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#define SAVEt_ITEM 0
#define SAVEt_SV 1
#define SAVEt_AV 2
#define SAVEt_HV 3
#define SAVEt_INT 4
#define SAVEt_LONG 5
#define SAVEt_I32 6
#define SAVEt_IV 7
#define SAVEt_SPTR 8
#define SAVEt_APTR 9
#define SAVEt_HPTR 10
#define SAVEt_PPTR 11
#define SAVEt_NSTAB 12
#define SAVEt_SVREF 13
#define SAVEt_GP 14
#define SAVEt_FREESV 15
#define SAVEt_FREEOP 16
#define SAVEt_FREEPV 17
#define SAVEt_CLEARSV 18
#define SAVEt_DELETE 19
#define SAVEt_DESTRUCTOR 20
#define SAVEt_REGCONTEXT 21
#define SAVEt_STACK_POS 22
#define SAVEt_I16 23
#define SAVEt_AELEM 24
#define SAVEt_HELEM 25
#define SAVEt_OP 26
#define SAVEt_HINTS 27
#define SAVEt_ALLOC 28
#define SAVEt_GENERIC_SVREF 29
#define SSCHECK(need) if (PL_savestack_ix + need > PL_savestack_max) savestack_grow()
#define SSPUSHINT(i) (PL_savestack[PL_savestack_ix++].any_i32 = (I32)(i))
#define SSPUSHLONG(i) (PL_savestack[PL_savestack_ix++].any_long = (long)(i))
#define SSPUSHIV(i) (PL_savestack[PL_savestack_ix++].any_iv = (IV)(i))
#define SSPUSHPTR(p) (PL_savestack[PL_savestack_ix++].any_ptr = (void*)(p))
#define SSPUSHDPTR(p) (PL_savestack[PL_savestack_ix++].any_dptr = (p))
#define SSPOPINT (PL_savestack[--PL_savestack_ix].any_i32)
#define SSPOPLONG (PL_savestack[--PL_savestack_ix].any_long)
#define SSPOPIV (PL_savestack[--PL_savestack_ix].any_iv)
#define SSPOPPTR (PL_savestack[--PL_savestack_ix].any_ptr)
#define SSPOPDPTR (PL_savestack[--PL_savestack_ix].any_dptr)
#define SAVETMPS save_int((int*)&PL_tmps_floor), PL_tmps_floor = PL_tmps_ix
#define FREETMPS if (PL_tmps_ix > PL_tmps_floor) free_tmps()
#ifdef DEBUGGING
#define ENTER \
STMT_START { \
push_scope(); \
DEBUG_l(WITH_THR(deb("ENTER scope %ld at %s:%d\n", \
PL_scopestack_ix, __FILE__, __LINE__))); \
} STMT_END
#define LEAVE \
STMT_START { \
DEBUG_l(WITH_THR(deb("LEAVE scope %ld at %s:%d\n", \
PL_scopestack_ix, __FILE__, __LINE__))); \
pop_scope(); \
} STMT_END
#else
#define ENTER push_scope()
#define LEAVE pop_scope()
#endif
#define LEAVE_SCOPE(old) if (PL_savestack_ix > old) leave_scope(old)
/*
* Not using SOFT_CAST on SAVESPTR, SAVEGENERICSV and SAVEFREESV
* because these are used for several kinds of pointer values
*/
#define SAVEI16(i) save_I16(SOFT_CAST(I16*)&(i))
#define SAVEI32(i) save_I32(SOFT_CAST(I32*)&(i))
#define SAVEINT(i) save_int(SOFT_CAST(int*)&(i))
#define SAVEIV(i) save_iv(SOFT_CAST(IV*)&(i))
#define SAVELONG(l) save_long(SOFT_CAST(long*)&(l))
#define SAVESPTR(s) save_sptr((SV**)&(s))
#define SAVEPPTR(s) save_pptr(SOFT_CAST(char**)&(s))
#define SAVEFREESV(s) save_freesv((SV*)(s))
#define SAVEFREEOP(o) save_freeop(SOFT_CAST(OP*)(o))
#define SAVEFREEPV(p) save_freepv(SOFT_CAST(char*)(p))
#define SAVECLEARSV(sv) save_clearsv(SOFT_CAST(SV**)&(sv))
#define SAVEGENERICSV(s) save_generic_svref((SV**)&(s))
#define SAVEDELETE(h,k,l) \
save_delete(SOFT_CAST(HV*)(h), SOFT_CAST(char*)(k), (I32)(l))
#ifdef PERL_OBJECT
#define CALLDESTRUCTOR this->*SSPOPDPTR
#define SAVEDESTRUCTOR(f,p) \
save_destructor((DESTRUCTORFUNC)(FUNC_NAME_TO_PTR(f)), \
SOFT_CAST(void*)(p))
#else
#define CALLDESTRUCTOR *SSPOPDPTR
