std::regex_match
Defined in header
<regex>
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||
template< class BidirIt,
class Alloc, class CharT, class Traits > |
(1) | (since C++11) |
template< class BidirIt,
class CharT, class Traits > |
(2) | (since C++11) |
template< class CharT, class Alloc, class Traits >
bool regex_match( const CharT* str, |
(3) | (since C++11) |
template< class STraits, class SAlloc,
class Alloc, class CharT, class Traits > |
(4) | (since C++11) |
template< class CharT, class Traits >
bool regex_match( const CharT* str, |
(5) | (since C++11) |
template< class STraits, class SAlloc,
class CharT, class Traits > |
(6) | (since C++11) |
template< class STraits, class SAlloc,
class Alloc, class CharT, class Traits > |
(7) | (since C++14) |
Determines if the regular expression el
matches the given target.
e
and the entire target character sequence [first,last)
, taking into account the effect of flags
. Match results are returned in m
.Note that regex_match
will only successfully match a regular expression to an entire character sequence, whereas std::regex_search will successfully match subsequences.
Contents |
[edit] Parameters
first, last | - | the target character range to apply the regex to, given as iterators |
m | - | the match results |
str | - | the target string, given as a null-terminated C-style string |
s | - | the target string, given as a std::basic_string |
e | - | the regular expression |
flags | - | flags used to determine how the match will be performed |
Type requirements | ||
-
BidirIt must meet the requirements of BidirectionalIterator .
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[edit] Return value
Returns true if a match exists, false otherwise. In either case, the object m
is updated, as follows:
If the match does not exist:
m.ready() == true | |
m.empty() == true | |
m.size() == 0 |
If the match exists:
m.ready() | true |
m.empty() | false |
m.size() | number of subexpressions plus 1, that is, 1+e.mark_count() |
m.prefix().first | first
|
m.prefix().second | first
|
m.prefix().matched | false (the match prefix is empty) |
m.suffix().first | last
|
m.suffix().second | last
|
m.suffix().matched | false (the match suffix is empty) |
m[0].first | first
|
m[0].second | last
|
m[0].matched | true (the entire sequence is matched) |
m[n].first | the start of the sequence that matched sub-expression n, or last if the subexpression did not participate in the match
|
m[n].second | the end of the sequence that matched sub-expression n, or last if the subexpression did not participate in the match
|
m[n].matched | true if sub-expression n participated in the match, false otherwise |
[edit] Example
#include <iostream> #include <string> #include <regex> int main() { // Simple regular expression matching std::string fnames[] = {"foo.txt", "bar.txt", "baz.dat", "zoidberg"}; std::regex txt_regex("[a-z]+\\.txt"); for (const auto &fname : fnames) { std::cout << fname << ": " << std::regex_match(fname, txt_regex) << '\n'; } // Extraction of a sub-match std::regex base_regex("([a-z]+)\\.txt"); std::smatch base_match; for (const auto &fname : fnames) { if (std::regex_match(fname, base_match, base_regex)) { // The first sub_match is the whole string; the next // sub_match is the first parenthesized expression. if (base_match.size() == 2) { std::ssub_match base_sub_match = base_match[1]; std::string base = base_sub_match.str(); std::cout << fname << " has a base of " << base << '\n'; } } } // Extraction of several sub-matches std::regex pieces_regex("([a-z]+)\\.([a-z]+)"); std::smatch pieces_match; for (const auto &fname : fnames) { if (std::regex_match(fname, pieces_match, pieces_regex)) { std::cout << fname << '\n'; for (size_t i = 0; i < pieces_match.size(); ++i) { std::ssub_match sub_match = pieces_match[i]; std::string piece = sub_match.str(); std::cout << " submatch " << i << ": " << piece << '\n'; } } } }
Output:
foo.txt: 1 bar.txt: 1 baz.dat: 0 zoidberg: 0 foo.txt has a base of foo bar.txt has a base of bar foo.txt submatch 0: foo.txt submatch 1: foo submatch 2: txt bar.txt submatch 0: bar.txt submatch 1: bar submatch 2: txt baz.dat submatch 0: baz.dat submatch 1: baz submatch 2: dat
[edit] See also
(C++11)
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regular expression object (class template) |
(C++11)
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identifies one regular expression match, including all sub-expression matches (class template) |
(C++11)
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attempts to match a regular expression to any part of a character sequence (function template) |