obj2, int UNUSED (depth))
{
  return bigfloat_eql (XBIGFLOAT_DATA (obj1), XBIGFLOAT_DATA (obj2));
}

static Hashcode
bigfloat_hash (Lisp_Object obj, int UNUSED (depth))
{
  return bigfloat_hashcode (XBIGFLOAT_DATA (obj));
}

static const struct memory_description bigfloat_description[] = {
  { XD_OPAQUE_PTR, offsetof (Lisp_Bigfloat, bf) },
  { XD_END }
};

DEFINE_BASIC_LRECORD_IMPLEMENTATION ("bigfloat", bigfloat, 1, 0,
				     bigfloat_print, 0,
				     bigfloat_equal, bigfloat_hash,
				     bigfloat_description, Lisp_Bigfloat);

#endif /* HAVE_BIGFLOAT */

Lisp_Object Qbigfloatp;

DEFUN ("bigfloatp", Fbigfloatp, 1, 1, 0, /*
Return t if OBJECT is a bigfloat, nil otherwise.
*/
       (object))
{
  return BIGFLOATP (object) ? Qt : Qnil;
}

DEFUN ("bigfloat-get-precision", Fbigfloat_get_precision, 1, 1, 0, /*
Return the precision of bigfloat F as an integer.
*/
       (f))
{
  CHECK_BIGFLOAT (f);
#ifdef HAVE_BIGNUM
  bignum_set_ulong (scratch_bignum, XBIGFLOAT_GET_PREC (f));
  return Fcanonicalize_number (make_bignum_bg (scratch_bignum));
#else
  return make_int ((int) XBIGFLOAT_GET_PREC (f));
#endif
}

DEFUN ("bigfloat-set-precision", Fbigfloat_set_precision, 2, 2, 0, /*
Set the precision of F, a bigfloat, to PRECISION, a nonnegative integer.
The new precision of F is returned.  Note that the return value may differ
from PRECISION if the underlying library is unable to support exactly
PRECISION bits of precision.
*/
       (f, precision))
{
  unsigned long prec;

  CHECK_BIGFLOAT (f);
  if (INTP (precision))
    {
      prec = (XINT (precision) <= 0) ? 1UL : (unsigned long) XINT (precision);
    }
#ifdef HAVE_BIGNUM
  else if (BIGNUMP (precision))
    {
      prec = bignum_fits_ulong_p (XBIGNUM_DATA (precision))
	? bignum_to_ulong (XBIGNUM_DATA (precision))
	: UINT_MAX;
    }
#endif
  else
    {
      dead_wrong_type_argument (Qintegerp, f);
      return Qnil;
    }

  XBIGFLOAT_SET_PREC (f, prec);
  return Fbigfloat_get_precision (f);
}

static int
default_float_precision_changed (Lisp_Object UNUSED (sym), Lisp_Object *val,
				 Lisp_Object UNUSED (in_object),
				 int UNUSED (flags))
{
  unsigned long prec;

  CONCHECK_INTEGER (*val);
#ifdef HAVE_BIGFLOAT
  if (INTP (*val))
    prec = XINT (*val);
  else 
    {
      if (!bignum_fits_ulong_p (XBIGNUM_DATA (*val)))
	args_out_of_range_3 (*val, Qzero, Vbigfloat_max_prec);
      prec = bignum_to_ulong (XBIGNUM_DATA (*val));
    }
  if (prec != 0UL)
    bigfloat_set_default_prec (prec);
#endif
  return 0;
}


/********************************* Floating *********************************/
Lisp_Object
make_floating (double d)
{
#ifdef HAVE_BIGFLOAT
  if (ZEROP (Vdefault_float_precision))
#endif
    return make_float (d);
#ifdef HAVE_BIGFLOAT
  else
    return make_bigfloat (d, 0UL);
#endif
}

DEFUN ("floatingp", Ffloatingp, 1, 1, 0, /*
Return t if OBJECT is a floating point number of any kind, nil otherwise.
*/
       (object))
{
  return FLOATINGP (object) ? Qt : Qnil;
}


