/********************************************************************** re.c - $Author: yugui $ created at: Mon Aug 9 18:24:49 JST 1993 Copyright (C) 1993-2007 Yukihiro Matsumoto **********************************************************************/ #include "ruby/ruby.h" #include "ruby/re.h" #include "ruby/encoding.h" #include "ruby/util.h" #include "regint.h" #include VALUE rb_eRegexpError; typedef char onig_errmsg_buffer[ONIG_MAX_ERROR_MESSAGE_LEN]; #define errcpy(err, msg) strlcpy((err), (msg), ONIG_MAX_ERROR_MESSAGE_LEN) #define BEG(no) regs->beg[no] #define END(no) regs->end[no] #if 'a' == 97 /* it's ascii */ static const char casetable[] = { '\000', '\001', '\002', '\003', '\004', '\005', '\006', '\007', '\010', '\011', '\012', '\013', '\014', '\015', '\016', '\017', '\020', '\021', '\022', '\023', '\024', '\025', '\026', '\027', '\030', '\031', '\032', '\033', '\034', '\035', '\036', '\037', /* ' ' '!' '"' '#' '$' '%' '&' ''' */ '\040', '\041', '\042', '\043', '\044', '\045', '\046', '\047', /* '(' ')' '*' '+' ',' '-' '.' '/' */ '\050', '\051', '\052', '\053', '\054', '\055', '\056', '\057', /* '0' '1' '2' '3' '4' '5' '6' '7' */ '\060', '\061', '\062', '\063', '\064', '\065', '\066', '\067', /* '8' '9' ':' ';' '<' '=' '>' '?' */ '\070', '\071', '\072', '\073', '\074', '\075', '\076', '\077', /* '@' 'A' 'B' 'C' 'D' 'E' 'F' 'G' */ '\100', '\141', '\142', '\143', '\144', '\145', '\146', '\147', /* 'H' 'I' 'J' 'K' 'L' 'M' 'N' 'O' */ '\150', '\151', '\152', '\153', '\154', '\155', '\156', '\157', /* 'P' 'Q' 'R' 'S' 'T' 'U' 'V' 'W' */ '\160', '\161', '\162', '\163', '\164', '\165', '\166', '\167', /* 'X' 'Y' 'Z' '[' '\' ']' '^' '_' */ '\170', '\171', '\172', '\133', '\134', '\135', '\136', '\137', /* '`' 'a' 'b' 'c' 'd' 'e' 'f' 'g' */ '\140', '\141', '\142', '\143', '\144', '\145', '\146', '\147', /* 'h' 'i' 'j' 'k' 'l' 'm' 'n' 'o' */ '\150', '\151', '\152', '\153', '\154', '\155', '\156', '\157', /* 'p' 'q' 'r' 's' 't' 'u' 'v' 'w' */ '\160', '\161', '\162', '\163', '\164', '\165', '\166', '\167', /* 'x' 'y' 'z' '{' '|' '}' '~' */ '\170', '\171', '\172', '\173', '\174', '\175', '\176', '\177', '\200', '\201', '\202', '\203', '\204', '\205', '\206', '\207', '\210', '\211', '\212', '\213', '\214', '\215', '\216', '\217', '\220', '\221', '\222', '\223', '\224', '\225', '\226', '\227', '\230', '\231', '\232', '\233', '\234', '\235', '\236', '\237', '\240', '\241', '\242', '\243', '\244', '\245', '\246', '\247', '\250', '\251', '\252', '\253', '\254', '\255', '\256', '\257', '\260', '\261', '\262', '\263', '\264', '\265', '\266', '\267', '\270', '\271', '\272', '\273', '\274', '\275', '\276', '\277', '\300', '\301', '\302', '\303', '\304', '\305', '\306', '\307', '\310', '\311', '\312', '\313', '\314', '\315', '\316', '\317', '\320', '\321', '\322', '\323', '\324', '\325', '\326', '\327', '\330', '\331', '\332', '\333', '\334', '\335', '\336', '\337', '\340', '\341', '\342', '\343', '\344', '\345', '\346', '\347', '\350', '\351', '\352', '\353', '\354', '\355', '\356', '\357', '\360', '\361', '\362', '\363', '\364', '\365', '\366', '\367', '\370', '\371', '\372', '\373', '\374', '\375', '\376', '\377', }; #else # error >>> "You lose. You will need a translation table for your character set." <<< #endif int rb_memcicmp(const void *x, const void *y, long len) { const unsigned char *p1 = x, *p2 = y; int tmp; while (len--) { if ((tmp = casetable[(unsigned)*p1++] - casetable[(unsigned)*p2++])) return tmp; } return 0; } #undef rb_memcmp int rb_memcmp(const void *p1, const void *p2, long len) { return memcmp(p1, p2, len); } static inline long rb_memsearch_ss(const unsigned char *xs, long m, const unsigned char *ys, long n) { const unsigned char *x = xs, *xe = xs + m; const unsigned char *y = ys, *ye = ys + n; #ifndef VALUE_MAX # if SIZEOF_VALUE == 8 # define VALUE_MAX 0xFFFFFFFFFFFFFFFFULL # elif SIZEOF_VALUE == 4 # define VALUE_MAX 0xFFFFFFFFUL # endif #endif VALUE hx, hy, mask = VALUE_MAX >> ((SIZEOF_VALUE - m) * CHAR_BIT); if (m > SIZEOF_VALUE) rb_bug("!!too long pattern string!!"); /* Prepare hash value */ for (hx = *x++, hy = *y++; x < xe; ++x, ++y) { hx <<= CHAR_BIT; hy <<= CHAR_BIT; hx |= *x; hy |= *y; } /* Searching */ while (hx != hy) { if (y == ye) return -1; hy <<= CHAR_BIT; hy |= *y; hy &= mask; y++; } return y - ys - m; } static inline long rb_memsearch_qs(const unsigned char *xs, long m, const unsigned char *ys, long n) { const unsigned char *x = xs, *xe = xs + m; const unsigned char *y = ys; VALUE i, qstable[256]; /* Preprocessing */ for (i = 0; i < 256; ++i) qstable[i] = m + 1; for (; x < xe; ++x) qstable[*x] = xe - x; /* Searching */ for (; y + m <= ys + n; y += *(qstable + y[m])) { if (*xs == *y && memcmp(xs, y, m) == 0) return y - ys; } return -1; } static inline unsigned int rb_memsearch_qs_utf8_hash(const unsigned char *x) { register const unsigned int mix = 8353; register unsigned int h = *x; if (h < 0xC0) { return h + 256; } else if (h < 0xE0) { h *= mix; h += x[1]; } else if (h < 0xF0) { h *= mix; h += x[1]; h *= mix; h += x[2]; } else if (h < 0xF5) { h *= mix; h += x[1]; h *= mix; h += x[2]; h *= mix; h += x[3]; } else { return h + 256; } return (unsigned char)h; } static inline long rb_memsearch_qs_utf8(const unsigned char *xs, long m, const unsigned char *ys, long n) { const unsigned char *x = xs, *xe = xs + m; const unsigned char *y = ys; VALUE i, qstable[512]; /* Preprocessing */ for (i = 0; i < 512; ++i) { qstable[i] = m + 1; } for (; x < xe; ++x) { qstable[rb_memsearch_qs_utf8_hash(x)] = xe - x; } /* Searching */ for (; y + m <= ys + n; y += qstable[rb_memsearch_qs_utf8_hash(y+m)]) { if (*xs == *y && memcmp(xs, y, m) == 0) return y - ys; } return -1; } long rb_memsearch(const void *x0, long m, const void *y0, long n, rb_encoding *enc) { const unsigned char *x = x0, *y = y0; if (m > n) return -1; else if (m == n) { return memcmp(x0, y0, m) == 0 ? 0 : -1; } else if (m < 1) { return 0; } else if (m == 1) { const unsigned char *ys = y, *ye = ys + n; for (; y < ye; ++y) { if (*x == *y) return y - ys; } return -1; } else if (m <= SIZEOF_VALUE) { return rb_memsearch_ss(x0, m, y0, n); } else if (enc == rb_utf8_encoding()){ return rb_memsearch_qs_utf8(x0, m, y0, n); } else { return rb_memsearch_qs(x0, m, y0, n); } } #define REG_LITERAL FL_USER5 #define REG_ENCODING_NONE FL_USER6 #define KCODE_FIXED FL_USER4 #define ARG_REG_OPTION_MASK \ (ONIG_OPTION_IGNORECASE|ONIG_OPTION_MULTILINE|ONIG_OPTION_EXTEND) #define ARG_ENCODING_FIXED 16 #define ARG_ENCODING_NONE 32 static int char_to_option(int c) { int val; switch (c) { case 'i': val = ONIG_OPTION_IGNORECASE; break; case 'x': val = ONIG_OPTION_EXTEND; break; case 'm': val = ONIG_OPTION_MULTILINE; break; default: val = 0; break; } return val; } static char * option_to_str(char str[4], int options) { char *p = str; if (options & ONIG_OPTION_MULTILINE) *p++ = 'm'; if (options & ONIG_OPTION_IGNORECASE) *p++ = 'i'; if (options & ONIG_OPTION_EXTEND) *p++ = 'x'; *p = 0; return str; } extern int rb_char_to_option_kcode(int c, int *option, int *kcode) { *option = 0; switch (c) { case 'n': *kcode = rb_ascii8bit_encindex(); return (*option = ARG_ENCODING_NONE); case 'e': *kcode = rb_enc_find_index("EUC-JP"); break; case 's': *kcode = rb_enc_find_index("Windows-31J"); break; case 'u': *kcode = rb_utf8_encindex(); break; default: *kcode = -1; return (*option = char_to_option(c)); } *option = ARG_ENCODING_FIXED; return 1; } static void rb_reg_check(VALUE re) { if (!RREGEXP(re)->ptr || !RREGEXP_SRC(re) || !RREGEXP_SRC_PTR(re)) { rb_raise(rb_eTypeError, "uninitialized Regexp"); } } int rb_str_buf_cat_escaped_char(VALUE result, unsigned int c, int unicode_p); static void rb_reg_expr_str(VALUE str, const char *s, long len, rb_encoding *enc, rb_encoding *resenc) { const char *p, *pend; int need_escape = 0; int c, clen; p = s; pend = p + len; if (rb_enc_asciicompat(enc)) { while (p < pend) { c = rb_enc_ascget(p, pend, &clen, enc); if (c == -1) { if (enc == resenc) { p += mbclen(p, pend, enc); } else { need_escape = 1; break; } } else if (c != '/' && rb_enc_isprint(c, enc)) { p += clen; } else { need_escape = 1; break; } } } else { need_escape = 1; } if (!need_escape) { rb_str_buf_cat(str, s, len); } else { int unicode_p = rb_enc_unicode_p(enc); p = s; while (pptr->options)) rb_str_buf_cat2(str, opts); if (RBASIC(re)->flags & REG_ENCODING_NONE) rb_str_buf_cat2(str, "n"); } OBJ_INFECT(str, re); return str; } /* * call-seq: * rxp.source -> str * * Returns the original string of the pattern. * * /ab+c/ix.source #=> "ab+c" * * Note that escape sequences are retained as is. * * /\x20\+/.source #=> "\\x20\\+" * */ static VALUE rb_reg_source(VALUE re) { VALUE str; rb_reg_check(re); str = rb_enc_str_new(RREGEXP_SRC_PTR(re),RREGEXP_SRC_LEN(re), rb_enc_get(re)); if (OBJ_TAINTED(re)) OBJ_TAINT(str); return str; } /* * call-seq: * rxp.inspect -> string * * Produce a nicely formatted string-version of _rxp_. Perhaps surprisingly, * #inspect actually produces the more natural version of * the string than #to_s. * * /ab+c/ix.inspect #=> "/ab+c/ix" * */ static VALUE rb_reg_inspect(VALUE re) { if (!RREGEXP(re)->ptr || !RREGEXP_SRC(re) || !RREGEXP_SRC_PTR(re)) { return rb_any_to_s(re); } return rb_reg_desc(RREGEXP_SRC_PTR(re), RREGEXP_SRC_LEN(re), re); } /* * call-seq: * rxp.to_s -> str * * Returns a string containing the regular expression and its options (using the * (?opts:source) notation. This string can be fed back in to * Regexp::new to a regular expression with