#define SAVEDESTRUCTOR(f,p) \
save_destructor(SOFT_CAST(void(*)_((void*)))(FUNC_NAME_TO_PTR(f)), \
SOFT_CAST(void*)(p))
#endif
#define SAVESTACK_POS() \
STMT_START { \
SSCHECK(2); \
SSPUSHINT(PL_stack_sp - PL_stack_base); \
SSPUSHINT(SAVEt_STACK_POS); \
} STMT_END
#define SAVEOP() save_op()
#define SAVEHINTS() \
STMT_START { \
if (PL_hints & HINT_LOCALIZE_HH) \
save_hints(); \
else { \
SSCHECK(2); \
SSPUSHINT(PL_hints); \
SSPUSHINT(SAVEt_HINTS); \
} \
} STMT_END
/* SSNEW() temporarily allocates a specified number of bytes of data on the
* savestack. It returns an integer index into the savestack, because a
* pointer would get broken if the savestack is moved on reallocation.
* SSNEWa() works like SSNEW(), but also aligns the data to the specified
* number of bytes. MEM_ALIGNBYTES is perhaps the most useful. The
* alignment will be preserved therough savestack reallocation *only* if
* realloc returns data aligned to a size divisible by `align'!
*
* SSPTR() converts the index returned by SSNEW/SSNEWa() into a pointer.
*/
#define SSNEW(size) save_alloc(size, 0)
#define SSNEWa(size,align) save_alloc(size, \
(align - ((int)((caddr_t)&PL_savestack[PL_savestack_ix]) % align)) % align)
#define SSPTR(off,type) ((type) ((char*)PL_savestack + off))
/* A jmpenv packages the state required to perform a proper non-local jump.
* Note that there is a start_env initialized when perl starts, and top_env
* points to this initially, so top_env should always be non-null.
*
* Existence of a non-null top_env->je_prev implies it is valid to call
* longjmp() at that runlevel (we make sure start_env.je_prev is always
* null to ensure this).
*
* je_mustcatch, when set at any runlevel to TRUE, means eval ops must
* establish a local jmpenv to handle exception traps. Care must be taken
* to restore the previous value of je_mustcatch before exiting the
* stack frame iff JMPENV_PUSH was not called in that stack frame.
* GSAR 97-03-27
*/
struct jmpenv {
struct jmpenv * je_prev;
Sigjmp_buf je_buf;
int je_ret; /* return value of last setjmp() */
bool je_mustcatch; /* longjmp()s must be caught locally */
};
typedef struct jmpenv JMPENV;
#ifdef OP_IN_REGISTER
#define OP_REG_TO_MEM PL_opsave = op
#define OP_MEM_TO_REG op = PL_opsave
#else
#define OP_REG_TO_MEM NOOP
#define OP_MEM_TO_REG NOOP
#endif
#define dJMPENV JMPENV cur_env
#define JMPENV_PUSH(v) \
STMT_START { \
cur_env.je_prev = PL_top_env; \
OP_REG_TO_MEM; \
cur_env.je_ret = PerlProc_setjmp(cur_env.je_buf, 1); \
OP_MEM_TO_REG; \
PL_top_env = &cur_env; \
cur_env.je_mustcatch = FALSE; \
(v) = cur_env.je_ret; \
} STMT_END
#define JMPENV_POP \
STMT_START { PL_top_env = cur_env.je_prev; } STMT_END
#define JMPENV_JUMP(v) \
STMT_START { \
OP_REG_TO_MEM; \
if (PL_top_env->je_prev) \
PerlProc_longjmp(PL_top_env->je_buf, (v)); \
if ((v) == 2) \
PerlProc_exit(STATUS_NATIVE_EXPORT); \
PerlIO_printf(PerlIO_stderr(), "panic: top_env\n"); \
PerlProc_exit(1); \
} STMT_END
#define CATCH_GET (PL_top_env->je_mustcatch)
#define CATCH_SET(v) (PL_top_env->je_mustcatch = (v))
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