/* util.c * * Copyright (c) 1991-1999, Larry Wall * * You may distribute under the terms of either the GNU General Public * License or the Artistic License, as specified in the README file. * */ /* * "Very useful, no doubt, that was to Saruman; yet it seems that he was * not content." --Gandalf */ #include "EXTERN.h" #include "perl.h" #if !defined(NSIG) || defined(M_UNIX) || defined(M_XENIX) #include #endif #ifndef SIG_ERR # define SIG_ERR ((Sighandler_t) -1) #endif /* XXX If this causes problems, set i_unistd=undef in the hint file. */ #ifdef I_UNISTD # include #endif #ifdef I_VFORK # include #endif /* Put this after #includes because fork and vfork prototypes may conflict. */ #ifndef HAS_VFORK # define vfork fork #endif #ifdef I_FCNTL # include #endif #ifdef I_SYS_FILE # include #endif #ifdef I_SYS_WAIT # include #endif #define FLUSH #ifdef LEAKTEST static void xstat _((int)); long xcount[MAXXCOUNT]; long lastxcount[MAXXCOUNT]; long xycount[MAXXCOUNT][MAXYCOUNT]; long lastxycount[MAXXCOUNT][MAXYCOUNT]; #endif /* paranoid version of system's malloc() */ /* NOTE: Do not call the next three routines directly. Use the macros * in handy.h, so that we can easily redefine everything to do tracking of * allocated hunks back to the original New to track down any memory leaks. * XXX This advice seems to be widely ignored :-( --AD August 1996. */ Malloc_t safesysmalloc(MEM_SIZE size) { Malloc_t ptr; #ifdef HAS_64K_LIMIT if (size > 0xffff) { PerlIO_printf(PerlIO_stderr(), "Allocation too large: %lx\n", size) FLUSH; my_exit(1); } #endif /* HAS_64K_LIMIT */ #ifdef DEBUGGING if ((long)size < 0) croak("panic: malloc"); #endif ptr = PerlMem_malloc(size?size:1); /* malloc(0) is NASTY on our system */ #if !(defined(I286) || defined(atarist)) DEBUG_m(PerlIO_printf(Perl_debug_log, "0x%x: (%05d) malloc %ld bytes\n",ptr,PL_an++,(long)size)); #else DEBUG_m(PerlIO_printf(Perl_debug_log, "0x%lx: (%05d) malloc %ld bytes\n",ptr,PL_an++,(long)size)); #endif if (ptr != Nullch) return ptr; else if (PL_nomemok) return Nullch; else { PerlIO_puts(PerlIO_stderr(),PL_no_mem) FLUSH; my_exit(1); return Nullch; } /*NOTREACHED*/ } /* paranoid version of system's realloc() */ Malloc_t safesysrealloc(Malloc_t where,MEM_SIZE size) { Malloc_t ptr; #if !defined(STANDARD_C) && !defined(HAS_REALLOC_PROTOTYPE) Malloc_t PerlMem_realloc(); #endif /* !defined(STANDARD_C) && !defined(HAS_REALLOC_PROTOTYPE) */ #ifdef HAS_64K_LIMIT if (size > 0xffff) { PerlIO_printf(PerlIO_stderr(), "Reallocation too large: %lx\n", size) FLUSH; my_exit(1); } #endif /* HAS_64K_LIMIT */ if (!size) { safesysfree(where); return NULL; } if (!where) return safesysmalloc(size); #ifdef DEBUGGING if ((long)size < 0) croak("panic: realloc"); #endif ptr = PerlMem_realloc(where,size); #if !(defined(I286) || defined(atarist)) DEBUG_m( { PerlIO_printf(Perl_debug_log, "0x%x: (%05d) rfree\n",where,PL_an++); PerlIO_printf(Perl_debug_log, "0x%x: (%05d) realloc %ld bytes\n",ptr,PL_an++,(long)size); } ) #else DEBUG_m( { PerlIO_printf(Perl_debug_log, "0x%lx: (%05d) rfree\n",where,PL_an++); PerlIO_printf(Perl_debug_log, "0x%lx: (%05d) realloc %ld bytes\n",ptr,PL_an++,(long)size); } ) #endif if (ptr != Nullch) return ptr; else if (PL_nomemok) return Nullch; else { PerlIO_puts(PerlIO_stderr(),PL_no_mem) FLUSH; my_exit(1); return Nullch; } /*NOTREACHED*/ } /* safe version of system's free() */ Free_t safesysfree(Malloc_t where) { #if !(defined(I286) || defined(atarist)) DEBUG_m( PerlIO_printf(Perl_debug_log, "0x%x: (%05d) free\n",(char *) where,PL_an++)); #else DEBUG_m( PerlIO_printf(Perl_debug_log, "0x%lx: (%05d) free\n",(char *) where,PL_an++)); #endif if (where) { /*SUPPRESS 701*/ PerlMem_free(where); } } /* safe version of system's calloc() */ Malloc_t safesyscalloc(MEM_SIZE count, MEM_SIZE size) { Malloc_t ptr; #ifdef HAS_64K_LIMIT if (size * count > 0xffff) { PerlIO_printf(PerlIO_stderr(), "Allocation too large: %lx\n", size * count) FLUSH; my_exit(1); } #endif /* HAS_64K_LIMIT */ #ifdef DEBUGGING if ((long)size < 0 || (long)count < 0) croak("panic: calloc"); #endif size *= count; ptr = PerlMem_malloc(size?size:1); /* malloc(0) is NASTY on our system */ #if !(defined(I286) || defined(atarist)) DEBUG_m(PerlIO_printf(Perl_debug_log, "0x%x: (%05d) calloc %ld x %ld bytes\n",ptr,PL_an++,(long)count,(long)size)); #else DEBUG_m(PerlIO_printf(Perl_debug_log, "0x%lx: (%05d) calloc %ld x %ld bytes\n",ptr,PL_an++,(long)count,(long)size)); #endif if (ptr != Nullch) { memset((void*)ptr, 0, size); return ptr; } else if (PL_nomemok) return Nullch; else { PerlIO_puts(PerlIO_stderr(),PL_no_mem) FLUSH; my_exit(1); return Nullch; } /*NOTREACHED*/ } #ifdef LEAKTEST struct mem_test_strut { union { long type; char c[2]; } u; long size; }; # define ALIGN sizeof(struct mem_test_strut) # define sizeof_chunk(ch) (((struct mem_test_strut*) (ch))->size) # define typeof_chunk(ch) \ (((struct mem_test_strut*) (ch))->u.c[0] + ((struct mem_test_strut*) (ch))->u.c[1]*100) # define set_typeof_chunk(ch,t) \ (((struct mem_test_strut*) (ch))->u.c[0] = t % 100, ((struct mem_test_strut*) (ch))->u.c[1] = t / 100) #define SIZE_TO_Y(size) ( (size) > MAXY_SIZE \ ? MAXYCOUNT - 1 \ : ( (size) > 40 \ ? ((size) - 1)/8 + 5 \ : ((size) - 1)/4)) Malloc_t safexmalloc(I32 x, MEM_SIZE size) { register char* where = (char*)safemalloc(size + ALIGN); xcount[x] += size; xycount[x][SIZE_TO_Y(size)]++; set_typeof_chunk(where, x); sizeof_chunk(where) = size; return (Malloc_t)(where + ALIGN); } Malloc_t safexrealloc(Malloc_t wh, MEM_SIZE size) { char *where = (char*)wh; if (!wh) return safexmalloc(0,size); { MEM_SIZE old = sizeof_chunk(where - ALIGN); int t = typeof_chunk(where - ALIGN); register char* new = (char*)saferealloc(where - ALIGN, size + ALIGN); xycount[t][SIZE_TO_Y(old)]--; xycount[t][SIZE_TO_Y(size)]++; xcount[t] += size - old; sizeof_chunk(new) = size; return (Malloc_t)(new + ALIGN); } } void safexfree(Malloc_t wh) { I32 x; char *where = (char*)wh; MEM_SIZE size; if (!where) return; where -= ALIGN; size = sizeof_chunk(where); x = where[0] + 100 * where[1]; xcount[x] -= size; xycount[x][SIZE_TO_Y(size)]--; safefree(where); } Malloc_t safexcalloc(I32 x,MEM_SIZE count, MEM_SIZE size) { register char * where = (char*)safexmalloc(x, size * count + ALIGN); xcount[x] += size; xycount[x][SIZE_TO_Y(size)]++; memset((void*)(where + ALIGN), 0, size * count); set_typeof_chunk(where, x); sizeof_chunk(where) = size; return (Malloc_t)(where + ALIGN); } static void xstat(int flag) { register I32 i, j, total = 0; I32 subtot[MAXYCOUNT]; for (j = 0; j < MAXYCOUNT; j++) { subtot[j] = 0; } PerlIO_printf(PerlIO_stderr(), " Id subtot 4 8 12 16 20 24 28 32 36 40 48 56 64 72 80 80+\n", total); for (i = 0; i < MAXXCOUNT; i++) { total += xcount[i]; for (j = 0; j < MAXYCOUNT; j++) { subtot[j] += xycount[i][j]; } if (flag == 0 ? xcount[i] /* Have something */ : (flag == 2 ? xcount[i] != lastxcount[i] /* Changed */ : xcount[i] > lastxcount[i])) { /* Growed */ PerlIO_printf(PerlIO_stderr(),"%2d %02d %7ld ", i / 100, i % 100, flag == 2 ? xcount[i] - lastxcount[i] : xcount[i]); lastxcount[i] = xcount[i]; for (j = 0; j < MAXYCOUNT; j++) { if ( flag == 0 ? xycount[i][j] /* Have something */ : (flag == 2 ? xycount[i][j] != lastxycount[i][j] /* Changed */ : xycount[i][j] > lastxycount[i][j])) { /* Growed */ PerlIO_printf(PerlIO_stderr(),"%3ld ", flag == 2 ? xycount[i][j] - lastxycount[i][j] : xycount[i][j]); lastxycount[i][j] = xycount[i][j]; } else { PerlIO_printf(PerlIO_stderr(), " . ", xycount[i][j]); } } PerlIO_printf(PerlIO_stderr(), "\n"); } } if (flag != 2) { PerlIO_printf(PerlIO_stderr(), "Total %7ld ", total); for (j = 0; j < MAXYCOUNT; j++) { if (subtot[j]) { PerlIO_printf(PerlIO_stderr(), "%3ld ", subtot[j]); } else { PerlIO_printf(PerlIO_stderr(), " . "); } } PerlIO_printf(PerlIO_stderr(), "\n"); } } #endif /* LEAKTEST */ /* copy a string up to some (non-backslashed) delimiter, if any */ char * delimcpy(register char *to, register char *toend, register char *from, register char *fromend, register int delim, I32 *retlen) { register I32 tolen; for (tolen = 0; from < fromend; from++, tolen++) { if (*from == '\\') { if (from[1] == delim) from++; else { if (to < toend) *to++ = *from; tolen++; from++; } } else if (*from == delim) break; if (to < toend) *to++ = *from; } if (to < toend) *to = '\0'; *retlen = tolen; return from; } /* return ptr to little string in big string, NULL if not found */ /* This routine was donated by Corey Satten. */ char * instr(register const char *big, register const char *little) { register const char *s, *x; register I32 first; if (!little) return (char*)big; first = *little++; if (!first) return (char*)big; while (*big) { if (*big++ != first) continue; for (x=big,s=little; *s; /**/ ) { if (!*x) return Nullch; if (*s++ != *x++) { s--; break; } } if (!*s) return (char*)(big-1); } return Nullch; } /* same as instr but allow embedded nulls */ char * ninstr(register const char *big, register const char *bigend, const char *little, const char *lend) { register const char *s, *x; register I32 first = *little; register const char *littleend = lend; if (!first && little >= littleend) return (char*)big; if (bigend - big < littleend - little) return Nullch; bigend -= littleend - little++; while (big <= bigend) { if (*big++ != first) continue; for (x=big,s=little; s < littleend; /**/ ) { if (*s++ != *x++) { s--; break; } } if (s >= littleend) return (char*)(big-1); } return Nullch; } /* reverse of the above--find last substring */ char * rninstr(register const char *big, const char *bigend, const char *little, const char *lend) { register const char *bigbeg; register const char *s, *x; register I32 first = *little; register const char *littleend = lend; if (!first && little >= littleend) return (char*)bigend; bigbeg = big; big = bigend - (littleend - little++); while (big >= bigbeg) { if (*big-- != first) continue; for (x=big+2,s=little; s < littleend; /**/ ) { if (*s++ != *x++) { s--; break; } } if (s >= littleend) return (char*)(big+1); } return Nullch; } /* * Set up for a new ctype locale. */ void perl_new_ctype(const char *newctype) { #ifdef USE_LOCALE_CTYPE int i; for (i = 0; i < 256; i++) { if (isUPPER_LC(i)) PL_fold_locale[i] = toLOWER_LC(i); else if (isLOWER_LC(i)) PL_fold_locale[i] = toUPPER_LC(i); else PL_fold_locale[i] = i; } #endif /* USE_LOCALE_CTYPE */ } /* * Set up for a new collation locale. */ void perl_new_collate(const char *newcoll) { #ifdef USE_LOCALE_COLLATE if (! newcoll) { if (PL_collation_name) { ++PL_collation_ix; Safefree(PL_collation_name); PL_collation_name = NULL; PL_collation_standard = TRUE; PL_collxfrm_base = 0; PL_collxfrm_mult = 2; } return; } if (! PL_collation_name || strNE(PL_collation_name, newcoll)) { ++PL_collation_ix; Safefree(PL_collation_name); PL_collation_name = savepv(newcoll); PL_collation_standard = (strEQ(newcoll, "C") || strEQ(newcoll, "POSIX")); { /* 2: at most so many chars ('a', 'b'). */ /* 50: surely no system expands a char more. */ #define XFRMBUFSIZE (2 * 50) char xbuf[XFRMBUFSIZE]; Size_t fa = strxfrm(xbuf, "a", XFRMBUFSIZE); Size_t fb = strxfrm(xbuf, "ab", XFRMBUFSIZE); SSize_t mult = fb - fa; if (mult < 1) croak("strxfrm() gets absurd"); PL_collxfrm_base = (fa > mult) ? (fa - mult) : 0; PL_collxfrm_mult = mult; } } #endif /* USE_LOCALE_COLLATE */ } /* * Set up for a new numeric locale. */ void perl_new_numeric(const char *newnum) { #ifdef USE_LOCALE_NUMERIC if (! newnum) { if (PL_numeric_name) { Safefree(PL_numeric_name); PL_numeric_name = NULL; PL_numeric_standard = TRUE; PL_numeric_local = TRUE; } return; } if (! PL_numeric_name || strNE(PL_numeric_name, newnum)) { Safefree(PL_numeric_name); PL_numeric_name = savepv(newnum); PL_numeric_standard = (strEQ(newnum, "C") || strEQ(newnum, "POSIX")); PL_numeric_local = TRUE; } #endif /* USE_LOCALE_NUMERIC */ } void perl_set_numeric_standard(void) { #ifdef USE_LOCALE_NUMERIC if (! PL_numeric_standard) { setlocale(LC_NUMERIC, "C"); PL_numeric_standard = TRUE; PL_numeric_local = FALSE; } #endif /* USE_LOCALE_NUMERIC */ } void perl_set_numeric_local(void) { #ifdef USE_LOCALE_NUMERIC if (! PL_numeric_local) { setlocale(LC_NUMERIC, PL_numeric_name); PL_numeric_standard = FALSE; PL_numeric_local = TRUE; } #endif /* USE_LOCALE_NUMERIC */ } /* * Initialize locale awareness. */ int perl_init_i18nl10n(int printwarn) { int ok = 1; /* returns * 1 = set ok or not applicable, * 0 = fallback to C locale, * -1 = fallback to C locale failed */ #ifdef USE_LOCALE #ifdef USE_LOCALE_CTYPE char *curctype = NULL; #endif /* USE_LOCALE_CTYPE */ #ifdef USE_LOCALE_COLLATE char *curcoll = NULL; #endif /* USE_LOCALE_COLLATE */ #ifdef USE_LOCALE_NUMERIC char *curnum = NULL; #endif /* USE_LOCALE_NUMERIC */ #ifdef __GLIBC__ char *language = PerlEnv_getenv("LANGUAGE"); #endif char *lc_all = PerlEnv_getenv("LC_ALL"); char *lang = PerlEnv_getenv("LANG"); bool setlocale_failure = FALSE; #ifdef LOCALE_ENVIRON_REQUIRED /* * Ultrix setlocale(..., "") fails if there are no environment * variables from which to get a locale name. */ bool done = FALSE; #ifdef LC_ALL if (lang) { if (setlocale(LC_ALL, "")) done = TRUE; else setlocale_failure = TRUE; } if (!setlocale_failure) { #ifdef USE_LOCALE_CTYPE if (! (curctype = setlocale(LC_CTYPE, (!done && (lang || PerlEnv_getenv("LC_CTYPE"))) ? "" : Nullch))) setlocale_failure = TRUE; #endif /* USE_LOCALE_CTYPE */ #ifdef USE_LOCALE_COLLATE if (! (curcoll = setlocale(LC_COLLATE, (!done && (lang || PerlEnv_getenv("LC_COLLATE"))) ? "" : Nullch))) setlocale_failure = TRUE; #endif /* USE_LOCALE_COLLATE */ #ifdef USE_LOCALE_NUMERIC if (! (curnum = setlocale(LC_NUMERIC, (!done && (lang || PerlEnv_getenv("LC_NUMERIC"))) ? "" : Nullch))) setlocale_failure = TRUE; #endif /* USE_LOCALE_NUMERIC */ } #endif /* LC_ALL */ #endif /* !LOCALE_ENVIRON_REQUIRED */ #ifdef LC_ALL if (! setlocale(LC_ALL, "")) setlocale_failure = TRUE; #endif /* LC_ALL */ if (!setlocale_failure) { #ifdef USE_LOCALE_CTYPE if (! (curctype = setlocale(LC_CTYPE, ""))) setlocale_failure = TRUE; #endif /* USE_LOCALE_CTYPE */ #ifdef USE_LOCALE_COLLATE if (! (curcoll = setlocale(LC_COLLATE, ""))) setlocale_failure = TRUE; #endif /* USE_LOCALE_COLLATE */ #ifdef USE_LOCALE_NUMERIC if (! (curnum = setlocale(LC_NUMERIC, ""))) setlocale_failure = TRUE; #endif /* USE_LOCALE_NUMERIC */ } if (setlocale_failure) { char *p; bool locwarn = (printwarn > 1 || printwarn && (!(p = PerlEnv_getenv("PERL_BADLANG")) || atoi(p))); if (locwarn) { #ifdef LC_ALL PerlIO_printf(PerlIO_stderr(), "perl: warning: Setting locale failed.