the same semantics as * the original. (However, Regexp#== may not return true when * comparing the two, as the source of the regular expression itself may * differ, as the example shows). Regexp#inspect produces a * generally more readable version of rxp. * * r1 = /ab+c/ix #=> /ab+c/ix * s1 = r1.to_s #=> "(?ix-m:ab+c)" * r2 = Regexp.new(s1) #=> /(?ix-m:ab+c)/ * r1 == r2 #=> false * r1.source #=> "ab+c" * r2.source #=> "(?ix-m:ab+c)" */ static VALUE rb_reg_to_s(VALUE re) { int options, opt; const int embeddable = ONIG_OPTION_MULTILINE|ONIG_OPTION_IGNORECASE|ONIG_OPTION_EXTEND; long len; const UChar* ptr; VALUE str = rb_str_buf_new2("(?"); char optbuf[5]; rb_encoding *enc = rb_enc_get(re); rb_reg_check(re); rb_enc_copy(str, re); options = RREGEXP(re)->ptr->options; ptr = (UChar*)RREGEXP_SRC_PTR(re); len = RREGEXP_SRC_LEN(re); again: if (len >= 4 && ptr[0] == '(' && ptr[1] == '?') { int err = 1; ptr += 2; if ((len -= 2) > 0) { do { opt = char_to_option((int )*ptr); if (opt != 0) { options |= opt; } else { break; } ++ptr; } while (--len > 0); } if (len > 1 && *ptr == '-') { ++ptr; --len; do { opt = char_to_option((int )*ptr); if (opt != 0) { options &= ~opt; } else { break; } ++ptr; } while (--len > 0); } if (*ptr == ')') { --len; ++ptr; goto again; } if (*ptr == ':' && ptr[len-1] == ')') { Regexp *rp; ++ptr; len -= 2; err = onig_new(&rp, ptr, ptr + len, ONIG_OPTION_DEFAULT, enc, OnigDefaultSyntax, NULL); onig_free(rp); } if (err) { options = RREGEXP(re)->ptr->options; ptr = (UChar*)RREGEXP_SRC_PTR(re); len = RREGEXP_SRC_LEN(re); } } if (*option_to_str(optbuf, options)) rb_str_buf_cat2(str, optbuf); if ((options & embeddable) != embeddable) { optbuf[0] = '-'; option_to_str(optbuf + 1, ~options); rb_str_buf_cat2(str, optbuf); } rb_str_buf_cat2(str, ":"); rb_reg_expr_str(str, (char*)ptr, len, enc, NULL); rb_str_buf_cat2(str, ")"); rb_enc_copy(str, re); OBJ_INFECT(str, re); return str; } static void rb_reg_raise(const char *s, long len, const char *err, VALUE re) { volatile VALUE desc = rb_reg_desc(s, len, re); rb_raise(rb_eRegexpError, "%s: %s", err, RSTRING_PTR(desc)); } static VALUE rb_enc_reg_error_desc(const char *s, long len, rb_encoding *enc, int options, const char *err) { char opts[6]; VALUE desc = rb_str_buf_new2(err); rb_encoding *resenc = rb_default_internal_encoding(); if (resenc == NULL) resenc = rb_default_external_encoding(); rb_enc_associate(desc, enc); rb_str_buf_cat2(desc, ": /"); rb_reg_expr_str(desc, s, len, enc, resenc); opts[0] = '/'; option_to_str(opts + 1, options); rb_str_buf_cat2(desc, opts); return rb_exc_new3(rb_eRegexpError, desc); } static void rb_enc_reg_raise(const char *s, long len, rb_encoding *enc, int options, const char *err) { rb_exc_raise(rb_enc_reg_error_desc(s, len, enc, options, err)); } static VALUE rb_reg_error_desc(VALUE str, int options, const char *err) { return rb_enc_reg_error_desc(RSTRING_PTR(str), RSTRING_LEN(str), rb_enc_get(str), options, err); } static void rb_reg_raise_str(VALUE str, int options, const char *err) { rb_exc_raise(rb_reg_error_desc(str, options, err)); } /* * call-seq: * rxp.casefold? -> true or false * * Returns the value of the case-insensitive flag. * * /a/.casefold? #=> false * /a/i.casefold? #=> true * /(?i:a)/.casefold? #=> false */ static VALUE rb_reg_casefold_p(VALUE re) { rb_reg_check(re); if (RREGEXP(re)->ptr->options & ONIG_OPTION_IGNORECASE) return Qtrue; return Qfalse; } /* * call-seq: * rxp.options -> fixnum * * Returns the set of bits corresponding to the options used when creating this * Regexp (see Regexp::new for details. Note that additional bits * may be set in the returned options: these are used internally by the regular * expression code. These extra bits are ignored if the options are passed to * Regexp::new. * * Regexp::IGNORECASE #=> 1 * Regexp::EXTENDED #=> 2 * Regexp::MULTILINE #=> 4 * * /cat/.options #=> 0 * /cat/ix.options #=> 3 * Regexp.new('cat', true).options #=> 1 * /\xa1\xa2/e.options #=> 16 * * r = /cat/ix * Regexp.new(r.source, r.options) #=> /cat/ix */ static VALUE rb_reg_options_m(VALUE re) { int options = rb_reg_options(re); return INT2NUM(options); } static int reg_names_iter(const OnigUChar *name, const OnigUChar *name_end, int back_num, int *back_refs, OnigRegex regex, void *arg) { VALUE ary = (VALUE)arg; rb_ary_push(ary, rb_str_new((const char *)name, name_end-name)); return 0; } /* * call-seq: * rxp.names -> [name1, name2, ...] * * Returns a list of names of captures as an array of strings. * * /(?.)(?.)(?.)/.names * #=> ["foo", "bar", "baz"] * * /(?.)(?.)/.names * #=> ["foo"] * * /(.)(.)/.names * #=> [] */ static VALUE rb_reg_names(VALUE re) { VALUE ary = rb_ary_new(); rb_reg_check(re); onig_foreach_name(RREGEXP(re)->ptr, reg_names_iter, (void*)ary); return ary; } static int reg_named_captures_iter(const OnigUChar *name, const OnigUChar *name_end, int back_num, int *back_refs, OnigRegex regex, void *arg) { VALUE hash = (VALUE)arg; VALUE ary = rb_ary_new2(back_num); int i; for(i = 0; i < back_num; i++) rb_ary_store(ary, i, INT2NUM(back_refs[i])); rb_hash_aset(hash, rb_str_new((const char*)name, name_end-name),ary); return 0; } /* * call-seq: * rxp.named_captures -> hash * * Returns a hash representing information about named captures of rxp. * * A key of the hash is a name of the named captures. * A value of the hash is an array which is list of indexes of corresponding * named captures. * * /(?.)(?.)/.named_captures * #=> {"foo"=>[1], "bar"=>[2]} * * /(?.)(?.)/.named_captures * #=> {"foo"=>[1, 2]} * * If there are no named captures, an empty hash is returned. * * /(.)(.)/.named_captures * #=> {} */ static VALUE rb_reg_named_captures(VALUE re) { VALUE hash = rb_hash_new(); rb_reg_check(re); onig_foreach_name(RREGEXP(re)->ptr, reg_named_captures_iter, (void*)hash); return hash; } static int onig_new_with_source(regex_t** reg, const UChar* pattern, const UChar* pattern_end, OnigOptionType option, OnigEncoding enc, const OnigSyntaxType* syntax, OnigErrorInfo* einfo, const char *sourcefile, int sourceline) { int r; *reg = (regex_t* )xmalloc(sizeof(regex_t)); if (IS_NULL(*reg)) return ONIGERR_MEMORY; r = onig_reg_init(*reg, option, ONIGENC_CASE_FOLD_DEFAULT, enc, syntax); if (r) goto err; r = onig_compile(*reg, pattern, pattern_end, einfo, sourcefile, sourceline); if (r) { err: onig_free(*reg); *reg = NULL; } return r; } static Regexp* make_regexp(const char *s, long len, rb_encoding *enc, int flags, onig_errmsg_buffer err, const char *sourcefile, int sourceline) { Regexp *rp; int r; OnigErrorInfo einfo; /* Handle escaped characters first. */ /* Build a copy of the string (in dest) with the escaped characters translated, and generate the regex from that. */ r = onig_new_with_source(&rp, (UChar*)s, (UChar*)(s + len), flags, enc, OnigDefaultSyntax, &einfo, sourcefile, sourceline); if (r) { onig_error_code_to_str((UChar*)err, r, &einfo); return 0; } return rp; } /* * Document-class: MatchData * * MatchData is the type of the special variable $~, * and is the type of the object returned by Regexp#match and * Regexp.last_match. It encapsulates all the results of a pattern * match, results normally accessed through the special variables * $&, $', $`, $1, * $2, and so on. * */ VALUE rb_cMatch; static VALUE match_alloc(VALUE klass) { NEWOBJ(match, struct RMatch); OBJSETUP(match, klass, T_MATCH); match->str = 0; match->rmatch = 0; match->regexp = 0; match->rmatch = ALLOC(struct rmatch); MEMZERO(match->rmatch, struct rmatch, 1); return (VALUE)match; } typedef struct { long byte_pos; long char_pos; } pair_t; static int pair_byte_cmp(const void *pair1, const void *pair2) { long diff = ((pair_t*)pair1)->byte_pos - ((pair_t*)pair2)->byte_pos; #if SIZEOF_LONG > SIZEOF_INT return diff ? diff > 0 ? 1 : -1 : 0; #else return (int)diff; #endif } static void update_char_offset(VALUE match) { struct rmatch *rm = RMATCH(match)->rmatch; struct re_registers *regs; int i, num_regs, num_pos; long c; char *s, *p, *q, *e; rb_encoding *enc; pair_t *pairs; if (rm->char_offset_updated) return; regs = &rm->regs; num_regs = rm->regs.num_regs; if (rm->char_offset_num_allocated < num_regs) { REALLOC_N(rm->char_offset, struct rmatch_offset, num_regs); rm->char_offset_num_allocated = num_regs; } enc = rb_enc_get(RMATCH(match)->str); if (rb_enc_mbmaxlen(enc) == 1) { for (i = 0; i < num_regs; i++) { rm->char_offset[i].beg = BEG(i); rm->char_offset[i].end = END(i); } rm->char_offset_updated = 1; return; } pairs = ALLOCA_N(pair_t, num_regs*2); num_pos = 0; for (i = 0; i < num_regs; i++) { if (BEG(i) < 0) continue; pairs[num_pos++].byte_pos = BEG(i); pairs[num_pos++].byte_pos = END(i); } qsort(pairs, num_pos, sizeof(pair_t), pair_byte_cmp); s = p = RSTRING_PTR(RMATCH(match)->str); e = s + RSTRING_LEN(RMATCH(match)->str); c = 0; for (i = 0; i < num_pos; i++) { q = s + pairs[i].byte_pos; c += rb_enc_strlen(p, q, enc); pairs[i].char_pos = c; p = q; } for (i = 0; i < num_regs; i++) { pair_t key, *found; if (BEG(i) < 0) { rm->char_offset[i].beg = -1; rm->char_offset[i].end = -1; continue; } key.byte_pos = BEG(i); found = bsearch(&key, pairs, num_pos, sizeof(pair_t), pair_byte_cmp); rm->char_offset[i].beg = found->char_pos; key.byte_pos = END(i); found = bsearch(&key, pairs, num_pos, sizeof(pair_t), pair_byte_cmp); rm->char_offset[i].end = found->char_pos; } rm->char_offset_updated = 1; } static void match_check(VALUE match) { if (!RMATCH(match)->regexp) { rb_raise(rb_eTypeError, "uninitialized Match"); } } /* :nodoc: */ static VALUE match_init_copy(VALUE obj, VALUE orig) { struct rmatch *rm; if (obj == orig) return obj; if (!rb_obj_is_instance_of(orig, rb_obj_class(obj))) { rb_raise(rb_eTypeError, "wrong argument class"); } RMATCH(obj)->str = RMATCH(orig)->str; RMATCH(obj)->regexp = RMATCH(orig)->regexp; rm = RMATCH(obj)->rmatch; onig_region_copy(&rm->regs, RMATCH_REGS(orig)); if (!RMATCH(orig)->rmatch->char_offset_updated) { rm->char_offset_updated = 0; } else { if (rm->char_offset_num_allocated < rm->regs.num_regs) { REALLOC_N(rm->char_offset, struct rmatch_offset, rm->regs.num_regs); rm->char_offset_num_allocated = rm->regs.num_regs; } MEMCPY(rm->char_offset, RMATCH(orig)->rmatch->char_offset, struct rmatch_offset, rm->regs.num_regs); rm->char_offset_updated = 1; } return obj; } /* * call-seq: * mtch.regexp -> regexp * * Returns the regexp. * * m = /a.