/********************************** Reals ***********************************/
DEFUN ("realp", Frealp, 1, 1, 0, /*
Return t if OBJECT is a real, nil otherwise.
*/
       (object))
{
  return REALP (object) ? Qt : Qnil;
}


/********************************* Numbers **********************************/
DEFUN ("canonicalize-number", Fcanonicalize_number, 1, 1, 0, /*
Return the canonical form of NUMBER.
*/
       (number))
{
  /* The tests should go in order from larger, more expressive, or more
     complex types to smaller, less expressive, or simpler types so that a
     number can cascade all the way down to the simplest type if
     appropriate. */
#ifdef HAVE_RATIO
  if (RATIOP (number) &&
      bignum_fits_long_p (XRATIO_DENOMINATOR (number)) &&
      bignum_to_long (XRATIO_DENOMINATOR (number)) == 1L)
    number = make_bignum_bg (XRATIO_NUMERATOR (number));
#endif
#ifdef HAVE_BIGNUM
  if (BIGNUMP (number) && bignum_fits_int_p (XBIGNUM_DATA (number)))
    {
      int n = bignum_to_int (XBIGNUM_DATA (number));
      if (NUMBER_FITS_IN_AN_EMACS_INT (n))
	number = make_int (n);
    }
#endif
  return number;
}

enum number_type
get_number_type (Lisp_Object arg)
{
  if (INTP (arg))
    return FIXNUM_T;
#ifdef HAVE_BIGNUM
  if (BIGNUMP (arg))
    return BIGNUM_T;
#endif
#ifdef HAVE_RATIO
  if (RATIOP (arg))
    return RATIO_T;
#endif
  if (FLOATP (arg))
    return FLOAT_T;
#ifdef HAVE_BIGFLOAT
  if (BIGFLOATP (arg))
    return BIGFLOAT_T;
#endif
  /* Catch unintentional bad uses of this function */
  abort ();
  /* NOTREACHED */
  return FIXNUM_T;
}

/* Convert NUMBER to type TYPE.  If TYPE is BIGFLOAT_T then use the indicated
   PRECISION; otherwise, PRECISION is ignored. */
static Lisp_Object
internal_coerce_number (Lisp_Object number, enum number_type type,
#ifdef HAVE_BIGFLOAT
			unsigned long precision
#else
			unsigned long UNUSED (precision)
#endif
			)
{
  enum number_type current_type;

  if (CHARP (number))
    number = make_int (XCHAR (number));
  else if (MARKERP (number))
    number = make_int (marker_position (number));

