path: root/libguile/__scm.h

/* classes: h_files */

#ifndef SCM___SCM_H
#define SCM___SCM_H

/* Copyright (C) 1995,1996,1998,1999,2000,2001,2002 Free Software Foundation, Inc.
 *
 * This program 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.
 *
 * This program 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 this software; see the file COPYING.  If not, write to
 * the Free Software Foundation, Inc., 59 Temple Place, Suite 330,
 * Boston, MA 02111-1307 USA
 *
 * As a special exception, the Free Software Foundation gives permission
 * for additional uses of the text contained in its release of GUILE.
 *
 * The exception is that, if you link the GUILE library with other files
 * to produce an executable, this does not by itself cause the
 * resulting executable to be covered by the GNU General Public License.
 * Your use of that executable is in no way restricted on account of
 * linking the GUILE library code into it.
 *
 * This exception does not however invalidate any other reasons why
 * the executable file might be covered by the GNU General Public License.
 *
 * This exception applies only to the code released by the
 * Free Software Foundation under the name GUILE.  If you copy
 * code from other Free Software Foundation releases into a copy of
 * GUILE, as the General Public License permits, the exception does
 * not apply to the code that you add in this way.  To avoid misleading
 * anyone as to the status of such modified files, you must delete
 * this exception notice from them.
 *
 * If you write modifications of your own for GUILE, it is your choice
 * whether to permit this exception to apply to your modifications.
 * If you do not wish that, delete this exception notice.  */



/* "What's the difference between _scm.h and __scm.h?"

   _scm.h is not installed; it's only visible to the libguile sources
   themselves.

   __scm.h is installed, and is #included by <libguile.h>.  If both
   the client and libguile need some piece of information, and it
   doesn't fit well into the header file for any particular module, it
   should go in __scm.h.  */


/* {Compiler hints}
 *
 * The following macros are used to provide additional information for the
 * compiler, which may help to do better error checking and code
 * optimization.  A second benefit of these macros is, that they also provide
 * additional information to the developers.
 */

/* The macro SCM_NORETURN indicates that a function will never return.
 * Examples:
 *   1) int foo (char arg) SCM_NORETURN;
 */
#ifdef __GNUC__
#define SCM_NORETURN __attribute__ ((noreturn))
#else
#define SCM_NORETURN
#endif

/* The macro SCM_UNUSED indicates that a function, function argument or
 * variable may potentially be unused.
 * Examples:
 *   1) static int unused_function (char arg) SCM_UNUSED;
 *   2) int foo (char unused_argument SCM_UNUSED);
 *   3) int unused_variable SCM_UNUSED;
 */
#ifdef __GNUC__
#define SCM_UNUSED __attribute__ ((unused))
#else
#define SCM_UNUSED
#endif


/* {Supported Options}
 *
 * These may be defined or undefined.
 */

/* #define GUILE_DEBUG_FREELIST */

/* All the number support there is.
 */
#define BIGNUMS

/* GC should relinquish empty cons-pair arenas. */
/* cmm:FIXME look at this after done mangling the GC */
/* #define GC_FREE_SEGMENTS */

/* Provide a scheme-accessible count-down timer that
 * generates a pseudo-interrupt.
 */
#define TICKS


/* Use engineering notation when converting numbers strings?
 */
#undef ENGNOT


/* {Unsupported Options}
 *
 * These must be defined as given here.
 */


#define CCLO

/* Guile Scheme supports the #f/() distinction; Guile Lisp won't.  We
   have horrible plans for their unification.  */
#undef SICP



/* Random options (not yet supported or in final form). */

#define STACK_CHECKING
#undef NO_CEVAL_STACK_CHECKING



/* SCM_API is a macro prepended to all function and data definitions
   which should be exported or imported in the resulting dynamic link
   library (DLL) in the Win32 port. */

#if defined (SCM_IMPORT)
# define SCM_API __declspec (dllimport) extern
#elif defined (SCM_EXPORT) || defined (DLL_EXPORT)
# define SCM_API __declspec (dllexport) extern
#else
# define SCM_API extern
#endif



/* What did the configure script discover about the outside world?  */
#include "libguile/scmconfig.h"



