stk/Stack/libstack.h.in

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1998-04-10 06:59:06 -04:00
/******************************************************************************
*
* l i b s t a c k . h
*
* Copyright <EFBFBD> 1997 Erick Gallesio - I3S-CNRS/ESSI <eg@unice.fr>
*
*
* Permission to use, copy, and/or distribute this software and its
* documentation for any purpose and without fee is hereby granted, provided
* that both the above copyright notice and this permission notice appear in
* all copies and derived works. Fees for distribution or use of this
* software or derived works may only be charged with express written
* permission of the copyright holder.
* This software is provided ``as is'' without express or implied warranty.
*
* This software is a derivative work of other copyrighted softwares; the
* copyright notices of these softwares are placed in the file COPYRIGHTS
*
*
* Author: Erick Gallesio [eg@unice.fr]
* Creation date: 28-Sep-1997 17:30
* Last file update: 7-Oct-1997 12:07
*
******************************************************************************/
/*
This code has been tested on the following architectures/systems
I386 Linux 2.0 (ELF)
sun4x SunOS 4.1.x & SunOS 5.5.x
Alpha OSF1 V4.0
HP HP-UX B.10.20
MIPS32 IRIX 6.2
*/
#define @ARCH@
#define PROCESSOR "@ARCH@"
#define MAX_EXTERNAL_PARAM 16 /* cannot be changed !!! */
typedef union {
double d;
float f[2];
int i[2];
long l;
} fake_type;
extern fake_type stk_argv[MAX_EXTERNAL_PARAM];
extern int stk_argc;
/* Macros for pushing arguments */
#define init_ext_call() stk_argc=0;
#define push_char push_int
#define push_short push_int
#define push_string push_ptr
#define push_int(x) ((stk_argc < MAX_EXTERNAL_PARAM)? \
(stk_argv[stk_argc++].i[0]=(int) (x),\
0) : \
-1)
#define push_long(x) ((stk_argc < MAX_EXTERNAL_PARAM)? \
(stk_argv[stk_argc++].l=(long) (x), \
0) : \
-1)
#if defined(SUN) || defined(I386)
# define push_float(x) ((stk_argc < MAX_EXTERNAL_PARAM)? \
(stk_argv[stk_argc++].f[0]=(float)(x),\
0) : \
-1)
# define push_double(x) ((stk_argc < MAX_EXTERNAL_PARAM-1)? \
(stk_argv[stk_argc].d =(double)(x), \
stk_argv[stk_argc+1].i[0]= \
stk_argv[stk_argc].i[1], \
stk_argc +=2, \
0) : \
-1)
# define push_ptr push_int
#endif
#if defined(HP)
# define push_float(x) ((stk_argc < MAX_EXTERNAL_PARAM)? \
(stk_argv[stk_argc++].f[0]=(float)(x),\
0) : \
-1)
# define push_double stk_push_double
# define push_ptr push_int
#endif
#if defined(ALPHA)
# define push_float stk_push_float
# define push_double(x) ((stk_argc < MAX_EXTERNAL_PARAM)? \
(stk_argv[stk_argc++].d=(double) (x),\
0) : \
-1)
# define push_ptr push_long
#endif
#if defined(MIPS32)
# define push_float stk_push_float
# define push_double stk_push_double
# define push_ptr push_long
#endif
/* Macros for calling functions */
#define call_ext_void call_ext_int
#define call_ext_char call_ext_int
#define call_ext_short call_ext_int
#define call_ext_int call_ext_long
#define call_ext_long(fct) stk_call_long(fct)
#if defined(I386)
# define call_ext_float call_ext_double
#endif
#if defined(SUN)||defined(ALPHA)||defined(HP)|| defined(MIPS32)
# define call_ext_float(fct) stk_call_float(fct)
#endif
#define call_ext_double(fct) stk_call_double(fct)
#if defined(ALPHA)
# define call_ext_ptr(x) ((void*) call_ext_long(x))
#else
# define call_ext_ptr(x) ((void*) call_ext_int(x))
#endif
#define call_ext_bool call_ext_char
#define call_ext_string call_ext_ptr
#ifdef MIPS32
# define get_argv(x) stk_argv[x].i[0]
#else
# define get_argv(x) stk_argv[x].l
#endif
/* Prototypes of stack functions. Some of them could be inexistent for a
* particular machine
*/
extern long stk_call_long (void *fct);
extern float stk_call_float (void *fct);
extern double stk_call_double(void *fct);
extern int stk_push_float(float f);
extern int stk_push_double(double d);
/* Utility macro */
#define big_switch \
switch (stk_argc) { \
case 0: return f(); \
case 1: return f(get_argv(0)); \
case 2: return f(get_argv(0), get_argv(1)); \
case 3: return f(get_argv(0), get_argv(1), get_argv(2)); \
case 4: return f(get_argv(0), get_argv(1), get_argv(2), get_argv(3)); \
case 5: return f(get_argv(0), get_argv(1), get_argv(2), get_argv(3), \
get_argv(4)); \
case 6: return f(get_argv(0), get_argv(1), get_argv(2), get_argv(3), \
get_argv(4), get_argv(5)); \
case 7: return f(get_argv(0), get_argv(1), get_argv(2), get_argv(3), \
get_argv(4), get_argv(5), get_argv(6)); \
case 8: return f(get_argv(0), get_argv(1), get_argv(2), get_argv(3), \
get_argv(4), get_argv(5), get_argv(6), get_argv(7)); \
case 9: return f(get_argv(0), get_argv(1), get_argv(2), get_argv(3), \
get_argv(4), get_argv(5), get_argv(6), get_argv(7), \
get_argv(8)); \
case 10: return f(get_argv(0), get_argv(1), get_argv(2), get_argv(3), \
get_argv(4), get_argv(5), get_argv(6), get_argv(7), \
get_argv(8), get_argv(9)); \
case 11: return f(get_argv(0), get_argv(1), get_argv(2), get_argv(3), \
get_argv(4), get_argv(5), get_argv(6), get_argv(7), \
get_argv(8), get_argv(9), get_argv(10)); \
case 12: return f(get_argv(0), get_argv(1), get_argv(2), get_argv(3), \
get_argv(4), get_argv(5), get_argv(6), get_argv(7), \
get_argv(8), get_argv(9), get_argv(10), get_argv(11)); \
case 13: return f(get_argv(0), get_argv(1), get_argv(2), get_argv(3), \
get_argv(4), get_argv(5), get_argv(6), get_argv(7), \
get_argv(8), get_argv(9), get_argv(10), get_argv(11), \
get_argv(12)); \
case 14: return f(get_argv(0), get_argv(1), get_argv(2), get_argv(3), \
get_argv(4), get_argv(5), get_argv(6), get_argv(7), \
get_argv(8), get_argv(9), get_argv(10), get_argv(11), \
get_argv(12), get_argv(13)); \
case 15: return f(get_argv(0), get_argv(1), get_argv(2), get_argv(3), \
get_argv(4), get_argv(5), get_argv(6), get_argv(7), \
get_argv(8), get_argv(9), get_argv(10), get_argv(11), \
get_argv(12), get_argv(13), get_argv(14)); \
case 16: return f(get_argv(0), get_argv(1), get_argv(2), get_argv(3), \
get_argv(4), get_argv(5), get_argv(6), get_argv(7), \
get_argv(8), get_argv(9), get_argv(10), get_argv(11), \
get_argv(12), get_argv(13), get_argv(14), get_argv(15)); \
}