gambas-source-code/main/gbx/gbx_exec.h
Benoît Minisini 3a3449c068 [INTERPRETER]
* NEW: Support for inequality operators in the operator interface.
* NEW: The Sgn() function can be implemented by the operator interface.

[GB.GMP]
* NEW: BigInt now supports inequality operators.
* NEW: New methods: Odd(), Even()
* NEW: Logical operators as static methods: And, Or, Xor, Not.
* NEW: Bit manipulation as static methods: BSet, BClr, BChg, BTst.


git-svn-id: svn://localhost/gambas/trunk@5828 867c0c6c-44f3-4631-809d-bfa615b0a4ec
2013-09-03 21:11:55 +00:00

318 lines
7.4 KiB
C

/***************************************************************************
gbx_exec.h
(c) 2000-2013 Benoît Minisini <gambas@users.sourceforge.net>
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 program; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston,
MA 02110-1301, USA.
***************************************************************************/
#ifndef __GBX_EXEC_H
#define __GBX_EXEC_H
#include "gb_alloc.h"
#include "gb_error.h"
#include "gbx_class.h"
#include "gbx_value.h"
#include "gb_pcode.h"
#include "gbx_stack.h"
#include "gbx_string.h"
#include "gbx_object.h"
#include "gbx_variant.h"
#include "gbx_c_enum.h"
enum { GB_LITTLE_ENDIAN, GB_BIG_ENDIAN };
typedef
void (*EXEC_FUNC)();
typedef
void (*EXEC_FUNC_CODE)(ushort);
typedef
struct {
CLASS *class;
OBJECT *object;
int index;
CLASS_DESC_METHOD *desc;
char nparam;
bool native;
bool use_stack;
}
EXEC_GLOBAL;
typedef
struct {
void (*main)();
void (*loop)();
void (*wait)();
void (*timer)();
void (*lang)();
void (*watch)();
void (*post)();
void (*quit)();
void (*error)();
double (*timeout)();
}
EXEC_HOOK;
enum {
OP_NOTHING = 0,
OP_OBJECT_FLOAT,
OP_FLOAT_OBJECT,
OP_OBJECT_OTHER,
OP_OTHER_OBJECT,
OP_OBJECT_OBJECT
};
#ifndef __GBX_EXEC_C
extern STACK_CONTEXT EXEC_current;
extern VALUE *SP;
extern VALUE TEMP;
extern VALUE RET;
extern VALUE *EXEC_super;
extern bool EXEC_debug;
extern bool EXEC_task;
extern bool EXEC_profile;
extern const char *EXEC_profile_path;
extern bool EXEC_profile_instr;
extern bool EXEC_arch;
extern bool EXEC_fifo;
extern const char *EXEC_fifo_name;
extern bool EXEC_keep_library;
extern bool EXEC_string_add;
extern EXEC_HOOK EXEC_Hook;
extern CENUM *EXEC_enum;
extern bool EXEC_big_endian;
extern bool EXEC_main_hook_done;
extern bool EXEC_got_error;
extern const char EXEC_should_borrow[];
extern const char *EXEC_unknown_name;
extern char EXEC_unknown_nparam;
extern uchar EXEC_quit_value;
extern EXEC_GLOBAL EXEC;
#endif
// Local variables base pointer
#define BP EXEC_current.bp
// Arguments base pointer
#define PP EXEC_current.pp
// Current class
#define CP EXEC_current.cp
// Current object
#define OP EXEC_current.op
// Save stack pointer for a TRY
#define EP EXEC_current.ep
// Current function
#define FP EXEC_current.fp
// Program counter
#define PC EXEC_current.pc
// Where to go if there is an error
#define EC EXEC_current.ec
// Save register for TRY
#define ET EXEC_current.et
// Last break in the function
#define TC EXEC_current.tc
// Stack at the last break in the function
#define TP EXEC_current.tp
// GoSub stack
#define GP EXEC_current.gp
// Function return value pointer
#define RP (&RET)
#define HOOK(func) (!EXEC_Hook.func) ? 0 : (*EXEC_Hook.func)
#define HOOK_DEFAULT(func, def) (*((!EXEC_Hook.func) ? def : EXEC_Hook.func))
#define GET_NPARAM(var) short var = code & 0x3F
#define GET_PARAM(var, nparam) VALUE *var = &SP[-nparam]
void EXEC_init(void);
void EXEC_enter_check(bool defined);
void EXEC_enter(void);
void EXEC_enter_quick(void);
void EXEC_leave_keep();
void EXEC_leave_drop();
void EXEC_loop(void);
#define EXEC_object(_val, _pclass, _pobject) \