/* {Debugging Options}
 *
 * These compile time options determine whether to include code that is only
 * useful for debugging guile itself or C level extensions to guile.  The
 * common prefix for all option macros of this kind is "SCM_DEBUG_".  It is
 * guaranteed that a macro named SCM_DEBUG_XXX is defined to be either 0 or 1,
 * i. e. there is no need to test for the undefined case.  This allows to use
 * these definitions comfortably within code, as in the following example:
 *   #define FOO do { if (SCM_DEBUG_XXX) bar(); else baz(); } while (0)
 * Any sane compiler will remove the unused branch without any performance
 * penalty for the resulting code.
 *
 * Note:  Some SCM_DEBUG_XXX options are not settable at configure time.
 * To change the value of such options you will have to edit this header
 * file or give suitable options to make, like:
 *   make all CFLAGS="-DSCM_DEBUG_XXX=1 ..."
 */


/* The value of SCM_DEBUG determines the default for most of the not yet
 * defined debugging options.  This allows, for example, to enable most of the
 * debugging options by simply defining SCM_DEBUG as 1.
 */
#ifndef SCM_DEBUG
#define SCM_DEBUG 0
#endif

/* If SCM_DEBUG_CELL_ACCESSES is set to 1, cell accesses will perform
 * exhaustive parameter checking:  It will be verified that cell parameters
 * actually point to a valid heap cell.  Note:  If this option is enabled,
 * guile will run about ten times slower than normally.
 */
#ifndef SCM_DEBUG_CELL_ACCESSES
#define SCM_DEBUG_CELL_ACCESSES SCM_DEBUG
#endif

/* If SCM_DEBUG_INTERRUPTS is set to 1, with every deferring and allowing of
 * interrupts a consistency check will be performed.
 */
#ifndef SCM_DEBUG_INTERRUPTS
#define SCM_DEBUG_INTERRUPTS SCM_DEBUG
#endif

/* If SCM_DEBUG_PAIR_ACCESSES is set to 1, accesses to cons cells will be
 * exhaustively checked.  Note:  If this option is enabled, guile will run
 * slower than normally.
 */
#ifndef SCM_DEBUG_PAIR_ACCESSES
#define SCM_DEBUG_PAIR_ACCESSES SCM_DEBUG
#endif

/* If SCM_DEBUG_REST_ARGUMENT is set to 1, functions that take rest arguments
 * will check whether the rest arguments are actually passed as a proper list.
 * Otherwise, if SCM_DEBUG_REST_ARGUMENT is 0, functions that take rest
 * arguments will take it for granted that these are passed as a proper list.
 */
#ifndef SCM_DEBUG_REST_ARGUMENT
#define SCM_DEBUG_REST_ARGUMENT SCM_DEBUG
#endif

/* Use this for _compile time_ type checking only, since the compiled result
 * will be quite inefficient.  The right way to make use of this option is to
 * do a 'make clean; make CFLAGS=-DSCM_DEBUG_TYPING_STRICTNESS=1', fix your
 * errors, and then do 'make clean; make'.
 */
#ifndef SCM_DEBUG_TYPING_STRICTNESS
#define SCM_DEBUG_TYPING_STRICTNESS 1
#endif



/* {Feature Options}
 *
 * These compile time options determine whether code for certain features
 * should be compiled into guile.  The common prefix for all option macros
 * of this kind is "SCM_ENABLE_".  It is guaranteed that a macro named
 * SCM_ENABLE_XXX is defined to be either 0 or 1, i. e. there is no need to
 * test for the undefined case.  This allows to use these definitions
 * comfortably within code, as in the following example:
 *   #define FOO do { if (SCM_ENABLE_XXX) bar(); else baz(); } while (0)
 * Any sane compiler will remove the unused branch without any performance
 * penalty for the resulting code.
 *
 * Note:  Some SCM_ENABLE_XXX options are not settable at configure time.
 * To change the value of such options you will have to edit this header
 * file or give suitable options to make, like:
 *   make all CFLAGS="-DSCM_ENABLE_XXX=1 ..."
 */