*b/.match("abc") * m.regexp #=> /a.*b/ */ static VALUE match_regexp(VALUE match) { match_check(match); return RMATCH(match)->regexp; } /* * call-seq: * mtch.names -> [name1, name2, ...] * * Returns a list of names of captures as an array of strings. * It is same as mtch.regexp.names. * * /(?.)(?.)(?.)/.match("hoge").names * #=> ["foo", "bar", "baz"] * * m = /(?.)(?.)?/.match("a") #=> # * m.names #=> ["x", "y"] */ static VALUE match_names(VALUE match) { match_check(match); return rb_reg_names(RMATCH(match)->regexp); } /* * call-seq: * mtch.length -> integer * mtch.size -> integer * * Returns the number of elements in the match array. * * m = /(.)(.)(\d+)(\d)/.match("THX1138.") * m.length #=> 5 * m.size #=> 5 */ static VALUE match_size(VALUE match) { match_check(match); return INT2FIX(RMATCH_REGS(match)->num_regs); } static int match_backref_number(VALUE match, VALUE backref) { const char *name; int num; struct re_registers *regs = RMATCH_REGS(match); VALUE regexp = RMATCH(match)->regexp; match_check(match); switch(TYPE(backref)) { default: return NUM2INT(backref); case T_SYMBOL: name = rb_id2name(SYM2ID(backref)); break; case T_STRING: name = StringValueCStr(backref); break; } num = onig_name_to_backref_number(RREGEXP(regexp)->ptr, (const unsigned char*)name, (const unsigned char*)name + strlen(name), regs); if (num < 1) { rb_raise(rb_eIndexError, "undefined group name reference: %s", name); } return num; } int rb_reg_backref_number(VALUE match, VALUE backref) { return match_backref_number(match, backref); } /* * call-seq: * mtch.offset(n) -> array * * Returns a two-element array containing the beginning and ending offsets of * the nth match. * n can be a string or symbol to reference a named capture. * * m = /(.)(.)(\d+)(\d)/.match("THX1138.") * m.offset(0) #=> [1, 7] * m.offset(4) #=> [6, 7] * * m = /(?.)(.)(?.)/.match("hoge") * p m.offset(:foo) #=> [0, 1] * p m.offset(:bar) #=> [2, 3] * */ static VALUE match_offset(VALUE match, VALUE n) { int i = match_backref_number(match, n); struct re_registers *regs = RMATCH_REGS(match); match_check(match); if (i < 0 || regs->num_regs <= i) rb_raise(rb_eIndexError, "index %d out of matches", i); if (BEG(i) < 0) return rb_assoc_new(Qnil, Qnil); update_char_offset(match); return rb_assoc_new(INT2FIX(RMATCH(match)->rmatch->char_offset[i].beg), INT2FIX(RMATCH(match)->rmatch->char_offset[i].end)); } /* * call-seq: * mtch.begin(n) -> integer * * Returns the offset of the start of the nth element of the match * array in the string. * n can be a string or symbol to reference a named capture. * * m = /(.)(.)(\d+)(\d)/.match("THX1138.") * m.begin(0) #=> 1 * m.begin(2) #=> 2 * * m = /(?.)(.)(?.)/.match("hoge") * p m.begin(:foo) #=> 0 * p m.begin(:bar) #=> 2 */ static VALUE match_begin(VALUE match, VALUE n) { int i = match_backref_number(match, n); struct re_registers *regs = RMATCH_REGS(match); match_check(match); if (i < 0 || regs->num_regs <= i) rb_raise(rb_eIndexError, "index %d out of matches", i); if (BEG(i) < 0) return Qnil; update_char_offset(match); return INT2FIX(RMATCH(match)->rmatch->char_offset[i].beg); } /* * call-seq: * mtch.end(n) -> integer * * Returns the offset of the character immediately following the end of the * nth element of the match array in the string. * n can be a string or symbol to reference a named capture. * * m = /(.)(.)(\d+)(\d)/.match("THX1138.") * m.end(0) #=> 7 * m.end(2) #=> 3 * * m = /(?.)(.)(?.)/.match("hoge") * p m.end(:foo) #=> 1 * p m.end(:bar) #=> 3 */ static VALUE match_end(VALUE match, VALUE n) { int i = match_backref_number(match, n); struct re_registers *regs = RMATCH_REGS(match); match_check(match); if (i < 0 || regs->num_regs <= i) rb_raise(rb_eIndexError, "index %d out of matches", i); if (BEG(i) < 0) return Qnil; update_char_offset(match); return INT2FIX(RMATCH(match)->rmatch->char_offset[i].end); } #define MATCH_BUSY FL_USER2 void rb_match_busy(VALUE match) { FL_SET(match, MATCH_BUSY); } /* * call-seq: * rxp.fixed_encoding? -> true or false * * Returns false if rxp is applicable to * a string with any ASCII compatible encoding. * Returns true otherwise. * * r = /a/ * r.fixed_encoding? #=> false * r =~ "\u{6666} a" #=> 2 * r =~ "\xa1\xa2 a".force_encoding("euc-jp") #=> 2 * r =~ "abc".force_encoding("euc-jp") #=> 0 * * r = /a/u * r.fixed_encoding? #=> true * r.encoding #=> # * r =~ "\u{6666} a" #=> 2 * r =~ "\xa1\xa2".force_encoding("euc-jp") #=> ArgumentError * r =~ "abc".force_encoding("euc-jp") #=> 0 * * r = /\u{6666}/ * r.fixed_encoding? #=> true * r.encoding #=> # * r =~ "\u{6666} a" #=> 0 * r =~ "\xa1\xa2".force_encoding("euc-jp") #=> ArgumentError * r =~ "abc".force_encoding("euc-jp") #=> nil */ static VALUE rb_reg_fixed_encoding_p(VALUE re) { if (FL_TEST(re, KCODE_FIXED)) return Qtrue; else return Qfalse; } static VALUE rb_reg_preprocess(const char *p, const char *end, rb_encoding *enc, rb_encoding **fixed_enc, onig_errmsg_buffer err); static void reg_enc_error(VALUE re, VALUE str) { rb_raise(rb_eEncCompatError, "incompatible encoding regexp match (%s regexp with %s string)", rb_enc_name(rb_enc_get(re)), rb_enc_name(rb_enc_get(str))); } static rb_encoding* rb_reg_prepare_enc(VALUE re, VALUE str, int warn) { rb_encoding *enc = 0; if (rb_enc_str_coderange(str) == ENC_CODERANGE_BROKEN) { rb_raise(rb_eArgError, "invalid byte sequence in %s", rb_enc_name(rb_enc_get(str))); } rb_reg_check(re); enc = rb_enc_get(str); if (!rb_enc_str_asciicompat_p(str)) { if (RREGEXP(re)->ptr->enc != enc) { reg_enc_error(re, str); } } else if (rb_reg_fixed_encoding_p(re)) { //RHO if (RREGEXP(re)->ptr->enc != enc && (!rb_enc_asciicompat(RREGEXP(re)->ptr->enc) || rb_enc_str_coderange(str) != ENC_CODERANGE_7BIT)) { rb_encoding *renc = rb_enc_get(re); if (renc != enc && (!rb_enc_asciicompat(renc) || rb_enc_str_coderange(str) != ENC_CODERANGE_7BIT)) reg_enc_error(re, str); else enc = renc; }else enc = RREGEXP(re)->ptr->enc; //RHO } if (warn && (RBASIC(re)->flags & REG_ENCODING_NONE) && enc != rb_ascii8bit_encoding() && rb_enc_str_coderange(str) != ENC_CODERANGE_7BIT) { rb_warn("regexp match /.../n against to %s string", rb_enc_name(enc)); } return enc; } regex_t * rb_reg_prepare_re(VALUE re, VALUE str) { regex_t *reg = RREGEXP(re)->ptr; onig_errmsg_buffer err = ""; int r; OnigErrorInfo einfo; const char *pattern; VALUE unescaped; rb_encoding *fixed_enc = 0; rb_encoding *enc = rb_reg_prepare_enc(re, str, 1); if (reg->enc == enc) return reg; //RHO if (reg->enc->ruby_encoding_index == rb_ascii8bit_encindex() && enc->ruby_encoding_index == rb_usascii_encindex() ) return reg; if (reg->enc->ruby_encoding_index == rb_usascii_encindex() && enc->ruby_encoding_index == rb_ascii8bit_encindex() ) return reg; //RHO rb_reg_check(re); reg = RREGEXP(re)->ptr; pattern = RREGEXP_SRC_PTR(re); unescaped = rb_reg_preprocess( pattern, pattern + RREGEXP_SRC_LEN(re), enc, &fixed_enc, err); if (unescaped == Qnil) { rb_raise(rb_eArgError, "regexp preprocess failed: %s", err); } r = onig_new(®, (UChar* )RSTRING_PTR(unescaped), (UChar* )(RSTRING_PTR(unescaped) + RSTRING_LEN(unescaped)), reg->options, enc, OnigDefaultSyntax, &einfo); if (r) { onig_error_code_to_str((UChar*)err, r, &einfo); rb_reg_raise(pattern, RREGEXP_SRC_LEN(re), err, re); } RB_GC_GUARD(unescaped); return reg; } long rb_reg_adjust_startpos(VALUE re, VALUE str, long pos, int reverse) { long range; rb_encoding *enc; UChar *p, *string; enc = rb_reg_prepare_enc(re, str, 0); if (reverse) { range = -pos; } else { range = RSTRING_LEN(str) - pos; } if (pos > 0 && ONIGENC_MBC_MAXLEN(enc) != 1 && pos < RSTRING_LEN(str)) { string = (UChar*)RSTRING_PTR(str); if (range > 0) { p = onigenc_get_right_adjust_char_head(enc, string, string + pos, string + RSTRING_LEN(str)); } else { p = ONIGENC_LEFT_ADJUST_CHAR_HEAD(enc, string, string + pos, string + RSTRING_LEN(str)); } return p - string; } return pos; } long rb_reg_search(VALUE re, VALUE str, long pos, int reverse) { long result; VALUE match; struct re_registers regi, *regs = ®i; char *range = RSTRING_PTR(str); regex_t *reg; int tmpreg; if (pos > RSTRING_LEN(str) || pos < 0) { rb_backref_set(Qnil); return -1; } reg = rb_reg_prepare_re(re, str); tmpreg = reg != RREGEXP(re)->ptr; if (!tmpreg) RREGEXP(re)->usecnt++; match = rb_backref_get(); if (!NIL_P(match)) { if (FL_TEST(match, MATCH_BUSY)) { match = Qnil; } else { regs = RMATCH_REGS(match); } } if (NIL_P(match)) { MEMZERO(regs, struct re_registers, 1); } if (!reverse) { range += RSTRING_LEN(str); } result = onig_search(reg, (UChar*)(RSTRING_PTR(str)), ((UChar*)(RSTRING_PTR(str)) + RSTRING_LEN(str)), ((UChar*)(RSTRING_PTR(str)) + pos), ((UChar*)range), regs, ONIG_OPTION_NONE); if (!tmpreg) RREGEXP(re)->usecnt--; if (tmpreg) { if (RREGEXP(re)->usecnt) { onig_free(reg); } else { onig_free(RREGEXP(re)->ptr); RREGEXP(re)->ptr = reg; } } if (result < 0) { if (regs == ®i) onig_region_free(regs, 0); if (result == ONIG_MISMATCH) { rb_backref_set(Qnil); return result; } else { onig_errmsg_buffer err = ""; onig_error_code_to_str((UChar*)err, (int)result); rb_reg_raise(RREGEXP_SRC_PTR(re), RREGEXP_SRC_LEN(re), err, re); } } if (NIL_P(match)) { match = match_alloc(rb_cMatch); onig_region_copy(RMATCH_REGS(match), regs); onig_region_free(regs, 0); } else { if (rb_safe_level() >= 3) OBJ_TAINT(match); else FL_UNSET(match, FL_TAINT); } RMATCH(match)->str = rb_str_new4(str); RMATCH(match)->regexp = re; RMATCH(match)->rmatch->char_offset_updated = 0; rb_backref_set(match); OBJ_INFECT(match, re); OBJ_INFECT(match, str); return result; } VALUE rb_reg_nth_defined(int nth, VALUE match) { struct re_registers *regs; if (NIL_P(match)) return Qnil; match_check(match); regs = RMATCH_REGS(match); if (nth >= regs->num_regs) { return Qnil; } if (nth < 0) { nth += regs->num_regs; if (nth <= 0) return Qnil; } if (BEG(nth) == -1) return Qfalse; return Qtrue; } VALUE rb_reg_nth_match(int nth, VALUE match) { VALUE str; long start, end, len; struct re_registers *regs; if (NIL_P(match)) return Qnil; match_check(match); regs = RMATCH_REGS(match); if (nth >= regs->num_regs) { return Qnil; } if (nth < 0) { nth += regs->num_regs; if (nth <= 0) return Qnil; } start = BEG(nth); if (start == -1) return Qnil; end = END(nth); len = end - start; str = rb_str_subseq(RMATCH(match)->str, start, len); OBJ_INFECT(str, match); return str; } VALUE rb_reg_last_match(VALUE match) { return rb_reg_nth_match(0, match); } /* * call-seq: * mtch.pre_match -> str * * Returns the portion of the original string before the current match. * Equivalent to the special variable $`. * * m = /(.)(.)(\d+)(\d)/.match("THX1138.") * m.pre_match #=> "T" */ VALUE rb_reg_match_pre(VALUE match) { VALUE str; struct re_registers *regs; if (NIL_P(match)) return Qnil; match_check(match); regs = RMATCH_REGS(match); if (BEG(0) == -1) return Qnil; str = rb_str_subseq(RMATCH(match)->str, 0, BEG(0)); if (OBJ_TAINTED(match)) OBJ_TAINT(str); return str; } /* * call-seq: * mtch.post_match -> str * * Returns the portion of the original string after the current match. * Equivalent to the special variable $'. * * m = /(.)(.)(\d+)(\d)/.match("THX1138: The Movie") * m.post_match #=> ": The Movie" */ VALUE rb_reg_match_post(VALUE match) { VALUE str; long pos; struct re_registers *regs; if (NIL_P(match)) return Qnil; match_check(match); regs = RMATCH_REGS(match); if (BEG(0) == -1) return Qnil; str = RMATCH(match)->str; pos = END(0); str = rb_str_subseq(str, pos, RSTRING_LEN(str) - pos); if (OBJ_TAINTED(match)) OBJ_TAINT(str); return str; } VALUE rb_reg_match_last(VALUE match) { int i; struct re_registers *regs; if (NIL_P(match)) return Qnil; match_check(match); regs = RMATCH_REGS(match); if (BEG(0) == -1) return Qnil; for (i=regs->num_regs-1; BEG(i) == -1 && i > 0; i--) ; if (i == 0) return Qnil; return rb_reg_nth_match(i, match); } static VALUE last_match_getter(void) { return rb_reg_last_match(rb_backref_get()); } static VALUE prematch_getter(void) { return rb_reg_match_pre(rb_backref_get()); } static VALUE postmatch_getter(void) { return rb_reg_match_post(rb_backref_get()); } static VALUE last_paren_match_getter(void) { return rb_reg_match_last(rb_backref_get()); } static VALUE match_array(VALUE match, int start) { struct re_registers *regs; VALUE ary; VALUE target; int i; int taint = OBJ_TAINTED(match); match_check(match); regs = RMATCH_REGS(match); ary = rb_ary_new2(regs->num_regs); target = RMATCH(match)->str; for (i=start; inum_regs; i++) { if (regs->beg[i] == -1) { rb_ary_push(ary, Qnil); } else { VALUE str = rb_str_subseq(target, regs->beg[i], regs->end[i]-regs->beg[i]); if (taint) OBJ_TAINT(str); rb_ary_push(ary, str); } } return ary; } /* [MG]:FIXME: I put parens around the /.../.match() in the first line of the second example to prevent the '*' followed by a '/' from ending the comment. */ /* * call-seq: * mtch.to_a -> anArray * * Returns the array of matches. * * m = /(.)(.)(\d+)(\d)/.match("THX1138.") * m.to_a #=> ["HX1138", "H", "X", "113", "8"] * * Because to_a is called when expanding * *variable, there's a useful assignment * shortcut for extracting matched fields. This is slightly slower than * accessing the fields directly (as an intermediate array is * generated). * * all,f1,f2,f3 = *(/(.)(.)(\d+)(\d)/.match("THX1138.")) * all #=> "HX1138" * f1 #=> "H" * f2 #=> "X" * f3 #=> "113" */ static VALUE match_to_a(VALUE match) { return match_array(match, 0); } /* * call-seq: * mtch.captures -> array * * Returns the array of captures; equivalent to mtch.to_a[1..-1]. * * f1,f2,f3,f4 = /(.)(.)(\d+)(\d)/.match("THX1138.").captures * f1 #=> "H" * f2 #=> "X" * f3 #=> "113" * f4 #=> "8" */ static VALUE match_captures(VALUE match) { return match_array(match, 1); } static int name_to_backref_number(struct re_registers *regs, VALUE regexp, const char* name, const char* name_end) { int num; num = onig_name_to_backref_number(RREGEXP(regexp)->ptr, (const unsigned char* )name, (const unsigned char* )name_end, regs); if (num >= 1) { return num; } else { VALUE s = rb_str_new(name, (long )(name_end - name)); rb_raise(rb_eIndexError, "undefined group name reference: %s", StringValuePtr(s)); } } /* * call-seq: * mtch[i] -> str or nil * mtch[start, length] -> array * mtch[range] -> array * mtch[name] -> str or nil * * Match Reference---MatchData acts as an array, and may be * accessed using the normal array indexing techniques. mtch[0] is * equivalent to the special variable $&, and returns the entire * matched string. mtch[1], mtch[2], and so on return the values * of the matched backreferences (portions of the pattern between parentheses). * * m = /(.)(.)(\d+)(\d)/.match("THX1138.") * m #=> # * m[0] #=> "HX1138" * m[1, 2] #=> ["H", "X"] * m[1..3] #=> ["H", "X", "113"] * m[-3, 2] #=> ["X", "113"] * * m = /(?a+)b/.match("ccaaab") * m #=> # * m["foo"] #=> "aaa" * m[:foo] #=> "aaa" */ static VALUE match_aref(int argc, VALUE *argv, VALUE match) { VALUE idx, rest; match_check(match); rb_scan_args(argc, argv, "11", &idx, &rest); if (NIL_P(rest)) { if (FIXNUM_P(idx)) { if (FIX2INT(idx) >= 0) { return rb_reg_nth_match(FIX2INT(idx), match); } } else { const char *p; int num; switch (TYPE(idx)) { case T_SYMBOL: p = rb_id2name(SYM2ID(idx)); goto name_to_backref; break; case T_STRING: p = StringValuePtr(idx); name_to_backref: num = name_to_backref_number(RMATCH_REGS(match), RMATCH(match)->regexp, p, p + strlen(p)); return rb_reg_nth_match(num, match); break; default: break; } } } return rb_ary_aref(argc, argv, match_to_a(match)); } static VALUE match_entry(VALUE match, long n) { /* n should not exceed num_regs */ return rb_reg_nth_match((int)n, match); } /* * call-seq: * * mtch.values_at([index]*) -> array * * Uses each index to access the matching values, returning an array of * the corresponding matches. * * m = /(.)(.)(\d+)(\d)/.match("THX1138: The Movie") * m.to_a #=> ["HX1138", "H", "X", "113", "8"] * m.values_at(0, 2, -2) #=> ["HX1138", "X", "113"] */ static VALUE match_values_at(int argc, VALUE *argv, VALUE match) { struct re_registers *regs; match_check(match); regs = RMATCH_REGS(match); return rb_get_values_at(match, regs->num_regs, argc, argv, match_entry); } /* * call-seq: * mtch.to_s -> str * * Returns the entire matched string. * * m = /(.)(.)(\d+)(\d)/.match("THX1138.") * m.to_s #=> "HX1138" */ static VALUE match_to_s(VALUE match) { VALUE str = rb_reg_last_match(match); match_check(match); if (NIL_P(str)) str = rb_str_new(0,0); if (OBJ_TAINTED(match)) OBJ_TAINT(str); if (OBJ_TAINTED(RMATCH(match)->str)) OBJ_TAINT(str); return str; } /* * call-seq: * mtch.string -> str * * Returns a frozen copy of the string passed in to match. * * m = /(.)(.)(\d+)(\d)/.match("THX1138.") * m.string #=> "THX1138." */ static VALUE match_string(VALUE match) { match_check(match); return RMATCH(match)->str; /* str is frozen */ } struct backref_name_tag { const UChar *name; long len; }; static int match_inspect_name_iter(const OnigUChar *name, const OnigUChar *name_end, int back_num, int *back_refs, OnigRegex regex, void *arg0) { struct backref_name_tag *arg = (struct backref_name_tag *)arg0; int i; for (i = 0; i < back_num; i++) { arg[back_refs[i]].name = name; arg[back_refs[i]].len = name_end - name; } return 0; } /* * call-seq: * mtch.inspect -> str * * Returns a printable version of mtch. * * puts /.$/.match("foo").inspect * #=> # * * puts /(.)(.)(.)/.match("foo").inspect * #=> # * * puts /(.)(.)?(.)/.match("fo").inspect * #=> # * * puts /(?.)(?.)(?.)