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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

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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
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3 Answers

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;

#endif

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;
    try
    {
        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;
}
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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'; 
        ++next; 
    });

    // 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: tinyurl.com/724jfkt –  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
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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.

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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
    
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