/* If SCM_ENABLE_DEPRECATED is set to 1, deprecated code will be included in
 * guile, as well as some functions to issue run-time warnings about uses of
 * deprecated functions.
 */
#ifndef SCM_ENABLE_DEPRECATED
#define SCM_ENABLE_DEPRECATED 0
#endif



/* {Architecture and compiler properties}
 *
 * Guile as of today can only work on systems which fulfill at least the
 * following requirements:
 * - long ints have at least 32 bits.
 *   Guile's type system is based on this assumption.
 * - long ints consist of at least four characters.
 *   It is assumed that cells, i. e. pairs of long ints, are eight character
 *   aligned, because three bits of a cell pointer are used for type data.
 * - sizeof (void*) == sizeof (long int)
 *   Pointers are stored in SCM objects, and sometimes SCM objects are passed
 *   as void*.  Thus, there has to be a one-to-one correspondence.
 * - numbers are encoded using two's complement.
 *   The implementation of the bitwise scheme level operations is based on
 *   this assumption.
 * - ... add more
 */

#if SIZEOF_UINTPTR_T != 0 && defined(UINTPTR_MAX) \
                          && defined(INTPTR_MAX) \
                          && defined(INTPTR_MIN)
/* Used as SCM if available, so we bundle related attributes to avoid possible
   type incon[st][oi]n[ae]nce later.  Word in tags.h.  */
#define HAVE_UINTPTR_T 1
#endif

#if SIZEOF_PTRDIFF_T != 0
#define HAVE_PTRDIFF_T 1
#endif

#if SIZEOF_LONG_LONG != 0
#define HAVE_LONG_LONGS 1
#define HAVE_LONG_LONG 1
#endif

#ifndef HAVE_PTRDIFF_T
typedef long ptrdiff_t;
#endif

#ifdef HAVE_LIMITS_H
# include <limits.h>
#endif

#ifdef CHAR_BIT
# define SCM_CHAR_BIT CHAR_BIT
#else
# define SCM_CHAR_BIT 8
#endif

#ifdef LONG_BIT
# define SCM_LONG_BIT LONG_BIT
#else
# define SCM_LONG_BIT (SCM_CHAR_BIT * sizeof (long) / sizeof (char))
#endif

#ifdef UCHAR_MAX
# define SCM_CHAR_CODE_LIMIT (UCHAR_MAX + 1L)
#else
# define SCM_CHAR_CODE_LIMIT 256L
#endif



#ifdef STDC_HEADERS
# include <stdlib.h>
# if HAVE_SYS_TYPES_H
#  include <sys/types.h>
# endif
# if HAVE_SYS_STDTYPES_H
#  include <sys/stdtypes.h>
# endif
#  include <stddef.h>
#endif /* def STDC_HEADERS */



/* Define some additional CPP macros on Win32 platforms. */
#if USE_DLL_IMPORT
# define __REGEX_IMPORT__ 1
# define __CRYPT_IMPORT__ 1
# define __READLINE_IMPORT__ 1
# define QT_IMPORT 1
#endif



#include "libguile/tags.h"


#ifdef vms
# ifndef CHEAP_CONTINUATIONS
   typedef int jmp_buf[17];
   extern int setjump(jmp_buf env);
   extern int longjump(jmp_buf env, int ret);
#  define setjmp setjump
#  define longjmp longjump
# else
#  include <setjmp.h>
# endif
#else				/* ndef vms */
# ifdef _CRAY1
    typedef int jmp_buf[112];
    extern int setjump(jmp_buf env);
    extern int longjump(jmp_buf env, int ret);
#  define setjmp setjump
#  define longjmp longjump
# else				/* ndef _CRAY1 */
#  include <setjmp.h>
# endif				/* ndef _CRAY1 */
#endif				/* ndef vms */

/* James Clark came up with this neat one instruction fix for
 * continuations on the SPARC.  It flushes the register windows so
 * that all the state of the process is contained in the stack.
 */

#ifdef sparc
# define SCM_FLUSH_REGISTER_WINDOWS asm("ta 3")
#else
# define SCM_FLUSH_REGISTER_WINDOWS /* empty */
#endif

