...one of the most highly
regarded and expertly designed C++ library projects in the
world.
— Herb Sutter and Andrei
Alexandrescu, C++
Coding Standards
The match_flag_type
match_partial
can be passed
to the following algorithms: regex_match
, regex_search
, and regex_grep
, and used with the iterator
regex_iterator
.
When used it indicates that partial as well as full matches should be found.
A partial match is one that matched one or more characters at the end of the
text input, but did not match all of the regular expression (although it may
have done so had more input been available). Partial matches are typically
used when either validating data input (checking each character as it is entered
on the keyboard), or when searching texts that are either too long to load
into memory (or even into a memory mapped file), or are of indeterminate length
(for example the source may be a socket or similar). Partial and full matches
can be differentiated as shown in the following table (the variable M represents
an instance of match_results
as filled in by regex_match
,
regex_search
or regex_grep
):
Result |
M[0].matched |
M[0].first |
M[0].second |
|
---|---|---|---|---|
No match |
False |
Undefined |
Undefined |
Undefined |
Partial match |
True |
False |
Start of partial match. |
End of partial match (end of text). |
Full match |
True |
True |
Start of full match. |
End of full match. |
Be aware that using partial matches can sometimes result in somewhat imperfect behavior:
The following example tests to see whether the text could be a valid credit
card number, as the user presses a key, the character entered would be added
to the string being built up, and passed to is_possible_card_number
.
If this returns true then the text could be a valid card number, so the user
interface's OK button would be enabled. If it returns false, then this is not
yet a valid card number, but could be with more input, so the user interface
would disable the OK button. Finally, if the procedure throws an exception
the input could never become a valid number, and the inputted character must
be discarded, and a suitable error indication displayed to the user.
#include <string> #include <iostream> #include <boost/regex.hpp> boost::regex e("(\\d{3,4})[- ]?(\\d{4})[- ]?(\\d{4})[- ]?(\\d{4})"); bool is_possible_card_number(const std::string& input) { // // return false for partial match, true for full match, or throw for // impossible match based on what we have so far... boost::match_results<std::string::const_iterator> what; if(0 == boost::regex_match(input, what, e, boost::match_default | boost::match_partial)) { // the input so far could not possibly be valid so reject it: throw std::runtime_error( "Invalid data entered - this could not possibly be a valid card number"); } // OK so far so good, but have we finished? if(what[0].matched) { // excellent, we have a result: return true; } // what we have so far is only a partial match... return false; }
In the following example, text input is taken from a stream containing an unknown amount of text; this example simply counts the number of html tags encountered in the stream. The text is loaded into a buffer and searched a part at a time, if a partial match was encountered, then the partial match gets searched a second time as the start of the next batch of text:
#include <iostream> #include <fstream> #include <sstream> #include <string> #include <boost/regex.hpp> // match some kind of html tag: boost::regex e("<[^>]*>"); // count how many: unsigned int tags = 0; void search(std::istream& is) { // buffer we'll be searching in: char buf[4096]; // saved position of end of partial match: const char* next_pos = buf + sizeof(buf); // flag to indicate whether there is more input to come: bool have_more = true; while(have_more) { // how much do we copy forward from last try: unsigned leftover = (buf + sizeof(buf)) - next_pos; // and how much is left to fill: unsigned size = next_pos - buf; // copy forward whatever we have left: std::memmove(buf, next_pos, leftover); // fill the rest from the stream: is.read(buf + leftover, size); unsigned read = is.gcount(); // check to see if we've run out of text: have_more = read == size; // reset next_pos: next_pos = buf + sizeof(buf); // and then iterate: boost::cregex_iterator a( buf, buf + read + leftover, e, boost::match_default | boost::match_partial); boost::cregex_iterator b; while(a != b) { if((*a)[0].matched == false) { // Partial match, save position and break: next_pos = (*a)[0].first; break; } else { // full match: ++tags; } // move to next match: ++a; } } }