/* doop.c * * Copyright (C) 1991, 1992, 1993, 1994, 1995, 1996, 1997, 1998, 1999, 2000, * 2001, 2002, 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. * */ /* * 'So that was the job I felt I had to do when I started,' thought Sam. * * [p.934 of _The Lord of the Rings_, VI/iii: "Mount Doom"] */ /* This file contains some common functions needed to carry out certain * ops. For example, both pp_sprintf() and pp_prtf() call the function * do_sprintf() found in this file. */ #include "EXTERN.h" #define PERL_IN_DOOP_C #include "perl.h" #include "invlist_inline.h" #ifndef PERL_MICRO #include #endif /* Helper function for do_trans(). * Handles cases where the search and replacement charlists aren't UTF-8, * aren't identical, and neither the /d nor /s flag is present. * * sv may or may not be utf8. Note that no code point above 255 can possibly * be in the to-translate set */ STATIC Size_t S_do_trans_simple(pTHX_ SV * const sv, const OPtrans_map * const tbl) { Size_t matches = 0; STRLEN len; U8 *s = (U8*)SvPV_nomg(sv,len); U8 * const send = s+len; PERL_ARGS_ASSERT_DO_TRANS_SIMPLE; DEBUG_y(PerlIO_printf(Perl_debug_log, "%s: %d: entering do_trans_simple:" " input sv:\n", __FILE__, __LINE__)); DEBUG_y(sv_dump(sv)); /* First, take care of non-UTF-8 input strings, because they're easy */ if (!SvUTF8(sv)) { while (s < send) { const short ch = tbl->map[*s]; if (ch >= 0) { matches++; *s = (U8)ch; } s++; } SvSETMAGIC(sv); } else { const bool grows = cBOOL(PL_op->op_private & OPpTRANS_GROWS); U8 *d; U8 *dstart; /* Allow for worst-case expansion: Each input byte can become 2. For a * given input character, this happens when it occupies a single byte * under UTF-8, but is to be translated to something that occupies two: * $_="a".chr(400); tr/a/\xFE/, FE needs encoding. */ if (grows) Newx(d, len*2+1, U8); else d = s; dstart = d; while (s < send) { STRLEN ulen; short ch; /* Need to check this, otherwise 128..255 won't match */ const UV c = utf8n_to_uvchr(s, send - s, &ulen, UTF8_ALLOW_DEFAULT); if (c < 0x100 && (ch = tbl->map[c]) >= 0) { matches++; d = uvchr_to_utf8(d, (UV)ch); s += ulen; } else { /* No match -> copy */ Move(s, d, ulen, U8); d += ulen; s += ulen; } } if (grows) { sv_setpvn(sv, (char*)dstart, d - dstart); Safefree(dstart); } else { *d = '\0'; SvCUR_set(sv, d - dstart); } SvUTF8_on(sv); SvSETMAGIC(sv); } DEBUG_y(PerlIO_printf(Perl_debug_log, "%s: %d: returning %zu\n", __FILE__, __LINE__, matches)); DEBUG_y(sv_dump(sv)); return matches; } /* Helper function for do_trans(). * Handles cases where the search and replacement charlists are identical and * non-utf8: so the string isn't modified, and only a count of modifiable * chars is needed. * * Note that it doesn't handle /d or /s, since these modify the string even if * the replacement list is empty. * * sv may or may not be utf8. Note that no code point above 255 can possibly * be in the to-translate set */ STATIC Size_t S_do_trans_count(pTHX_ SV * const sv, const OPtrans_map * const tbl) { STRLEN len; const U8 *s = (const U8*)SvPV_nomg_const(sv, len); const U8 * const send = s + len; Size_t matches = 0; PERL_ARGS_ASSERT_DO_TRANS_COUNT; DEBUG_y(PerlIO_printf(Perl_debug_log, "%s: %d: entering do_trans_count:" " input sv:\n", __FILE__, __LINE__)); DEBUG_y(sv_dump(sv)); if (!SvUTF8(sv)) { while (s < send) { if (tbl->map[*s++] >= 0) matches++; } } else { const bool complement = cBOOL(PL_op->op_private & OPpTRANS_COMPLEMENT); while (s < send) { STRLEN ulen; const UV c = utf8n_to_uvchr(s, send - s, &ulen, UTF8_ALLOW_DEFAULT); if (c < 0x100) { if (tbl->map[c] >= 0) matches++; } else if (complement) matches++; s += ulen; } } DEBUG_y(PerlIO_printf(Perl_debug_log, "%s: %d: count returning %zu\n", __FILE__, __LINE__, matches)); return matches; } /* Helper function for do_trans(). * Handles cases where the search and replacement charlists aren't identical * and both are non-utf8, and one or both of /d, /s is specified. * * sv may or may not be utf8. Note that no code point above 255 can possibly * be in the to-translate set */ STATIC Size_t S_do_trans_complex(pTHX_ SV * const sv, const OPtrans_map * const tbl) { STRLEN len; U8 *s = (U8*)SvPV_nomg(sv, len); U8 * const send = s+len; Size_t matches = 0; const bool complement = cBOOL(PL_op->op_private & OPpTRANS_COMPLEMENT); PERL_ARGS_ASSERT_DO_TRANS_COMPLEX; DEBUG_y(PerlIO_printf(Perl_debug_log, "%s: %d: entering do_trans_complex:" " input sv:\n", __FILE__, __LINE__)); DEBUG_y(sv_dump(sv)); if (!SvUTF8(sv)) { U8 *d = s; U8 * const dstart = d; if (PL_op->op_private & OPpTRANS_SQUASH) { /* What the mapping of the previous character was to. If the new * character has the same mapping, it is squashed from the output * (but still is included in the count) */ short previous_map = (short) TR_OOB; while (s < send) { const short this_map = tbl->map[*s]; if (this_map >= 0) { matches++; if (this_map != previous_map) { *d++ = (U8)this_map; previous_map = this_map; } } else { if (this_map == (short) TR_UNMAPPED) { *d++ = *s; previous_map = (short) TR_OOB; } else { assert(this_map == (short) TR_DELETE); matches++; } } s++; } } else { /* Not to squash */ while (s < send) { const short this_map = tbl->map[*s]; if (this_map >= 0) { matches++; *d++ = (U8)this_map; } else if (this_map == (short) TR_UNMAPPED) *d++ = *s; else if (this_map == (short) TR_DELETE) matches++; s++; } } *d = '\0'; SvCUR_set(sv, d - dstart); } else { /* is utf8 */ const bool squash = cBOOL(PL_op->op_private & OPpTRANS_SQUASH); const bool grows = cBOOL(PL_op->op_private & OPpTRANS_GROWS); U8 *d; U8 *dstart; Size_t size = tbl->size; /* What the mapping of the previous character was to. If the new * character has the same mapping, it is squashed from the output (but * still is included in the count) */ UV pch = TR_OOB; if (grows) /* Allow for worst-case expansion: Each input byte can become 2. * For a given input character, this happens when it occupies a * single byte under UTF-8, but is to be translated to something * that occupies two: */ Newx(d, len*2+1, U8); else d = s; dstart = d; while (s < send) { STRLEN len; const UV comp = utf8n_to_uvchr(s, send - s, &len, UTF8_ALLOW_DEFAULT); UV ch; short sch; sch = (comp < size) ? tbl->map[comp] : (! complement) ? (short) TR_UNMAPPED : tbl->map[size]; if (sch >= 0) { ch = (UV)sch; replace: matches++; if (LIKELY(!squash || ch != pch)) { d = uvchr_to_utf8(d, ch); pch = ch; } s += len; continue; } else if (sch == (short) TR_UNMAPPED) { Move(s, d, len, U8); d += len; pch = TR_OOB; } else if (sch == (short) TR_DELETE) matches++; else { assert(sch == (short) TR_R_EMPTY); /* empty replacement */ ch = comp; goto replace; } s += len; } if (grows) { sv_setpvn(sv, (char*)dstart, d - dstart); Safefree(dstart); } else { *d = '\0'; SvCUR_set(sv, d - dstart); } SvUTF8_on(sv); } SvSETMAGIC(sv); DEBUG_y(PerlIO_printf(Perl_debug_log, "%s: %d: returning %zu\n", __FILE__, __LINE__, matches)); DEBUG_y(sv_dump(sv)); return matches; } /* Helper function for do_trans(). * Handles cases where an inversion map implementation is to be used and the * search and replacement charlists are identical: so the string isn't * modified, and only a count of modifiable chars is needed. * * Note that it doesn't handle /d nor /s, since these modify the string * even if the replacement charlist is empty. * * sv may or may not be utf8. */ STATIC Size_t