Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

Migrated from [Spirit-general] list

Good morning,

I'm trying to parse a relatively simple pattern across 4 std::strings, extracting whatever the part which matches the pattern into a separate std::string.

In an abstracted sense, here is what I want:

s1=<string1><consecutive number>, s2=<consecutive number><string2>,
s3=<string1><consecutive number>, s4=<consecutive number><string2>

Less abstracted:

s1="apple 1", s2="2 cheese", s3="apple 3", s4="4 cheese"

Actual contents:

s1="lxckvjlxcjvlkjlkje xvcjxzlvcj wqrej lxvcjz ljvl;x czvouzxvcu
j;ljfds apple 1 xcvljxclvjx oueroi xcvzlkjv; zjx", s2="xzljlkxvc
jlkjxzvl jxcvljzx lvjlkj wre 2 cheese", s3="apple 3", s4="kxclvj
xcvjlxk jcvljxlck jxcvl 4 cheese"

How would I perform this pattern matching?

Thanks for all suggestions,

Alec Taylor

Update 2

Here is a really simple explanation I just figured out to explain the problem I am trying to solve:

 std::string s1=garbagetext1+number1+name1+garbagetext4;
 std::string s3=garbagetext2+(number1+2)+name1+garbagetext5;
 std::string s5=garbagetext3+(number1+4)+name1+garbagetext6;

Edit for context:

Feel free to add it to stackoverflow (I've been having some trouble posting there)

I can't give you what I've done so far, because I wasn't sure if it was within the capabilities of the boost::spirit libraries to do what I'm trying to do

share|improve this question
Sehe, I didn't notice in the original thread what exactly Alec wants the output to be for his complicated inputs. Can you re-work his post a little bit with your crystal ball to figure out what he's after? – sarnold Nov 10 '11 at 2:02
In the example "abstracted" data, the string always starts or ends with a number; in the "actual contents" data, it doesn't. Can you show what the expected output of the actual content is? – ildjarn Nov 10 '11 at 2:03
@sarnold: I have just posted my 'crystal ball picture image' of it... I'll cross post that to the list for the beneficiary :) – sehe Nov 10 '11 at 2:09
@sehe: wow. That's an amazing crystal ball you've got. :) – sarnold Nov 10 '11 at 2:13

Edit: Re Update2

Here is a really simple explanation I just figured out to explain the problem I am trying to solve:

std::string s1=garbagetext1+number1+name1+garbagetext4;
std::string s3=garbagetext2+(number1+2)+name1+garbagetext5;
std::string s5=garbagetext3+(number1+4)+name1+garbagetext6;

It starts looking like a job for:

  • Tokenizing the 'garbage text/names' - you could make a symbol table of sorts on the fly and use it to match patterns (spirit Lex and Qi's symbol table (qi::symbol) could facilitate it, but I feel you could write that in any number of ways)
  • conversely, use regular expressions, as suggested before (below, and at least twice in mailing list).

Here's a simple idea:

 (\d+) ([a-z]+).*?(\d+) \2
  • \d+ match a sequence of digits in a "(subexpression)" (NUM1)
  • ([a-z]+) match a name (just picked a simple definition of 'name')
  • .*? skip any length of garbage, but as little as possible before starting subsequent match
  • \d+ match another number (sequence of digits) (NUM2)
  • \2 followed by the same name (backreference)

You can see how you'd already be narrowing the list of matches to inspect down to 'potential' hits. You'd only have to /post-validate/ to see that NUM2 == NUM1+2

Two notes:

  1. Add (...)+ around the tail part to allow repeated matching of patterns

      (\d+) ([a-z]+)(.*?(\d+) \2)+
  2. You may wish to make the garbage skip (.*?) aware of separators (by doing negative zerowidth assertions) to avoid more than 2 skipping delimiters (e.g. s\d+=" as a delimiting pattern). I leave it out of scope for clarity now, here's the gist:

    ((?!s\d+=").)*?         -- beware of potential performance degradation

Alec, The following is a show-case of how to do a wide range of things in Boost Spirit, in the context of answering your question.

I had to make assumptions about what is required input structure; I assumed

  • whitespace was strict (spaces as shown, no newlines)
  • the sequence numbers should be in increasing order
  • the sequence numbers should recur exactly in the text values
  • the keywords 'apple' and 'cheese' are in strict alternation
  • whether the keyword comes before or after the the sequence number in the text value, is also in strict alternation

Note There are about a dozen places in the implementation below, where significantly less complex choices could possibly have been made. For example, I could have hardcoded the whole pattern (as a de facto regex?), assuming that 4 items are always expected in the input. However I wanted to

However, the solution allows a great deal of flexibility:

  • the keywords aren't hardcoded, and you could e.g. easily make the parser accept both keywords at any sequence number
  • a comment shows how to generate a custom parsing exception when the sequence number is out of sync (not the expected number)
  • different spellings of the sequence numbers are currently accepted (i.e. s01="apple 001" is ok. Look at Unsigned Integer Parsers for info on how to tune that behaviour)
  • the output structure is either a vector<std::pair<int, std::string> > or a vector of struct:

    struct Entry
        int sequence;
        std::string text;

    both versions can be switched with the single #if 1/0 line

The sample uses Boost Spirit Qi for parsing. Conversely, Boost Spirit Karma is used to display the result of parsing:

format((('s' << auto_ << "=\"" << auto_) << "\"") % ", ", parsed)

The output for the actual contents given in the post is:

parsed: s1="apple 1", s2="2 cheese", s3="apple 3", s4="4 cheese"

On to the code.

