boost_1_45_0/libs/regex/doc/captures.qbk - nest-learning-thermostat/5.0/boost - Git at Google

 [/
   Copyright 2006-2007 John Maddock.
   Distributed under the Boost Software License, Version 1.0.
   (See accompanying file LICENSE_1_0.txt or copy at
   http://www.boost.org/LICENSE_1_0.txt).
 ]


 [section:captures Understanding Marked Sub-Expressions and Captures]

 Captures are the iterator ranges that are "captured" by marked
 sub-expressions as a regular expression gets matched.  Each marked
 sub-expression can result in more than one capture, if it is matched
 more than once.  This document explains how captures and marked
 sub-expressions in Boost.Regex are represented and accessed.

 [h4 Marked sub-expressions]

 Every time a Perl regular expression contains a parenthesis group `()`, it
 spits out an extra field, known as a marked sub-expression,
 for example the expression:

 [pre (\w+)\W+(\w+)]

 Has two marked sub-expressions (known as $1 and $2 respectively), in
 addition the complete match is known as $&, everything before the
 first match as $\`, and everything after the match as $'.  So
 if the above expression is searched for within `"@abc def--"`, then we obtain:

 [table
 [[Sub-expression][Text found]]
 [[$\`]["@"]]
 [[$&]["abc def"]]
 [[$1]["abc"]]
 [[$2]["def"]]
 [[$']["--"]]
 ]

 In Boost.Regex all these are accessible via the [match_results] class that
 gets filled in when calling one of the regular expression matching algorithms
 ([regex_search], [regex_match], or [regex_iterator]).  So given:

    boost::match_results<IteratorType> m;

 The Perl and Boost.Regex equivalents are as follows:

 [table
 [[Perl][Boost.Regex]]
 [[$\`][`m.prefix()`]]
 [[$&][`m[0]`]]
 [[$n][`m[n]`]]
 [[$\'][`m.suffix()`]]
 ]

 In Boost.Regex each sub-expression match is represented by a [sub_match] object,
 this is basically just a pair of iterators denoting the start and end
 position of the sub-expression match, but there are some additional
 operators provided so that objects of type [sub_match] behave a lot like a
 `std::basic_string`: for example they are implicitly convertible to a
 `basic_string`, they can be compared to a string, added to a string, or
 streamed out to an output stream.

 [h4 Unmatched Sub-Expressions]

 When a regular expression match is found there is no need for all of the
 marked sub-expressions to have participated in the match, for example the expression:

 [pre (abc)|(def)]

 can match either $1 or $2, but never both at the same time.  In Boost.Regex
 you can determine which sub-expressions matched by accessing the
 `sub_match::matched` data member.

 [h4 Repeated Captures]

 When a marked sub-expression is repeated, then the sub-expression gets
 "captured" multiple times, however normally only the final capture is available,
 for example if

 [pre (?:(\w+)\W+)+]

 is matched against

 [pre one fine day]

 Then $1 will contain the string "day", and all the previous captures will have
 been forgotten.

 However, Boost.Regex has an experimental feature that allows all the capture
 information to be retained - this is accessed either via the
 `match_results::captures` member function or the `sub_match::captures` member
 function.  These functions return a container that contains a sequence of all
 the captures obtained during the regular expression matching.  The following
 example program shows how this information may be used:

    #include <boost/regex.hpp>
    #include <iostream>

    void print_captures(const std::string& regx, const std::string& text)
    {
       boost::regex e(regx);
       boost::smatch what;
       std::cout << "Expression:  \"" << regx << "\"\n";
       std::cout << "Text:        \"" << text << "\"\n";
       if(boost::regex_match(text, what, e, boost::match_extra))
       {
          unsigned i, j;
          std::cout << "** Match found **\n   Sub-Expressions:\n";
          for(i = 0; i < what.size(); ++i)
             std::cout << "      $" << i << " = \"" << what[i] << "\"\n";
          std::cout << "   Captures:\n";
          for(i = 0; i < what.size(); ++i)
          {
             std::cout << "      $" << i << " = {";
             for(j = 0; j < what.captures(i).size(); ++j)
             {
                if(j)
                   std::cout << ", ";
                else
                   std::cout << " ";
                std::cout << "\"" << what.captures(i)[j] << "\"";
             }
             std::cout << " }\n";
          }
       }
       else
       {
          std::cout << "** No Match found **\n";
       }
    }

    int main(int , char* [])
    {
       print_captures("(([[:lower:]]+)|([[:upper:]]+))+", "aBBcccDDDDDeeeeeeee");
       print_captures("(.*)bar|(.*)bah", "abcbar");
       print_captures("(.*)bar|(.*)bah", "abcbah");
       print_captures("^(?:(\\w+)|(?>\\W+))*$",
          "now is the time for all good men to come to the aid of the party");
       return 0;
    }