S_do_trans_count_invmap(pTHX_ SV * const sv, AV * const invmap) { U8 *s; U8 *send; Size_t matches = 0; STRLEN len; SV** const from_invlist_ptr = av_fetch(invmap, 0, TRUE); SV** const to_invmap_ptr = av_fetch(invmap, 1, TRUE); SV* from_invlist = *from_invlist_ptr; SV* to_invmap_sv = *to_invmap_ptr; UV* map = (UV *) SvPVX(to_invmap_sv); PERL_ARGS_ASSERT_DO_TRANS_COUNT_INVMAP; DEBUG_y(PerlIO_printf(Perl_debug_log, "%s: %d:" "entering do_trans_count_invmap:" " input sv:\n", __FILE__, __LINE__)); DEBUG_y(sv_dump(sv)); DEBUG_y(PerlIO_printf(Perl_debug_log, "mapping:\n")); DEBUG_y(invmap_dump(from_invlist, (UV *) SvPVX(to_invmap_sv))); s = (U8*)SvPV_nomg(sv, len); send = s + len; while (s < send) { UV from; SSize_t i; STRLEN s_len; /* Get the code point of the next character in the string */ if (! SvUTF8(sv) || UTF8_IS_INVARIANT(*s)) { from = *s; s_len = 1; } else { from = utf8_to_uvchr_buf(s, send, &s_len); if (from == 0 && *s != '\0') { _force_out_malformed_utf8_message(s, send, 0, /*die*/TRUE); } } /* Look the code point up in the data structure for this tr/// to get * what it maps to */ i = _invlist_search(from_invlist, from); assert(i >= 0); if (map[i] != (UV) TR_UNLISTED) { matches++; } s += s_len; } DEBUG_y(PerlIO_printf(Perl_debug_log, "%s: %d: returning %zu\n", __FILE__, __LINE__, matches)); return matches; } /* Helper function for do_trans(). * Handles cases where an inversion map implementation is to be used and the * search and replacement charlists are either not identical or flags are * present. * * sv may or may not be utf8. */ STATIC Size_t S_do_trans_invmap(pTHX_ SV * const sv, AV * const invmap) { U8 *s; U8 *send; U8 *d; U8 *s0; U8 *d0; Size_t matches = 0; STRLEN len; SV** const from_invlist_ptr = av_fetch(invmap, 0, TRUE); SV** const to_invmap_ptr = av_fetch(invmap, 1, TRUE); SV** const to_expansion_ptr = av_fetch(invmap, 2, TRUE); NV max_expansion = SvNV(*to_expansion_ptr); SV* from_invlist = *from_invlist_ptr; SV* to_invmap_sv = *to_invmap_ptr; UV* map = (UV *) SvPVX(to_invmap_sv); UV previous_map = TR_OOB; const bool squash = cBOOL(PL_op->op_private & OPpTRANS_SQUASH); const bool delete_unfound = cBOOL(PL_op->op_private & OPpTRANS_DELETE); bool inplace = ! cBOOL(PL_op->op_private & OPpTRANS_GROWS); const UV* from_array = invlist_array(from_invlist); UV final_map = TR_OOB; bool out_is_utf8 = cBOOL(SvUTF8(sv)); STRLEN s_len; PERL_ARGS_ASSERT_DO_TRANS_INVMAP; /* A third element in the array indicates that the replacement list was * shorter than the search list, and this element contains the value to use * for the items that don't correspond */ if (av_top_index(invmap) >= 3) { SV** const final_map_ptr = av_fetch(invmap, 3, TRUE); SV* const final_map_sv = *final_map_ptr; final_map = SvUV(final_map_sv); } /* If there is something in the transliteration that could force the input * to be changed to UTF-8, we don't know if we can do it in place, so * assume cannot */ if (! out_is_utf8 && (PL_op->op_private & OPpTRANS_CAN_FORCE_UTF8)) { inplace = FALSE; } s = (U8*)SvPV_nomg(sv, len); DEBUG_y(PerlIO_printf(Perl_debug_log, "%s: %d: entering do_trans_invmap:" " input sv:\n", __FILE__, __LINE__)); DEBUG_y(sv_dump(sv)); DEBUG_y(PerlIO_printf(Perl_debug_log, "mapping:\n")); DEBUG_y(invmap_dump(from_invlist, map)); send = s + len; s0 = s; /* We know by now if there are some possible input strings whose * transliterations are longer than the input. If none can, we just edit * in place. */ if (inplace) { d0 = d = s; } else { /* Here, we can't edit in place. We have no idea how much, if any, * this particular input string will grow. However, the compilation * calculated the maximum expansion possible. Use that to