/.match("hoge").inspect * #=> # * */ static VALUE match_inspect(VALUE match) { const char *cname = rb_obj_classname(match); VALUE str; int i; struct re_registers *regs = RMATCH_REGS(match); int num_regs = regs->num_regs; struct backref_name_tag *names; VALUE regexp = RMATCH(match)->regexp; if (regexp == 0) { return rb_sprintf("#<%s:%p>", cname, (void*)match); } names = ALLOCA_N(struct backref_name_tag, num_regs); MEMZERO(names, struct backref_name_tag, num_regs); onig_foreach_name(RREGEXP(regexp)->ptr, match_inspect_name_iter, names); str = rb_str_buf_new2("#<"); rb_str_buf_cat2(str, cname); for (i = 0; i < num_regs; i++) { VALUE v; rb_str_buf_cat2(str, " "); if (0 < i) { if (names[i].name) rb_str_buf_cat(str, (const char *)names[i].name, names[i].len); else { rb_str_catf(str, "%d", i); } rb_str_buf_cat2(str, ":"); } v = rb_reg_nth_match(i, match); if (v == Qnil) rb_str_buf_cat2(str, "nil"); else rb_str_buf_append(str, rb_str_inspect(v)); } rb_str_buf_cat2(str, ">"); return str; } VALUE rb_cRegexp; static int read_escaped_byte(const char **pp, const char *end, onig_errmsg_buffer err) { const char *p = *pp; int code; int meta_prefix = 0, ctrl_prefix = 0; size_t len; int retbyte; retbyte = -1; if (p == end || *p++ != '\\') { errcpy(err, "too short escaped multibyte character"); return -1; } again: if (p == end) { errcpy(err, "too short escape sequence"); return -1; } switch (*p++) { case '\\': code = '\\'; break; case 'n': code = '\n'; break; case 't': code = '\t'; break; case 'r': code = '\r'; break; case 'f': code = '\f'; break; case 'v': code = '\013'; break; case 'a': code = '\007'; break; case 'e': code = '\033'; break; /* \OOO */ case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': p--; code = scan_oct(p, end < p+3 ? end-p : 3, &len); p += len; break; case 'x': /* \xHH */ code = scan_hex(p, end < p+2 ? end-p : 2, &len); if (len < 1) { errcpy(err, "invalid hex escape"); return -1; } p += len; break; case 'M': /* \M-X, \M-\C-X, \M-\cX */ if (meta_prefix) { errcpy(err, "duplicate meta escape"); return -1; } meta_prefix = 1; if (p+1 < end && *p++ == '-' && (*p & 0x80) == 0) { if (*p == '\\') { p++; goto again; } else { code = *p++; break; } } errcpy(err, "too short meta escape"); return -1; case 'C': /* \C-X, \C-\M-X */ if (p == end || *p++ != '-') { errcpy(err, "too short control escape"); return -1; } case 'c': /* \cX, \c\M-X */ if (ctrl_prefix) { errcpy(err, "duplicate control escape"); return -1; } ctrl_prefix = 1; if (p < end && (*p & 0x80) == 0) { if (*p == '\\') { p++; goto again; } else { code = *p++; break; } } errcpy(err, "too short control escape"); return -1; default: errcpy(err, "unexpected escape sequence"); return -1; } if (code < 0 || 0xff < code) { errcpy(err, "invalid escape code"); return -1; } if (ctrl_prefix) code &= 0x1f; if (meta_prefix) code |= 0x80; *pp = p; return code; } static int unescape_escaped_nonascii(const char **pp, const char *end, rb_encoding *enc, VALUE buf, rb_encoding **encp, onig_errmsg_buffer err) { const char *p = *pp; int chmaxlen = rb_enc_mbmaxlen(enc); char *chbuf = ALLOCA_N(char, chmaxlen); int chlen = 0; int byte; int l; memset(chbuf, 0, chmaxlen); byte = read_escaped_byte(&p, end, err); if (byte == -1) { return -1; } chbuf[chlen++] = byte; while (chlen < chmaxlen && MBCLEN_NEEDMORE_P(rb_enc_precise_mbclen(chbuf, chbuf+chlen, enc))) { byte = read_escaped_byte(&p, end, err); if (byte == -1) { return -1; } chbuf[chlen++] = byte; } l = rb_enc_precise_mbclen(chbuf, chbuf+chlen, enc); if (MBCLEN_INVALID_P(l)) { errcpy(err, "invalid multibyte escape"); return -1; } if (1 < chlen || (chbuf[0] & 0x80)) { rb_str_buf_cat(buf, chbuf, chlen); if (*encp == 0) *encp = enc; else if (*encp != enc) { errcpy(err, "escaped non ASCII character in UTF-8 regexp"); return -1; } } else { char escbuf[5]; snprintf(escbuf, sizeof(escbuf), "\\x%02X", chbuf[0]&0xff); rb_str_buf_cat(buf, escbuf, 4); } *pp = p; return 0; } static int check_unicode_range(unsigned long code, onig_errmsg_buffer err) { if ((0xd800 <= code && code <= 0xdfff) || /* Surrogates */ 0x10ffff < code) { errcpy(err, "invalid Unicode range"); return -1; } return 0; } static int append_utf8(unsigned long uv, VALUE buf, rb_encoding **encp, onig_errmsg_buffer err) { if (check_unicode_range(uv, err) != 0) return -1; if (uv < 0x80) { char escbuf[5]; snprintf(escbuf, sizeof(escbuf), "\\x%02X", (int)uv); rb_str_buf_cat(buf, escbuf, 4); } else { int len; char utf8buf[6]; len = rb_uv_to_utf8(utf8buf, uv); rb_str_buf_cat(buf, utf8buf, len); if (*encp == 0) *encp = rb_utf8_encoding(); else if (*encp != rb_utf8_encoding()) { errcpy(err, "UTF-8 character in non UTF-8 regexp"); return -1; } } return 0; } static int unescape_unicode_list(const char **pp, const char *end, VALUE buf, rb_encoding **encp, onig_errmsg_buffer err) { const char *p = *pp; int has_unicode = 0; unsigned long code; size_t len; while (p < end && ISSPACE(*p)) p++; while (1) { code = ruby_scan_hex(p, end-p, &len); if (len == 0) break; if (6 < len) { /* max 10FFFF */ errcpy(err, "invalid Unicode range"); return -1; } p += len; if (append_utf8(code, buf, encp, err) != 0) return -1; has_unicode = 1; while (p < end && ISSPACE(*p)) p++; } if (has_unicode == 0) { errcpy(err, "invalid Unicode list"); return -1; } *pp = p; return 0; } static int unescape_unicode_bmp(const char **pp, const char *end, VALUE buf, rb_encoding **encp, onig_errmsg_buffer err) { const char *p = *pp; size_t len; unsigned long code; if (end < p+4) { errcpy(err, "invalid Unicode escape"); return -1; } code = ruby_scan_hex(p, 4, &len); if (len != 4) { errcpy(err, "invalid Unicode escape"); return -1; } if (append_utf8(code, buf, encp, err) != 0) return -1; *pp = p + 4; return 0; } static int unescape_nonascii(const char *p, const char *end, rb_encoding *enc, VALUE buf, rb_encoding **encp, int *has_property, onig_errmsg_buffer err) { char c; char smallbuf[2]; while (p < end) { int chlen = rb_enc_precise_mbclen(p, end, enc); if (!MBCLEN_CHARFOUND_P(chlen)) { errcpy(err, "invalid multibyte character"); return -1; } chlen = MBCLEN_CHARFOUND_LEN(chlen); if (1 < chlen || (*p & 0x80)) { rb_str_buf_cat(buf, p, chlen); p += chlen; if (*encp == 0) *encp = enc; else if (*encp != enc) { errcpy(err, "non ASCII character in UTF-8 regexp"); return -1; } continue; } switch (c = *p++) { case '\\': if (p == end) { errcpy(err, "too short escape sequence"); return -1; } switch (c = *p++) { case '1': case '2': case '3': case '4': case '5': case '6': case '7': /* \O, \OO, \OOO or backref */ { size_t octlen; if (ruby_scan_oct(p-1, end-(p-1), &octlen) <= 0177) { /* backref or 7bit octal. no need to unescape anyway. re-escaping may break backref */ goto escape_asis; } } /* xxx: How about more than 199 subexpressions? */ case '0': /* \0, \0O, \0OO */ case 'x': /* \xHH */ case 'c': /* \cX, \c\M-X */ case 'C': /* \C-X, \C-\M-X */ case 'M': /* \M-X, \M-\C-X, \M-\cX */ p = p-2; if (unescape_escaped_nonascii(&p, end, enc, buf, encp, err) != 0) return -1; break; case 'u': if (p == end) { errcpy(err, "too short escape sequence"); return -1; } if (*p == '{') { /* \u{H HH HHH HHHH HHHHH HHHHHH ...} */ p++; if (unescape_unicode_list(&p, end, buf, encp, err) != 0) return -1; if (p == end || *p++ != '}') { errcpy(err, "invalid Unicode list"); return -1; } break; } else { /* \uHHHH */ if (unescape_unicode_bmp(&p, end, buf, encp, err) != 0) return -1; break; } case 'p': /* \p{Hiragana} */ case 'P': if (!*encp) { *has_property = 1; } goto escape_asis; default: /* \n, \\, \d, \9, etc. */ escape_asis: smallbuf[0] = '\\'; smallbuf[1] = c; rb_str_buf_cat(buf, smallbuf, 2); break; } break; default: rb_str_buf_cat(buf, &c, 1); break; } } return 0; } static VALUE rb_reg_preprocess(const char *p, const char *end, rb_encoding *enc, rb_encoding **fixed_enc, onig_errmsg_buffer err) { VALUE buf; int has_property = 0; buf = rb_str_buf_new(0); if (rb_enc_asciicompat(enc)) *fixed_enc = 0; else { *fixed_enc = enc; rb_enc_associate(buf, enc); } if (unescape_nonascii(p, end, enc, buf, fixed_enc, &has_property, err) != 0) return Qnil; if (has_property && !*fixed_enc) { *fixed_enc = enc; } if (*fixed_enc) { rb_enc_associate(buf, *fixed_enc); } return buf; } VALUE rb_reg_check_preprocess(VALUE str) { rb_encoding *fixed_enc = 0; onig_errmsg_buffer err = ""; VALUE buf; char *p, *end; rb_encoding *enc; StringValue(str); p = RSTRING_PTR(str); end = p + RSTRING_LEN(str); enc = rb_enc_get(str); buf = rb_reg_preprocess(p, end, enc, &fixed_enc, err); RB_GC_GUARD(str); if (buf == Qnil) { return rb_reg_error_desc(str, 0, err); } return Qnil; } static VALUE rb_reg_preprocess_dregexp(VALUE ary, int options) { rb_encoding *fixed_enc = 0; rb_encoding *regexp_enc = 0; onig_errmsg_buffer err = ""; int i; VALUE result = 0; rb_encoding *ascii8bit = rb_ascii8bit_encoding(); if (RARRAY_LEN(ary) == 0) { rb_raise(rb_eArgError, "no arguments given"); } for (i = 0; i < RARRAY_LEN(ary); i++) { VALUE str = RARRAY_PTR(ary)[i]; VALUE buf; char *p, *end; rb_encoding *src_enc; src_enc = rb_enc_get(str); if (options & ARG_ENCODING_NONE && src_enc != ascii8bit) { if (rb_enc_str_coderange(str) != ENC_CODERANGE_7BIT) rb_raise(rb_eRegexpError, "/.../n has a non escaped non ASCII character in non ASCII-8BIT script"); else src_enc = ascii8bit; } StringValue(str); p = RSTRING_PTR(str); end = p + RSTRING_LEN(str); buf = rb_reg_preprocess(p, end, src_enc, &fixed_enc, err); if (buf == Qnil) rb_raise(rb_eArgError, "%s", err); if (fixed_enc != 0) { if (regexp_enc != 0 && regexp_enc != fixed_enc) { rb_raise(rb_eRegexpError, "encoding mismatch in dynamic regexp : %s and %s", rb_enc_name(regexp_enc), rb_enc_name(fixed_enc)); } regexp_enc = fixed_enc; } if (!result) result = rb_str_new3(str); else rb_str_buf_append(result, str); } if (regexp_enc) { rb_enc_associate(result, regexp_enc); } return result; } static int rb_reg_initialize(VALUE obj, const char *s, long len, rb_encoding *enc, int options, onig_errmsg_buffer err, const char *sourcefile, int sourceline) { struct RRegexp *re = RREGEXP(obj); VALUE unescaped; rb_encoding *fixed_enc = 0; rb_encoding *a_enc = rb_ascii8bit_encoding(); if (!OBJ_UNTRUSTED(obj) && rb_safe_level() >= 4) rb_raise(rb_eSecurityError, "Insecure: can't modify regexp"); rb_check_frozen(obj); if (FL_TEST(obj, REG_LITERAL)) rb_raise(rb_eSecurityError, "can't modify literal regexp"); if (re->ptr) rb_raise(rb_eTypeError, "already initialized regexp"); re->ptr = 0; if (rb_enc_dummy_p(enc)) { errcpy(err, "can't make regexp with dummy encoding"); return -1; } unescaped = rb_reg_preprocess(s, s+len, enc, &fixed_enc, err); if (unescaped == Qnil) return -1; if (fixed_enc) { if ((fixed_enc != enc && (options & ARG_ENCODING_FIXED)) || (fixed_enc != a_enc && (options & ARG_ENCODING_NONE))) { errcpy(err, "incompatible character encoding"); return -1; } if (fixed_enc != a_enc) { options |= ARG_ENCODING_FIXED; enc = fixed_enc; } } else if (!