/* cop.h * * Copyright (C) 1991, 1992, 1993, 1994, 1995, 1996, 1997, 1998, 1999, 2000, * 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008, 2009 by Larry Wall and others * * You may distribute under the terms of either the GNU General Public * License or the Artistic License, as specified in the README file. * * Control ops (cops) are one of the two ops OP_NEXTSTATE and OP_DBSTATE, * that (loosely speaking) are statement separators. * They hold information important for lexical state and error reporting. * At run time, PL_curcop is set to point to the most recently executed cop, * and thus can be used to determine our current state. */ /* A jmpenv packages the state required to perform a proper non-local jump. * Note that there is a PL_start_env initialized when perl starts, and * PL_top_env points to this initially, so PL_top_env should always be * non-null. * * Existence of a non-null PL_top_env->je_prev implies it is valid to call * longjmp() at that runlevel (we make sure PL_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; /* uninit if je_prev is NULL */ int je_ret; /* last exception thrown */ bool je_mustcatch; /* need to call longjmp()? */ U16 je_old_delaymagic; /* saved PL_delaymagic */ SSize_t je_old_stack_hwm; }; typedef struct jmpenv JMPENV; #if defined DEBUGGING && !defined DEBUGGING_RE_ONLY # define JE_OLD_STACK_HWM_zero PL_start_env.je_old_stack_hwm = 0 # define JE_OLD_STACK_HWM_save(je) \ (je).je_old_stack_hwm = PL_curstackinfo->si_stack_hwm # define JE_OLD_STACK_HWM_restore(je) \ if (PL_curstackinfo->si_stack_hwm < (je).je_old_stack_hwm) \ PL_curstackinfo->si_stack_hwm = (je).je_old_stack_hwm #else # define JE_OLD_STACK_HWM_zero NOOP # define JE_OLD_STACK_HWM_save(je) NOOP # define JE_OLD_STACK_HWM_restore(je) NOOP #endif /* * How to build the first jmpenv. * * top_env needs to be non-zero. It points to an area * in which longjmp() stuff is stored, as C callstack * info there at least is thread specific this has to * be per-thread. Otherwise a 'die' in a thread gives * that thread the C stack of last thread to do an eval {}! */ #define JMPENV_BOOTSTRAP \ STMT_START { \ PERL_POISON_EXPR(PoisonNew(&PL_start_env, 1, JMPENV));\ PL_top_env = &PL_start_env; \ PL_start_env.je_prev = NULL; \ PL_start_env.je_ret = -1; \ PL_start_env.je_mustcatch = TRUE; \ PL_start_env.je_old_delaymagic = 0; \ JE_OLD_STACK_HWM_zero; \ } STMT_END /* * PERL_FLEXIBLE_EXCEPTIONS * * All the flexible exceptions code has been removed. * See the following threads for details: * * Message-Id: 20040713143217.GB1424@plum.flirble.org * https://www.nntp.perl.org/group/perl.perl5.porters/2004/07/msg93041.html * * Joshua's original patches (which weren't applied) and discussion: * * http://www.xray.mpe.mpg.de/mailing-lists/perl5-porters/1998-02/msg01396.html * http://www.xray.mpe.mpg.de/mailing-lists/perl5-porters/1998-02/msg01489.html * http://www.xray.mpe.mpg.de/mailing-lists/perl5-porters/1998-02/msg01491.html * http://www.xray.mpe.mpg.de/mailing-lists/perl5-porters/1998-02/msg01608.html * http://www.xray.mpe.mpg.de/mailing-lists/perl5-porters/1998-02/msg02144.html * http://www.xray.mpe.mpg.de/mailing-lists/perl5-porters/1998-02/msg02998.html * * Chip's reworked patch and discussion: * * http://www.xray.mpe.mpg.de/mailing-lists/perl5-porters/1999-03/msg00520.html * * The flaw in these patches (which went unnoticed at the time) was * that they moved some code that could potentially die() out of the * region protected by the setjmp()s. This caused exceptions within * END blocks and such to not be handled by the correct setjmp(). * * The original patches that introduces flexible exceptions were: * * https://github.com/Perl/perl5/commit/312caa8e97f1c7ee342a9895c2f0e749625b4929 * https://github.com/Perl/perl5/commit/14dd3ad8c9bf82cf09798a22cc89a9862dfd6d1a * */ #define dJMPENV JMPENV cur_env #define JMPENV_PUSH(v) \ STMT_START { \ DEBUG_l({ \ int i = 0; JMPENV *p = PL_top_env; \ while (p) { i++; p = p->je_prev; } \ Perl_deb(aTHX_ "JUMPENV_PUSH level=%d at %s:%d\n", \ i, __FILE__, __LINE__);}) \ cur_env.je_prev = PL_top_env; \ JE_OLD_STACK_HWM_save(cur_env); \ cur_env.je_ret = PerlProc_setjmp(cur_env.je_buf, SCOPE_SAVES_SIGNAL_MASK); \ JE_OLD_STACK_HWM_restore(cur_env); \ PL_top_env = &cur_env; \ cur_env.je_mustcatch = FALSE; \ cur_env.je_old_delaymagic = PL_delaymagic; \ (v) = cur_env.je_ret; \ } STMT_END #define JMPENV_POP \ STMT_START { \ DEBUG_l({ \ int i = -1; JMPENV *p = PL_top_env; \ while (p) { i++; p = p->je_prev; } \ Perl_deb(aTHX_ "JUMPENV_POP level=%d at %s:%d\n", \ i, __FILE__, __LINE__);}) \ assert(PL_top_env == &cur_env); \ PL_delaymagic = cur_env.je_old_delaymagic; \ PL_top_env = cur_env.je_prev; \ } STMT_END #define JMPENV_JUMP(v) \ STMT_START { \ DEBUG_l({ \ int i = -1; JMPENV *p = PL_top_env; \ while (p) { i++; p = p->je_prev; } \ Perl_deb(aTHX_ "JUMPENV_JUMP(%d) level=%d at %s:%d\n", \ (int)v, i, __FILE__, __LINE__);}) \ if (PL_top_env->je_prev) \ PerlProc_longjmp(PL_top_env->je_buf, (v)); \ if ((v) == 2) \ PerlProc_exit(STATUS_EXIT); \ PerlIO_printf(PerlIO_stderr(), "panic: top_env, v=%d\n", (int)v); \ PerlProc_exit(1); \ } STMT_END #define CATCH_GET (PL_top_env->je_mustcatch) #define CATCH_SET(v) \ STMT_START { \ DEBUG_l( \ Perl_deb(aTHX_ \ "JUMPLEVEL set catch %d => %d (for %p) at %s:%d\n", \ PL_top_env->je_mustcatch, v, (void*)PL_top_env, \ __FILE__, __LINE__);) \ PL_top_env->je_mustcatch = (v); \ } STMT_END /* =head1 COP Hint Hashes */ typedef struct refcounted_he COPHH; #define COPHH_KEY_UTF8 REFCOUNTED_HE_KEY_UTF8 /* =for apidoc Amx|SV *|cophh_fetch_pvn|const COPHH *cophh|const char *keypv|STRLEN keylen|U32 hash|U32 flags Look up the entry in the cop hints hash C with the key specified by C and C. If C has the C bit set, the key octets are interpreted as UTF-8, otherwise they are interpreted as Latin-1. C is a precomputed hash of the key string, or zero if it has not been precomputed. Returns a mortal scalar copy of the value associated with the key, or C<&PL_sv_placeholder> if there is no value associated with the key. =for apidoc Amnh||COPHH_KEY_UTF8 =cut */ #define cophh_fetch_pvn(cophh, keypv, keylen, hash, flags) \ Perl_refcounted_he_fetch_pvn(aTHX_ cophh, keypv, keylen, hash, flags) /* =for apidoc Amx|SV *|cophh_fetch_pvs|const COPHH *cophh|"key"|U32 flags Like L, but takes a literal string instead of a string/length pair, and no precomputed hash. =cut */ #define cophh_fetch_pvs(cophh, key, flags) \ Perl_refcounted_he_fetch_pvn(aTHX_ cophh, STR_WITH_LEN(key), 0, flags) /* =for apidoc Amx|SV *|cophh_fetch_pv|const COPHH *cophh|const char *key|U32 hash|U32 flags Like L, but takes a nul-terminated string instead of a string/length pair. =cut */ #define cophh_fetch_pv(cophh, key, hash, flags) \ Perl_refcounted_he_fetch_pv(aTHX_ cophh, key, hash, flags) /* =for apidoc Amx|SV *|cophh_fetch_sv|const COPHH *cophh|SV *key|U32 hash|U32 flags Like L, but takes a Perl scalar instead of a string/length pair. =cut */ #define cophh_fetch_sv(cophh, key, hash, flags) \ Perl_refcounted_he_fetch_sv(aTHX_ cophh, key, hash, flags) /* =for apidoc Amx|HV *|cophh_2hv|const COPHH *cophh|U32 flags Generates and returns a standard Perl hash representing the full set of key/value pairs in the cop hints hash C. C is currently unused and must be zero. =cut */ #define cophh_2hv(cophh, flags) \ Perl_refcounted_he_chain_2hv(aTHX_ cophh, flags) /* =for apidoc Amx|COPHH *|cophh_copy|COPHH *cophh Make and return a complete copy of the cop hints hash C. =cut */ #define cophh_copy(cophh) Perl_refcounted_he_inc(aTHX_ cophh) /* =for apidoc Amx|void|cophh_free|COPHH *cophh Discard the cop hints hash C, freeing all resources associated with it. =cut */ #define cophh_free(cophh) Perl_refcounted_he_free(aTHX_ cophh) /* =for apidoc Amx|COPHH *|cophh_new_empty Generate and return a fresh cop hints hash containing no entries. =cut */ #define cophh_new_empty() ((COPHH *)NULL) /* =for apidoc Amx|COPHH *|cophh_store_pvn|COPHH *cophh|const char *keypv|STRLEN keylen|U32 hash|SV *value|U32 flags Stores a value, associated with a key, in the cop hints hash C, and returns the modified hash. The returned hash pointer is in general not the same as the hash pointer that was passed in. The input hash is consumed by the function, and the pointer to it must not be subsequently used. Use L if you need both hashes. The key is specified by C and C. If C has the C bit set, the key octets are interpreted as UTF-8, otherwise they are interpreted as Latin-1. C is a precomputed hash of the key string, or zero if it has not been precomputed. C is the scalar value to store for this key. C is copied by this function, which thus does not take ownership of any reference to it, and later changes to the scalar will not be reflected in the value visible in the cop hints hash. Complex types of scalar will not be stored with referential integrity, but will be coerced to strings. =cut */ #define cophh_store_pvn(cophh, keypv, keylen, hash, value, flags) \ Perl_refcounted_he_new_pvn(aTHX_ cophh, keypv, keylen, hash, value, flags) /* =for apidoc Amx|COPHH *|cophh_store_pvs|const COPHH *cophh|"key"|SV *value|U32 flags Like L, but takes a literal string instead of a string/length pair, and no precomputed hash. =cut */ #define cophh_store_pvs(cophh, key, value, flags) \ Perl_refcounted_he_new_pvn(aTHX_ cophh, STR_WITH_LEN(key), 0, value, flags) /* =for apidoc Amx|COPHH *|cophh_store_pv|const COPHH *cophh|const char *key|U32 hash|SV *value|U32 flags Like L, but takes a nul-terminated string instead of a string/length pair. =cut */ #define cophh_store_pv(cophh, key, hash, value, flags) \ Perl_refcounted_he_new_pv(aTHX_ cophh, key, hash, value, flags) /* =for apidoc Amx|COPHH *|cophh_store_sv|const COPHH *cophh|SV *key|U32 hash|SV *value|U32 flags Like L, but takes a Perl scalar instead of a string/length pair. =cut */ #define cophh_store_sv(cophh, key, hash, value, flags) \ Perl_refcounted_he_new_sv(aTHX_ cophh, key, hash, value, flags) /* =for apidoc Amx|COPHH *|cophh_delete_pvn|COPHH *cophh|const char *keypv|STRLEN keylen|U32 hash|U32 flags Delete a key and its associated value from the cop hints hash C, and returns the modified hash. The returned hash pointer is in general not the same as the hash pointer that was passed in. The input hash is consumed by the function, and the pointer to it must not be subsequently used. Use L if you need both hashes. The key is specified by C and C. If C has the C bit set, the key octets are interpreted as UTF-8, otherwise they are interpreted as Latin-1. C is a precomputed hash of the key string, or zero if it has not been precomputed. =cut */ #define cophh_delete_pvn(cophh, keypv, keylen, hash, flags) \ Perl_refcounted_he_new_pvn(aTHX_ cophh, keypv, keylen, hash, \ (SV *)NULL, flags) /* =for apidoc Amx|COPHH *|cophh_delete_pvs|const COPHH *cophh|"key"|U32 flags Like L, but takes a literal string instead of a string/length pair, and no precomputed hash. =cut */ #define cophh_delete_pvs(cophh, key, flags) \ Perl_refcounted_he_new_pvn(aTHX_ cophh, STR_WITH_LEN(key), 0, \ (SV *)NULL, flags) /* =for apidoc Amx|COPHH *|cophh_delete_pv|const COPHH *cophh|const char *key|U32 hash|U32 flags Like L, but takes a nul-terminated string instead of a string/length pair. =cut */ #define cophh_delete_pv(cophh, key, hash, flags) \ Perl_refcounted_he_new_pv(aTHX_ cophh, key, hash, (SV *)NULL, flags) /* =for apidoc Amx|COPHH *|cophh_delete_sv|const COPHH *cophh|SV *key|U32 hash|U32 flags Like L, but takes a Perl scalar instead of a string/length pair. =cut */ #define cophh_delete_sv(cophh, key, hash, flags) \ Perl_refcounted_he_new_sv(aTHX_ cophh, key, hash, (SV *)NULL, flags) #include "mydtrace.h" struct cop { BASEOP /* On LP64 putting this here takes advantage of the fact that BASEOP isn't an exact multiple of 8 bytes to save structure padding. */ line_t cop_line; /* line # of this command */ /* label for this construct is now stored in cop_hints_hash */ #ifdef USE_ITHREADS PADOFFSET cop_stashoff; /* offset into PL_stashpad, for the package the line was compiled in */ char * cop_file; /* file name the following line # is from */ #else HV * cop_stash; /* package line was compiled in */ GV * cop_filegv; /* file the following line # is from */ #endif U32 cop_hints; /* hints bits from pragmata */ U32 cop_seq; /* parse sequence number */ /* Beware. mg.c and warnings.pl assume the type of this is STRLEN *: */ STRLEN * cop_warnings; /* lexical warnings bitmask */ /* compile time state of %^H. See the comment in op.c for how this is used to recreate a hash to return from caller. */ COPHH * cop_hints_hash; /* for now just a bitmask stored here. If we get sufficient features this may become a pointer. How these flags are stored is subject to change without notice. Use the macros to test for features. */ U32 cop_features; }; #ifdef USE_ITHREADS # define CopFILE(c) ((c)->cop_file) # define CopFILEGV(c) (CopFILE(c) \ ? gv_fetchfile(CopFILE(c)) : NULL) # ifdef NETWARE # define CopFILE_set(c,pv) ((c)->cop_file = savepv(pv)) # define CopFILE_setn(c,pv,l) ((c)->cop_file = savepvn((pv),(l))) # else # define CopFILE_set(c,pv) ((c)->cop_file = savesharedpv(pv)) # define CopFILE_setn(c,pv,l) ((c)->cop_file = savesharedpvn((pv),(l))) # endif # define CopFILESV(c) (CopFILE(c) \ ? GvSV(gv_fetchfile(CopFILE(c))) : NULL) # define CopFILEAV(c) (CopFILE(c) \ ? GvAV(gv_fetchfile(CopFILE(c))) : NULL) # define CopFILEAVx(c) (assert_(CopFILE(c)) \ GvAV(gv_fetchfile(CopFILE(c)))) # define CopSTASH(c) PL_stashpad[(c)->cop_stashoff] # define CopSTASH_set(c,hv) ((c)->cop_stashoff = (hv) \ ? alloccopstash(hv) \ : 0) # ifdef NETWARE # define CopFILE_free(c) SAVECOPFILE_FREE(c) # else # define