allocate * based on the worst case scenario. (First +1 is to round up; 2nd is * for \0) */ Newx(d, (STRLEN) (len * max_expansion + 1 + 1), U8); d0 = d; } restart: /* Do the actual transliteration */ while (s < send) { UV from; UV to; SSize_t i; STRLEN s_len; /* Get the code point of the next character in the string */ if (! SvUTF8(sv) || UTF8_IS_INVARIANT(*s)) { from = *s; s_len = 1; } else { from = utf8_to_uvchr_buf(s, send, &s_len); if (from == 0 && *s != '\0') { _force_out_malformed_utf8_message(s, send, 0, /*die*/TRUE); } } /* Look the code point up in the data structure for this tr/// to get * what it maps to */ i = _invlist_search(from_invlist, from); assert(i >= 0); to = map[i]; if (to == (UV) TR_UNLISTED) { /* Just copy the unreplaced character */ if (UVCHR_IS_INVARIANT(from) || ! out_is_utf8) { *d++ = (U8) from; } else if (SvUTF8(sv)) { Move(s, d, s_len, U8); d += s_len; } else { /* Convert to UTF-8 */ append_utf8_from_native_byte(*s, &d); } previous_map = to; s += s_len; continue; } /* Everything else is counted as a match */ matches++; if (to == (UV) TR_SPECIAL_HANDLING) { if (delete_unfound) { s += s_len; continue; } /* Use the final character in the replacement list */ to = final_map; } else { /* Here the input code point is to be remapped. The actual value is offset from the base of this entry */ to += from - from_array[i]; } /* If copying all occurrences, or this is the first occurrence, copy it * to the output */ if (! squash || to != previous_map) { if (out_is_utf8) { d = uvchr_to_utf8(d, to); } else { if (to >= 256) { /* If need to convert to UTF-8, restart */ out_is_utf8 = TRUE; s = s0; d = d0; matches = 0; goto restart; } *d++ = (U8) to; } } previous_map = to; s += s_len; } s_len = 0; s += s_len; if (! inplace) { sv_setpvn(sv, (char*)d0, d - d0); Safefree(d0); } else { *d = '\0'; SvCUR_set(sv, d - d0); } if (! SvUTF8(sv) && out_is_utf8) { SvUTF8_on(sv); } SvSETMAGIC(sv); DEBUG_y(PerlIO_printf(Perl_debug_log, "%s: %d: returning %zu\n", __FILE__, __LINE__, matches)); DEBUG_y(sv_dump(sv)); return matches; } /* Execute a tr//. sv is the value to be translated, while PL_op * should be an OP_TRANS or OP_TRANSR op, whose op_pv field contains a * translation table or whose op_sv field contains an inversion map. * * Returns a count of number of characters translated */ Size_t Perl_do_trans(pTHX_ SV *sv) { STRLEN len; const U8 flags = PL_op->op_private; bool use_utf8_fcns = cBOOL(flags & OPpTRANS_USE_SVOP); bool identical = cBOOL(flags & OPpTRANS_IDENTICAL); PERL_ARGS_ASSERT_DO_TRANS; if (SvREADONLY(sv) && ! identical) { Perl_croak_no_modify(); } (void)SvPV_const(sv, len); if (!len) return 0; if (! identical) { if (!SvPOKp(sv) || SvTHINKFIRST(sv)) (void)SvPV_force_nomg(sv, len); (void)SvPOK_only_UTF8(sv); } if (use_utf8_fcns) { SV* const map = #ifdef USE_ITHREADS PAD_SVl(cPADOP->op_padix); #else MUTABLE_SV(cSVOP->op_sv); #endif if (identical) { return do_trans_count_invmap(sv, (AV *) map); } else { return do_trans_invmap(sv, (AV *) map); } } else { const OPtrans_map * const map = (OPtrans_map*)cPVOP->op_pv; if (identical) { return do_trans_count(sv, map); } else if (flags & (OPpTRANS_SQUASH|OPpTRANS_DELETE|OPpTRANS_COMPLEMENT)) { return do_trans_complex(sv, map); } else return do_trans_simple(sv, map); } } void Perl_do_join(pTHX_ SV *sv, SV *delim, SV **mark, SV **sp) { SV ** const oldmark = mark; I32 items = sp - mark; STRLEN len; STRLEN delimlen; const char * const delims = SvPV_const(delim, delimlen); PERL_ARGS_ASSERT_DO_JOIN; mark++; len = (items > 0 ? (delimlen * (items - 1) ) : 0); SvUPGRADE(sv, SVt_PV); if (SvLEN(sv) < len + items) { /* current length is way too short */ while (items-- > 