(options & ARG_ENCODING_FIXED)) { enc = rb_usascii_encoding(); } rb_enc_associate((VALUE)re, enc); if ((options & ARG_ENCODING_FIXED) || fixed_enc) { re->basic.flags |= KCODE_FIXED; } if (options & ARG_ENCODING_NONE) { re->basic.flags |= REG_ENCODING_NONE; } re->ptr = make_regexp(RSTRING_PTR(unescaped), RSTRING_LEN(unescaped), enc, options & ARG_REG_OPTION_MASK, err, sourcefile, sourceline); if (!re->ptr) return -1; re->src = rb_enc_str_new(s, len, enc); OBJ_FREEZE(re->src); RB_GC_GUARD(unescaped); return 0; } static int rb_reg_initialize_str(VALUE obj, VALUE str, int options, onig_errmsg_buffer err, const char *sourcefile, int sourceline) { int ret; rb_encoding *enc = rb_enc_get(str); if (options & ARG_ENCODING_NONE) { rb_encoding *ascii8bit = rb_ascii8bit_encoding(); if (enc != ascii8bit) { if (rb_enc_str_coderange(str) != ENC_CODERANGE_7BIT) { errcpy(err, "/.../n has a non escaped non ASCII character in non ASCII-8BIT script"); return -1; } enc = ascii8bit; } } ret = rb_reg_initialize(obj, RSTRING_PTR(str), RSTRING_LEN(str), enc, options, err, sourcefile, sourceline); OBJ_INFECT(obj, str); RB_GC_GUARD(str); return ret; } static VALUE rb_reg_s_alloc(VALUE klass) { NEWOBJ(re, struct RRegexp); OBJSETUP(re, klass, T_REGEXP); re->ptr = 0; re->src = 0; re->usecnt = 0; return (VALUE)re; } VALUE rb_reg_alloc(void) { return rb_reg_s_alloc(rb_cRegexp); } VALUE rb_reg_new_str(VALUE s, int options) { return rb_reg_init_str(rb_reg_alloc(), s, options); } VALUE rb_reg_init_str(VALUE re, VALUE s, int options) { onig_errmsg_buffer err = ""; if (rb_reg_initialize_str(re, s, options, err, NULL, 0) != 0) { rb_reg_raise_str(s, options, err); } return re; } VALUE rb_reg_new_ary(VALUE ary, int opt) { return rb_reg_new_str(rb_reg_preprocess_dregexp(ary, opt), opt); } VALUE rb_enc_reg_new(const char *s, long len, rb_encoding *enc, int options) { VALUE re = rb_reg_alloc(); onig_errmsg_buffer err = ""; if (rb_reg_initialize(re, s, len, enc, options, err, NULL, 0) != 0) { rb_enc_reg_raise(s, len, enc, options, err); } return re; } VALUE rb_reg_new(const char *s, long len, int options) { return rb_enc_reg_new(s, len, rb_ascii8bit_encoding(), options); } VALUE rb_reg_compile(VALUE str, int options, const char *sourcefile, int sourceline) { VALUE re = rb_reg_alloc(); onig_errmsg_buffer err = ""; if (!str) str = rb_str_new(0,0); if (rb_reg_initialize_str(re, str, options, err, sourcefile, sourceline) != 0) { rb_set_errinfo(rb_reg_error_desc(str, options, err)); return Qnil; } FL_SET(re, REG_LITERAL); return re; } static VALUE reg_cache; VALUE rb_reg_regcomp(VALUE str) { volatile VALUE save_str = str; if (reg_cache && RREGEXP_SRC_LEN(reg_cache) == RSTRING_LEN(str) && ENCODING_GET(reg_cache) == ENCODING_GET(str) && memcmp(RREGEXP_SRC_PTR(reg_cache), RSTRING_PTR(str), RSTRING_LEN(str)) == 0) return reg_cache; return reg_cache = rb_reg_new_str(save_str, 0); } static st_index_t reg_hash(VALUE re); /* * call-seq: * rxp.hash -> fixnum * * Produce a hash based on the text and options of this regular expression. */ static VALUE rb_reg_hash(VALUE re) { st_index_t hashval = reg_hash(re); return LONG2FIX(hashval); } static st_index_t reg_hash(VALUE re) { st_index_t hashval; rb_reg_check(re); hashval = RREGEXP(re)->ptr->options; hashval = rb_hash_uint(hashval, rb_memhash(RREGEXP_SRC_PTR(re), RREGEXP_SRC_LEN(re))); return rb_hash_end(hashval); } /* * call-seq: * rxp == other_rxp -> true or false * rxp.eql?(other_rxp) -> true or false * * Equality---Two regexps are equal if their patterns are identical, they have * the same character set code, and their casefold? values are the * same. * * /abc/ == /abc/x #=> false * /abc/ == /abc/i #=> false * /abc/ == /abc/n #=> false * /abc/u == /abc/n #=> false */ static VALUE rb_reg_equal(VALUE re1, VALUE re2) { if (re1 == re2) return Qtrue; if (TYPE(re2) != T_REGEXP) return Qfalse; rb_reg_check(re1); rb_reg_check(re2); if (FL_TEST(re1, KCODE_FIXED) != FL_TEST(re2, KCODE_FIXED)) return Qfalse; if (RREGEXP(re1)->ptr->options != RREGEXP(re2)->ptr->options) return Qfalse; if (RREGEXP_SRC_LEN(re1) != RREGEXP_SRC_LEN(re2)) return Qfalse; if (ENCODING_GET(re1) != ENCODING_GET(re2)) return Qfalse; if (memcmp(RREGEXP_SRC_PTR(re1), RREGEXP_SRC_PTR(re2), RREGEXP_SRC_LEN(re1)) == 0) { return Qtrue; } return Qfalse; } /* * call-seq: * mtch.hash -> integer * * Produce a hash based on the target string, regexp and matched * positions of this matchdata. */ static VALUE match_hash(VALUE match) { const struct re_registers *regs; st_index_t hashval = rb_hash_start(rb_str_hash(RMATCH(match)->str)); rb_hash_uint(hashval, reg_hash(RMATCH(match)->regexp)); regs = RMATCH_REGS(match); hashval = rb_hash_uint(hashval, regs->num_regs); hashval = rb_hash_uint(hashval, rb_memhash(regs->beg, regs->num_regs * sizeof(*regs->beg))); hashval = rb_hash_uint(hashval, rb_memhash(regs->end, regs->num_regs * sizeof(*regs->end))); hashval = rb_hash_end(hashval); return LONG2FIX(hashval); } /* * call-seq: * mtch == mtch2 -> true or false * * Equality---Two matchdata are equal if their target strings, * patterns, and matched positions are identical. */ static VALUE match_equal(VALUE match1, VALUE match2) { const struct re_registers *regs1, *regs2; if (match1 == match2) return Qtrue; if (TYPE(match2) != T_MATCH) return Qfalse; if (!rb_str_equal(RMATCH(match1)->str, RMATCH(match2)->str)) return Qfalse; if (!rb_reg_equal(RMATCH(match1)->regexp, RMATCH(match2)->regexp)) return Qfalse; regs1 = RMATCH_REGS(match1); regs2 = RMATCH_REGS(match2); if (regs1->num_regs != regs2->num_regs) return Qfalse; if (memcmp(regs1->beg, regs2->beg, regs1->num_regs * sizeof(*regs1->beg))) return Qfalse; if (memcmp(regs1->end, regs2->end, regs1->num_regs * sizeof(*regs1->end))) return Qfalse; return Qtrue; } static VALUE reg_operand(VALUE s, int check) { if (SYMBOL_P(s)) { return rb_sym_to_s(s); } else { VALUE tmp = rb_check_string_type(s); if (check && NIL_P(tmp)) { rb_raise(rb_eTypeError, "can't convert %s to String", rb_obj_classname(s)); } return tmp; } } static long reg_match_pos(VALUE re, VALUE *strp, long pos) { VALUE str = *strp; if (NIL_P(str)) { rb_backref_set(Qnil); return -1; } *strp = str = reg_operand(str, TRUE); if (pos != 0) { if (pos < 0) { VALUE l = rb_str_length(str); pos += NUM2INT(l); if (pos < 0) { return pos; } } pos = rb_str_offset(str, pos); } return rb_reg_search(re, str, pos, 0); } /* * call-seq: * rxp =~ str -> integer or nil * * Match---Matches rxp against str. * * /at/ =~ "input data" #=> 7 * /ax/ =~ "input data" #=> nil * * If =~ is used with a regexp literal with named captures, * captured strings (or nil) is assigned to local variables named by * the capture names. * * /(?\w+)\s*=\s*(?\w+)/ =~ " x = y " * p lhs #=> "x" * p rhs #=> "y" * * If it is not matched, nil is assigned for the variables. * * /(?\w+)\s*=\s*(?\w+)/ =~ " x = " * p lhs #=> nil * p rhs #=> nil * * This assignment is implemented in the Ruby parser. * The parser detects 'regexp-literal =~ expression' for the assignment. * The regexp must be a literal without interpolation and placed at left hand side. * * The assignment is not occur if the regexp is not a literal. * * re = /(?\w+)\s*=\s*(?\w+)/ * re =~ " x = y " * p lhs # undefined local variable * p rhs # undefined local variable * * A regexp interpolation, #{}, also disables * the assignment. * * rhs_pat = /(?\w+)/ * /(?\w+)\s*=\s*#{rhs_pat}/ =~ "x = y" * p lhs # undefined local variable * * The assignment is not occur if the regexp is placed at right hand side. * * " x = y " =~ /(?\w+)\s*=\s*(?\w+)/ * p lhs, rhs # undefined local variable * */ VALUE rb_reg_match(VALUE re, VALUE str) { long pos = reg_match_pos(re, &str, 0); if (pos < 0) return Qnil; pos = rb_str_sublen(str, pos); return LONG2FIX(pos); } /* * call-seq: * rxp === str -> true or false * * Case Equality---Synonym for Regexp#=~ used in case statements. * * a = "HELLO" * case a * when /^[a-z]*$/; print "Lower case\n" * when /^[A-Z]*$/; print "Upper case\n" * else; print "Mixed case\n" * end * * produces: * * Upper case */ VALUE rb_reg_eqq(VALUE re, VALUE str) { long start; str = reg_operand(str, FALSE); if (NIL_P(str)) { rb_backref_set(Qnil); return Qfalse; } start = rb_reg_search(re, str, 0, 0); if (start < 0) { return Qfalse; } return Qtrue; } /* * call-seq: * ~ rxp -> integer or nil * * Match---Matches rxp against the contents of $_. * Equivalent to rxp =~ $_. * * $_ = "input data" * ~ /at/ #=> 7 */ VALUE rb_reg_match2(VALUE re) { long start; VALUE line = rb_lastline_get(); if (TYPE(line) != T_STRING) { rb_backref_set(Qnil); return Qnil; } start = rb_reg_search(re, line, 0, 0); if (start < 0) { return Qnil; } start = rb_str_sublen(line, start); return LONG2FIX(start); } /* * call-seq: * rxp.match(str) -> matchdata or nil * rxp.match(str,pos) -> matchdata or nil * * Returns a MatchData object describing the match, or * nil if there was no match. This is equivalent to retrieving the * value of the special variable $~ following a normal match. * If the second parameter is present, it specifies the position in the string * to begin the search. * * /(.)