#include <boost/spirit/include/qi.hpp>
#include <boost/spirit/include/karma.hpp>
#include <boost/spirit/include/phoenix.hpp>
#include <boost/spirit/include/phoenix_operator.hpp>

namespace qi = boost::spirit::qi;
namespace karma = boost::spirit::karma;
namespace phx = boost::phoenix;

#if 1 // using fusion adapted struct

    #include <boost/fusion/adapted/struct.hpp>
    struct Entry
        int sequence;
        std::string text;

    BOOST_FUSION_ADAPT_STRUCT(Entry, (int, sequence)(std::string, text));

#else // using boring std::pair

    #include <boost/fusion/adapted/std_pair.hpp> // for karma output generation
    typedef std::pair<int, std::string> Entry;


int main()
    std::string input =
        "s1=\"lxckvjlxcjvlkjlkje xvcjxzlvcj wqrej lxvcjz ljvl;x czvouzxvcu"
        "j;ljfds apple 1 xcvljxclvjx oueroi xcvzlkjv; zjx\", s2=\"xzljlkxvc"
        "jlkjxzvl jxcvljzx lvjlkj wre 2 cheese\", s3=\"apple 3\", s4=\"kxclvj"
        "xcvjlxk jcvljxlck jxcvl 4 cheese\"";

    using namespace qi;

    typedef std::string::const_iterator It;

    It f(input.begin()), l(input.end());

    int next = 1;
    qi::rule<It, std::string(int)> label;
    qi::rule<It, std::string(int)> value;
    qi::rule<It, int()>            number;
    qi::rule<It, Entry(), qi::locals<int> > assign;

    label  %= qi::raw [ 
                  ( eps(qi::_r1 % 2) >> qi::string("apple ")  > qi::uint_(qi::_r1) )
               |   qi::uint_(qi::_r1) > qi::string(" cheese")

    value  %= '"' 
        >> qi::omit[ *(~qi::char_('"') - label(qi::_r1)) ]
        >> label(qi::_r1)
        >> qi::omit[ *(~qi::char_('"'))         ]
        >> '"';

    number %= qi::uint_(phx::ref(next)++) /*| eps [ phx::throw_(std::runtime_error("Sequence number out of sync")) ] */;

    assign %= 's' > number[ qi::_a = _1 ] > '=' > value(qi::_a);

    std::vector<Entry> parsed;

    bool ok = false;
        ok = parse(f, l, assign % ", ", parsed);

        if (ok)
            using namespace karma;
            std::cout << "parsed:\t" << format((('s' << auto_ << "=\"" << auto_) << "\"") % ", ", parsed) << std::endl;
    } catch(qi::expectation_failure<It>& e)
        std::cerr << "Expectation failed: " << e.what() << " '" << std::string(e.first, e.last) << "'" << std::endl;
    } catch(const std::exception& e)
        std::cerr << e.what() << std::endl; 

    if (!ok || (f!=l))
        std::cerr << "problem at: '" << std::string(f,l) << "'" << std::endl;
share|improve this answer

Provided you can use c++11 compiler, parsing these patterns is pretty simple using AXE:

#include <axe.h>
#include <string>

template<class I>
void num_value(I i1, I i2)
    unsigned n;
    unsigned next = 1;
    // rule to match unsigned decimal number and compare it with another number
    auto num = axe::r_udecimal(n) & axe::r_bool([&](...){ return n == next; });
    // rule to match a single word
    auto word = axe::r_alphastr();
    // rule to match space characters
    auto space = axe::r_any(" \t\n");

    // semantic action - print to cout and increment next
    auto e_cout = axe::e_ref([&](I i1, I i2) 
        std::cout << std::string(i1, i2) << '\n'; 

    // there are only two patterns in this example
    auto pattern1 = (word & +space & num) >> e_cout;
    auto pattern2 = (num & +space & word) >> e_cout;

    auto s1 = axe::r_find(pattern1);
    auto s2 = axe::r_find(pattern2);
    auto text = s1 & s2 & s1 & s2 & axe::r_end();
    text(i1, i2);

To parse the text simply call num_value(text.begin(), text.end()); No changes required to parse unicode strings.

I didn't test it.

share|improve this answer
Looking very interesting. You don't seem to have something in place to check for matching words, yet? Also Re: † I didn't test it -- You also didn't link to it. Googling axe.h or "Axe Library" comes up empty/unhelpful? I noticed that you posted other answers based on Axe, but I found no link yet. Also, do you have sample output? Without lib and without documentation, I'm left to guess what s1 & s2 ... does (and auto doesn't clue us in, either). – sehe Nov 11 '11 at 8:22
@sehe -- sorry, I thought it was easy to find the library. Here is one place to get it: – Gene Bushuyev Nov 11 '11 at 18:00
@sehe -- I now tested it, found a bug in r_find, fixed it, it now prints "apple 1\n2 cheese\napple 3\n4 cheese" as one would expect. So thanks for the new test case :-) – Gene Bushuyev Nov 11 '11 at 22:57
if you're using C++11 doesn't that already have <regex> which in and of itself you can do pattern matching with (rather than needing to pull in a third party lib (I'm assuming AXE is third party))? – Dan S Jun 6 '13 at 18:27

Look into Boost.Regex. I've seen an almost-identical poosting in boost-users and the solution is to use regexes for some of the match work.

share|improve this answer
Could you dig up a reference? If it is any good, I'm prepared to accept your answer, especially after the most recent shift in the question. – sehe Nov 11 '11 at 1:09

Your Answer


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.