0) { if (*mark && !SvGAMAGIC(*mark) && SvOK(*mark)) { STRLEN tmplen; SvPV_const(*mark, tmplen); len += tmplen; } mark++; } SvGROW(sv, len + 1); /* so try to pre-extend */ mark = oldmark; items = sp - mark; ++mark; } SvPVCLEAR(sv); /* sv_setpv retains old UTF8ness [perl #24846] */ SvUTF8_off(sv); if (TAINTING_get && SvMAGICAL(sv)) SvTAINTED_off(sv); if (items-- > 0) { if (*mark) sv_catsv(sv, *mark); mark++; } if (delimlen) { const U32 delimflag = DO_UTF8(delim) ? SV_CATUTF8 : SV_CATBYTES; for (; items > 0; items--,mark++) { STRLEN len; const char *s; sv_catpvn_flags(sv,delims,delimlen,delimflag); s = SvPV_const(*mark,len); sv_catpvn_flags(sv,s,len, DO_UTF8(*mark) ? SV_CATUTF8 : SV_CATBYTES); } } else { for (; items > 0; items--,mark++) { STRLEN len; const char *s = SvPV_const(*mark,len); sv_catpvn_flags(sv,s,len, DO_UTF8(*mark) ? SV_CATUTF8 : SV_CATBYTES); } } SvSETMAGIC(sv); } void Perl_do_sprintf(pTHX_ SV *sv, SSize_t len, SV **sarg) { STRLEN patlen; const char * const pat = SvPV_const(*sarg, patlen); bool do_taint = FALSE; PERL_ARGS_ASSERT_DO_SPRINTF; assert(len >= 1); if (SvTAINTED(*sarg)) TAINT_PROPER( (PL_op && PL_op->op_type < OP_max) ? (PL_op->op_type == OP_PRTF) ? "printf" : PL_op_name[PL_op->op_type] : "(unknown)" ); SvUTF8_off(sv); if (DO_UTF8(*sarg)) SvUTF8_on(sv); sv_vsetpvfn(sv, pat, patlen, NULL, sarg + 1, (Size_t)(len - 1), &do_taint); SvSETMAGIC(sv); if (do_taint) SvTAINTED_on(sv); } UV Perl_do_vecget(pTHX_ SV *sv, STRLEN offset, int size) { STRLEN srclen, len, avail, uoffset, bitoffs = 0; const I32 svpv_flags = ((PL_op->op_flags & OPf_MOD || LVRET) ? SV_UNDEF_RETURNS_NULL : 0); unsigned char *s = (unsigned char *) SvPV_flags(sv, srclen, (svpv_flags|SV_GMAGIC)); UV retnum = 0; if (!s) { s = (unsigned char *)""; } PERL_ARGS_ASSERT_DO_VECGET; if (size < 1 || (size & (size-1))) /* size < 1 or not a power of two */ Perl_croak(aTHX_ "Illegal number of bits in vec"); if (SvUTF8(sv)) { if (Perl_sv_utf8_downgrade_flags(aTHX_ sv, TRUE, 0)) { /* PVX may have changed */ s = (unsigned char *) SvPV_flags(sv, srclen, svpv_flags); } else { Perl_croak(aTHX_ "Use of strings with code points over 0xFF" " as arguments to vec is forbidden"); } } if (size < 8) { bitoffs = ((offset%8)*size)%8; uoffset = offset/(8/size); } else if (size > 8) { int n = size/8; if (offset > Size_t_MAX / n - 1) /* would overflow */ return 0; uoffset = offset*n; } else uoffset = offset; if (uoffset >= srclen) return 0; len = (bitoffs + size + 7)/8; /* required number of bytes */ avail = srclen - uoffset; /* available number of bytes */ /* Does the byte range overlap the end of the string? If so, * handle specially. */ if (avail < len) { if (size <= 8) retnum = 0; else { if (size == 16) { assert(avail == 1); retnum = (UV) s[uoffset] << 8; } else if (size == 32) { assert(avail >= 1 && avail <= 3); if (avail == 1) retnum = ((UV) s[uoffset ] << 24); else if (avail == 2) retnum = ((UV) s[uoffset ] << 24) + ((UV) s[uoffset + 1] << 16); else retnum = ((UV) s[uoffset ] << 24) + ((UV) s[uoffset + 1] << 16) + ( s[uoffset + 2] << 8); } #ifdef UV_IS_QUAD else if (size == 64) { Perl_ck_warner(aTHX_ packWARN(WARN_PORTABLE), "Bit vector size > 32 non-portable"); assert(avail >= 1 && avail <= 7); if (avail == 1) retnum = (UV) s[uoffset ] << 56; else if (avail == 2) retnum = ((UV) s[uoffset ] << 56) + ((UV) s[uoffset + 1] << 48); else if (avail == 3) retnum = ((UV) s[uoffset ] << 56) + ((UV) s[uoffset + 1] << 48) + ((UV) s[uoffset + 2] << 40); else if (avail == 4) retnum = ((UV) s[uoffset ] << 56) + ((UV) s[uoffset + 1] << 48) + ((UV) s[uoffset + 2] << 40) + ((UV) s[uoffset + 3] << 32); else if (avail == 5) retnum = ((UV) s[uoffset ] << 