CopFILE_free(c) (PerlMemShared_free(CopFILE(c)),(CopFILE(c) = NULL)) # endif #else # define CopFILEGV(c) ((c)->cop_filegv) # define CopFILEGV_set(c,gv) ((c)->cop_filegv = (GV*)SvREFCNT_inc(gv)) # define CopFILE_set(c,pv) CopFILEGV_set((c), gv_fetchfile(pv)) # define CopFILE_setn(c,pv,l) CopFILEGV_set((c), gv_fetchfile_flags((pv),(l),0)) # define CopFILESV(c) (CopFILEGV(c) ? GvSV(CopFILEGV(c)) : NULL) # define CopFILEAV(c) (CopFILEGV(c) ? GvAV(CopFILEGV(c)) : NULL) # ifdef DEBUGGING # define CopFILEAVx(c) (assert(CopFILEGV(c)), GvAV(CopFILEGV(c))) # else # define CopFILEAVx(c) (GvAV(CopFILEGV(c))) # endif # define CopFILE(c) (CopFILEGV(c) \ ? GvNAME(CopFILEGV(c))+2 : NULL) # define CopSTASH(c) ((c)->cop_stash) # define CopSTASH_set(c,hv) ((c)->cop_stash = (hv)) # define CopFILE_free(c) (SvREFCNT_dec(CopFILEGV(c)),(CopFILEGV(c) = NULL)) #endif /* USE_ITHREADS */ #define CopSTASHPV(c) (CopSTASH(c) ? HvNAME_get(CopSTASH(c)) : NULL) /* cop_stash is not refcounted */ #define CopSTASHPV_set(c,pv) CopSTASH_set((c), gv_stashpv(pv,GV_ADD)) #define CopSTASH_eq(c,hv) (CopSTASH(c) == (hv)) #define CopHINTHASH_get(c) ((COPHH*)((c)->cop_hints_hash)) #define CopHINTHASH_set(c,h) ((c)->cop_hints_hash = (h)) /* =head1 COP Hint Reading */ /* =for apidoc Am|SV *|cop_hints_fetch_pvn|const COP *cop|const char *keypv|STRLEN keylen|U32 hash|U32 flags Look up the hint entry in the cop C with the key specified by C and C. If C has the C bit set, the key octets are interpreted as UTF-8, otherwise they are interpreted as Latin-1. C is a precomputed hash of the key string, or zero if it has not been precomputed. Returns a mortal scalar copy of the value associated with the key, or C<&PL_sv_placeholder> if there is no value associated with the key. =cut */ #define cop_hints_fetch_pvn(cop, keypv, keylen, hash, flags) \ cophh_fetch_pvn(CopHINTHASH_get(cop), keypv, keylen, hash, flags) /* =for apidoc Am|SV *|cop_hints_fetch_pvs|const COP *cop|"key"|U32 flags Like L, but takes a literal string instead of a string/length pair, and no precomputed hash. =cut */ #define cop_hints_fetch_pvs(cop, key, flags) \ cophh_fetch_pvs(CopHINTHASH_get(cop), key, flags) /* =for apidoc Am|SV *|cop_hints_fetch_pv|const COP *cop|const char *key|U32 hash|U32 flags Like L, but takes a nul-terminated string instead of a string/length pair. =cut */ #define cop_hints_fetch_pv(cop, key, hash, flags) \ cophh_fetch_pv(CopHINTHASH_get(cop), key, hash, flags) /* =for apidoc Am|SV *|cop_hints_fetch_sv|const COP *cop|SV *key|U32 hash|U32 flags Like L, but takes a Perl scalar instead of a string/length pair. =cut */ #define cop_hints_fetch_sv(cop, key, hash, flags) \ cophh_fetch_sv(CopHINTHASH_get(cop), key, hash, flags) /* =for apidoc Am|HV *|cop_hints_2hv|const COP *cop|U32 flags Generates and returns a standard Perl hash representing the full set of hint entries in the cop C. C is currently unused and must be zero. =cut */ #define cop_hints_2hv(cop, flags) \ cophh_2hv(CopHINTHASH_get(cop), flags) /* =for apidoc Am|const char *|CopLABEL|COP *const cop Returns the label attached to a cop. =for apidoc Am|const char *|CopLABEL_len|COP *const cop|STRLEN *len Returns the label attached to a cop, and stores its length in bytes into C<*len>. =for apidoc Am|const char *|CopLABEL_len_flags|COP *const cop|STRLEN *len|U32 *flags Returns the label attached to a cop, and stores its length in bytes into C<*len>. Upon return, C<*flags> will be set to either C or 0. =cut */ #define CopLABEL(c) Perl_cop_fetch_label(aTHX_ (c), NULL, NULL) #define CopLABEL_len(c,len) Perl_cop_fetch_label(aTHX_ (c), len, NULL) #define CopLABEL_len_flags(c,len,flags) Perl_cop_fetch_label(aTHX_ (c), len, flags) #define CopLABEL_alloc(pv) ((pv)?savepv(pv):NULL) #define CopSTASH_ne(c,hv) (!CopSTASH_eq(c,hv)) #define CopLINE(c) ((c)->cop_line) #define CopLINE_inc(c) (++CopLINE(c)) #define CopLINE_dec(c) (--CopLINE(c)) #define CopLINE_set(c,l) (CopLINE(c) = (l)) /* OutCopFILE() is CopFILE for output (caller, die, warn, etc.) */ #define OutCopFILE(c) CopFILE(c) #define CopHINTS_get(c) ((c)->cop_hints + 0) #define CopHINTS_set(c, h) STMT_START { \ (c)->cop_hints = (h); \ } STMT_END /* * Here we have some enormously heavy (or at least ponderous) wizardry. */ /* subroutine context */ struct block_sub { OP * retop; /* op to execute on exit from sub */ I32 old_cxsubix; /* previous value of si_cxsubix */ /* Above here is the same for sub, format and eval. */ PAD *prevcomppad; /* the caller's PL_comppad */ CV * cv; /* Above here is the same for sub and format. */ I32 olddepth; AV *savearray; }; /* format context */ struct block_format { OP * retop; /* op to execute on exit from sub */ I32 old_cxsubix; /* previous value of si_cxsubix */ /* Above here is the same for sub, format and eval. */ PAD *prevcomppad; /* the caller's PL_comppad */ CV * cv; /* Above here is the same for sub and format. */ GV * gv; GV * dfoutgv; }; /* return a pointer to the current context */ #define CX_CUR() (&cxstack[cxstack_ix]) /* free all savestack items back to the watermark of the specified context */ #define CX_LEAVE_SCOPE(cx) LEAVE_SCOPE(cx->blk_oldsaveix) #ifdef DEBUGGING /* on debugging builds, poison cx afterwards so we know no code * uses it - because after doing cxstack_ix--, any ties, exceptions etc * may overwrite the current stack frame */ # define CX_POP(cx) \ assert(CX_CUR() == cx); \ cxstack_ix--; \ cx = NULL; #else # define CX_POP(cx) cxstack_ix--; #endif /* base for the next two macros. Don't use directly. * The context frame holds a reference to the CV so that it can't be * freed while we're executing it */ #define CX_PUSHSUB_GET_LVALUE_MASK(func) \ /* If the context is indeterminate, then only the lvalue */ \ /* flags that the caller also has are applicable. */ \ ( \ (PL_op->op_flags & OPf_WANT) \ ? OPpENTERSUB_LVAL_MASK \ : !(PL_op->op_private & OPpENTERSUB_LVAL_MASK) \ ? 0 : (U8)func(aTHX) \ ) /* Restore old @_ */ #define CX_POP_SAVEARRAY(cx) \ STMT_START { \ AV *cx_pop_savearray_av = GvAV(PL_defgv); \ GvAV(PL_defgv) = cx->blk_sub.savearray; \ cx->blk_sub.savearray = NULL; \ SvREFCNT_dec(cx_pop_savearray_av); \ } STMT_END /* junk in @_ spells trouble when cloning CVs and in pp_caller(), so don't * leave any (a fast av_clear(ary), basically) */ #define CLEAR_ARGARRAY(ary) \ STMT_START { \ AvMAX(ary) += AvARRAY(ary) - AvALLOC(ary); \ AvARRAY(ary) = AvALLOC(ary); \ AvFILLp(ary) = -1; \ } STMT_END /* eval context */ struct block_eval { OP * retop; /* op to execute on exit from eval */ I32 old_cxsubix; /* previous value of si_cxsubix */ /* Above here is the same for sub, format and eval. */ SV * old_namesv; OP * old_eval_root; SV * cur_text; CV * cv; JMPENV * cur_top_env; /* value of PL_top_env when eval CX created */ }; /* If we ever need more than 512 op types, change the shift from 7. blku_gimme is actually also only 2 bits, so could be merged with something. */ /* blk_u16 bit usage for eval contexts: */ #define CxOLD_IN_EVAL(cx) (((cx)->blk_u16) & 0x3F) /* saved PL in_eval */ #define CxEVAL_TXT_REFCNTED(cx) (((cx)->blk_u16) & 0x40) /* cur_text rc++ */ #define CxOLD_OP_TYPE(cx) (((cx)->blk_u16) >> 7) /* type of eval op */ /* loop context */ struct block_loop { LOOP * my_op; /* My op, that contains redo, next and last ops. */ union { /* different ways of locating the iteration variable */ SV **svp; /* for lexicals: address of pad slot */ GV *gv; /* for package vars */ } itervar_u; SV *itersave; /* the original iteration var */ union { struct { /* CXt_LOOP_ARY, C */ AV *ary; /* array being iterated over */ IV ix; /* index relative to base of array */ } ary; struct { /* CXt_LOOP_LIST, C */ I32 basesp; /* first element of list on stack */ IV ix; /* index relative to basesp */ } stack; struct { /* CXt_LOOP_LAZYIV, C */ IV cur; IV end; } lazyiv; struct { /* CXt_LOOP_LAZYSV C */ SV * cur; SV * end; /* maxiumum value (or minimum in reverse) */ } lazysv; } state_u; #ifdef USE_ITHREADS PAD *oldcomppad; /* needed to map itervar_u.svp during thread clone */ #endif }; #define CxITERVAR(c) \ (CxPADLOOP(c) \ ? (c)->blk_loop.itervar_u.svp \ : ((c)->cx_type & CXp_FOR_GV) \ ? &GvSV((c)->blk_loop.itervar_u.gv) \ : (SV **)&(c)->blk_loop.itervar_u.gv) #define CxLABEL(c) (0 + CopLABEL((c)->blk_oldcop)) #define CxLABEL_len(c,len) (0 + CopLABEL_len((c)->blk_oldcop, len)) #define CxLABEL_len_flags(c,len,flags) (0 + CopLABEL_len_flags((c)->blk_oldcop, len, flags)) #define CxHASARGS(c) (((c)->cx_type & CXp_HASARGS) == CXp_HASARGS) /* CxLVAL(): the lval flags of the call site: the relevant flag bits from * the op_private field of the calling pp_entersub (or its caller's caller * if the caller's lvalue context isn't known): * OPpLVAL_INTRO: sub used in lvalue context, e.g. f() = 1; * OPpENTERSUB_INARGS (in conjunction with OPpLVAL_INTRO): the * function is being used as a sub arg or as a referent, e.g. * g(...,f(),...) or $r = \f() * OPpDEREF: 2-bit mask indicating e.g. f()->[0]. * Note the contrast with CvLVALUE(), which is a property of the sub * rather than the call site. */ #define CxLVAL(c) (0 + ((c)->blk_u16 & 0xff)) /* given/when context */ struct block_givwhen { OP *leave_op; SV *defsv_save; /* the original $_ */ }; /* context common to subroutines, evals and loops */ struct block { U8 blku_type; /* what kind of context this is */ U8 blku_gimme; /* is this block running in list context? */ U16 blku_u16; /* used by block_sub and block_eval (so far) */ I32 blku_oldsaveix; /* saved PL_savestack_ix */ /* all the fields above must be aligned with same-sized fields as sbu */ I32 blku_oldsp; /* current sp floor: where nextstate pops to */ I32 blku_oldmarksp; /* mark stack index */ COP * blku_oldcop; /* old curcop pointer */ PMOP * blku_oldpm; /* values of pattern match vars */ SSize_t blku_old_tmpsfloor; /* saved PL_tmps_floor */ I32 blku_oldscopesp; /* scope stack index */ union { struct block_sub blku_sub; struct block_format blku_format; struct block_eval blku_eval; struct block_loop blku_loop; struct block_givwhen blku_givwhen; } blk_u; }; #define blk_oldsp cx_u.cx_blk.blku_oldsp #define blk_oldcop cx_u.cx_blk.blku_oldcop #define blk_oldmarksp cx_u.cx_blk.blku_oldmarksp #define blk_oldscopesp cx_u.cx_blk.blku_oldscopesp #define blk_oldpm cx_u.cx_blk.blku_oldpm #define blk_gimme cx_u.cx_blk.blku_gimme #define blk_u16 cx_u.cx_blk.blku_u16 #define blk_oldsaveix cx_u.cx_blk.blku_oldsaveix #define blk_old_tmpsfloor cx_u.cx_blk.blku_old_tmpsfloor #define blk_sub cx_u.cx_blk.blk_u.blku_sub #define blk_format cx_u.cx_blk.blk_u.blku_format #define blk_eval cx_u.cx_blk.blk_u.blku_eval #define blk_loop cx_u.cx_blk.blk_u.blku_loop #define blk_givwhen cx_u.cx_blk.blk_u.blku_givwhen #define CX_DEBUG(cx, action) \ DEBUG_l( \ Perl_deb(aTHX_ "CX %ld %s %s (scope %ld,%ld) (save %ld,%ld) at %s:%d\n",\ (long)cxstack_ix, \ action, \ PL_block_type[CxTYPE(cx)], \ (long)PL_scopestack_ix, \ (long)(cx->blk_oldscopesp), \ (long)PL_savestack_ix, \ (long)(cx->blk_oldsaveix), \ __FILE__, __LINE__)); /* substitution context */ struct subst { U8 sbu_type; /* same as blku_type */ U8 sbu_rflags; U16 sbu_rxtainted; I32 sbu_oldsaveix; /* same as blku_oldsaveix */ /* all the fields above must be aligned with same-sized fields as blk_u */ SSize_t sbu_iters; SSize_t sbu_maxiters; char * sbu_orig; SV * sbu_dstr; SV * sbu_targ; char * sbu_s; char * sbu_m; char * sbu_strend; void * sbu_rxres; REGEXP * sbu_rx; }; #define sb_iters cx_u.cx_subst.sbu_iters #define sb_maxiters cx_u.cx_subst.sbu_maxiters #define sb_rflags cx_u.cx_subst.sbu_rflags #define sb_rxtainted cx_u.cx_subst.sbu_rxtainted #define sb_orig cx_u.cx_subst.sbu_orig #define sb_dstr cx_u.cx_subst.sbu_dstr #define sb_targ cx_u.cx_subst.sbu_targ #define sb_s cx_u.cx_subst.sbu_s #define sb_m cx_u.cx_subst.sbu_m #define sb_strend cx_u.cx_subst.sbu_strend #define sb_rxres cx_u.cx_subst.sbu_rxres #define sb_rx cx_u.cx_subst.sbu_rx #ifdef PERL_CORE # define CX_PUSHSUBST(cx) CXINC, cx = CX_CUR(), \ cx->blk_oldsaveix = oldsave, \ cx->sb_iters = iters, \ cx->sb_maxiters = maxiters, \ cx->sb_rflags = r_flags, \ cx->sb_rxtainted = rxtainted, \ cx->sb_orig = orig, \ cx->sb_dstr = dstr, \ cx->sb_targ = targ, \ cx->sb_s = s, \ cx->sb_m = m, \ cx->sb_strend = strend, \ cx->sb_rxres = NULL, \ cx->sb_rx = rx, \ cx->cx_type = CXt_SUBST | (once ? CXp_ONCE : 0); \ rxres_save(&cx->sb_rxres, rx); \ (void)ReREFCNT_inc(rx); \ SvREFCNT_inc_void_NN(targ) # define CX_POPSUBST(cx) \ STMT_START { \ REGEXP *re; \ assert(CxTYPE(cx) == CXt_SUBST); \ rxres_free(&cx->sb_rxres); \ re = cx->sb_rx; \ cx->sb_rx = NULL; \ ReREFCNT_dec(re); \ SvREFCNT_dec_NN(cx->sb_targ); \ } STMT_END #endif #define CxONCE(cx) ((cx)->cx_type & CXp_ONCE) struct context { union { struct block cx_blk; struct subst cx_subst; } cx_u; }; #define cx_type cx_u.cx_subst.sbu_type /* If you re-order these, there is also an array of uppercase names in perl.h and a static array of context names in pp_ctl.c */ #define CXTYPEMASK 0xf #define CXt_NULL 0 /* currently only used for sort BLOCK */ #define CXt_WHEN 1 #define CXt_BLOCK 2 /* When micro-optimising :-) keep GIVEN next to the LOOPs, as these 5 share a jump table in pp_ctl.c The first 4 don't have a 'case' in at least one switch statement in pp_ctl.c */ #define CXt_GIVEN 3 /* be careful of the ordering of these five. Macros like CxTYPE_is_LOOP, * CxFOREACH compare ranges */ #define CXt_LOOP_ARY 4 /* for (@ary) { ...; } */ #define CXt_LOOP_LAZYSV 5 /* for ('a'..'z') { ...; } */ #define CXt_LOOP_LAZYIV 6 /* for (1..9) { ...; } */ #define CXt_LOOP_LIST 7 /* for (1,2,3) { ...; } */ #define CXt_LOOP_PLAIN 8 /* while (...) { ...; } or plain block { ...; } */ #define CXt_SUB 9 #define CXt_FORMAT 10 #define CXt_EVAL 11 #define CXt_SUBST 12 /* SUBST doesn't feature in all switch statements. */ /* private flags for CXt_SUB and CXt_FORMAT */ #define CXp_MULTICALL 0x10 /* part of a multicall (so don't tear down context on exit). (not CXt_FORMAT) */ #define CXp_HASARGS 0x20 #define CXp_SUB_RE 0x40 /* code called within regex, i.e. (?