((LIKELY(TYPE_is_pure_object((_val)->type))) ? (*(_pclass) = EXEC_object_real(_val, _pobject)), TRUE : \
TYPE_is_variant((_val)->type) ? (*(_pclass) = EXEC_object_variant(_val, _pobject)), FALSE : \
EXEC_object_other(_val, _pclass, _pobject))
#define EXEC_object_fast(_val, _pclass, _pobject) \
({ \
if ((_val)->type != T_CLASS) \
(*(_pclass)) = EXEC_object_real(_val, _pobject); \
else \
EXEC_object_other(_val, _pclass, _pobject); \
})
CLASS *EXEC_object_real(VALUE *val, OBJECT **pobject);
CLASS *EXEC_object_variant(VALUE *val, OBJECT **pobject);
bool EXEC_object_other(VALUE *val, CLASS **pclass, OBJECT **pobject);
void *EXEC_auto_create(CLASS *class, bool ref);
bool EXEC_call_native(void (*exec)(), void *object, TYPE type, VALUE *param);
void EXEC_native_check(bool defined);
void EXEC_native_quick(void);
void EXEC_native(void);
void EXEC_function_real(void);
void EXEC_jit_function_loop(void);
void EXEC_function_loop(void);
#define EXEC_function() EXEC_function_real(), EXEC_release_return_value()
#define EXEC_function_keep() EXEC_function_real()
void EXEC_public(CLASS *class, void *object, const char *name, int nparam);
void EXEC_public_desc(CLASS *class, void *object, CLASS_DESC_METHOD *desc, int nparam);
bool EXEC_special(int special, CLASS *class, void *object, int nparam, bool drop);
void EXEC_special_inheritance(int special, CLASS *class, OBJECT *object, int nparam, bool drop);
void EXEC_nop(void);
void EXEC_push_unknown(ushort code);
void EXEC_push_array(ushort code);
int EXEC_push_unknown_event(bool unknown);
//void EXEC_push_special(void);
void EXEC_pop_unknown(void);
void EXEC_pop_array(ushort code);
void EXEC_enum_first(PCODE code);
bool EXEC_enum_next(PCODE code);
void *EXEC_create_object(CLASS *class, int np, char *event);
void EXEC_new(void);
void EXEC_release_return_value(void);
void EXEC_quit(void);
void EXEC_dup(int n);
void EXEC_borrow(TYPE type, VALUE *val);
void UNBORROW(VALUE *val);
void EXEC_release(TYPE type, VALUE *val);
void RELEASE_many(VALUE *val, int n);
void EXEC_push_complex(void);
#define BORROW(_value) \
do { \
VALUE *_v = (_value); \
TYPE type = _v->type; \
if (TYPE_is_object(type)) \
{ \
OBJECT_REF(_v->_object.object); \
} \
else if (EXEC_should_borrow[type]) \
{ \
if (type == T_STRING) \
STRING_ref(_v->_string.addr); \
else \
EXEC_borrow(type, _v); \
} \
} while (0)
#define RELEASE(_value) \
do { \
VALUE *_v = (_value); \
TYPE type = _v->type; \
if (TYPE_is_object(type)) \
{ \
OBJECT_UNREF(_v->_object.object); \
} \
else if (EXEC_should_borrow[type]) \
{ \
if (type == T_STRING) \
STRING_unref(&_v->_string.addr); \
else \
EXEC_release(type, _v); \
} \
} while (0)
#define RELEASE_STRING(_value) \
do { \
if ((_value)->type == T_STRING) STRING_unref(&(_value)->_string.addr); \
} while(0)
#define RELEASE_OBJECT(_value) \
do { \
VALUE *_v = (_value); \
OBJECT_UNREF(_v->_object.object); \
} while (0)
#define RELEASE_MANY(_val, _n) \
do { \
if (_n) \
{ \
if ((_n) == 1) \
{ \
_val--; \
RELEASE((_val)); \
} \
else \
{ \
RELEASE_many((_val), (_n)); \
_val -= (_n); \
} \
} \
} while (0)
#define PUSH() \
do { \
BORROW(SP); \
SP++; \
} while (0)
#define POP() \
do { \
SP--; \
RELEASE(SP); \
} while (0)
#define COPY_VALUE(_dst, _src) VALUE_copy(_dst, _src)
#define EXEC_set_native_error(_err) (ERROR_current->info.native = (_err))
#define EXEC_has_native_error() (ERROR_current->info.native)
bool EXEC_check_operator_single(VALUE *P1, uchar op);
int EXEC_check_operator(VALUE *P1, VALUE *P2, uchar op);
void EXEC_operator(uchar what, uchar op, VALUE *P1, VALUE *P2);
void EXEC_operator_object_add_quick(VALUE *P1, double val);
int EXEC_comparator(uchar what, uchar op, VALUE *P1, VALUE *P2);
void EXEC_operator_object_sgn(VALUE *P1);
void EXEC_operator_object_single(uchar op, VALUE *P1);
#endif /* */