56) + ((UV) s[uoffset + 1] << 48) + ((UV) s[uoffset + 2] << 40) + ((UV) s[uoffset + 3] << 32) + ((UV) s[uoffset + 4] << 24); else if (avail == 6) retnum = ((UV) s[uoffset ] << 56) + ((UV) s[uoffset + 1] << 48) + ((UV) s[uoffset + 2] << 40) + ((UV) s[uoffset + 3] << 32) + ((UV) s[uoffset + 4] << 24) + ((UV) s[uoffset + 5] << 16); else retnum = ((UV) s[uoffset ] << 56) + ((UV) s[uoffset + 1] << 48) + ((UV) s[uoffset + 2] << 40) + ((UV) s[uoffset + 3] << 32) + ((UV) s[uoffset + 4] << 24) + ((UV) s[uoffset + 5] << 16) + ((UV) s[uoffset + 6] << 8); } #endif } } else if (size < 8) retnum = (s[uoffset] >> bitoffs) & nBIT_MASK(size); else { if (size == 8) retnum = s[uoffset]; else if (size == 16) retnum = ((UV) s[uoffset] << 8) + s[uoffset + 1]; else if (size == 32) retnum = ((UV) s[uoffset ] << 24) + ((UV) s[uoffset + 1] << 16) + ( s[uoffset + 2] << 8) + s[uoffset + 3]; #ifdef UV_IS_QUAD else if (size == 64) { Perl_ck_warner(aTHX_ packWARN(WARN_PORTABLE), "Bit vector size > 32 non-portable"); retnum = ((UV) s[uoffset ] << 56) + ((UV) s[uoffset + 1] << 48) + ((UV) s[uoffset + 2] << 40) + ((UV) s[uoffset + 3] << 32) + ((UV) s[uoffset + 4] << 24) + ((UV) s[uoffset + 5] << 16) + ( s[uoffset + 6] << 8) + s[uoffset + 7]; } #endif } return retnum; } /* currently converts input to bytes if possible but doesn't sweat failures, * although it does ensure that the string it clobbers is not marked as * utf8-valid any more */ void Perl_do_vecset(pTHX_ SV *sv) { STRLEN offset, bitoffs = 0; int size; unsigned char *s; UV lval; I32 mask; STRLEN targlen; STRLEN len; SV * const targ = LvTARG(sv); char errflags = LvFLAGS(sv); PERL_ARGS_ASSERT_DO_VECSET; /* some out-of-range errors have been deferred if/until the LV is * actually written to: f(vec($s,-1,8)) is not always fatal */ if (errflags) { assert(!(errflags & ~(LVf_NEG_OFF|LVf_OUT_OF_RANGE))); if (errflags & LVf_NEG_OFF) Perl_croak_nocontext("Negative offset to vec in lvalue context"); Perl_croak_nocontext("Out of memory!"); } if (!targ) return; s = (unsigned char*)SvPV_force_flags(targ, targlen, SV_GMAGIC | SV_UNDEF_RETURNS_NULL); if (SvUTF8(targ)) { /* This is handled by the SvPOK_only below... if (!Perl_sv_utf8_downgrade_flags(aTHX_ targ, TRUE, 0)) SvUTF8_off(targ); */ (void) Perl_sv_utf8_downgrade_flags(aTHX_ targ, TRUE, 0); } (void)SvPOK_only(targ); lval = SvUV(sv); offset = LvTARGOFF(sv); size = LvTARGLEN(sv); if (size < 1 || (size & (size-1))) /* size < 1 or not a power of two */ Perl_croak(aTHX_ "Illegal number of bits in vec"); if (size < 8) { bitoffs = ((offset%8)*size)%8; offset /= 8/size; } else if (size > 8) { int n = size/8; if (offset > Size_t_MAX / n - 1) /* would overflow */ Perl_croak_nocontext("Out of memory!"); offset *= n; } len = (bitoffs + size + 7)/8; /* required number of bytes */ if (targlen < offset || targlen - offset < len) { STRLEN newlen = offset > Size_t_MAX - len - 1 ? /* avoid overflow */ Size_t_MAX : offset + len + 1; s = (unsigned char*)SvGROW(targ, newlen); (void)memzero((char *)(s + targlen), newlen - targlen); SvCUR_set(targ, newlen - 1); } if (size < 8) { mask = nBIT_MASK(size); lval &= mask; s[offset] &= ~(mask << bitoffs); s[offset] |= lval << bitoffs; } else { if (size == 8) s[offset ] = (U8)( lval & 0xff); else if (size == 16) { s[offset ] = (U8)((lval >> 8) & 0xff); s[offset+1] = (U8)( lval & 0xff); } else if (size == 32) { s[offset ] = (U8)((lval >> 24) & 0xff); s[offset+1] = (U8)((lval >> 16) & 0xff); s[offset+2] = (U8)((lval >> 8) & 0xff); s[offset+3] = (U8)( lval & 0xff); } #ifdef UV_IS_QUAD else if (size == 64) { Perl_ck_warner(aTHX_ packWARN(WARN_PORTABLE), "Bit vector size > 32 non-portable"); s[offset ] = (U8)((lval >> 56) & 