\n"); #else /* !LC_ALL */ PerlIO_printf(PerlIO_stderr(), "perl: warning: Setting locale failed for the categories:\n\t"); #ifdef USE_LOCALE_CTYPE if (! curctype) PerlIO_printf(PerlIO_stderr(), "LC_CTYPE "); #endif /* USE_LOCALE_CTYPE */ #ifdef USE_LOCALE_COLLATE if (! curcoll) PerlIO_printf(PerlIO_stderr(), "LC_COLLATE "); #endif /* USE_LOCALE_COLLATE */ #ifdef USE_LOCALE_NUMERIC if (! curnum) PerlIO_printf(PerlIO_stderr(), "LC_NUMERIC "); #endif /* USE_LOCALE_NUMERIC */ PerlIO_printf(PerlIO_stderr(), "\n"); #endif /* LC_ALL */ PerlIO_printf(PerlIO_stderr(), "perl: warning: Please check that your locale settings:\n"); #ifdef __GLIBC__ PerlIO_printf(PerlIO_stderr(), "\tLANGUAGE = %c%s%c,\n", language ? '"' : '(', language ? language : "unset", language ? '"' : ')'); #endif PerlIO_printf(PerlIO_stderr(), "\tLC_ALL = %c%s%c,\n", lc_all ? '"' : '(', lc_all ? lc_all : "unset", lc_all ? '"' : ')'); { char **e; for (e = environ; *e; e++) { if (strnEQ(*e, "LC_", 3) && strnNE(*e, "LC_ALL=", 7) && (p = strchr(*e, '='))) PerlIO_printf(PerlIO_stderr(), "\t%.*s = \"%s\",\n", (int)(p - *e), *e, p + 1); } } PerlIO_printf(PerlIO_stderr(), "\tLANG = %c%s%c\n", lang ? '"' : '(', lang ? lang : "unset", lang ? '"' : ')'); PerlIO_printf(PerlIO_stderr(), " are supported and installed on your system.\n"); } #ifdef LC_ALL if (setlocale(LC_ALL, "C")) { if (locwarn) PerlIO_printf(PerlIO_stderr(), "perl: warning: Falling back to the standard locale (\"C\").\n"); ok = 0; } else { if (locwarn) PerlIO_printf(PerlIO_stderr(), "perl: warning: Failed to fall back to the standard locale (\"C\").\n"); ok = -1; } #else /* ! LC_ALL */ if (0 #ifdef USE_LOCALE_CTYPE || !(curctype || setlocale(LC_CTYPE, "C")) #endif /* USE_LOCALE_CTYPE */ #ifdef USE_LOCALE_COLLATE || !(curcoll || setlocale(LC_COLLATE, "C")) #endif /* USE_LOCALE_COLLATE */ #ifdef USE_LOCALE_NUMERIC || !(curnum || setlocale(LC_NUMERIC, "C")) #endif /* USE_LOCALE_NUMERIC */ ) { if (locwarn) PerlIO_printf(PerlIO_stderr(), "perl: warning: Cannot fall back to the standard locale (\"C\").\n"); ok = -1; } #endif /* ! LC_ALL */ #ifdef USE_LOCALE_CTYPE curctype = setlocale(LC_CTYPE, Nullch); #endif /* USE_LOCALE_CTYPE */ #ifdef USE_LOCALE_COLLATE curcoll = setlocale(LC_COLLATE, Nullch); #endif /* USE_LOCALE_COLLATE */ #ifdef USE_LOCALE_NUMERIC curnum = setlocale(LC_NUMERIC, Nullch); #endif /* USE_LOCALE_NUMERIC */ } #ifdef USE_LOCALE_CTYPE perl_new_ctype(curctype); #endif /* USE_LOCALE_CTYPE */ #ifdef USE_LOCALE_COLLATE perl_new_collate(curcoll); #endif /* USE_LOCALE_COLLATE */ #ifdef USE_LOCALE_NUMERIC perl_new_numeric(curnum); #endif /* USE_LOCALE_NUMERIC */ #endif /* USE_LOCALE */ return ok; } /* Backwards compatibility. */ int perl_init_i18nl14n(int printwarn) { return perl_init_i18nl10n(printwarn); } #ifdef USE_LOCALE_COLLATE /* * mem_collxfrm() is a bit like strxfrm() but with two important * differences. First, it handles embedded NULs. Second, it allocates * a bit more memory than needed for the transformed data itself. * The real transformed data begins at offset sizeof(collationix). * Please see sv_collxfrm() to see how this is used. */ char * mem_collxfrm(const char *s, STRLEN len, STRLEN *xlen) { char *xbuf; STRLEN xAlloc, xin, xout; /* xalloc is a reserved word in VC */ /* the first sizeof(collationix) bytes are used by sv_collxfrm(). */ /* the +1 is for the terminating NUL. */ xAlloc = sizeof(PL_collation_ix) + PL_collxfrm_base + (PL_collxfrm_mult * len) + 1; New(171, xbuf, xAlloc, char); if (! xbuf) goto bad; *(U32*)xbuf = PL_collation_ix; xout = sizeof(PL_collation_ix); for (xin = 0; xin < len; ) { SSize_t xused; for (;;) { xused = strxfrm(xbuf + xout, s + xin, xAlloc - xout); if (xused == -1) goto bad; if (xused < xAlloc - xout) break; xAlloc = (2 * xAlloc) + 1; Renew(xbuf, xAlloc, char); if (! xbuf) goto bad; } xin += strlen(s + xin) + 1; xout += xused; /* Embedded NULs are understood but silently skipped * because they make no sense in locale collation. */ } xbuf[xout] = '\0'; *xlen = xout - sizeof(PL_collation_ix); return xbuf; bad: Safefree(xbuf); *xlen = 0; return NULL; } #endif /* USE_LOCALE_COLLATE */ void fbm_compile(SV *sv, U32 flags /* not used yet */) { register U8 *s; register U8 *table; register U32 i; STRLEN len; I32 rarest = 0; U32 frequency = 256; s = (U8*)SvPV_force(sv, len); (void)SvUPGRADE(sv, SVt_PVBM); if (len > 255 || len == 0) /* TAIL might be on on a zero-length string. */ return; /* can't have offsets that big */ if (len > 2) { Sv_Grow(sv,len + 258); table = (unsigned char*)(SvPVX(sv) + len + 1); s = table - 2; for (i = 0; i < 256; i++) { table[i] = len; } i = 0; while (s >= (unsigned char*)(SvPVX(sv))) { if (table[*s] == len) table[*s] = i; s--,i++; } } sv_magic(sv, Nullsv, 'B', Nullch, 0); /* deep magic */ SvVALID_on(sv); s = (unsigned char*)(SvPVX(sv)); /* deeper magic */ for (i = 0; i < len; i++) { if (PL_freq[s[i]] < frequency) { rarest = i; frequency = PL_freq[s[i]]; } } BmRARE(sv) = s[rarest]; BmPREVIOUS(sv) = rarest; DEBUG_r(PerlIO_printf(Perl_debug_log, "rarest char %c at %d\n",BmRARE(sv),BmPREVIOUS(sv))); } char * fbm_instr(unsigned char *big, register unsigned char *bigend, SV *littlestr, U32 flags) { register unsigned char *s; register I32 tmp; register I32 littlelen; register unsigned char *little; register unsigned char *table; register unsigned char *olds; register unsigned char *oldlittle; if (SvTYPE(littlestr) != SVt_PVBM || !SvVALID(littlestr)) { STRLEN len; char *l = SvPV(littlestr,len); if (!len) { if (SvTAIL(littlestr)) { /* Can be only 0-len constant substr => we can ignore SvVALID */ if (PL_multiline) { char *t = "\n"; if ((s = (unsigned char*)ninstr((char*)big, (char*)bigend, t, t + len))) { return (char*)s; } } if (bigend > big && bigend[-1] == '\n') return (char *)(bigend - 1); else return (char *) bigend; } return (char*)big; } return ninstr((char*)big,(char*)bigend, l, l + len); } littlelen = SvCUR(littlestr); if (SvTAIL(littlestr) && !PL_multiline) { /* tail anchored? */ if (littlelen > bigend - big) return Nullch; little = (unsigned char*)SvPVX(littlestr); s = bigend - littlelen; if (s > big && bigend[-1] == '\n' && s[-1] == *little && memEQ((char*)s - 1,(char*)little,littlelen)) return (char*)s - 1; /* how sweet it is */ else if (*s == *little && memEQ((char*)s,(char*)little,littlelen)) return (char*)s; /* how sweet it is */ return Nullch; } if (littlelen <= 2) { unsigned char c1 = (unsigned char)SvPVX(littlestr)[0]; unsigned char c2 = (unsigned char)SvPVX(littlestr)[1]; /* This may do extra comparisons if littlelen == 2, but this should be hidden in the noise since we do less indirection. */ s = big; bigend -= littlelen; while (s <= bigend) { if (s[0] == c1 && (littlelen == 1 || s[1] == c2) && (!SvTAIL(littlestr) || s == bigend || s[littlelen] == '\n')) /* Automatically multiline */ { return (char*)s; } s++; } return Nullch; } table = (unsigned char*)(SvPVX(littlestr) + littlelen + 1); if (--littlelen >= bigend - big) return Nullch; s = big + littlelen; oldlittle = little = table - 2; if (s < bigend) { top2: /*SUPPRESS 560*/ if (tmp = table[*s]) { #ifdef POINTERRIGOR if (bigend - s > tmp) { s += tmp; goto top2; } #else if ((s += tmp) < bigend) goto top2; #endif return Nullch; } else { tmp = littlelen; /* less expensive than calling strncmp() */ olds = s; while (tmp--) { if (*--s == *--little) continue; differ: s = olds + 1; /* here we pay the price for failure */ little = oldlittle; if (s < bigend) /* fake up continue to outer loop */ goto top2; return Nullch; } if (SvTAIL(littlestr) /* automatically multiline */ && olds + 1 != bigend && olds[1] != '\n') goto differ; return (char *)s; } } return Nullch; } /* start_shift, end_shift are positive quantities which give offsets of ends of some substring of bigstr. If `last' we want the last occurence. old_posp is the way of communication between consequent calls if the next call needs to find the . The initial *old_posp should be -1. Note that we do not take into account SvTAIL, so it may give wrong positives if _ALL flag is set. */ char * screaminstr(SV *bigstr, SV *littlestr, I32 start_shift, I32 end_shift, I32 *old_posp, I32 last) { dTHR; register unsigned char *s, *x; register unsigned char *big; register I32 pos; register I32 previous; register I32 first; register unsigned char *little; register I32 stop_pos; register unsigned char *littleend; I32 found = 0; if (*old_posp == -1 ? (pos = PL_screamfirst[BmRARE(littlestr)]) < 0 : (((pos = *old_posp), pos += PL_screamnext[pos]) == 0)) return Nullch; little = (unsigned char *)(SvPVX(littlestr)); littleend = little + SvCUR(littlestr); first = *little++; /* The value of pos we can start at: */ previous = BmPREVIOUS(littlestr); big = (unsigned char *)(SvPVX(bigstr)); /* The value of pos we can stop at: */ stop_pos = SvCUR(bigstr) - end_shift - (SvCUR(littlestr) - 1 - previous); if (previous + start_shift > stop_pos) return Nullch; while (pos < previous + start_shift) { if (!(pos += PL_screamnext[pos])) return Nullch; } #ifdef POINTERRIGOR do { if (pos >= stop_pos) break; if (big[pos-previous] != first) continue; for (x=big+pos+1-previous,s=little; s < littleend; /**/ ) { if (*s++ != *x++) { s--; break; } } if (s == littleend) { *old_posp = pos; if (!last) return (char *)(big+pos-previous); found = 1; } } while ( pos += PL_screamnext[pos] ); return (last && found) ? (char *)(big+(*old_posp)-previous) : Nullch; #else /* !POINTERRIGOR */ big -= previous; do { if (pos >= stop_pos) break; if (big[pos] != first) continue; for (x=big+pos+1,s=little; s < littleend; /**/ ) { if (*s++ != *x++) { s--; break; } } if (s == littleend) { *old_posp = pos; if (!last) return (char *)(big+pos); found = 1; } } while ( pos += PL_screamnext[pos] ); return (last && found) ? (char *)(big+(*old_posp)) : Nullch; #endif /* POINTERRIGOR */ } I32 ibcmp(const char *s1, const char *s2, register I32 len) { register U8 *a = (U8 *)s1; register U8 *b = (U8 *)s2; while (len--) { if (*a != *b && *a != PL_fold[*b]) return 1; a++,b++; } return 0; } I32 ibcmp_locale(const char *s1, const char *s2, register I32 len) { register U8 *a = (U8 *)s1; register U8 *b = (U8 *)s2; while (len--) { if (*a != *b && *a != PL_fold_locale[*b]) return 1; a++,b++; } return 0; } /* copy a string to a safe spot */ char * savepv(const char *sv) { register char *newaddr; New(902,newaddr,strlen(sv)+1,char); (void)strcpy(newaddr,sv); return newaddr; } /* same thing but with a known length */ char * savepvn(const char *sv, register I32 len) { register char *newaddr; New(903,newaddr,len+1,char); Copy(sv,newaddr,len,char); /* might not be null terminated */ newaddr[len] = '\0'; /* is now */ return newaddr; } /* the SV for form() and mess() is not kept in an arena */ STATIC SV * mess_alloc(void) { dTHR; SV *sv; XPVMG *any; if (!PL_dirty) return sv_2mortal(newSVpvn("",0)); if (PL_mess_sv) return PL_mess_sv; /* Create as PVMG now, to avoid any upgrading later */ New(905, sv, 1, SV); Newz(905, any, 1, XPVMG); SvFLAGS(sv) = SVt_PVMG; SvANY(sv) = (void*)any; SvREFCNT(sv) = 1 << 30; /* practically infinite */ PL_mess_sv = sv; return sv; } char * form(const char* pat, ...) { SV *sv = mess_alloc(); va_list args; va_start(args, pat); sv_vsetpvfn(sv, pat, strlen(pat), &args, Null(SV**), 0, Null(bool*)); va_end(args); return SvPVX(sv); } char * mess(const char *pat, va_list *args) { SV *sv = mess_alloc(); static char dgd[] = " during global destruction.\n"; sv_vsetpvfn(sv, pat, strlen(pat), args, Null(SV**), 0, Null(bool*)); if (!SvCUR(sv) || *(SvEND(sv) - 1) != '\n') { dTHR; if (PL_dirty) sv_catpv(sv, dgd); else { if (PL_curcop->cop_line) sv_catpvf(sv, " at %_ line %ld", GvSV(PL_curcop->cop_filegv), (long)PL_curcop->cop_line); if (GvIO(PL_last_in_gv) && IoLINES(GvIOp(PL_last_in_gv))) { bool line_mode = (RsSIMPLE(PL_rs) && SvLEN(PL_rs) == 1 && *SvPVX(PL_rs) == '\n'); sv_catpvf(sv, ", <%s> %s %ld", PL_last_in_gv == PL_argvgv ? "" : GvNAME(PL_last_in_gv), line_mode ? "line" : "chunk", (long)IoLINES(GvIOp(PL_last_in_gv))); } sv_catpv(sv, ".\n"); } } return SvPVX(sv); } OP * die(const char* pat, ...) { dTHR; va_list args; char *message; int was_in_eval = PL_in_eval; HV *stash; GV *gv; CV *cv; DEBUG_S(PerlIO_printf(PerlIO_stderr(), "%p: die: curstack = %p, mainstack = %p\n", thr, PL_curstack, PL_mainstack)); va_start(args, pat); message = pat ? mess(pat, &args) : Nullch; va_end(args); DEBUG_S(PerlIO_printf(PerlIO_stderr(), "%p: die: message = %s\ndiehook = %p\n", thr, message, PL_diehook)); if (PL_diehook) { /* sv_2cv might call croak() */ SV *olddiehook = PL_diehook; ENTER; SAVESPTR(PL_diehook); PL_diehook = Nullsv; cv = sv_2cv(olddiehook, &stash, &gv, 0); LEAVE; if (cv && !CvDEPTH(cv) && (CvROOT(cv) || CvXSUB(cv))) { dSP; SV *msg; ENTER; if(message) { msg = newSVpv(message, 0); SvREADONLY_on(msg); SAVEFREESV(msg); } else { msg = ERRSV; } PUSHSTACKi(PERLSI_DIEHOOK); PUSHMARK(SP); XPUSHs(msg); PUTBACK; perl_call_sv((SV*)cv, G_DISCARD); POPSTACK; LEAVE; } } PL_restartop = die_where(message); DEBUG_S(PerlIO_printf(PerlIO_stderr(), "%p: die: restartop = %p, was_in_eval = %d, top_env = %p\n", thr, PL_restartop, was_in_eval, PL_top_env)); if ((!PL_restartop && was_in_eval) || PL_top_env->je_prev) JMPENV_JUMP(3); return PL_restartop; } void croak(const char* pat, ...) { dTHR; va_list args; char *message; HV *stash; GV *gv; CV *cv; va_start(args, pat); message = mess(pat, &args); va_end(args); DEBUG_S(PerlIO_printf(PerlIO_stderr(), "croak: 0x%lx %s", (unsigned long) thr, message)); if (PL_diehook) { /* sv_2cv might call croak() */ SV *olddiehook = PL_diehook; ENTER; SAVESPTR(PL_diehook); PL_diehook = Nullsv; cv = sv_2cv(olddiehook, &stash, &gv, 0); LEAVE; if (cv && !CvDEPTH(cv) && (CvROOT(cv) || CvXSUB(cv))) { dSP; SV *msg; ENTER; msg = newSVpv(message, 0); SvREADONLY_on(msg); SAVEFREESV(msg); PUSHSTACKi(PERLSI_DIEHOOK); PUSHMARK(SP); XPUSHs(msg); PUTBACK; perl_call_sv((SV*)cv, G_DISCARD); POPSTACK; LEAVE; } } if (PL_in_eval) { PL_restartop = die_where(message); JMPENV_JUMP(3); } PerlIO_puts(PerlIO_stderr(),message); (void)PerlIO_flush(PerlIO_stderr()); my_failure_exit(); } void warn(const char* pat,...) { va_list args; char *message; HV *stash; GV *gv; CV *cv; va_start(args, pat); message = mess(pat, &args); va_end(args); if (PL_warnhook) { /* sv_2cv might call warn() */ dTHR; SV *oldwarnhook = PL_warnhook; ENTER; SAVESPTR(PL_warnhook); PL_warnhook = Nullsv; cv = sv_2cv(oldwarnhook, &stash, &gv, 0); LEAVE; if (cv && !CvDEPTH(cv) && (CvROOT(cv) || CvXSUB(cv))) { dSP; SV *msg; ENTER; msg = newSVpv(message, 0); SvREADONLY_on(msg); SAVEFREESV(msg); PUSHSTACKi(PERLSI_WARNHOOK); PUSHMARK(SP); XPUSHs(msg); PUTBACK; perl_call_sv((SV*)cv, G_DISCARD); POPSTACK; LEAVE; return; } } PerlIO_puts(PerlIO_stderr(),message); #ifdef LEAKTEST DEBUG_L(*message == '!' ? (xstat(message[1]=='!' ? (message[2]=='!' ? 