 Which produces the following output:

 [pre
 Expression:  "(([[:lower:\]\]+)|([[:upper:\]\]+))+"
 Text:        "aBBcccDDDDDeeeeeeee"
 '''**''' Match found '''**'''
    Sub-Expressions:
       $0 = "aBBcccDDDDDeeeeeeee"
       $1 = "eeeeeeee"
       $2 = "eeeeeeee"
       $3 = "DDDDD"
    Captures:
       $0 = { "aBBcccDDDDDeeeeeeee" }
       $1 = { "a", "BB", "ccc", "DDDDD", "eeeeeeee" }
       $2 = { "a", "ccc", "eeeeeeee" }
       $3 = { "BB", "DDDDD" }
 Expression:  "(.'''*''')bar|(.'''*''')bah"
 Text:        "abcbar"
 '''**''' Match found '''**'''
    Sub-Expressions:
       $0 = "abcbar"
       $1 = "abc"
       $2 = ""
    Captures:
       $0 = { "abcbar" }
       $1 = { "abc" }
       $2 = { }
 Expression:  "(.'''*''')bar|(.'''*''')bah"
 Text:        "abcbah"
 '''**''' Match found '''**'''
    Sub-Expressions:
       $0 = "abcbah"
       $1 = ""
       $2 = "abc"
    Captures:
       $0 = { "abcbah" }
       $1 = { }
       $2 = { "abc" }
 Expression:  "^(?:(\w+)|(?>\W+))'''*$'''"
 Text:        "now is the time for all good men to come to the aid of the party"
 '''**''' Match found '''**'''
    Sub-Expressions:
       $0 = "now is the time for all good men to come to the aid of the party"
       $1 = "party"
    Captures:
       $0 = { "now is the time for all good men to come to the aid of the party" }
       $1 = { "now", "is", "the", "time", "for", "all", "good", "men", "to",
          "come", "to", "the", "aid", "of", "the", "party" }
 ]

 Unfortunately enabling this feature has an impact on performance
 (even if you don't use it), and a much bigger impact if you do use it,
 therefore to use this feature you need to:

 * Define BOOST_REGEX_MATCH_EXTRA for all translation units including the library source (the best way to do this is to uncomment this define in boost/regex/user.hpp and then rebuild everything.
 * Pass the match_extra flag to the particular algorithms where you actually need the captures information (regex_search, regex_match, or regex_iterator).

 [endsect]
	[/
	Copyright 2006-2007 John Maddock.
	Distributed under the Boost Software License, Version 1.0.
	(See accompanying file LICENSE_1_0.txt or copy at
	http://www.boost.org/LICENSE_1_0.txt).
	]


	[section:captures Understanding Marked Sub-Expressions and Captures]

	Captures are the iterator ranges that are "captured" by marked
	sub-expressions as a regular expression gets matched. Each marked
	sub-expression can result in more than one capture, if it is matched
	more than once. This document explains how captures and marked
	sub-expressions in Boost.Regex are represented and accessed.

	[h4 Marked sub-expressions]

	Every time a Perl regular expression contains a parenthesis group `()`, it
	spits out an extra field, known as a marked sub-expression,
	for example the expression:

	[pre (\w+)\W+(\w+)]

	Has two marked sub-expressions (known as $1 and $2 respectively), in
	addition the complete match is known as $&, everything before the
	first match as $\`, and everything after the match as $'. So
	if the above expression is searched for within `"@abc def--"`, then we obtain:

	[table
	[[Sub-expression][Text found]]
	[[$\`]["@"]]
	[[$&]["abc def"]]
	[[$1]["abc"]]
	[[$2]["def"]]
	[[$']["--"]]
	]

	In Boost.Regex all these are accessible via the [match_results] class that
	gets filled in when calling one of the regular expression matching algorithms
	([regex_search], [regex_match], or [regex_iterator]). So given:

	boost::match_results<IteratorType> m;

	The Perl and Boost.Regex equivalents are as follows:

	[table
	[[Perl][Boost.Regex]]
	[[$\`][`m.prefix()`]]
	[[$&][`m[0]`]]
	[[$n][`m[n]`]]
	[[$\'][`m.suffix()`]]
	]

	In Boost.Regex each sub-expression match is represented by a [sub_match] object,
	this is basically just a pair of iterators denoting the start and end
	position of the sub-expression match, but there are some additional
	operators provided so that objects of type [sub_match] behave a lot like a
	`std::basic_string`: for example they are implicitly convertible to a
	`basic_string`, they can be compared to a string, added to a string, or
	streamed out to an output stream.

