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.
In Files
- re.c
Parent
Public Instance Methods
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 (!RB_TYPE_P(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; }
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 #=> #<MatchData "HX1138" 1:"H" 2:"X" 3:"113" 4:"8"> m[0] #=> "HX1138" m[1, 2] #=> ["H", "X"] m[1..3] #=> ["H", "X", "113"] m[-3, 2] #=> ["X", "113"] m = /(?<foo>a+)b/.match("ccaaab") m #=> #<MatchData "aaab" foo:"aaa"> m["foo"] #=> "aaa" m[:foo] #=> "aaa"
static VALUE match_aref(int argc, VALUE *argv, VALUE match) { VALUE idx, rest, re; 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: idx = rb_sym2str(idx); /* fall through */ case T_STRING: p = StringValuePtr(idx); re = RMATCH(match)->regexp; if (NIL_P(re) || !rb_enc_compatible(RREGEXP(re)->src, idx) || (num = name_to_backref_number(RMATCH_REGS(match), RMATCH(match)->regexp, p, p + RSTRING_LEN(idx))) < 1) { name_to_backref_error(idx); } return rb_reg_nth_match(num, match); default: break; } } } return rb_ary_aref(argc, argv, match_to_a(match)); }
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 = /(?<foo>.)(.)(?<bar>.)/.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); }
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); }
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 = /(?<foo>.)(.)(?<bar>.)/.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); }
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 (!RB_TYPE_P(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; }
Produce a hash based on the target string, regexp and matched positions of this matchdata.
See also Object#hash.
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); }
Returns a printable version of mtch.
puts /.$/.match("foo").inspect #=> #<MatchData "o"> puts /(.)(.)(.)/.match("foo").inspect #=> #<MatchData "foo" 1:"f" 2:"o" 3:"o"> puts /(.)(.)?(.)/.match("fo").inspect #=> #<MatchData "fo" 1:"f" 2:nil 3:"o"> puts /(?<foo>.)(?<bar>.)(?<baz>.)/.match("hoge").inspect #=> #<MatchData "hog" foo:"h" bar:"o" baz:"g">
static VALUE match_inspect(VALUE match) { VALUE cname = rb_class_path(rb_obj_class(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("#<%"PRIsVALUE":%p>", cname, (void*)match); } else if (NIL_P(regexp)) { return rb_sprintf("#<%"PRIsVALUE": %"PRIsVALUE">", cname, rb_reg_nth_match(0, 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_append(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; }
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); }
Returns a list of names of captures as an array of strings. It is same as mtch.regexp.names.
/(?<foo>.)(?<bar>.)(?<baz>.)/.match("hoge").names #=> ["foo", "bar", "baz"] m = /(?<x>.)(?<y>.)?/.match("a") #=> #<MatchData "a" x:"a" y:nil> m.names #=> ["x", "y"]
static VALUE match_names(VALUE match) { match_check(match); return rb_reg_names(RMATCH(match)->regexp); }
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 = /(?<foo>.)(.)(?<bar>.)/.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)); }
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; }
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; }
Returns the regexp.
m = /a.*b/.match("abc") m.regexp #=> /a.*b/
static VALUE match_regexp(VALUE match) { VALUE regexp; match_check(match); regexp = RMATCH(match)->regexp; if (NIL_P(regexp)) { VALUE str = rb_reg_nth_match(0, match); regexp = rb_reg_regcomp(rb_reg_quote(str)); RMATCH(match)->regexp = regexp; } return regexp; }
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); }
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 */ }
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); }
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; }
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); }