{}) */ #define CXp_SUB_RE_FAKE 0x80 /* fake sub CX for (?{}) in current scope */ /* private flags for CXt_EVAL */ #define CXp_REAL 0x20 /* truly eval'', not a lookalike */ #define CXp_TRYBLOCK 0x40 /* eval{}, not eval'' or similar */ /* private flags for CXt_LOOP */ /* this is only set in conjunction with CXp_FOR_GV */ #define CXp_FOR_DEF 0x10 /* foreach using $_ */ /* these 3 are mutually exclusive */ #define CXp_FOR_LVREF 0x20 /* foreach using \$var */ #define CXp_FOR_GV 0x40 /* foreach using package var */ #define CXp_FOR_PAD 0x80 /* foreach using lexical var */ #define CxPADLOOP(c) ((c)->cx_type & CXp_FOR_PAD) /* private flags for CXt_SUBST */ #define CXp_ONCE 0x10 /* What was sbu_once in struct subst */ #define CxTYPE(c) ((c)->cx_type & CXTYPEMASK) #define CxTYPE_is_LOOP(c) ( CxTYPE(cx) >= CXt_LOOP_ARY \ && CxTYPE(cx) <= CXt_LOOP_PLAIN) #define CxMULTICALL(c) ((c)->cx_type & CXp_MULTICALL) #define CxREALEVAL(c) (((c)->cx_type & (CXTYPEMASK|CXp_REAL)) \ == (CXt_EVAL|CXp_REAL)) #define CxTRYBLOCK(c) (((c)->cx_type & (CXTYPEMASK|CXp_TRYBLOCK)) \ == (CXt_EVAL|CXp_TRYBLOCK)) #define CxFOREACH(c) ( CxTYPE(cx) >= CXt_LOOP_ARY \ && CxTYPE(cx) <= CXt_LOOP_LIST) #define CXINC (cxstack_ix < cxstack_max ? ++cxstack_ix : (cxstack_ix = cxinc())) /* =head1 "Gimme" Values */ /* =for apidoc AmnU||G_SCALAR Used to indicate scalar context. See C>, C>, and L. =for apidoc AmnU||G_ARRAY Used to indicate list context. See C>, C> and L. =for apidoc AmnU||G_VOID Used to indicate void context. See C> and L. =for apidoc AmnU||G_DISCARD Indicates that arguments returned from a callback should be discarded. See L. =for apidoc AmnU||G_EVAL Used to force a Perl C wrapper around a callback. See L. =for apidoc AmnU||G_NOARGS Indicates that no arguments are being sent to a callback. See L. =cut */ #define G_SCALAR 2 #define G_ARRAY 3 #define G_VOID 1 #define G_WANT 3 /* extra flags for Perl_call_* routines */ #define G_DISCARD 0x4 /* Call FREETMPS. Don't change this without consulting the hash actions codes defined in hv.h */ #define G_EVAL 0x8 /* Assume eval {} around subroutine call. */ #define G_NOARGS 0x10 /* Don't construct a @_ array. */ #define G_KEEPERR 0x20 /* Warn for errors, don't overwrite $@ */ #define G_NODEBUG 0x40 /* Disable debugging at toplevel. */ #define G_METHOD 0x80 /* Calling method. */ #define G_FAKINGEVAL 0x100 /* Faking an eval context for call_sv or fold_constants. */ #define G_UNDEF_FILL 0x200 /* Fill the stack with &PL_sv_undef A special case for UNSHIFT in Perl_magic_methcall(). */ #define G_WRITING_TO_STDERR 0x400 /* Perl_write_to_stderr() is calling Perl_magic_methcall(). */ #define G_RE_REPARSING 0x800 /* compiling a run-time /(?{..})/ */ #define G_METHOD_NAMED 0x1000 /* calling named method, eg without :: or ' */ #define G_RETHROW 0x2000 /* eval_sv(): re-throw any error */ /* flag bits for PL_in_eval */ #define EVAL_NULL 0 /* not in an eval */ #define EVAL_INEVAL 1 /* some enclosing scope is an eval */ #define EVAL_WARNONLY 2 /* used by yywarn() when calling yyerror() */ #define EVAL_KEEPERR 4 /* set by Perl_call_sv if G_KEEPERR */ #define EVAL_INREQUIRE 8 /* The code is being required. */ #define EVAL_RE_REPARSING 0x10 /* eval_sv() called with G_RE_REPARSING */ /* if adding extra bits, make sure they can fit in CxOLD_OP_TYPE() */ /* Support for switching (stack and block) contexts. * This ensures magic doesn't invalidate local stack and cx pointers. * Which one to use (or add) is mostly, but not completely arbitrary: See * http://nntp.perl.org/group/perl.perl5.porters/257169 */ #define PERLSI_UNKNOWN -1 #define PERLSI_UNDEF 0 #define PERLSI_MAIN 1 #define PERLSI_MAGIC 2 #define PERLSI_SORT 3 #define PERLSI_SIGNAL 4 #define PERLSI_OVERLOAD 5 #define PERLSI_DESTROY 6 #define PERLSI_WARNHOOK 7 #define PERLSI_DIEHOOK 8 #define PERLSI_REQUIRE 9 #define PERLSI_MULTICALL 10 #define PERLSI_REGCOMP 11 struct stackinfo { AV * si_stack; /* stack for current runlevel */ PERL_CONTEXT * si_cxstack; /* context stack for runlevel */ struct stackinfo * si_prev; struct stackinfo * si_next; I32 si_cxix; /* current context index */ I32 si_cxmax; /* maximum allocated index */ I32 si_cxsubix; /* topmost sub/eval/format */ I32 si_type; /* type of runlevel */ I32 si_markoff; /* offset where markstack begins for