  /* Note that CHECK_NUMBER ensures that NUMBER is a supported type.  Hence,
     we abort() in the #else sections below, because it shouldn't be possible
     to arrive there. */
  CHECK_NUMBER (number);
  current_type = get_number_type (number);
  switch (current_type)
    {
    case FIXNUM_T:
      switch (type)
	{
	case FIXNUM_T:
	  return number;
	case BIGNUM_T:
#ifdef HAVE_BIGNUM
	  return make_bignum (XREALINT (number));
#else
	  abort ();
#endif /* HAVE_BIGNUM */
	case RATIO_T:
#ifdef HAVE_RATIO
	  return make_ratio (XREALINT (number), 1UL);
#else
	  abort ();
#endif /* HAVE_RATIO */
	case FLOAT_T:
	  return make_float (XREALINT (number));
	case BIGFLOAT_T:
#ifdef HAVE_BIGFLOAT
	  return make_bigfloat (XREALINT (number), precision);
#else
	  abort ();
#endif /* HAVE_BIGFLOAT */
	}
    case BIGNUM_T:
#ifdef HAVE_BIGNUM
      switch (type)
	{
	case FIXNUM_T:
	  return make_int (bignum_to_long (XBIGNUM_DATA (number)));
	case BIGNUM_T:
	  return number;
	case RATIO_T:
#ifdef HAVE_RATIO
	  bignum_set_long (scratch_bignum, 1L);
	  return make_ratio_bg (XBIGNUM_DATA (number), scratch_bignum);
#else
	  abort ();
#endif /* HAVE_RATIO */
	case FLOAT_T:
	  return make_float (bignum_to_double (XBIGNUM_DATA (number)));
	case BIGFLOAT_T:
#ifdef HAVE_BIGFLOAT
	  {
	    Lisp_Object temp;
	    temp = make_bigfloat (0.0, precision);
	    bigfloat_set_bignum (XBIGFLOAT_DATA (temp), XBIGNUM_DATA (number));
	    return temp;
	  }
#else
	  abort ();
#endif /* HAVE_BIGFLOAT */
	}
#else
      abort ();
#endif /* HAVE_BIGNUM */
    case RATIO_T:
#ifdef HAVE_RATIO
      switch (type)
	{
	case FIXNUM_T:
	  bignum_div (scratch_bignum, XRATIO_NUMERATOR (number),
		      XRATIO_DENOMINATOR (number));
	  return make_int (bignum_to_long (scratch_bignum));
	case BIGNUM_T:
	  bignum_div (scratch_bignum, XRATIO_NUMERATOR (number),
		      XRATIO_DENOMINATOR (number));
	  return make_bignum_bg (scratch_bignum);
	case RATIO_T:
	  return number;
	case FLOAT_T:
	  return make_float (ratio_to_double (XRATIO_DATA (number)));
	case BIGFLOAT_T:
#ifdef HAVE_BIGFLOAT
	  {
	    Lisp_Object temp;
	    temp = make_bigfloat (0.0, precision);
	    bigfloat_set_ratio (XBIGFLOAT_DATA (temp), XRATIO_DATA (number));
	    return temp;
	  }
#else
	  abort ();
#endif /* HAVE_BIGFLOAT */
	}
#else
      abort ();
#endif /* HAVE_RATIO */
    case FLOAT_T:
      switch (type)
	{
	case FIXNUM_T:
	  return Ftruncate (number);
	case BIGNUM_T:
#ifdef HAVE_BIGNUM
	  bignum_set_double (scratch_bignum, XFLOAT_DATA (number));
	  return make_bignum_bg (scratch_bignum);
#else
	  abort ();
#endif /* HAVE_BIGNUM */
	case RATIO_T:
#ifdef HAVE_RATIO
	  ratio_set_double (scratch_ratio, XFLOAT_DATA (number));
	  return make_ratio_rt (scratch_ratio);
#else
	  abort ();
#endif /* HAVE_RATIO */
	case FLOAT_T:
	  return number;
	case BIGFLOAT_T:
#ifdef HAVE_BIGFLOAT
	  bigfloat_set_prec (scratch_bigfloat, precision);
	  bigfloat_set_double (scratch_bigfloat, XFLOAT_DATA (number));
	  return make_bigfloat_bf (scratch_bigfloat);
#else
	  abort ();
#endif /* HAVE_BIGFLOAT */
	}
    case BIGFLOAT_T:
#ifdef HAVE_BIGFLOAT
      switch (type)
	{
	case FIXNUM_T:
	  return make_int (bigfloat_to_long (XBIGFLOAT_DATA (number)));
	case BIGNUM_T:
#ifdef HAVE_BIGNUM
	  bignum_set_bigfloat (scratch_bignum, XBIGFLOAT_DATA (number));
	  return make_bignum_bg (scratch_bignum);
#else
	  abort ();
#endif /* HAVE_BIGNUM */
	case RATIO_T:
#ifdef HAVE_RATIO
	  ratio_set_bigfloat (scratch_ratio, XBIGFLOAT_DATA (number));
	  return make_ratio_rt (scratch_ratio);
#else
	  abort ();
#endif
	case FLOAT_T:
	  return make_float (bigfloat_to_double (XBIGFLOAT_DATA (number)));
	case BIGFLOAT_T:
	  /* FIXME: Do we need to change the precision? */
	  return number;
	}
#else
      abort ();
#endif /* HAVE_BIGFLOAT */
    }
  abort ();
  /* NOTREACHED */
  return Qzero;
}