0xff); s[offset+1] = (U8)((lval >> 48) & 0xff); s[offset+2] = (U8)((lval >> 40) & 0xff); s[offset+3] = (U8)((lval >> 32) & 0xff); s[offset+4] = (U8)((lval >> 24) & 0xff); s[offset+5] = (U8)((lval >> 16) & 0xff); s[offset+6] = (U8)((lval >> 8) & 0xff); s[offset+7] = (U8)( lval & 0xff); } #endif } SvSETMAGIC(targ); } void Perl_do_vop(pTHX_ I32 optype, SV *sv, SV *left, SV *right) { long *dl; long *ll; long *rl; char *dc; STRLEN leftlen; STRLEN rightlen; const char *lc; const char *rc; STRLEN len = 0; STRLEN lensave; const char *lsave; const char *rsave; STRLEN needlen = 0; bool result_needs_to_be_utf8 = FALSE; bool left_utf8 = FALSE; bool right_utf8 = FALSE; U8 * left_non_downgraded = NULL; U8 * right_non_downgraded = NULL; Size_t left_non_downgraded_len = 0; Size_t right_non_downgraded_len = 0; char * non_downgraded = NULL; Size_t non_downgraded_len = 0; PERL_ARGS_ASSERT_DO_VOP; if (sv != left || (optype != OP_BIT_AND && !SvOK(sv))) SvPVCLEAR(sv); /* avoid undef warning on |= and ^= */ if (sv == left) { lc = SvPV_force_nomg(left, leftlen); } else { lc = SvPV_nomg_const(left, leftlen); SvPV_force_nomg_nolen(sv); } rc = SvPV_nomg_const(right, rightlen); /* This needs to come after SvPV to ensure that string overloading has fired off. */ /* Create downgraded temporaries of any UTF-8 encoded operands */ if (DO_UTF8(left)) { const U8 * save_lc = (U8 *) lc; left_utf8 = TRUE; result_needs_to_be_utf8 = TRUE; left_non_downgraded_len = leftlen; lc = (char *) bytes_from_utf8_loc((const U8 *) lc, &leftlen, &left_utf8, (const U8 **) &left_non_downgraded); /* Calculate the number of trailing unconvertible bytes. This quantity * is the original length minus the length of the converted portion. */ left_non_downgraded_len -= left_non_downgraded - save_lc; SAVEFREEPV(lc); } if (DO_UTF8(right)) { const U8 * save_rc = (U8 *) rc; right_utf8 = TRUE; result_needs_to_be_utf8 = TRUE; right_non_downgraded_len = rightlen; rc = (char *) bytes_from_utf8_loc((const U8 *) rc, &rightlen, &right_utf8, (const U8 **) &right_non_downgraded); right_non_downgraded_len -= right_non_downgraded - save_rc; SAVEFREEPV(rc); } /* We set 'len' to the length that the operation actually operates on. The * dangling part of the longer operand doesn't actually participate in the * operation. What happens is that we pretend that the shorter operand has * been extended to the right by enough imaginary zeros to match the length * of the longer one. But we know in advance the result of the operation * on zeros without having to do it. In the case of '&', the result is * zero, and the dangling portion is simply discarded. For '|' and '^', the * result is the same as the other operand, so the dangling part is just * appended to the final result, unchanged. As of perl-5.32, we no longer * accept above-FF code points in the dangling portion. */ if (left_utf8 || right_utf8) { Perl_croak(aTHX_ FATAL_ABOVE_FF_MSG, PL_op_desc[optype]); } else { /* Neither is UTF-8 */ len = MIN(leftlen, rightlen); } lensave = len; lsave = lc; rsave = rc; (void)SvPOK_only(sv); if (SvOK(sv) || SvTYPE(sv) > SVt_PVMG) { dc = SvPV_force_nomg_nolen(sv); if (SvLEN(sv) < len + 1) { dc = SvGROW(sv, len + 1); (void)memzero(dc + SvCUR(sv), len - SvCUR(sv) + 1); } } else { needlen = optype == OP_BIT_AND ? len : (leftlen > rightlen ? leftlen : rightlen); Newxz(dc, needlen + 1, char); sv_usepvn_flags(sv, dc, needlen, SV_HAS_TRAILING_NUL); dc = SvPVX(sv); /* sv_usepvn() calls Renew() */ } SvCUR_set(sv, len); if (len >= sizeof(long)*4 && !(PTR2nat(dc) % sizeof(long)) && !(PTR2nat(lc) % sizeof(long)) && !