(.)(.)/.match("abc")[2] #=> "b" * /(.)(.)/.match("abc", 1)[2] #=> "c" * * If a block is given, invoke the block with MatchData if match succeed, so * that you can write * * pat.match(str) {|m| ...} * * instead of * * if m = pat.match(str) * ... * end * * The return value is a value from block execution in this case. */ static VALUE rb_reg_match_m(int argc, VALUE *argv, VALUE re) { VALUE result, str, initpos; long pos; if (rb_scan_args(argc, argv, "11", &str, &initpos) == 2) { pos = NUM2LONG(initpos); } else { pos = 0; } pos = reg_match_pos(re, &str, pos); if (pos < 0) { rb_backref_set(Qnil); return Qnil; } result = rb_backref_get(); rb_match_busy(result); if (!NIL_P(result) && rb_block_given_p()) { return rb_yield(result); } return result; } /* * Document-method: compile * * Synonym for Regexp.new */ /* * call-seq: * Regexp.new(string, [options [, lang]]) -> regexp * Regexp.new(regexp) -> regexp * Regexp.compile(string, [options [, lang]]) -> regexp * Regexp.compile(regexp) -> regexp * * Constructs a new regular expression from pattern, which can be either * a String or a Regexp (in which case that regexp's * options are propagated, and new options may not be specified (a change as of * Ruby 1.8). If options is a Fixnum, it should be one or * more of the constants Regexp::EXTENDED, * Regexp::IGNORECASE, and Regexp::MULTILINE, * or-ed together. Otherwise, if options is not * nil, the regexp will be case insensitive. * When the lang parameter is `n' or `N' sets the regexp no encoding. * * r1 = Regexp.new('^a-z+:\\s+\w+') #=> /^a-z+:\s+\w+/ * r2 = Regexp.new('cat', true) #=> /cat/i * r3 = Regexp.new('dog', Regexp::EXTENDED) #=> /dog/x * r4 = Regexp.new(r2) #=> /cat/i */ static VALUE rb_reg_initialize_m(int argc, VALUE *argv, VALUE self) { onig_errmsg_buffer err = ""; int flags = 0; VALUE str; rb_encoding *enc; const char *ptr; long len; if (argc == 0 || argc > 3) { rb_raise(rb_eArgError, "wrong number of arguments (%d for 1..3)", argc); } if (TYPE(argv[0]) == T_REGEXP) { VALUE re = argv[0]; if (argc > 1) { rb_warn("flags ignored"); } rb_reg_check(re); flags = rb_reg_options(re); ptr = RREGEXP_SRC_PTR(re); len = RREGEXP_SRC_LEN(re); enc = rb_enc_get(re); if (rb_reg_initialize(self, ptr, len, enc, flags, err, NULL, 0)) { str = rb_enc_str_new(ptr, len, enc); rb_reg_raise_str(str, flags, err); } } else { if (argc >= 2) { if (FIXNUM_P(argv[1])) flags = FIX2INT(argv[1]); else if (RTEST(argv[1])) flags = ONIG_OPTION_IGNORECASE; } enc = 0; if (argc == 3 && !NIL_P(argv[2])) { char *kcode = StringValuePtr(argv[2]); if (kcode[0] == 'n' || kcode[0] == 'N') { enc = rb_ascii8bit_encoding(); flags |= ARG_ENCODING_NONE; } else { rb_warn("encoding option is ignored - %s", kcode); } } str = argv[0]; ptr = StringValuePtr(str); if (enc ? rb_reg_initialize(self, ptr, RSTRING_LEN(str), enc, flags, err, NULL, 0) : rb_reg_initialize_str(self, str, flags, err, NULL, 0)) { rb_reg_raise_str(str, flags, err); } } return self; } VALUE rb_reg_quote(VALUE str) { rb_encoding *enc = rb_enc_get(str); char *s, *send, *t; VALUE tmp; int c, clen; int ascii_only = rb_enc_str_asciionly_p(str); s = RSTRING_PTR(str); send = s + RSTRING_LEN(str); while (s < send) { c = rb_enc_ascget(s, send, &clen, enc); if (c == -1) { s += mbclen(s, send, enc); continue; } switch (c) { case '[': case ']': case '{': case '}': case '(': case ')': case '|': case '-': case '*': case '.': case '\\': case '?': case '+': case '^': case '$': case ' ': case '#': case '\t': case '\f': case '\v': case '\n': case '\r': goto meta_found; } s += clen; } tmp = rb_str_new3(str); if (ascii_only) { rb_enc_associate(tmp, rb_usascii_encoding()); } return tmp; meta_found: tmp = rb_str_new(0, RSTRING_LEN(str)*2); if (ascii_only) { rb_enc_associate(tmp, rb_usascii_encoding()); } else { rb_enc_copy(tmp, str); } t = RSTRING_PTR(tmp); /* copy upto metacharacter */ memcpy(t, RSTRING_PTR(str), s - RSTRING_PTR(str)); t += s - RSTRING_PTR(str); while (s < send) { c = rb_enc_ascget(s, send, &clen, enc); if (c == -1) { int n = mbclen(s, send, enc); while (n--) *t++ = *s++; continue; } s += clen; switch (c) { case '[': case ']': case '{': case '}': case '(': case ')': case '|': case '-': case '*': case '.': case '\\': case '?': case '+': case '^': case '$': case '#': t += rb_enc_mbcput('\\', t, enc); break; case ' ': t += rb_enc_mbcput('\\', t, enc); t += rb_enc_mbcput(' ', t, enc); continue; case '\t': t += rb_enc_mbcput('\\', t, enc); t += rb_enc_mbcput('t', t, enc); continue; case '\n': t += rb_enc_mbcput('\\', t, enc); t += rb_enc_mbcput('n', t, enc); continue; case '\r': t += rb_enc_mbcput('\\', t, enc); t += rb_enc_mbcput('r', t, enc); continue; case '\f': t += rb_enc_mbcput('\\', t, enc); t += rb_enc_mbcput('f', t, enc); continue; case '\v': t += rb_enc_mbcput('\\', t, enc); t += rb_enc_mbcput('v', t, enc); continue; } t += rb_enc_mbcput(c, t, enc); } rb_str_resize(tmp, t - RSTRING_PTR(tmp)); OBJ_INFECT(tmp, str); return tmp; } /* * call-seq: * Regexp.escape(str) -> string * Regexp.quote(str) -> string * * Escapes any characters that would have special meaning in a regular * expression. Returns a new escaped string, or self if no characters are * escaped. For any string, * Regexp.new(Regexp.escape(str))=~str will be true. * * Regexp.escape('\*?{}.') #=> \\\*\?\{\}\. * */ static VALUE rb_reg_s_quote(VALUE c, VALUE str) { return rb_reg_quote(reg_operand(str, TRUE)); } int rb_reg_options(VALUE re) { int options; rb_reg_check(re); options = RREGEXP(re)->ptr->options & ARG_REG_OPTION_MASK; if (RBASIC(re)->flags & KCODE_FIXED) options |= ARG_ENCODING_FIXED; if (RBASIC(re)->flags & REG_ENCODING_NONE) options |= ARG_ENCODING_NONE; return options; } VALUE rb_check_regexp_type(VALUE re) { return rb_check_convert_type(re, T_REGEXP, "Regexp", "to_regexp"); } /* * call-seq: * Regexp.try_convert(obj) -> re or nil * * Try to convert obj into a Regexp, using to_regexp method. * Returns converted regexp or nil if obj cannot be converted * for any reason. * * Regexp.try_convert(/re/) #=> /re/ * Regexp.try_convert("re") #=> nil * * o = Object.new * Regexp.try_convert(o) #=> nil * def o.to_regexp() /foo/ end * Regexp.try_convert(o) #=> /foo/ * */ static VALUE rb_reg_s_try_convert(VALUE dummy, VALUE re) { return rb_check_regexp_type(re); } static VALUE rb_reg_s_union(VALUE self, VALUE args0) { long argc = RARRAY_LEN(args0); if (argc == 0) { VALUE args[1]; args[0] = rb_str_new2("(?!)"); return rb_class_new_instance(1, args, rb_cRegexp); } else if (argc == 1) { VALUE arg = rb_ary_entry(args0, 0); VALUE re = rb_check_regexp_type(arg); if (!NIL_P(re)) return re; else { VALUE quoted; quoted = rb_reg_s_quote(Qnil, arg); return rb_reg_new_str(quoted, 0); } } else { int i; VALUE source = rb_str_buf_new(0); rb_encoding *result_enc; int has_asciionly = 0; rb_encoding *has_ascii_compat_fixed = 0; rb_encoding *has_ascii_incompat = 0; for (i = 0; i < argc; i++) { volatile VALUE v; VALUE e = rb_ary_entry(args0, i); if (0 < i) rb_str_buf_cat_ascii(source, "|"); v = rb_check_regexp_type(e); if (!NIL_P(v)) { rb_encoding *enc = rb_enc_get(v); if (!rb_enc_asciicompat(enc)) { if (!has_ascii_incompat) has_ascii_incompat = enc; else if (has_ascii_incompat != enc) rb_raise(rb_eArgError, "incompatible encodings: %s and %s", rb_enc_name(has_ascii_incompat), rb_enc_name(enc)); } else if (rb_reg_fixed_encoding_p(v)) { if (!has_ascii_compat_fixed) has_ascii_compat_fixed = enc; else if (has_ascii_compat_fixed != enc) rb_raise(rb_eArgError, "incompatible encodings: %s and %s", rb_enc_name(has_ascii_compat_fixed), rb_enc_name(enc)); } else { has_asciionly = 1; } v = rb_reg_to_s(v); } else { rb_encoding *enc; StringValue(e); enc = rb_enc_get(e); if (!rb_enc_str_asciicompat_p(e)) { if (!has_ascii_incompat) has_ascii_incompat = enc; else if (has_ascii_incompat != enc) rb_raise(rb_eArgError, "incompatible encodings: %s and %s", rb_enc_name(has_ascii_incompat), rb_enc_name(enc)); } else if (rb_enc_str_asciionly_p(e)) { has_asciionly = 1; } else { if (!has_ascii_compat_fixed) has_ascii_compat_fixed = enc; else if (has_ascii_compat_fixed != enc) rb_raise(rb_eArgError, "incompatible encodings: %s and %s", rb_enc_name(has_ascii_compat_fixed), rb_enc_name(enc)); } v = rb_reg_s_quote(Qnil, e); } if (has_ascii_incompat) { if (has_asciionly) { rb_raise(rb_eArgError, "ASCII incompatible encoding: %s", rb_enc_name(has_ascii_incompat)); } if (has_ascii_compat_fixed) { rb_raise(rb_eArgError, "incompatible encodings: %s and %s", rb_enc_name(has_ascii_incompat), rb_enc_name(has_ascii_compat_fixed)); } } if (i == 0) { rb_enc_copy(source, v); } rb_str_append(source, v); } if (has_ascii_incompat) { result_enc = has_ascii_incompat; } else if (has_ascii_compat_fixed) { result_enc = has_ascii_compat_fixed; } else { result_enc = rb_ascii8bit_encoding(); } rb_enc_associate(source, result_enc); return rb_class_new_instance(1, &source, rb_cRegexp); } } /* * call-seq: * Regexp.union(pat1, pat2, ...) -> new_regexp * Regexp.union(pats_ary) -> new_regexp * * Return a Regexp object that is the union of the given * patterns, i.e., will match any of its parts. The patterns * can be Regexp objects, in which case their options will be preserved, or * Strings. If no patterns are given, returns /(?!)