/* This function promotes its arguments as necessary to make them both the
   same type.  It destructively modifies its arguments to do so.  Characters
   and markers are ALWAYS converted to integers. */
enum number_type
promote_args (Lisp_Object *arg1, Lisp_Object *arg2)
{
  enum number_type type1, type2;

  if (CHARP (*arg1))
    *arg1 = make_int (XCHAR (*arg1));
  else if (MARKERP (*arg1))
    *arg1 = make_int (marker_position (*arg1));
  if (CHARP (*arg2))
    *arg2 = make_int (XCHAR (*arg2));
  else if (MARKERP (*arg2))
    *arg2 = make_int (marker_position (*arg2));

  CHECK_NUMBER (*arg1);
  CHECK_NUMBER (*arg2);

  type1 = get_number_type (*arg1);
  type2 = get_number_type (*arg2);

  if (type1 < type2)
    {
      *arg1 = internal_coerce_number (*arg1, type2,
#ifdef HAVE_BIGFLOAT
				      type2 == BIGFLOAT_T
				      ? XBIGFLOAT_GET_PREC (*arg2) :
#endif
				      0UL);
      return type2;
    }
  
  if (type2 < type1)
    {
      *arg2 = internal_coerce_number (*arg2, type1,
#ifdef HAVE_BIGFLOAT
				      type1 == BIGFLOAT_T
				      ? XBIGFLOAT_GET_PREC (*arg1) :
#endif
				      0UL);
      return type1;
    }

  /* No conversion necessary */
  return type1;
}

DEFUN ("coerce-number", Fcoerce_number, 2, 3, 0, /*
Convert NUMBER to the indicated type, possibly losing information.
Do not call this function.  Use `coerce' instead.

TYPE is one of the symbols 'fixnum, 'integer, 'ratio, 'float, or 'bigfloat.
Not all of these types may be supported.

PRECISION is the number of bits of precision to use when converting to
bigfloat; it is ignored otherwise.  If nil, the default precision is used.

Note that some conversions lose information.  No error is signaled in such
cases; the information is silently lost.
*/
       (number, type,
#ifdef HAVE_BIGFLOAT
	precision
#else
	UNUSED (precision)
#endif
	))
{
  CHECK_SYMBOL (type);
  if (EQ (type, Qfixnum))
    return internal_coerce_number (number, FIXNUM_T, 0UL);
  else if (EQ (type, Qinteger))
    {
      /* If bignums are available, we always convert to one first, then
	 downgrade to a fixnum if possible. */
#ifdef HAVE_BIGNUM
      return Fcanonicalize_number
	(internal_coerce_number (number, BIGNUM_T, 0UL));
#else
      return internal_coerce_number (number, FIXNUM_T, 0UL);
#endif
    }
#ifdef HAVE_RATIO
  else if (EQ (type, Qratio))
    return internal_coerce_number (number, RATIO_T, 0UL);
#endif
  else if (EQ (type, Qfloat))
    return internal_coerce_number (number, FLOAT_T, 0UL);
#ifdef HAVE_BIGFLOAT
  else if (EQ (type, Qbigfloat))
    {
      unsigned long prec;

      if (NILP (precision))
	prec = bigfloat_get_default_prec ();
      else
	{
	  CHECK_INTEGER (precision);
#ifdef HAVE_BIGNUM
	  if (INTP (precision))
#endif /* HAVE_BIGNUM */
	    prec = (unsigned long) XREALINT (precision);
#ifdef HAVE_BIGNUM
	  else
	    {
	      if (!bignum_fits_ulong_p (XBIGNUM_DATA (precision)))
		args_out_of_range (precision, Vbigfloat_max_prec);
	      prec = bignum_to_ulong (XBIGNUM_DATA (precision));
	    }
#endif /* HAVE_BIGNUM */
	}
      return internal_coerce_number (number, BIGFLOAT_T, prec);
    }
#endif /* HAVE_BIGFLOAT */

  Fsignal (Qunsupported_type, type);
  /* NOTREACHED */
  return Qnil;
}


void
syms_of_number (void)
{
#ifdef HAVE_BIGNUM
  INIT_LRECORD_IMPLEMENTATION (bignum);
#endif
#ifdef HAVE_RATIO
  INIT_LRECORD_IMPLEMENTATION (ratio);
#endif
#ifdef HAVE_BIGFLOAT
  INIT_LRECORD_IMPLEMENTATION (bigfloat);
#endif