	[h4 Unmatched Sub-Expressions]

	When a regular expression match is found there is no need for all of the
	marked sub-expressions to have participated in the match, for example the expression:

	[pre (abc)\|(def)]

	can match either $1 or $2, but never both at the same time. In Boost.Regex
	you can determine which sub-expressions matched by accessing the
	`sub_match::matched` data member.

	[h4 Repeated Captures]

	When a marked sub-expression is repeated, then the sub-expression gets
	"captured" multiple times, however normally only the final capture is available,
	for example if

	[pre (?:(\w+)\W+)+]

	is matched against

	[pre one fine day]

	Then $1 will contain the string "day", and all the previous captures will have
	been forgotten.

	However, Boost.Regex has an experimental feature that allows all the capture
	information to be retained - this is accessed either via the
	`match_results::captures` member function or the `sub_match::captures` member
	function. These functions return a container that contains a sequence of all
	the captures obtained during the regular expression matching. The following
	example program shows how this information may be used:

	#include <boost/regex.hpp>
	#include <iostream>

	void print_captures(const std::string& regx, const std::string& text)
	{
	boost::regex e(regx);
	boost::smatch what;
	std::cout << "Expression: \"" << regx << "\"\n";
	std::cout << "Text: \"" << text << "\"\n";
	if(boost::regex_match(text, what, e, boost::match_extra))
	{
	unsigned i, j;
	std::cout << " Match found \n Sub-Expressions:\n";
	for(i = 0; i < what.size(); ++i)
	std::cout << " $" << i << " = \"" << what[i] << "\"\n";
	std::cout << " Captures:\n";
	for(i = 0; i < what.size(); ++i)
	{
	std::cout << " $" << i << " = {";
	for(j = 0; j < what.captures(i).size(); ++j)
	{
	if(j)
	std::cout << ", ";
	else
	std::cout << " ";
	std::cout << "\"" << what.captures(i)[j] << "\"";
	}
	std::cout << " }\n";
	}
	}
	else
	{
	std::cout << " No Match found \n";
	}
	}

	int main(int , char* [])
	{
	print_captures("(([[:lower:]]+)\|([[:upper:]]+))+", "aBBcccDDDDDeeeeeeee");
	print_captures("(.)bar\|(.)bah", "abcbar");
	print_captures("(.)bar\|(.)bah", "abcbah");
	print_captures("^(?:(\\w+)\|(?>\\W+))*$",
	"now is the time for all good men to come to the aid of the party");
	return 0;
	}

	Which produces the following output:

	[pre
	Expression: "(([[:lower:\]\]+)\|([[:upper:\]\]+))+"
	Text: "aBBcccDDDDDeeeeeeee"
	'''''' Match found ''''''
	Sub-Expressions:
	$0 = "aBBcccDDDDDeeeeeeee"
	$1 = "eeeeeeee"
	$2 = "eeeeeeee"
	$3 = "DDDDD"
	Captures:
	$0 = { "aBBcccDDDDDeeeeeeee" }
	$1 = { "a", "BB", "ccc", "DDDDD", "eeeeeeee" }
	$2 = { "a", "ccc", "eeeeeeee" }
	$3 = { "BB", "DDDDD" }
	Expression: "(.'''''')bar\|(.'''''')bah"
	Text: "abcbar"
	'''''' Match found ''''''
	Sub-Expressions:
	$0 = "abcbar"
	$1 = "abc"
	$2 = ""
	Captures:
	$0 = { "abcbar" }
	$1 = { "abc" }
	$2 = { }
	Expression: "(.'''''')bar\|(.'''''')bah"
	Text: "abcbah"
	'''''' Match found ''''''
	Sub-Expressions:
	$0 = "abcbah"
	$1 = ""
	$2 = "abc"
	Captures:
	$0 = { "abcbah" }
	$1 = { }
	$2 = { "abc" }
	Expression: "^(?:(\w+)\|(?>\W+))'''*$'''"
	Text: "now is the time for all good men to come to the aid of the party"
	'''''' Match found ''''''
	Sub-Expressions:
	$0 = "now is the time for all good men to come to the aid of the party"
	$1 = "party"
	Captures:
	$0 = { "now is the time for all good men to come to the aid of the party" }
	$1 = { "now", "is", "the", "time", "for", "all", "good", "men", "to",
	"come", "to", "the", "aid", "of", "the", "party" }
	]

	Unfortunately enabling this feature has an impact on performance
	(even if you don't use it), and a much bigger impact if you do use it,
	therefore to use this feature you need to:

	* Define BOOST_REGEX_MATCH_EXTRA for all translation units including the library source (the best way to do this is to uncomment this define in boost/regex/user.hpp and then rebuild everything.
	* Pass the match_extra flag to the particular algorithms where you actually need the captures information (regex_search, regex_match, or regex_iterator).

	[endsect]