/* If stack is not longword aligned then
 */

/* #define SHORT_ALIGN */
#ifdef THINK_C
# define SHORT_ALIGN
#endif
#ifdef MSDOS
# define SHORT_ALIGN
#endif
#ifdef atarist
# define SHORT_ALIGN
#endif

#ifdef SHORT_ALIGN
typedef short SCM_STACKITEM;
#else
typedef long SCM_STACKITEM;
#endif


#define SCM_ASYNC_TICK /*fixme* should change names */ \
do { \
  if (scm_root->pending_asyncs) \
    scm_async_click (); \
} while (0)

#if (SCM_DEBUG_INTERRUPTS == 1)
#include <stdio.h>
#define SCM_CHECK_NOT_DISABLED \
  do { \
    if (scm_ints_disabled) \
      fprintf(stderr, "ints already disabled (at %s:%d)\n", \
              __FILE__, __LINE__); \
  } while (0)

#define SCM_CHECK_NOT_ENABLED \
  do { \
    if (!scm_ints_disabled) \
      fprintf(stderr, "ints already enabled (at %s:%d)\n", \
              __FILE__, __LINE__); \
  } while (0)

#else
#define SCM_CHECK_NOT_DISABLED
#define SCM_CHECK_NOT_ENABLED
#endif


/* Anthony Green writes:
   When the compiler sees...
	   DEFER_INTS;
	   [critical code here]
	   ALLOW_INTS;
   ...it doesn't actually promise to keep the critical code within the
   boundries of the DEFER/ALLOW_INTS instructions. It may very well
   schedule it outside of the magic defined in those macros.

   However, GCC's volatile asm feature forms a barrier over which code is
   never moved. So if you add...
	   asm ("");
   ...to each of the DEFER_INTS and ALLOW_INTS macros, the critical
   code will always remain in place.  asm's without inputs or outputs
   are implicitly volatile. */
#ifdef __GNUC__
#define SCM_FENCE asm /* volatile */ ("")
#else
#define SCM_FENCE
#endif

#define SCM_DEFER_INTS				\
do {						\
  SCM_FENCE;					\
  SCM_CHECK_NOT_DISABLED;			\
  SCM_REC_CRITICAL_SECTION_START (scm_i_defer);	\
  SCM_FENCE;					\
  scm_ints_disabled = 1;			\
  SCM_FENCE;					\
} while (0)


#define SCM_ALLOW_INTS				\
do {						\
  SCM_FENCE;					\
  SCM_CHECK_NOT_ENABLED;			\
  SCM_REC_CRITICAL_SECTION_END (scm_i_defer);	\
  SCM_FENCE;					\
  scm_ints_disabled = 0;			\
  SCM_FENCE;					\
  SCM_THREAD_SWITCHING_CODE;			\
  SCM_FENCE;					\
} while (0)


#define SCM_REDEFER_INTS			\
do {						\
  SCM_FENCE;					\
  SCM_REC_CRITICAL_SECTION_START (scm_i_defer);	\
  ++scm_ints_disabled;				\
  SCM_FENCE;					\
} while (0)


#define SCM_REALLOW_INTS			\
do {						\
  SCM_FENCE;					\
  SCM_REC_CRITICAL_SECTION_END (scm_i_defer);	\
  SCM_FENCE;					\
  --scm_ints_disabled;				\
  SCM_FENCE;					\
} while (0)


#define SCM_TICK \
do { \
  SCM_ASYNC_TICK; \
  SCM_THREAD_SWITCHING_CODE; \
} while (0)



/* Critical sections */

#define SCM_DECLARE_NONREC_CRITICAL_SECTION(prefix) \
  extern scm_t_mutex prefix ## _mutex

#define SCM_NONREC_CRITICAL_SECTION_START(prefix)	\
  do { scm_thread *t = scm_i_leave_guile ();		\
       scm_i_plugin_mutex_lock (&prefix ## _mutex);	\
       scm_i_enter_guile (t);				\
  } while (0)

#define SCM_NONREC_CRITICAL_SECTION_END(prefix)		\
  do { scm_i_plugin_mutex_unlock (&prefix ## _mutex);	\
  } while (0)

/* This could be replaced by a single call to scm_i_plugin_mutex_lock
   on systems which support recursive mutecis (like LinuxThreads).
   We should test for the presence of recursive mutecis in
   configure.in.