  /* Type predicates */
  DEFSYMBOL (Qrationalp);
  DEFSYMBOL (Qfloatingp);
  DEFSYMBOL (Qrealp);
  DEFSYMBOL (Qbignump);
  DEFSYMBOL (Qratiop);
  DEFSYMBOL (Qbigfloatp);

  /* Functions */
  DEFSUBR (Fbignump);
  DEFSUBR (Fintegerp);
  DEFSUBR (Fevenp);
  DEFSUBR (Foddp);
  DEFSUBR (Fratiop);
  DEFSUBR (Frationalp);
  DEFSUBR (Fnumerator);
  DEFSUBR (Fdenominator);
  DEFSUBR (Fbigfloatp);
  DEFSUBR (Fbigfloat_get_precision);
  DEFSUBR (Fbigfloat_set_precision);
  DEFSUBR (Ffloatingp);
  DEFSUBR (Frealp);
  DEFSUBR (Fcanonicalize_number);
  DEFSUBR (Fcoerce_number);

  /* Errors */
  DEFERROR_STANDARD (Qunsupported_type, Qwrong_type_argument);
}

void
vars_of_number (void)
{
  /* These variables are Lisp variables rather than number variables so that
     we can put bignums in them. */
  DEFVAR_LISP_MAGIC ("default-float-precision", &Vdefault_float_precision, /*
The default floating-point precision for newly created floating point values.
This should be 0 to create Lisp float types, or an unsigned integer no greater
than `bigfloat-maximum-precision' to create Lisp bigfloat types with the
indicated precision.
*/ default_float_precision_changed);
  Vdefault_float_precision = make_int (0);

  DEFVAR_CONST_LISP ("bigfloat-maximum-precision", &Vbigfloat_max_prec /*
The maximum number of bits of precision a bigfloat can have.
This is determined by the underlying library used to implement bigfloats.
*/);

#ifdef HAVE_BIGFLOAT
#ifdef HAVE_BIGNUM
  /* Uncomment the next two lines and remove the line below them when dumping
     bignums becomes possible. */
  /*
  Vbigfloat_max_prec = make_bignum (0L);
  bignum_set_ulong (XBIGNUM_DATA (Vbigfloat_max_prec), ULONG_MAX);
  */
  Vbigfloat_max_prec = make_int (EMACS_INT_MAX);
#else
  Vbigfloat_max_prec = make_int (EMACS_INT_MAX);
#endif
#else
  Vbigfloat_max_prec = make_int (0);
#endif /* HAVE_BIGFLOAT */

  DEFVAR_CONST_INT ("most-negative-fixnum", &Vmost_negative_fixnum /*
The fixnum closest in value to negative infinity.
*/);
  Vmost_negative_fixnum = EMACS_INT_MIN;

  DEFVAR_CONST_INT ("most-positive-fixnum", &Vmost_positive_fixnum /*
The fixnum closest in value to positive infinity.
*/);
  Vmost_positive_fixnum = EMACS_INT_MAX;

  Fprovide (intern ("number-types"));
#ifdef HAVE_BIGNUM
  Fprovide (intern ("bignum"));
#endif
#ifdef HAVE_RATIO
  Fprovide (intern ("ratio"));
#endif
#ifdef HAVE_BIGFLOAT
  Fprovide (intern ("bigfloat"));
#endif
}

void
init_number (void)
{
  if (!number_initialized)
    {
      number_initialized = 1;

#ifdef WITH_GMP
      init_number_gmp ();
#endif
#ifdef WITH_MP
      init_number_mp ();
#endif

#ifdef HAVE_BIGNUM
      bignum_init (scratch_bignum);
      bignum_init (scratch_bignum2);
#endif

#ifdef HAVE_RATIO
      ratio_init (scratch_ratio);
#endif

#ifdef HAVE_BIGFLOAT
      bigfloat_init (scratch_bigfloat);
      bigfloat_init (scratch_bigfloat2);
#endif
    }
}