Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

My question is about whether the boost regex engine can do "global searches".
I've tried and I can't get it to do it.

The match_results class contains the base pointer of the string, so after incrementing the
starting position manually then setting the match_flag_type to match_not_bob | match_prev_avail,
I would have thought the boost regex engine would be able to know it is in the middle of a string.

Since I'm using this engine in my software, I'd like to know if this engine can infact do this correctly and I'm doing something wrong, or global searching is not possible with this engine.

Below are sample code/output using BOOST regex, and an equivalent Perl script.

Edit: Just to clarify, in the below boost example the Start iterator is always treated as a boundry. The engine doesn't seem to consider text to the left of that position when making a match.
At least in this case.

7/22/2014 - The Solution for Global Search

Posting this update as the solution. Its not a workaround or kludge.
After googling 'regex_iterator' I knew that regex_iterator sees the text to the left of the
current search position. And, I came across all the same source code. One site (like the others)
had an passing simple explanation of how it works that said it calls 'regex_search()'
when the regex_iterator is incremented.

So down in the bowels of the regex_iterator class, I saw that it indeed called regex_search() when
the iterator was incremented ->Next().

This 'regex_search()' overload wasn't documented and comes in only 1 type.
It includes a BIDI parameter at the end named 'base'.

bool regex_search(BidiIterator first, BidiIterator last, 
                  match_results<BidiIterator, Allocator>& m, 
                  const basic_regex<charT, traits>& e, 
                  match_flag_type flags,
                  BidiIterator base)
{
   if(e.flags() & regex_constants::failbit)
      return false;

   re_detail::perl_matcher<BidiIterator, Allocator, traits> matcher(first, last, m, e, flags, base);
   return matcher.find();
}

It appears the base is the wall to the left of the start BIDI from where initial lookbehind's could use to check conditions..

So, I tested it out and it seemed to work.
The bottom line is to set base BIDI to the start of the input, and put the start BIDI anywhere after.
Effectively, this is like setting the pos() variable in Perl.

And, to emulate global positional increment on a zero-length match, a simple conditional is all that's
needed:

Start = ( _M[0].length() == 0) ? _M[0].first + 1 : _M[0].second; (see below)

BOOST Regex 1.54 regex_search() using 'base' BIDI
Note - in this example, Start always = _M[0].second;
The regex is purposely unlike the two other examples (below it), to demonstrate in fact
the text from 'Base' to 'Start' is considered each time when matching this regex.

#typedef std::string::const_iterator SITR;

boost::regex Rx( "(?<=(.)).", regex_constants::perl );
regex_constants::match_flag_type Flags = match_default;

string str("0123456789");

SITR Start = str.begin();
SITR End   = str.end();
SITR Base  = Start;
boost::smatch _M;

while ( boost::regex_search( Start, End, _M, Rx, Flags, Base) )
{
    string str1(_M[1].first, _M[1].second );
    string str0(_M[0].first, _M[0].second );
    cout << str1 << str0 << endl;

    // This line implements the Perl global match flag m//g ->
    Start = ( _M[0].length() == 0) ? _M[0].first + 1 : _M[0].second;
}

output:
01
12
23
34
45
56
67
78
89

Perl 5.10

use strict;
use warnings;

my $str = "0123456789";
while ( $str =~ /(?<=(..))/g )
{
    print ("$1\n");
}

output:**
01
12
23
34
45
56
67
78
89

BOOST Regex 1.54 regex_search() no 'base'

string str("0123456789");
std::string::const_iterator Start = str.begin();
std::string::const_iterator End = str.end();
boost::regex Rx("(?<=(..))", regex_constants::perl);
regex_constants::match_flag_type Flags = match_default;
boost::smatch _M;  

while ( boost::regex_search( Start, End, _M, Rx, Flags) )
{
    string str(_M[1].first, _M[1].second );
    cout << str << "\n";
    Flags |= regex_constants::match_prev_avail;
    Flags |= regex_constants::match_not_bob;
    Start = _M[0].second;
}

output:
01
23
45
67
89
share|improve this question
    
regex_iterator<>::second should hold the last position of the match in the interval [begin, end). Have you tried starting from M[0].first + 1 instead? –  Homero C. de Almeida Jul 15 at 19:42
    
@HomeroC.deAlmeida - Thanks for the reply. I know the start position could be manually set. The regex is not fixed to any one thing. So, the general behavior must come from the engine. –  sln Jul 15 at 19:49

1 Answer 1

up vote 2 down vote accepted

Updated in response to the comments Live On Coliru:

#include <boost/regex.hpp>

int main()
{
    using namespace boost;

    std::string str("0123456789");
    std::string::const_iterator start = str.begin();
    std::string::const_iterator end = str.end();
    boost::regex re("(?<=(..))", regex_constants::perl);

    regex_constants::match_flag_type flags = match_default;
    boost::smatch match;  

    while (start<end && 
           boost::regex_search(start, end, match, re, flags))
    {
        std::cout << match[1] << "\n";

        start += 1; // NOTE

        //// some smartness that should work for most cases:
        // start = (match.length(0)? match[0] : match.prefix()).first + 1;

        flags |= regex_constants::match_prev_avail;
        flags |= regex_constants::match_not_bob;

        std::cout << "at '" << std::string(start,end) << "'\n";

    }
}

Prints:

01  at '123456789'
12  at '23456789'
23  at '3456789'
34  at '456789'
45  at '56789'
56  at '6789'
67  at '789'
78  at '89'
89  at '9'
share|improve this answer
    
Thanks @sehe. This is a good simulation. Unfortunately it can't be generalized with user entered regex's. Something like this Start = (_M[0].length() == 0) ? _M[0].first + 1 : _M[0].second; breaks using the regex (?<=.). Even (?=.) sends it into an infinite loop using Start = _M[0].second; I could write workarounds in that case, but the inability to see text at locations < Start makes it crippled. –  sln Jul 15 at 22:38
    
Ah. Now I get the true gist of your question. Sadly, I think you're missing the bigger picture: accepting user input as regexes is a huge security no-no anyways. You will want to do validation or restrict the subset of regex constructs that is available (something without lookahead/behind would be nice here) –  sehe Jul 15 at 22:48
    
Really its just commercial software embedding boost regex as a single step find/replace utility. Its fully protected with exception handling. I know this engine like the back of my hand, its just this one thing that got me. –  sln Jul 15 at 22:59
    
Oh well. It's just this one thing you hit :) I can probably craft some regexen that will send your PC into a coma - potentially losing work. But, you know, if "it's just commercial software", then it's not important, I suppose. –  sehe Jul 15 at 23:04
    
Update I've looked at your profile link and it would appear to me that you know what I'm talking about. Well then. You could try to get fancy and detect zero-width matches like start = (match.length(0)? match[0] : match.prefix()).first + 1;. But honestly, the only thing I see working generically is just start += 1, but that could be costly for performance in simple cases. –  sehe Jul 15 at 23:35

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.