   Also, it is probably possible to replace recursive sections with
   non-recursive ones, so don't worry about the complexity.
 */
   
#define SCM_DECLARE_REC_CRITICAL_SECTION(prefix)	\
  extern scm_t_mutex prefix ## _mutex;			\
  extern int prefix ## _count;				\
  extern scm_thread *prefix ## _owner

#define SCM_REC_CRITICAL_SECTION_START(prefix)				\
  do { scm_i_plugin_mutex_lock (&scm_i_section_mutex);			\
       if (prefix ## _count && prefix ## _owner == SCM_CURRENT_THREAD)	\
	 {								\
	   ++prefix ## _count;						\
           scm_i_plugin_mutex_unlock (&scm_i_section_mutex);		\
	 }								\
       else								\
	 {								\
	   scm_thread *t = scm_i_leave_guile ();			\
	   scm_i_plugin_mutex_unlock (&scm_i_section_mutex);		\
	   scm_i_plugin_mutex_lock (&prefix ## _mutex);			\
	   prefix ## _count = 1;					\
	   prefix ## _owner = t;					\
	   scm_i_enter_guile (t);					\
	 }								\
  } while (0)

#define SCM_REC_CRITICAL_SECTION_END(prefix)			\
  do { scm_i_plugin_mutex_lock (&scm_i_section_mutex);		\
       if (!--prefix ## _count)					\
	 {							\
	   prefix ## _owner = 0;				\
	   scm_i_plugin_mutex_unlock (&prefix ## _mutex);	\
	 }							\
       scm_i_plugin_mutex_unlock (&scm_i_section_mutex);	\
  } while (0)

/* Note: The following needs updating. */

/* Classification of critical sections
 *
 * When Guile moves to POSIX threads, it won't be possible to prevent
 * context switching.  In fact, the whole idea of context switching is
 * bogus if threads are run by different processors.  Therefore, we
 * must ultimately eliminate all critical sections or enforce them by
 * use of mutecis.
 *
 * All instances of SCM_DEFER_INTS and SCM_ALLOW_INTS should therefore
 * be classified and replaced by one of the delimiters below.  If you
 * understand what this is all about, I'd like to encourage you to
 * help with this task.  The set of classes below must of course be
 * incrementally augmented.
 *
 * MDJ 980419 <djurfeldt@nada.kth.se>
 */

/* A sections
 *
 * Allocation of a cell with type tag in the CAR.
 *
 * With POSIX threads, each thread will have a private pool of free
 * cells.  Therefore, this type of section can be removed.  But!  It
 * is important that the CDR is initialized first (with the CAR still
 * indicating a free cell) so that we can guarantee a consistent heap
 * at all times.
 */

#define SCM_ENTER_A_SECTION SCM_CRITICAL_SECTION_START
#define SCM_EXIT_A_SECTION SCM_CRITICAL_SECTION_END



/** SCM_ASSERT
 **
 **/


#ifdef SCM_RECKLESS
#define SCM_ASSERT(_cond, _arg, _pos, _subr)
#define SCM_ASSERT_TYPE(_cond, _arg, _pos, _subr, _msg)
#define SCM_ASRTGO(_cond, _label)
#else
#define SCM_ASSERT(_cond, _arg, _pos, _subr) \
	if (!(_cond)) \
          scm_wrong_type_arg (_subr, _pos, _arg)
#define SCM_ASSERT_TYPE(_cond, _arg, _pos, _subr, _msg) \
	if (!(_cond)) \
          scm_wrong_type_arg_msg(_subr, _pos, _arg, _msg)
#define SCM_ASRTGO(_cond, _label) \
        if (!(_cond)) \
          goto _label
#endif

/*
 * SCM_WTA_DISPATCH
 */

/* Dirk:FIXME:: In all of the SCM_WTA_DISPATCH_* macros it is assumed that
 * 'gf' is zero if uninitialized.  It would be cleaner if some valid SCM value
 * like SCM_BOOL_F or SCM_UNDEFINED was chosen.
 */