us. * currently used only with DEBUGGING, * but not #ifdef-ed for bincompat */ #if defined DEBUGGING && !defined DEBUGGING_RE_ONLY /* high water mark: for checking if the stack was correctly extended / * tested for extension by each pp function */ SSize_t si_stack_hwm; #endif }; typedef struct stackinfo PERL_SI; #define cxstack (PL_curstackinfo->si_cxstack) #define cxstack_ix (PL_curstackinfo->si_cxix) #define cxstack_max (PL_curstackinfo->si_cxmax) #ifdef DEBUGGING # define SET_MARK_OFFSET \ PL_curstackinfo->si_markoff = PL_markstack_ptr - PL_markstack #else # define SET_MARK_OFFSET NOOP #endif #if defined DEBUGGING && !defined DEBUGGING_RE_ONLY # define PUSHSTACK_INIT_HWM(si) ((si)->si_stack_hwm = 0) #else # define PUSHSTACK_INIT_HWM(si) NOOP #endif #define PUSHSTACKi(type) \ STMT_START { \ PERL_SI *next = PL_curstackinfo->si_next; \ DEBUG_l({ \ int i = 0; PERL_SI *p = PL_curstackinfo; \ while (p) { i++; p = p->si_prev; } \ Perl_deb(aTHX_ "push STACKINFO %d at %s:%d\n", \ i, __FILE__, __LINE__);}) \ if (!next) { \ next = new_stackinfo(32, 2048/sizeof(PERL_CONTEXT) - 1); \ next->si_prev = PL_curstackinfo; \ PL_curstackinfo->si_next = next; \ } \ next->si_type = type; \ next->si_cxix = -1; \ next->si_cxsubix = -1; \ PUSHSTACK_INIT_HWM(next); \ AvFILLp(next->si_stack) = 0; \ SWITCHSTACK(PL_curstack,next->si_stack); \ PL_curstackinfo = next; \ SET_MARK_OFFSET; \ } STMT_END #define PUSHSTACK PUSHSTACKi(PERLSI_UNKNOWN) /* POPSTACK works with PL_stack_sp, so it may need to be bracketed by * PUTBACK/SPAGAIN to flush/refresh any local SP that may be active */ #define POPSTACK \ STMT_START { \ dSP; \ PERL_SI * const prev = PL_curstackinfo->si_prev; \ DEBUG_l({ \ int i = -1; PERL_SI *p = PL_curstackinfo; \ while (p) { i++; p = p->si_prev; } \ Perl_deb(aTHX_ "pop STACKINFO %d at %s:%d\n", \ i, __FILE__, __LINE__);}) \ if (!prev) { \ Perl_croak_popstack(); \ } \ SWITCHSTACK(PL_curstack,prev->si_stack); \ /* don't free prev here, free them all at the END{} */ \ PL_curstackinfo = prev; \ } STMT_END #define POPSTACK_TO(s) \ STMT_START { \ while (PL_curstack != s) { \ dounwind(-1); \ POPSTACK; \ } \ } STMT_END #define IN_PERL_COMPILETIME cBOOL(PL_curcop == &PL_compiling) #define IN_PERL_RUNTIME cBOOL(PL_curcop != &PL_compiling) /* =head1 Multicall Functions =for apidoc Amns||dMULTICALL Declare local variables for a multicall. See L. =for apidoc Ams||PUSH_MULTICALL|CV* the_cv Opening bracket for a lightweight callback. See L. =for apidoc Amns||MULTICALL Make a lightweight callback. See L. =for apidoc Amns||POP_MULTICALL Closing bracket for a lightweight callback. See L. =cut */ #define dMULTICALL \ OP *multicall_cop; \ bool multicall_oldcatch #define PUSH_MULTICALL(the_cv) \ PUSH_MULTICALL_FLAGS(the_cv, 0) /* Like PUSH_MULTICALL, but allows you to specify extra flags * for the CX stack entry (this isn't part of the public API) */ #define PUSH_MULTICALL_FLAGS(the_cv, flags) \ STMT_START { \ PERL_CONTEXT *cx; \ CV * const _nOnclAshIngNamE_ = the_cv; \ CV * const cv = _nOnclAshIngNamE_; \ PADLIST * const padlist = CvPADLIST(cv); \ multicall_oldcatch = CATCH_GET; \ CATCH_SET(TRUE); \ PUSHSTACKi(PERLSI_MULTICALL); \ cx = cx_pushblock((CXt_SUB|CXp_MULTICALL|flags), (U8)gimme, \ PL_stack_sp, PL_savestack_ix); \ cx_pushsub(cx, cv, NULL, 0); \ SAVEOP(); \ if (!(flags & CXp_SUB_RE_FAKE)) \ CvDEPTH(cv)++; \ if (CvDEPTH(cv) >= 2) \ Perl_pad_push(aTHX_ padlist, CvDEPTH(cv)); \ PAD_SET_CUR_NOSAVE(padlist, CvDEPTH(cv)); \ multicall_cop = CvSTART(cv); \ } STMT_END #define MULTICALL \ STMT_START { \ PL_op = multicall_cop; \ CALLRUNOPS(aTHX); \ } STMT_END #define POP_MULTICALL \ STMT_START { \ PERL_CONTEXT *cx; \ cx = CX_CUR(); \ CX_LEAVE_SCOPE(cx); \ cx_popsub_common(cx); \ gimme = cx->blk_gimme; \ PERL_UNUSED_VAR(gimme); /* for API */ \ cx_popblock(cx); \ CX_POP(cx); \ POPSTACK; \ CATCH_SET(multicall_oldcatch); \ SPAGAIN; \ } STMT_END /* Change the CV of an already-pushed MULTICALL CxSUB block. * (this isn't part of the public API) */ #define CHANGE_MULTICALL_FLAGS(the_cv, flags) \ STMT_START { \ CV * const _nOnclAshIngNamE_ = the_cv; \ CV * const cv = _nOnclAshIngNamE_; \ PADLIST * const padlist = CvPADLIST(cv); \ PERL_CONTEXT *cx = CX_CUR(); \ assert(CxMULTICALL(cx)); \ cx_popsub_common(cx); \ cx->cx_type = (CXt_SUB|CXp_MULTICALL|flags); \ cx_pushsub(cx, cv, NULL, 0); \ if (!(flags & CXp_SUB_RE_FAKE)) \ CvDEPTH(cv)++; \ if (CvDEPTH(cv) >= 2) \ Perl_pad_push(aTHX_ padlist, CvDEPTH(cv)); \ PAD_SET_CUR_NOSAVE(padlist, CvDEPTH(cv)); \ multicall_cop = CvSTART(cv); \ } STMT_END /* * ex: set ts=8 sts=4 sw=4 et: */