/. * The behavior is unspecified if any given pattern contains capture. * * Regexp.union #=> /(?!)/ * Regexp.union("penzance") #=> /penzance/ * Regexp.union("a+b*c") #=> /a\+b\*c/ * Regexp.union("skiing", "sledding") #=> /skiing|sledding/ * Regexp.union(["skiing", "sledding"]) #=> /skiing|sledding/ * Regexp.union(/dogs/, /cats/i) #=> /(?-mix:dogs)|(?i-mx:cats)/ */ static VALUE rb_reg_s_union_m(VALUE self, VALUE args) { VALUE v; if (RARRAY_LEN(args) == 1 && !NIL_P(v = rb_check_array_type(rb_ary_entry(args, 0)))) { return rb_reg_s_union(self, v); } return rb_reg_s_union(self, args); } /* :nodoc: */ static VALUE rb_reg_init_copy(VALUE copy, VALUE re) { onig_errmsg_buffer err = ""; const char *s; long len; if (copy == re) return copy; rb_check_frozen(copy); /* need better argument type check */ if (!rb_obj_is_instance_of(re, rb_obj_class(copy))) { rb_raise(rb_eTypeError, "wrong argument type"); } rb_reg_check(re); s = RREGEXP_SRC_PTR(re); len = RREGEXP_SRC_LEN(re); if (rb_reg_initialize(copy, s, len, rb_enc_get(re), rb_reg_options(re), err, NULL, 0) != 0) { rb_reg_raise(s, len, err, re); } return copy; } VALUE rb_reg_regsub(VALUE str, VALUE src, struct re_registers *regs, VALUE regexp) { VALUE val = 0; char *p, *s, *e; int no, clen; rb_encoding *str_enc = rb_enc_get(str); rb_encoding *src_enc = rb_enc_get(src); int acompat = rb_enc_asciicompat(str_enc); #define ASCGET(s,e,cl) (acompat ? (*cl=1,ISASCII(s[0])?s[0]:-1) : rb_enc_ascget(s, e, cl, str_enc)) p = s = RSTRING_PTR(str); e = s + RSTRING_LEN(str); while (s < e) { int c = ASCGET(s, e, &clen); char *ss; if (c == -1) { s += mbclen(s, e, str_enc); continue; } ss = s; s += clen; if (c != '\\' || s == e) continue; if (!val) { val = rb_str_buf_new(ss-p); } rb_enc_str_buf_cat(val, p, ss-p, str_enc); c = ASCGET(s, e, &clen); if (c == -1) { s += mbclen(s, e, str_enc); rb_enc_str_buf_cat(val, ss, s-ss, str_enc); p = s; continue; } s += clen; p = s; switch (c) { case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': if (onig_noname_group_capture_is_active(RREGEXP(regexp)->ptr)) { no = c - '0'; } else { continue; } break; case 'k': if (s < e && ASCGET(s, e, &clen) == '<') { char *name, *name_end; name_end = name = s + clen; while (name_end < e) { c = ASCGET(name_end, e, &clen); if (c == '>') break; name_end += c == -1 ? mbclen(name_end, e, str_enc) : clen; } if (name_end < e) { no = name_to_backref_number(regs, regexp, name, name_end); p = s = name_end + clen; break; } else { rb_raise(rb_eRuntimeError, "invalid group name reference format"); } } rb_enc_str_buf_cat(val, ss, s-ss, str_enc); continue; case '0': case '&': no = 0; break; case '`': rb_enc_str_buf_cat(val, RSTRING_PTR(src), BEG(0), src_enc); continue; case '\'': rb_enc_str_buf_cat(val, RSTRING_PTR(src)+END(0), RSTRING_LEN(src)-END(0), src_enc); continue; case '+': no = regs->num_regs-1; while (BEG(no) == -1 && no > 0) no--; if (no == 0) continue; break; case '\\': rb_enc_str_buf_cat(val, s-clen, clen, str_enc); continue; default: rb_enc_str_buf_cat(val, ss, s-ss, str_enc); continue; } if (no >= 0) { if (no >= regs->num_regs) continue; if (BEG(no) == -1) continue; rb_enc_str_buf_cat(val, RSTRING_PTR(src)+BEG(no), END(no)-BEG(no), src_enc); } } if (!val) return str; if (p < e) { rb_enc_str_buf_cat(val, p, e-p, str_enc); } return val; } static VALUE kcode_getter(void) { rb_warn("variable $KCODE is no longer effective"); return Qnil; } static void kcode_setter(VALUE val, ID id) { rb_warn("variable $KCODE is no longer effective; ignored"); } static VALUE ignorecase_getter(void) { rb_warn("variable $= is no longer effective"); return Qfalse; } static void ignorecase_setter(VALUE val, ID id) { rb_warn("variable $= is no longer effective; ignored"); } static VALUE match_getter(void) { VALUE match = rb_backref_get(); if (NIL_P(match)) return Qnil; rb_match_busy(match); return match; } static void match_setter(VALUE val) { if (!NIL_P(val)) { Check_Type(val, T_MATCH); } rb_backref_set(val); } /* * call-seq: * Regexp.last_match -> matchdata * Regexp.last_match(n) -> str * * The first form returns the MatchData object generated by the * last successful pattern match. Equivalent to reading the global variable * $~. The second form returns the nth field in this * MatchData object. * n can be a string or symbol to reference a named capture. * * Note that the last_match is local to the thread and method scope * of the method that did the pattern match. * * /c(.)t/ =~ 'cat' #=> 0 * Regexp.last_match #=> # * Regexp.last_match(0) #=> "cat" * Regexp.last_match(1) #=> "a" * Regexp.last_match(2) #=> nil * * /(?\w+)\s*=\s*(?\w+)/ =~ "var = val" * Regexp.last_match #=> # * Regexp.last_match(:lhs) #=> "var" * Regexp.last_match(:rhs) #=> "val" */ static VALUE rb_reg_s_last_match(int argc, VALUE *argv) { VALUE nth; if (argc > 0 && rb_scan_args(argc, argv, "01", &nth) == 1) { VALUE match = rb_backref_get(); int n; if (NIL_P(match)) return Qnil; n = match_backref_number(match, nth); return rb_reg_nth_match(n, match); } return match_getter(); } static void re_warn(const char *s) { rb_warn("%s", s); } /* * Document-class: RegexpError * * Raised when given an invalid regexp expression. * * Regexp.new("?") * * raises the exception: * * RegexpError: target of repeat operator is not specified: /?/ */ /* * Document-class: Regexp * * A Regexp holds a regular expression, used to match a pattern * against strings. Regexps are created using the /.../ and * %r{...} literals, and by the Regexp::new * constructor. * * :include: doc/re.rdoc */ void Init_Regexp(void) { rb_eRegexpError = rb_define_class("RegexpError", rb_eStandardError); onigenc_set_default_caseconv_table((UChar*)casetable); onigenc_set_default_encoding(ONIG_ENCODING_ASCII); onig_set_warn_func(re_warn); onig_set_verb_warn_func(re_warn); rb_define_virtual_variable("$~", match_getter, match_setter); rb_define_virtual_variable("$&", last_match_getter, 0); rb_define_virtual_variable("$`", prematch_getter, 0); rb_define_virtual_variable("$'", postmatch_getter, 0); rb_define_virtual_variable("$+", last_paren_match_getter, 0); rb_define_virtual_variable("$=", ignorecase_getter, ignorecase_setter); rb_define_virtual_variable("$KCODE", kcode_getter, kcode_setter); rb_define_virtual_variable("$-K", kcode_getter, kcode_setter); rb_cRegexp = rb_define_class("Regexp", rb_cObject); rb_define_alloc_func(rb_cRegexp, rb_reg_s_alloc); rb_define_singleton_method(rb_cRegexp, "compile", rb_class_new_instance, -1); rb_define_singleton_method(rb_cRegexp, "quote", rb_reg_s_quote, 1); rb_define_singleton_method(rb_cRegexp, "escape", rb_reg_s_quote, 1); rb_define_singleton_method(rb_cRegexp, "union", rb_reg_s_union_m, -2); rb_define_singleton_method(rb_cRegexp, "last_match", rb_reg_s_last_match, -1); rb_define_singleton_method(rb_cRegexp, "try_convert", rb_reg_s_try_convert, 1); rb_define_method(rb_cRegexp, "initialize", rb_reg_initialize_m, -1); rb_define_method(rb_cRegexp, "initialize_copy", rb_reg_init_copy, 1); rb_define_method(rb_cRegexp, "hash", rb_reg_hash, 0); rb_define_method(rb_cRegexp, "eql?", rb_reg_equal, 1); rb_define_method(rb_cRegexp, "==", rb_reg_equal, 1); rb_define_method(rb_cRegexp, "=~", rb_reg_match, 1); rb_define_method(rb_cRegexp, "===", rb_reg_eqq, 1); rb_define_method(rb_cRegexp, "~", rb_reg_match2, 0); rb_define_method(rb_cRegexp, "match", rb_reg_match_m, -1); rb_define_method(rb_cRegexp, "to_s", rb_reg_to_s, 0); rb_define_method(rb_cRegexp, "inspect", rb_reg_inspect, 0); rb_define_method(rb_cRegexp, "source", rb_reg_source, 0); rb_define_method(rb_cRegexp, "casefold?", rb_reg_casefold_p, 0); rb_define_method(rb_cRegexp, "options", rb_reg_options_m, 0); rb_define_method(rb_cRegexp, "encoding", rb_obj_encoding, 0); /* in encoding.c */ rb_define_method(rb_cRegexp, "fixed_encoding?", rb_reg_fixed_encoding_p, 0); rb_define_method(rb_cRegexp, "names", rb_reg_names, 0); rb_define_method(rb_cRegexp, "named_captures", rb_reg_named_captures, 0); rb_define_const(rb_cRegexp, "IGNORECASE", INT2FIX(ONIG_OPTION_IGNORECASE)); rb_define_const(rb_cRegexp, "EXTENDED", INT2FIX(ONIG_OPTION_EXTEND)); rb_define_const(rb_cRegexp, "MULTILINE", INT2FIX(ONIG_OPTION_MULTILINE)); rb_define_const(rb_cRegexp, "FIXEDENCODING", INT2FIX(ARG_ENCODING_FIXED)); rb_global_variable(®_cache); rb_cMatch = rb_define_class("MatchData", rb_cObject); rb_define_alloc_func(rb_cMatch, match_alloc); rb_undef_method(CLASS_OF(rb_cMatch), "new"); rb_define_method(rb_cMatch, "initialize_copy", match_init_copy, 1); rb_define_method(rb_cMatch, "regexp", match_regexp, 0); rb_define_method(rb_cMatch, "names", match_names, 0); rb_define_method(rb_cMatch, "size", match_size, 0); rb_define_method(rb_cMatch, "length", match_size, 0); rb_define_method(rb_cMatch, "offset", match_offset, 1); rb_define_method(rb_cMatch, "begin", match_begin, 1); rb_define_method(rb_cMatch, "end", match_end, 1); rb_define_method(rb_cMatch, "to_a", match_to_a, 0); rb_define_method(rb_cMatch, "[]", match_aref, -1); rb_define_method(rb_cMatch, "captures", match_captures, 0); rb_define_method(rb_cMatch, "values_at", match_values_at, -1); rb_define_method(rb_cMatch, "pre_match", rb_reg_match_pre, 0); rb_define_method(rb_cMatch, "post_match", rb_reg_match_post, 0); rb_define_method(rb_cMatch, "to_s", match_to_s, 0); rb_define_method(rb_cMatch, "inspect", match_inspect, 0); rb_define_method(rb_cMatch, "string", match_string, 0); rb_define_method(rb_cMatch, "hash", match_hash, 0); rb_define_method(rb_cMatch, "eql?", match_equal, 1); rb_define_method(rb_cMatch, "==", match_equal, 1); }