SCM_API SCM scm_call_generic_0 (SCM gf);

#define SCM_WTA_DISPATCH_0(gf, subr)			        \
  return (SCM_UNPACK (gf)					\
	  ? scm_call_generic_0 ((gf))				\
	  : (scm_error_num_args_subr ((subr)), SCM_UNSPECIFIED))
#define SCM_GASSERT0(cond, gf, subr) \
  if (!(cond)) SCM_WTA_DISPATCH_0((gf), (subr))

SCM_API SCM scm_call_generic_1 (SCM gf, SCM a1);

#define SCM_WTA_DISPATCH_1(gf, a1, pos, subr)			\
  return (SCM_UNPACK (gf)					\
	  ? scm_call_generic_1 ((gf), (a1))			\
	  : (scm_wrong_type_arg ((subr), (pos), (a1)), SCM_UNSPECIFIED))
#define SCM_GASSERT1(cond, gf, a1, pos, subr) \
  if (!(cond)) SCM_WTA_DISPATCH_1((gf), (a1), (pos), (subr))

SCM_API SCM scm_call_generic_2 (SCM gf, SCM a1, SCM a2);

#define SCM_WTA_DISPATCH_2(gf, a1, a2, pos, subr)			\
  return (SCM_UNPACK (gf)						\
	  ? scm_call_generic_2 ((gf), (a1), (a2))			\
	  : (scm_wrong_type_arg ((subr), (pos),				\
				 (pos) == SCM_ARG1 ? (a1) : (a2)),	\
	     SCM_UNSPECIFIED))
#define SCM_GASSERT2(cond, gf, a1, a2, pos, subr) \
  if (!(cond)) SCM_WTA_DISPATCH_2((gf), (a1), (a2), (pos), (subr))

SCM_API SCM scm_apply_generic (SCM gf, SCM args);

#define SCM_WTA_DISPATCH_n(gf, args, pos, subr)				  \
  return (SCM_UNPACK (gf)						  \
	  ? scm_apply_generic ((gf), (args))				  \
	  : (scm_wrong_type_arg ((subr), (pos),				  \
				 scm_list_ref ((args),			  \
					       SCM_MAKINUM ((pos) - 1))), \
	     SCM_UNSPECIFIED))
#define SCM_GASSERTn(cond, gf, args, pos, subr) \
  if (!(cond)) SCM_WTA_DISPATCH_n((gf), (args), (pos), (subr))

#ifndef SCM_MAGIC_SNARFER
/* Let these macros pass through if
   we are snarfing;  thus we can tell the
   difference between the use of an actual
   number vs. the use of one of these macros --
   actual numbers in SCM_VALIDATE_* and SCM_ASSERT
   constructs must match the formal argument name,
   but using SCM_ARG* avoids the test */

#define SCM_ARGn 		0
#define SCM_ARG1 		1
#define SCM_ARG2 		2
#define SCM_ARG3 		3
#define SCM_ARG4 		4
#define SCM_ARG5 		5
#define SCM_ARG6 		6
#define SCM_ARG7 		7

#endif /* SCM_MAGIC_SNARFER */



/* SCM_EXIT_SUCCESS is the default code to return from SCM if no errors
 * were encountered.  SCM_EXIT_FAILURE is the default code to return from
 * SCM if errors were encountered.  The return code can be explicitly
 * specified in a SCM program with (scm_quit <n>).
 */

#ifndef SCM_EXIT_SUCCESS
#ifdef vms
#define SCM_EXIT_SUCCESS 1
#else
#define SCM_EXIT_SUCCESS 0
#endif /* def vms */
#endif /* ndef SCM_EXIT_SUCCESS */
#ifndef SCM_EXIT_FAILURE
#ifdef vms
#define SCM_EXIT_FAILURE 2
#else
#define SCM_EXIT_FAILURE 1
#endif /* def vms */
#endif /* ndef SCM_EXIT_FAILURE */

#endif  /* SCM___SCM_H */

/*
  Local Variables:
  c-file-style: "gnu"
  End:
*/