(PTR2nat(rc) % sizeof(long))) /* It's almost always aligned... */ { const STRLEN remainder = len % (sizeof(long)*4); len /= (sizeof(long)*4); dl = (long*)dc; ll = (long*)lc; rl = (long*)rc; switch (optype) { case OP_BIT_AND: while (len--) { *dl++ = *ll++ & *rl++; *dl++ = *ll++ & *rl++; *dl++ = *ll++ & *rl++; *dl++ = *ll++ & *rl++; } break; case OP_BIT_XOR: while (len--) { *dl++ = *ll++ ^ *rl++; *dl++ = *ll++ ^ *rl++; *dl++ = *ll++ ^ *rl++; *dl++ = *ll++ ^ *rl++; } break; case OP_BIT_OR: while (len--) { *dl++ = *ll++ | *rl++; *dl++ = *ll++ | *rl++; *dl++ = *ll++ | *rl++; *dl++ = *ll++ | *rl++; } } dc = (char*)dl; lc = (char*)ll; rc = (char*)rl; len = remainder; } switch (optype) { case OP_BIT_AND: while (len--) *dc++ = *lc++ & *rc++; *dc = '\0'; break; case OP_BIT_XOR: while (len--) *dc++ = *lc++ ^ *rc++; goto mop_up; case OP_BIT_OR: while (len--) *dc++ = *lc++ | *rc++; mop_up: len = lensave; if (rightlen > len) { if (dc == rc) SvCUR_set(sv, rightlen); else sv_catpvn_nomg(sv, rsave + len, rightlen - len); } else if (leftlen > len) { if (dc == lc) SvCUR_set(sv, leftlen); else sv_catpvn_nomg(sv, lsave + len, leftlen - len); } *SvEND(sv) = '\0'; /* If there is trailing stuff that couldn't be converted from UTF-8, it * is appended as-is for the ^ and | operators. This preserves * backwards compatibility */ if (right_non_downgraded) { non_downgraded = (char *) right_non_downgraded; non_downgraded_len = right_non_downgraded_len; } else if (left_non_downgraded) { non_downgraded = (char *) left_non_downgraded; non_downgraded_len = left_non_downgraded_len; } break; } if (result_needs_to_be_utf8) { sv_utf8_upgrade_nomg(sv); /* Append any trailing UTF-8 as-is. */ if (non_downgraded) { sv_catpvn_nomg(sv, non_downgraded, non_downgraded_len); } } SvTAINT(sv); } /* Perl_do_kv() may be: * * called directly as the pp function for pp_keys() and pp_values(); * * It may also be called directly when the op is OP_AVHVSWITCH, to * implement CORE::keys(), CORE::values(). * * In all cases it expects an HV on the stack and returns a list of keys, * values, or key-value pairs, depending on PL_op. */ OP * Perl_do_kv(pTHX) { dSP; HV * const keys = MUTABLE_HV(POPs); const U8 gimme = GIMME_V; const I32 dokeys = (PL_op->op_type == OP_KEYS) || ( PL_op->op_type == OP_AVHVSWITCH && (PL_op->op_private & OPpAVHVSWITCH_MASK) + OP_EACH == OP_KEYS); const I32 dovalues = (PL_op->op_type == OP_VALUES) || ( PL_op->op_type == OP_AVHVSWITCH && (PL_op->op_private & OPpAVHVSWITCH_MASK) + OP_EACH == OP_VALUES); assert( PL_op->op_type == OP_KEYS || PL_op->op_type == OP_VALUES || PL_op->op_type == OP_AVHVSWITCH); assert(!( PL_op->op_type == OP_VALUES && (PL_op->op_private & OPpMAYBE_LVSUB))); (void)hv_iterinit(keys); /* always reset iterator regardless */ if (gimme == G_VOID) RETURN; if (gimme == G_SCALAR) { if (PL_op->op_flags & OPf_MOD || LVRET) { /* lvalue */ SV * const ret = sv_2mortal(newSV_type(SVt_PVLV)); /* Not TARG RT#67838 */ sv_magic(ret, NULL, PERL_MAGIC_nkeys, NULL, 0); LvTYPE(ret) = 'k'; LvTARG(ret) = SvREFCNT_inc_simple(keys); PUSHs(ret); } else { IV i; dTARGET; /* note that in 'scalar(keys %h)' the OP_KEYS is usually * optimised away and the action is performed directly by the * padhv or rv2hv op. We now only get here via OP_AVHVSWITCH * and \&CORE::keys */ if (! SvTIED_mg((const SV *)keys, PERL_MAGIC_tied) ) { i = HvUSEDKEYS(keys); } else { i = 0; while (hv_iternext(keys)) i++; } PUSHi( i ); } RETURN; } if (UNLIKELY(PL_op->op_private & OPpMAYBE_LVSUB)) { const I32 flags = is_lvalue_sub(); if (flags && !(flags & OPpENTERSUB_INARGS)) /* diag_listed_as: Can't modify %s in %s */ Perl_croak(aTHX_ "Can't modify keys in list assignment"); } PUTBACK; hv_pushkv(keys, (dokeys | (dovalues << 1))); return NORMAL; } /* * ex: set ts=8 sts=4 sw=4 et: */