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Use parse_integer() in read_atom(); support bases with ratios like integers src/ChangeLog addition: 2015-05-08 Aidan Kehoe <kehoea@parhasard.net> * data.c (init_errors_once_early): Move the Qunsupported_type here from numbers.c, so it's available when the majority of our types are not supported. * general-slots.h: Add it here, too. * number.c: Remove the definition of Qunsupported_type from here. * lread.c (read_atom): Check if the first character could reflect a rational, if so, call parse_integer(), don't check the syntax of the other characters. This allows us to accept the non-ASCII digit characters too. If that worked partially, but not completely, and the next char is a slash, try to parse as a ratio. If that fails, try isfloat_string(), but only if the first character could plausibly be part of a float. Otherwise, treat as a symbol. * lread.c (read_rational): Rename from read_integer. Handle ratios with the same radix specification as was used for integers. * lread.c (read1): Rename read_integer in this function. Support the Common Lisp #NNNrMMM syntax for parsing a number MMM of arbitrary radix NNN. man/ChangeLog addition: 2015-05-08 Aidan Kehoe <kehoea@parhasard.net> * lispref/numbers.texi (Numbers): Describe the newly-supported arbitrary-base syntax for rationals (integers and ratios). Describe that ratios can take the same base specification as integers, something also new. tests/ChangeLog addition: 2015-05-08 Aidan Kehoe <kehoea@parhasard.net> * automated/lisp-reader-tests.el: Check the arbitrary-base integer reader syntax support, just added. Check the reader base support for ratios, just added. Check the non-ASCII-digit support in the reader, just added.
author Aidan Kehoe <kehoea@parhasard.net>
date Sat, 09 May 2015 00:40:57 +0100
parents 308d34e9f07d
children
line wrap: on
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/* New incremental garbage collector for XEmacs.
   Copyright (C) 2005 Marcus Crestani.
   Copyright (C) 2010 Ben Wing.

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 3 of the License, 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.  If not, see <http://www.gnu.org/licenses/>. */

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

#ifndef INCLUDED_gc_h_
#define INCLUDED_gc_h_

BEGIN_C_DECLS


#ifdef NEW_GC
/************************************************************************/
/*		         Incremental Statistics      			*/
/************************************************************************/
#ifdef ERROR_CHECK_GC
void gc_stat_print_stats (void);
void gc_stat_finalized (void);
void gc_stat_freed (void);
# define GC_STAT_FINALIZED gc_stat_finalized ()
# define GC_STAT_FREED gc_stat_freed ()
#else /* not ERROR_CHECK_GC */
# define GC_STAT_FINALIZED
# define GC_STAT_FREED
#endif /* not ERROR_CHECK_GC */
#endif /* not NEW_GC */


/************************************************************************/
/*		             Global Variables     			*/
/************************************************************************/
/* Number of bytes of consing done since the last GC. */
extern EMACS_INT consing_since_gc;

/* Number of bytes of consing done since startup. */
extern EMACS_UINT total_consing;

/* Number of bytes of current allocated heap objects. */
extern EMACS_INT total_gc_usage;

/* If the above is set. */
extern int total_gc_usage_set;

/* Number of bytes of consing since gc before another gc should be done. */
extern EMACS_INT gc_cons_threshold;

/* Percentage of consing of total data size before another GC. */
extern EMACS_INT gc_cons_percentage;

#ifdef NEW_GC
/* Number of bytes of consing since gc before another cycle of the gc
   should be done in incremental mode. */
extern EMACS_INT gc_cons_incremental_threshold;

/* Nonzero during gc */
extern int gc_in_progress;

/* Nonzero during write barrier */
extern int write_barrier_enabled;

/* Enable/disable incremental garbage collection during runtime. */
extern int allow_incremental_gc;
#endif /* NEW_GC */


/************************************************************************/
/*		               Prototypes         			*/
/************************************************************************/

#ifndef MALLOC_OVERHEAD
#ifndef SYSTEM_MALLOC
#define MALLOC_OVERHEAD 0
#elif defined (rcheck)
#define MALLOC_OVERHEAD 20
#else
#define MALLOC_OVERHEAD 8
#endif
#endif /* MALLOC_OVERHEAD */

#ifdef ERROR_CHECK_GC
#define GC_CHECK_LHEADER_INVARIANTS(lheader) do {		\
  struct lrecord_header * GCLI_lh = (lheader);			\
  assert (GCLI_lh != 0);					\
  assert (GCLI_lh->type < (unsigned int) lrecord_type_count);	\
} while (0)
#else
#define GC_CHECK_LHEADER_INVARIANTS(lheader)
#endif

void recompute_need_to_garbage_collect (void);

#ifdef DEBUG_XEMACS
#define KKCC_DEBUG_ARGS , level, pos
#define DECLARE_KKCC_DEBUG_ARGS , int level, int pos
#else
#define KKCC_DEBUG_ARGS
#define DECLARE_KKCC_DEBUG_ARGS
#endif


/* KKCC mark algorithm. */
void kkcc_gc_stack_push_lisp_object (Lisp_Object obj DECLARE_KKCC_DEBUG_ARGS);
void kkcc_gc_stack_repush_dirty_object (Lisp_Object obj
					DECLARE_KKCC_DEBUG_ARGS);

#ifdef DEBUG_XEMACS
#define kkcc_gc_stack_push_lisp_object_0(obj) \
  kkcc_gc_stack_push_lisp_object (obj, 0, -1)
void kkcc_backtrace_1 (int size, int detailed);
void kkcc_short_backtrace (void);
void kkcc_detailed_backtrace (void);
void kkcc_short_backtrace_full (void);
void kkcc_detailed_backtrace_full (void);
#else
#define kkcc_gc_stack_push_lisp_object_0(obj) \
  kkcc_gc_stack_push_lisp_object (obj)
#define kkcc_detailed_backtrace()
#endif

#ifdef NEW_GC

/* Repush objects that are caught by the write barrier. */
#ifdef DEBUG_XEMACS
#define gc_write_barrier(obj) kkcc_gc_stack_repush_dirty_object (obj, 0, -2)
#else
#define gc_write_barrier(obj) kkcc_gc_stack_repush_dirty_object (obj)
#endif

/* GC functions: */

/* Perform a full garbage collection without interruption. If an
   incremental garbage collection is already running it is completed
   without further interruption. This function calls gc() with a
   negative or zero argument. */
void gc_full (void);

/* This function starts an incremental garbage collection. If an
   incremental garbage collection is already running, the next cycle
   of traversal work is done, or the garbage collection is completed
   when no more traversal work has to be done. This function calls gc
   with a positive argument, indicating how many objects can be
   traversed in this cycle. */
void gc_incremental (void);
#endif /* NEW_GC */

/* Initializers */
void init_gc_early (void);
void reinit_gc_early (void);
void init_gc_once_early (void);

void syms_of_gc (void);
void vars_of_gc (void);
void complex_vars_of_gc (void);

#ifndef NEW_GC
/* Needed prototypes due to the garbage collector code move from
   alloc.c to gc.c. */
void gc_sweep_1 (void);

extern void *breathing_space;
#endif /* not NEW_GC */

#ifdef NEW_GC
void add_finalizable_obj (Lisp_Object obj);
void register_for_finalization (void);
void run_finalizers (void);
#endif /* NEW_GC */

END_C_DECLS

#endif /* INCLUDED_gc_h_ */