2 : 1) : 0) , 0) : 0); #endif (void)PerlIO_flush(PerlIO_stderr()); } void warner(U32 err, const char* pat,...) { dTHR; va_list args; char *message; HV *stash; GV *gv; CV *cv; va_start(args, pat); message = mess(pat, &args); va_end(args); if (ckDEAD(err)) { #ifdef USE_THREADS DEBUG_S(PerlIO_printf(PerlIO_stderr(), "croak: 0x%lx %s", (unsigned long) thr, message)); #endif /* USE_THREADS */ if (PL_diehook) { /* sv_2cv might call croak() */ SV *olddiehook = PL_diehook; ENTER; SAVESPTR(PL_diehook); PL_diehook = Nullsv; cv = sv_2cv(olddiehook, &stash, &gv, 0); LEAVE; if (cv && !CvDEPTH(cv) && (CvROOT(cv) || CvXSUB(cv))) { dSP; SV *msg; ENTER; msg = newSVpv(message, 0); SvREADONLY_on(msg); SAVEFREESV(msg); PUSHMARK(sp); XPUSHs(msg); PUTBACK; perl_call_sv((SV*)cv, G_DISCARD); LEAVE; } } if (PL_in_eval) { PL_restartop = die_where(message); JMPENV_JUMP(3); } PerlIO_puts(PerlIO_stderr(),message); (void)PerlIO_flush(PerlIO_stderr()); my_failure_exit(); } else { if (PL_warnhook) { /* sv_2cv might call warn() */ dTHR; SV *oldwarnhook = PL_warnhook; ENTER; SAVESPTR(PL_warnhook); PL_warnhook = Nullsv; cv = sv_2cv(oldwarnhook, &stash, &gv, 0); LEAVE; if (cv && !CvDEPTH(cv) && (CvROOT(cv) || CvXSUB(cv))) { dSP; SV *msg; ENTER; msg = newSVpv(message, 0); SvREADONLY_on(msg); SAVEFREESV(msg); PUSHMARK(sp); XPUSHs(msg); PUTBACK; perl_call_sv((SV*)cv, G_DISCARD); LEAVE; return; } } PerlIO_puts(PerlIO_stderr(),message); #ifdef LEAKTEST DEBUG_L(xstat()); #endif (void)PerlIO_flush(PerlIO_stderr()); } } #ifndef VMS /* VMS' my_setenv() is in VMS.c */ #ifndef WIN32 void my_setenv(char *nam, char *val) { #ifndef PERL_USE_SAFE_PUTENV /* most putenv()s leak, so we manipulate environ directly */ register I32 i=setenv_getix(nam); /* where does it go? */ if (environ == PL_origenviron) { /* need we copy environment? */ I32 j; I32 max; char **tmpenv; /*SUPPRESS 530*/ for (max = i; environ[max]; max++) ; tmpenv = (char**)safesysmalloc((max+2) * sizeof(char*)); for (j=0; j= 0; i++) ; return i ? 0 : -1; } #endif #if !defined(HAS_BCOPY) || !defined(HAS_SAFE_BCOPY) char * my_bcopy(register const char *from,register char *to,register I32 len) { char *retval = to; if (from - to >= 0) { while (len--) *to++ = *from++; } else { to += len; from += len; while (len--) *(--to) = *(--from); } return retval; } #endif #ifndef HAS_MEMSET void * my_memset(register char *loc, register I32 ch, register I32 len) { char *retval = loc; while (len--) *loc++ = ch; return retval; } #endif #if !defined(HAS_BZERO) && !defined(HAS_MEMSET) char * my_bzero(register char *loc, register I32 len) { char *retval = loc; while (len--) *loc++ = 0; return retval; } #endif #if !defined(HAS_MEMCMP) || !defined(HAS_SANE_MEMCMP) I32 my_memcmp(const char *s1, const char *s2, register I32 len) { register U8 *a = (U8 *)s1; register U8 *b = (U8 *)s2; register I32 tmp; while (len--) { if (tmp = *a++ - *b++) return tmp; } return 0; } #endif /* !HAS_MEMCMP || !HAS_SANE_MEMCMP */ #ifndef HAS_VPRINTF #ifdef USE_CHAR_VSPRINTF char * #else int #endif vsprintf(char *dest, const char *pat, char *args) { FILE fakebuf; fakebuf._ptr = dest; fakebuf._cnt = 32767; #ifndef _IOSTRG #define _IOSTRG 0 #endif fakebuf._flag = _IOWRT|_IOSTRG; _doprnt(pat, args, &fakebuf); /* what a kludge */ (void)putc('\0', &fakebuf); #ifdef USE_CHAR_VSPRINTF return(dest); #else return 0; /* perl doesn't use return value */ #endif } #endif /* HAS_VPRINTF */ #ifdef MYSWAP #if BYTEORDER != 0x4321 short my_swap(short s) { #if (BYTEORDER & 1) == 0 short result; result = ((s & 255) << 8) + ((s >> 8) & 255); return result; #else return s; #endif } long my_htonl(long l) { union { long result; char c[sizeof(long)]; } u; #if BYTEORDER == 0x1234 u.c[0] = (l >> 24) & 255; u.c[1] = (l >> 16) & 255; u.c[2] = (l >> 8) & 255; u.c[3] = l & 255; return u.result; #else #if ((BYTEORDER - 0x1111) & 0x444) || !(BYTEORDER & 0xf) croak("Unknown BYTEORDER\n"); #else register I32 o; register I32 s; for (o = BYTEORDER - 0x1111, s = 0; s < (sizeof(long)*8); o >>= 4, s += 8) { u.c[o & 0xf] = (l >> s) & 255; } return u.result; #endif #endif } long my_ntohl(long l) { union { long l; char c[sizeof(long)]; } u; #if BYTEORDER == 0x1234 u.c[0] = (l >> 24) & 255; u.c[1] = (l >> 16) & 255; u.c[2] = (l >> 8) & 255; u.c[3] = l & 255; return u.l; #else #if ((BYTEORDER - 0x1111) & 0x444) || !(BYTEORDER & 0xf) croak("Unknown BYTEORDER\n"); #else register I32 o; register I32 s; u.l = l; l = 0; for (o = BYTEORDER - 0x1111, s = 0; s < (sizeof(long)*8); o >>= 4, s += 8) { l |= (u.c[o & 0xf] & 255) << s; } return l; #endif #endif } #endif /* BYTEORDER != 0x4321 */ #endif /* MYSWAP */ /* * Little-endian byte order functions - 'v' for 'VAX', or 'reVerse'. * If these functions are defined, * the BYTEORDER is neither 0x1234 nor 0x4321. * However, this is not assumed. * -DWS */ #define HTOV(name,type) \ type \ name (n) \ register type n; \ { \ union { \ type value; \ char c[sizeof(type)]; \ } u; \ register I32 i; \ register I32 s; \ for (i = 0, s = 0; i < sizeof(u.c); i++, s += 8) { \ u.c[i] = (n >> s) & 0xFF; \ } \ return u.value; \ } #define VTOH(name,type) \ type \ name (n) \ register type n; \ { \ union { \ type value; \ char c[sizeof(type)]; \ } u; \ register I32 i; \ register I32 s; \ u.value = n; \ n = 0; \ for (i = 0, s = 0; i < sizeof(u.c); i++, s += 8) { \ n += (u.c[i] & 0xFF) << s; \ } \ return n; \ } #if defined(HAS_HTOVS) && !defined(htovs) HTOV(htovs,short) #endif #if defined(HAS_HTOVL) && !defined(htovl) HTOV(htovl,long) #endif #if defined(HAS_VTOHS) && !defined(vtohs) VTOH(vtohs,short) #endif #if defined(HAS_VTOHL) && !defined(vtohl) VTOH(vtohl,long) #endif /* VMS' my_popen() is in VMS.c, same with OS/2. */ #if (!defined(DOSISH) || defined(HAS_FORK) || defined(AMIGAOS)) && !defined(VMS) && !defined(__OPEN_VM) PerlIO * my_popen(char *cmd, char *mode) { int p[2]; register I32 This, that; register I32 pid; SV *sv; I32 doexec = strNE(cmd,"-"); #ifdef OS2 if (doexec) { return my_syspopen(cmd,mode); } #endif This = (*mode == 'w'); that = !This; if (doexec && PL_tainting) { taint_env(); taint_proper("Insecure %s%s", "EXEC"); } if (PerlProc_pipe(p) < 0) return Nullfp; while ((pid = (doexec?vfork():fork())) < 0) { if (errno != EAGAIN) { PerlLIO_close(p[This]); if (!doexec) croak("Can't fork"); return Nullfp; } sleep(5); } if (pid == 0) { GV* tmpgv; #undef THIS #undef THAT #define THIS that #define THAT This PerlLIO_close(p[THAT]); if (p[THIS] != (*mode == 'r')) { PerlLIO_dup2(p[THIS], *mode == 'r'); PerlLIO_close(p[THIS]); } if (doexec) { #if !defined(HAS_FCNTL) || !defined(F_SETFD) int fd; #ifndef NOFILE #define NOFILE 20 #endif for (fd = PL_maxsysfd + 1; fd < NOFILE; fd++) PerlLIO_close(fd); #endif do_exec(cmd); /* may or may not use the shell */ PerlProc__exit(1); } /*SUPPRESS 560*/ if (tmpgv = gv_fetchpv("$",TRUE, SVt_PV)) sv_setiv(GvSV(tmpgv), (IV)getpid()); PL_forkprocess = 0; hv_clear(PL_pidstatus); /* we have no children */ return Nullfp; #undef THIS #undef THAT } do_execfree(); /* free any memory malloced by child on vfork */ PerlLIO_close(p[that]); if (p[that] < p[This]) { PerlLIO_dup2(p[This], p[that]); PerlLIO_close(p[This]); p[This] = p[that]; } sv = *av_fetch(PL_fdpid,p[This],TRUE); (void)SvUPGRADE(sv,SVt_IV); SvIVX(sv) = pid; PL_forkprocess = pid; return PerlIO_fdopen(p[This], mode); } #else #if defined(atarist) || defined(DJGPP) FILE *popen(); PerlIO * my_popen(cmd,mode) char *cmd; char *mode; { /* Needs work for PerlIO ! */ /* used 0 for 2nd parameter to PerlIO-exportFILE; apparently not used */ return popen(PerlIO_exportFILE(cmd, 0), mode); } #endif #endif /* !DOSISH */ #ifdef DUMP_FDS void dump_fds(char *s) { int fd; struct stat tmpstatbuf; PerlIO_printf(PerlIO_stderr(),"%s", s); for (fd = 0; fd < 32; fd++) { if (PerlLIO_fstat(fd,&tmpstatbuf) >= 0) PerlIO_printf(PerlIO_stderr()," %d",fd); } PerlIO_printf(PerlIO_stderr(),"\n"); } #endif /* DUMP_FDS */ #ifndef HAS_DUP2 int dup2(oldfd,newfd) int oldfd; int newfd; { #if defined(HAS_FCNTL) && defined(F_DUPFD) if (oldfd == newfd) return oldfd; PerlLIO_close(newfd); return fcntl(oldfd, F_DUPFD, newfd); #else #define DUP2_MAX_FDS 256 int fdtmp[DUP2_MAX_FDS]; I32 fdx = 0; int fd; if (oldfd == newfd) return oldfd; PerlLIO_close(newfd); /* good enough for low fd's... */ while ((fd = PerlLIO_dup(oldfd)) != newfd && fd >= 0) { if (fdx >= DUP2_MAX_FDS) { PerlLIO_close(fd); fd = -1; break; } fdtmp[fdx++] = fd; } while (fdx > 0) PerlLIO_close(fdtmp[--fdx]); return fd; #endif } #endif #ifdef HAS_SIGACTION Sighandler_t rsignal(int signo, Sighandler_t handler) { struct sigaction act, oact; act.sa_handler = handler; sigemptyset(&act.sa_mask); act.sa_flags = 0; #ifdef SA_RESTART act.sa_flags |= SA_RESTART; /* SVR4, 4.3+BSD */ #endif #ifdef SA_NOCLDWAIT if (signo == SIGCHLD && handler == (Sighandler_t)SIG_IGN) act.sa_flags |= SA_NOCLDWAIT; #endif if (sigaction(signo, &act, &oact) == -1) return SIG_ERR; else return oact.sa_handler; } Sighandler_t rsignal_state(int signo) { struct sigaction oact; if (sigaction(signo, (struct sigaction *)NULL, &oact) == -1) return SIG_ERR; else return oact.sa_handler; } int rsignal_save(int signo, Sighandler_t handler, Sigsave_t *save) { struct sigaction act; act.sa_handler = handler; sigemptyset(&act.sa_mask); act.sa_flags = 0; #ifdef SA_RESTART act.sa_flags |= SA_RESTART; /* SVR4, 4.3+BSD */ #endif #ifdef SA_NOCLDWAIT if (signo == SIGCHLD && handler == (Sighandler_t)SIG_IGN) act.sa_flags |= SA_NOCLDWAIT; #endif return sigaction(signo, &act, save); } int rsignal_restore(int signo, Sigsave_t *save) { return sigaction(signo, save, (struct sigaction *)NULL); } #else /* !HAS_SIGACTION */ Sighandler_t rsignal(int signo, Sighandler_t handler) { return PerlProc_signal(signo, handler); } static int sig_trapped; static Signal_t sig_trap(int signo) { sig_trapped++; } Sighandler_t rsignal_state(int signo) { Sighandler_t oldsig; sig_trapped = 0; oldsig = PerlProc_signal(signo, sig_trap); PerlProc_signal(signo, oldsig); if (sig_trapped) PerlProc_kill(getpid(), signo); return oldsig; } int rsignal_save(int signo, Sighandler_t handler, Sigsave_t *save) { *save = PerlProc_signal(signo, handler); return (*save == SIG_ERR) ? -1 : 0; } int rsignal_restore(int signo, Sigsave_t *save) { return (PerlProc_signal(signo, *save) == SIG_ERR) ? -1 : 0; } #endif /* !HAS_SIGACTION */ /* VMS' my_pclose() is in VMS.c; same with OS/2 */ #if (!defined(DOSISH) || defined(HAS_FORK) || defined(AMIGAOS)) && !defined(VMS) && !defined(__OPEN_VM) I32 my_pclose(PerlIO *ptr) { Sigsave_t hstat, istat, qstat; int status; SV **svp; int pid; int pid2; bool close_failed; int saved_errno; #ifdef VMS int saved_vaxc_errno; #endif #ifdef WIN32 int saved_win32_errno; #endif svp = av_fetch(PL_fdpid,PerlIO_fileno(ptr),TRUE); pid = (int)SvIVX(*svp); SvREFCNT_dec(*svp); *svp = &PL_sv_undef; #ifdef OS2 if (pid == -1) { /* Opened by popen. */ return my_syspclose(ptr); } #endif if ((close_failed = (PerlIO_close(ptr) == EOF))) { saved_errno = errno; #ifdef VMS saved_vaxc_errno = vaxc$errno; #endif #ifdef WIN32 saved_win32_errno = GetLastError(); #endif } #ifdef UTS if(PerlProc_kill(pid, 0) < 0) { return(pid); } /* HOM 12/23/91 */ #endif rsignal_save(SIGHUP, SIG_IGN, &hstat); rsignal_save(SIGINT, SIG_IGN, &istat); rsignal_save(SIGQUIT, SIG_IGN, &qstat); do { pid2 = wait4pid(pid, &status, 0); } while (pid2 == -1 && errno == EINTR); rsignal_restore(SIGHUP, &hstat); rsignal_restore(SIGINT, &istat); rsignal_restore(SIGQUIT, &qstat); if (close_failed) { SETERRNO(saved_errno, saved_vaxc_errno); return -1; } return(pid2 < 0 ? pid2 : status == 0 ? 0 : (errno = 0, status)); } #endif /* !DOSISH */ #if !defined(DOSISH) || defined(OS2) || defined(WIN32) I32 wait4pid(int pid, int *statusp, int flags) { SV *sv; SV** svp; char spid[TYPE_CHARS(int)]; if (!pid) return -1; if (pid > 0) { sprintf(spid, "%d", pid); svp = hv_fetch(PL_pidstatus,spid,strlen(spid),FALSE); if (svp && *svp != &PL_sv_undef) { *statusp = SvIVX(*svp); (void)hv_delete(PL_pidstatus,spid,strlen(spid),G_DISCARD); return pid; } } else { HE *entry; hv_iterinit(PL_pidstatus); if (entry = hv_iternext(PL_pidstatus)) { pid = atoi(hv_iterkey(entry,(I32*)statusp)); sv = hv_iterval(PL_pidstatus,entry); *statusp = SvIVX(sv); sprintf(spid, "%d", pid); (void)hv_delete(PL_pidstatus,spid,strlen(spid),G_DISCARD); return pid; } } #ifdef HAS_WAITPID # ifdef HAS_WAITPID_RUNTIME if (!HAS_WAITPID_RUNTIME) goto hard_way; # endif return PerlProc_waitpid(pid,statusp,flags); #endif #if !defined(HAS_WAITPID) && defined(HAS_WAIT4) return wait4((pid==-1)?0:pid,statusp,flags,Null(struct rusage *)); #endif #if !defined(HAS_WAITPID) && !defined(HAS_WAIT4) || defined(HAS_WAITPID_RUNTIME) hard_way: { I32 result; if (flags) croak("Can't do waitpid with flags"); else { while ((result = PerlProc_wait(statusp)) != pid && pid > 0 && result >= 0) pidgone(result,*statusp); if (result < 0) *statusp = -1; } return result; } #endif } #endif /* !DOSISH || OS2 || WIN32 */ void /*SUPPRESS 590*/ pidgone(int pid, int status) { register SV *sv; char spid[TYPE_CHARS(int)]; sprintf(spid, "%d", pid); sv = *hv_fetch(PL_pidstatus,spid,strlen(spid),TRUE); (void)SvUPGRADE(sv,SVt_IV); SvIVX(sv) = status; return; } #if defined(atarist) || defined(OS2) || defined(DJGPP) int pclose(); #ifdef HAS_FORK int /* Cannot prototype with I32 in os2ish.h. */ my_syspclose(ptr) #else I32 my_pclose(ptr) #endif PerlIO *ptr; { /* Needs work for PerlIO ! */ FILE *f = PerlIO_findFILE(ptr); I32 result = pclose(f); PerlIO_releaseFILE(ptr,f); return result; } #endif void repeatcpy(register char *to, register const char *from, I32 len, register I32 count) { register I32 todo; register const char *frombase = from; if (len == 1) { register const char c = *from; while (count-- > 0) *to++ = c; return; } while (count-- > 0) { for (todo = len; todo > 0; todo--) { *to++ = *from++; } from = frombase; } } U32 cast_ulong(double f) { long along; #if CASTFLAGS & 2 # define BIGDOUBLE 2147483648.0 if (f >= BIGDOUBLE) return (unsigned long)(f-(long)(f/BIGDOUBLE)*BIGDOUBLE)|0x80000000; #endif if (f >= 0.0) return (unsigned long)f; along = (long)f; return (unsigned long)along; } # undef BIGDOUBLE /* Unfortunately, on some systems the cast_uv() function doesn't work with the system-supplied definition of ULONG_MAX. The comparison (f >= ULONG_MAX) always comes out true. It must be a problem with the compiler constant folding. In any case, this workaround should be fine on any two's complement system. If it's not, supply a '-DMY_ULONG_MAX=whatever' in your ccflags. --Andy Dougherty */ /* Code modified to prefer proper named type ranges, I32, IV, or UV, instead of LONG_(MIN/MAX). -- Kenneth Albanowski */ #ifndef MY_UV_MAX # define MY_UV_MAX ((UV)IV_MAX * (UV)2 + (UV)1) #endif I32 cast_i32(double f) { if (f >= I32_MAX) return (I32) I32_MAX; if (f <= I32_MIN) return (I32) I32_MIN; return (I32) f; } IV cast_iv(double f) { if (f >= IV_MAX) return (IV) IV_MAX; if (f <= IV_MIN) return (IV) IV_MIN; return (IV) f; } UV cast_uv(double f) { if (f >= MY_UV_MAX) return (UV) MY_UV_MAX; return (UV) f; } #ifndef HAS_RENAME I32 same_dirent(char *a, char *b) { char *fa = strrchr(a,'/'); char *fb = strrchr(b,'/'); struct stat tmpstatbuf1; struct stat tmpstatbuf2; SV *tmpsv = sv_newmortal(); if (fa) fa++; else fa = a; if (fb) fb++; else fb = b; if (strNE(a,b)) return FALSE; if (fa == a) sv_setpv(tmpsv, "."); else sv_setpvn(tmpsv, a, fa - a); if (PerlLIO_stat(SvPVX(tmpsv), &tmpstatbuf1) < 0) return FALSE; if (fb == b) sv_setpv(tmpsv, "."); else sv_setpvn(tmpsv, b, fb - b); if (PerlLIO_stat(SvPVX(tmpsv), &tmpstatbuf2) < 0) return FALSE; return tmpstatbuf1.st_dev == tmpstatbuf2.st_dev && tmpstatbuf1.st_ino == tmpstatbuf2.st_ino; } #endif /* !HAS_RENAME */ UV scan_bin(char *start, I32 len, I32 *retlen) { register char *s = start; register UV retval = 0; bool overflowed = FALSE; while (len && *s >= '0' && *s <= '1') { register UV n = retval << 1; if (!overflowed && (n >> 1) != retval) { warn("Integer overflow in binary number"); overflowed = TRUE; } retval = n | (*s++ - '0'); len--; } if (len && (*s >= '2' || *s <= '9')) { dTHR; if (ckWARN(WARN_UNSAFE)) warner(WARN_UNSAFE, "Illegal binary digit ignored"); } *retlen = s - start; return retval; } UV scan_oct(char *start, I32 len, I32 *retlen) { register char *s = start; register UV retval = 0; bool overflowed = FALSE; while (len && *s >= '0' && *s <= '7') { register UV n = retval << 3; if (!overflowed && (n >> 3) != retval) { warn("Integer overflow in octal number"); overflowed = TRUE; } retval = n | (*s++ - '0'); len--; } if (len && (*s == '8' || *s == '9')) { dTHR; if (ckWARN(WARN_OCTAL)) warner(WARN_OCTAL, "Illegal octal digit ignored"); } *retlen = s - start; return retval; } UV scan_hex(char *start, I32 len, I32 *retlen) { register char *s = start; register UV retval = 0; bool overflowed = FALSE; char *tmp = s; register UV n; while (len-- && *s) { tmp = strchr((char *) PL_hexdigit, *s++); if (!tmp) { if (*(s-1) == '_' || (*(s-1) == 'x' && retval == 0)) continue; else { dTHR; --s; if (ckWARN(WARN_UNSAFE)) warner(WARN_UNSAFE,"Illegal hex digit ignored"); break; } } n = retval << 4; if (!overflowed && (n >> 4) != retval) { warn("Integer overflow in hex number"); overflowed = TRUE; } retval = n | ((tmp - PL_hexdigit) & 15); } *retlen = s - start; return retval; } char* find_script(char *scriptname, bool dosearch, char **search_ext, I32 flags) { dTHR; char *xfound = Nullch; char *xfailed = Nullch; char tmpbuf[MAXPATHLEN]; register char *s; I32 len; int retval; #if defined(DOSISH) && !defined(OS2) && !defined(atarist) # define SEARCH_EXTS ".bat", ".cmd", NULL # define MAX_EXT_LEN 4 #endif #ifdef OS2 # define SEARCH_EXTS ".cmd", ".btm", ".bat", ".pl", NULL # define MAX_EXT_LEN 4 #endif #ifdef VMS # define SEARCH_EXTS ".pl", ".com", NULL # define MAX_EXT_LEN 4 #endif /* additional extensions to try in each dir if scriptname not found */ #ifdef SEARCH_EXTS char *exts[] = { SEARCH_EXTS }; char **ext = search_ext ? search_ext : exts; int extidx = 0, i = 0; char *curext = Nullch; #else # define MAX_EXT_LEN 0 #endif /* * If dosearch is true and if scriptname does not contain path * delimiters, search the PATH for scriptname. * * If SEARCH_EXTS is also defined, will look for each * scriptname{SEARCH_EXTS} whenever scriptname is not found * while searching the PATH. * * Assuming SEARCH_EXTS is C<".foo",".bar",NULL>, PATH search * proceeds as follows: * If DOSISH or VMSISH: * + look for ./scriptname{,.foo,.bar} * + search the PATH for scriptname{,.foo,.bar} * * If !DOSISH: * + look *only* in the PATH for scriptname{,.foo,.bar} (note * this will not look in '.' if it's not in the PATH) */ tmpbuf[0] = '\0'; #ifdef VMS # ifdef ALWAYS_DEFTYPES len = strlen(scriptname); if (!(len == 1 && *scriptname == '-') && scriptname[len-1] != ':') { int hasdir, idx = 0, deftypes = 1; bool seen_dot = 1; hasdir = !dosearch || (strpbrk(scriptname,":[= sizeof tmpbuf) continue; /* don't search dir with too-long name */ strcat(tmpbuf, scriptname); #else /* !VMS */ #ifdef DOSISH if (strEQ(scriptname, "-")) dosearch = 0; if (dosearch) { /* Look in '.' first. */ char *cur = scriptname; #ifdef SEARCH_EXTS if ((curext = strrchr(scriptname,'.'))) /* possible current ext */ while (ext[i]) if (strEQ(ext[i++],curext)) { extidx = -1; /* already has an ext */ break; } do { #endif DEBUG_p(PerlIO_printf(Perl_debug_log, "Looking for %s\n",cur)); if (PerlLIO_stat(cur,&PL_statbuf) >= 0 && !S_ISDIR(PL_statbuf.st_mode)) { dosearch = 0; scriptname = cur; #ifdef SEARCH_EXTS break; #endif } #ifdef SEARCH_EXTS if (cur == scriptname) { len = strlen(scriptname); if (len+MAX_EXT_LEN+1 >= sizeof(tmpbuf)) break; cur = strcpy(tmpbuf, scriptname); } } while (extidx >= 0 && ext[extidx] /* try an extension? */ && strcpy(tmpbuf+len, ext[extidx++])); #endif } #endif if (dosearch && !strchr(scriptname, '/') #ifdef DOSISH && !strchr(scriptname, '\\') #endif && (s = PerlEnv_getenv("PATH"))) { bool seen_dot = 0; PL_bufend = s + strlen(s); while (s < PL_bufend) { #if defined(atarist) || defined(DOSISH) for (len = 0; *s # ifdef atarist && *s != ',' # endif && *s != ';'; len++, s++) { if (len < sizeof tmpbuf) tmpbuf[len] = *s; } if (len < sizeof tmpbuf) tmpbuf[len] = '\0'; #else /* ! (atarist || DOSISH) */ s = delimcpy(tmpbuf, tmpbuf + sizeof tmpbuf, s, PL_bufend, ':', &len); #endif /* ! (atarist || DOSISH) */ if (s < PL_bufend) s++; if (len + 1 + strlen(scriptname) + MAX_EXT_LEN >= sizeof tmpbuf) continue; /* don't search dir with too-long name */ if (len #if defined(atarist) || defined(__MINT__) || defined(DOSISH) && tmpbuf[len - 1] != '/' && tmpbuf[len - 1] != '\\' #endif ) tmpbuf[len++] = '/'; if (len == 2 && tmpbuf[0] == '.') seen_dot = 1; (void)strcpy(tmpbuf + len, scriptname); #endif /* !VMS */ #ifdef SEARCH_EXTS len = strlen(tmpbuf); if (extidx > 0) /* reset after previous loop */ extidx = 0; do { #endif DEBUG_p(PerlIO_printf(Perl_debug_log, "Looking for %s\n",tmpbuf)); retval = PerlLIO_stat(tmpbuf,&PL_statbuf); if (S_ISDIR(PL_statbuf.st_mode)) { retval = -1; } #ifdef SEARCH_EXTS } while ( retval < 0 /* not there */ && extidx>=0 && ext[extidx] /* try an extension? */ && strcpy(tmpbuf+len, ext[extidx++]) ); #endif if (retval < 0) continue; if (S_ISREG(PL_statbuf.st_mode) && cando(S_IRUSR,TRUE,&PL_statbuf) #ifndef DOSISH && cando(S_IXUSR,TRUE,&PL_statbuf) #endif ) { xfound = tmpbuf; /* bingo! */ break; } if (!xfailed) xfailed = savepv(tmpbuf); } #ifndef DOSISH if (!xfound && !seen_dot && !xfailed && (PerlLIO_stat(scriptname,&PL_statbuf) < 0 || S_ISDIR(PL_statbuf.st_mode))) #endif seen_dot = 1; /* Disable message. */ if (!xfound) { if (flags & 1) { /* do or die? */ croak("Can't %s %s%s%s", (xfailed ? "execute" : "find"), (xfailed ? xfailed : scriptname), (xfailed ? "" : " on PATH"), (xfailed || seen_dot) ? "" : ", '.' not in PATH"); } scriptname = Nullch; } if (xfailed) Safefree(xfailed); scriptname = xfound; } return (scriptname ? savepv(scriptname) : Nullch); } #ifdef USE_THREADS #ifdef FAKE_THREADS /* Very simplistic scheduler for now */ void schedule(void) { thr = thr->i.next_run; } void perl_cond_init(perl_cond *cp) { *cp = 0; } void perl_cond_signal(perl_cond *cp) { perl_os_thread t; perl_cond cond = *cp; if (!cond) return; t = cond->thread; /* Insert t in the runnable queue just ahead of us */ t->i.next_run = thr->i.next_run; thr->i.next_run->i.prev_run = t; t->i.prev_run = thr; thr->i.next_run = t; thr->i.wait_queue = 0; /* Remove from the wait queue */ *cp = cond->next; Safefree(cond); } void perl_cond_broadcast(perl_cond *cp) { perl_os_thread t; perl_cond cond, cond_next; for (cond = *cp; cond; cond = cond_next) { t = cond->thread; /* Insert t in the runnable queue just ahead of us */ t->i.next_run = thr->i.next_run; thr->i.next_run->i.prev_run = t; t->i.prev_run = thr; thr->i.next_run = t; thr->i.wait_queue = 0; /* Remove from the wait queue */ cond_next = cond->next; Safefree(cond); } *cp = 0; } void perl_cond_wait(perl_cond *cp) { perl_cond cond; if (thr->i.next_run == thr) croak("panic: perl_cond_wait called by last runnable thread"); New(666, cond, 1, struct perl_wait_queue); cond->thread = thr; cond->next = *cp; *cp = cond; thr->i.wait_queue = cond; /* Remove ourselves from runnable queue */ thr->i.next_run->i.prev_run = thr->i.prev_run; thr->i.prev_run->i.next_run = thr->i.next_run; } #endif /* FAKE_THREADS */ #ifdef PTHREAD_GETSPECIFIC_INT struct perl_thread * getTHR _((void)) { pthread_addr_t t; if (pthread_getspecific(PL_thr_key, &t)) croak("panic: pthread_getspecific"); return (struct perl_thread *) t; } #endif MAGIC * condpair_magic(SV *sv) { MAGIC *mg; SvUPGRADE(sv, SVt_PVMG); mg = mg_find(sv, 'm'); if (!mg) { condpair_t *cp; New(53, cp, 1, condpair_t); MUTEX_INIT(&cp->mutex); COND_INIT(&cp->owner_cond); COND_INIT(&cp->cond); cp->owner = 0; LOCK_SV_MUTEX; mg = mg_find(sv, 'm'); if (mg) { /* someone else beat us to initialising it */ UNLOCK_SV_MUTEX; MUTEX_DESTROY(&cp->mutex); COND_DESTROY(&cp->owner_cond); COND_DESTROY(&cp->cond); Safefree(cp); } else { sv_magic(sv, Nullsv, 'm', 0, 0); mg = SvMAGIC(sv); mg->mg_ptr = (char *)cp; mg->mg_len = sizeof(cp); UNLOCK_SV_MUTEX; DEBUG_S(WITH_THR(PerlIO_printf(PerlIO_stderr(), "%p: condpair_magic %p\n", thr, sv));) } } return mg; } /* * Make a new perl thread structure using t as a prototype. Some of the * fields for the new thread are copied from the prototype thread, t, * so t should not be running in perl at the time this function is * called. The use by ext/Thread/Thread.xs in core perl (where t is the * thread calling new_struct_thread) clearly satisfies this constraint. */ struct perl_thread * new_struct_thread(struct perl_thread *t) { struct perl_thread *thr; SV *sv; SV **svp; I32 i; sv = newSVpv("", 0); SvGROW(sv, sizeof(struct perl_thread) + 1); SvCUR_set(sv, sizeof(struct perl_thread)); thr = (Thread) SvPVX(sv); #ifdef DEBUGGING memset(thr, 0xab, sizeof(struct perl_thread)); PL_markstack = 0; PL_scopestack = 0; PL_savestack = 0; PL_retstack = 0; PL_dirty = 0; PL_localizing = 0; Zero(&PL_hv_fetch_ent_mh, 1, HE); #else Zero(thr, 1, struct perl_thread); #endif thr->oursv = sv; init_stacks(ARGS); PL_curcop = &PL_compiling; thr->cvcache = newHV(); thr->threadsv = newAV(); thr->specific = newAV(); thr->errsv = newSVpv("", 0); thr->errhv = newHV(); thr->flags = THRf_R_JOINABLE; MUTEX_INIT(&thr->mutex); /* 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 {}! See comments in scope.h Initialize top entry (as in perl.c for main thread) */ PL_start_env.je_prev = NULL; PL_start_env.je_ret = -1; PL_start_env.je_mustcatch = TRUE; PL_top_env = &PL_start_env; PL_in_eval = FALSE; PL_restartop = 0; PL_statname = NEWSV(66,0); PL_maxscream = -1; PL_regcompp = FUNC_NAME_TO_PTR(pregcomp); PL_regexecp = FUNC_NAME_TO_PTR(regexec_flags); PL_regindent = 0; PL_reginterp_cnt = 0; PL_lastscream = Nullsv; PL_screamfirst = 0; PL_screamnext = 0; PL_reg_start_tmp = 0; PL_reg_start_tmpl = 0; /* parent thread's data needs to be locked while we make copy */ MUTEX_LOCK(&t->mutex); PL_curcop = t->Tcurcop; /* XXX As good a guess as any? */ PL_defstash = t->Tdefstash; /* XXX maybe these should */ PL_curstash = t->Tcurstash; /* always be set to main? */ PL_tainted = t->Ttainted; PL_curpm = t->Tcurpm; /* XXX No PMOP ref count */ PL_nrs = newSVsv(t->Tnrs); PL_rs = SvREFCNT_inc(PL_nrs); PL_last_in_gv = Nullgv; PL_ofslen = t->Tofslen; PL_ofs = savepvn(t->Tofs, PL_ofslen); PL_defoutgv = (GV*)SvREFCNT_inc(t->Tdefoutgv); PL_chopset = t->Tchopset; PL_formtarget = newSVsv(t->Tformtarget); PL_bodytarget = newSVsv(t->Tbodytarget); PL_toptarget = newSVsv(t->Ttoptarget); /* Initialise all per-thread SVs that the template thread used */ svp = AvARRAY(t->threadsv); for (i = 0; i <= AvFILLp(t->threadsv); i++, svp++) { if (*svp && *svp != &PL_sv_undef) { SV *sv = newSVsv(*svp); av_store(thr->threadsv, i, sv); sv_magic(sv, 0, 0, &PL_threadsv_names[i], 1); DEBUG_S(PerlIO_printf(PerlIO_stderr(), "new_struct_thread: copied threadsv %d %p->%p\n",i, t, thr)); } } thr->threadsvp = AvARRAY(thr->threadsv); MUTEX_LOCK(&PL_threads_mutex); PL_nthreads++; thr->tid = ++PL_threadnum; thr->next = t->next; thr->prev = t; t->next = thr; thr->next->prev = thr; MUTEX_UNLOCK(&PL_threads_mutex); /* done copying parent's state */ MUTEX_UNLOCK(&t->mutex); #ifdef HAVE_THREAD_INTERN init_thread_intern(thr); #endif /* HAVE_THREAD_INTERN */ return thr; } #endif /* USE_THREADS */ #ifdef HUGE_VAL /* * This hack is to force load of "huge" support from libm.a * So it is in perl for (say) POSIX to use. * Needed for SunOS with Sun's 'acc' for example. */ double Perl_huge(void) { return HUGE_VAL; } #endif #ifdef PERL_GLOBAL_STRUCT struct perl_vars * Perl_GetVars(void) { return &PL_Vars; } #endif char ** get_op_names(void) { return PL_op_name; } char ** get_op_descs(void) { return PL_op_desc; } char * get_no_modify(void) { return (char*)PL_no_modify; } U32 * get_opargs(void) { return PL_opargs; } SV ** get_specialsv_list(void) { return PL_specialsv_list; } MGVTBL* get_vtbl(int vtbl_id) { MGVTBL* result = Null(MGVTBL*); switch(vtbl_id) { case want_vtbl_sv: result = &PL_vtbl_sv; break; case want_vtbl_env: result = &PL_vtbl_env; break; case want_vtbl_envelem: result = &PL_vtbl_envelem; break; case want_vtbl_sig: result = &PL_vtbl_sig; break; case want_vtbl_sigelem: result = &PL_vtbl_sigelem; break; case want_vtbl_pack: result = &PL_vtbl_pack; break; case want_vtbl_packelem: result = &PL_vtbl_packelem; break; case want_vtbl_dbline: result = &PL_vtbl_dbline; break; case want_vtbl_isa: result = &PL_vtbl_isa; break; case want_vtbl_isaelem: result = &PL_vtbl_isaelem; break; case want_vtbl_arylen: result = &PL_vtbl_arylen; break; case want_vtbl_glob: result = &PL_vtbl_glob; break; case want_vtbl_mglob: result = &PL_vtbl_mglob; break; case want_vtbl_nkeys: result = &PL_vtbl_nkeys; break; case want_vtbl_taint: result = &PL_vtbl_taint; break; case want_vtbl_substr: result = &PL_vtbl_substr; break; case want_vtbl_vec: result = &PL_vtbl_vec; break; case want_vtbl_pos: result = &PL_vtbl_pos; break; case want_vtbl_bm: result = &PL_vtbl_bm; break; case want_vtbl_fm: result = &PL_vtbl_fm; break; case want_vtbl_uvar: result = &PL_vtbl_uvar; break; #ifdef USE_THREADS case want_vtbl_mutex: result = &PL_vtbl_mutex; break; #endif case want_vtbl_defelem: result = &PL_vtbl_defelem; break; case want_vtbl_regexp: result = &PL_vtbl_regexp; break; case want_vtbl_regdata: result = &PL_vtbl_regdata; break; case want_vtbl_regdatum: result = &PL_vtbl_regdatum; break; #ifdef USE_LOCALE_COLLATE case want_vtbl_collxfrm: result = &PL_vtbl_collxfrm; break; #endif case want_vtbl_amagic: result = &PL_vtbl_amagic; break; case want_vtbl_amagicelem: result = &PL_vtbl_amagicelem; break; } return result; }