Como analisar de forma incremental (e atuar) um arquivo grande com o Boost.Spirit.Qi?

Eu criei um analisador de Qi para um formato de arquivo de texto personalizado. Existem dezenas de milhares de entradas para processar e cada entrada geralmente tem entre 1 a 10 subentradas. Eu coloquei um exemplo de trabalho aparado do meu analisadoraqui.

#include <boost/config/warning_disable.hpp>
#include <boost/spirit/include/qi.hpp>
#include <boost/spirit/include/phoenix_core.hpp>
#include <boost/spirit/include/phoenix_operator.hpp>
#include <boost/spirit/include/phoenix_fusion.hpp>
#include <boost/spirit/include/phoenix_stl.hpp>
#include <boost/spirit/include/phoenix_object.hpp>
#include <boost/spirit/include/support_istream_iterator.hpp>
#include <boost/fusion/include/adapt_struct.hpp>
#include <boost/fusion/include/io.hpp>

#include <fstream>
#include <iostream>
#include <string>

using std::string;
using std::vector;
using std::cout;
using std::endl;

namespace model
{
    namespace qi = boost::spirit::qi;

    struct spectrum
    {
        string comment;
        string file;
        string nativeId;
        double precursorMz;
        int precursorCharge;
        double precursorIntensity;
    };

    struct cluster
    {
        string id;
        vector<spectrum> spectra;
    };

    struct clustering
    {
        string name;
        vector<cluster> clusters;
    };
}

// Tell fusion about the data structures to make them first-class fusion citizens.
// Must be at global scope.

BOOST_FUSION_ADAPT_STRUCT(
    model::spectrum,
    (string, comment)
    (string, file)
    (string, nativeId)
    (double, precursorMz)
    (int, precursorCharge)
    (double, precursorIntensity)
)

BOOST_FUSION_ADAPT_STRUCT(
    model::cluster,
    (string, id)
    (std::vector<model::spectrum>, spectra)
)

BOOST_FUSION_ADAPT_STRUCT(
    model::clustering,
    (string, name)
    (std::vector<model::cluster>, clusters)
)

namespace {
    struct ReportError
    {
      template<typename, typename, typename, typename> struct result { typedef void type; };

      // contract the string to the surrounding new-line characters
      template<typename Iter>
      void operator()(Iter first_iter, Iter last_iter,
                      Iter error_iter, const boost::spirit::qi::info& what) const
      {
        std::string first(first_iter, error_iter);
        std::string last(error_iter, last_iter);
        auto first_pos = first.rfind('\n');
        auto last_pos = last.find('\n');
        auto error_line = ((first_pos == std::string::npos) ? first
                            : std::string(first, first_pos + 1))
                          + std::string(last, 0, last_pos);
        //auto error_pos = (error_iter - first_iter) + 1;
        /*auto error_pos = error
        if (first_pos != std::string::npos)
          error_pos -= (first_pos + 1);*/

        std::cerr << "Error parsing in " << what << std::endl
                  << error_line << std::endl
                  //<< std::setw(error_pos) << '^'
                  << std::endl;
        }
    };

    const boost::phoenix::function<ReportError> report_error = ReportError();
}

namespace model
{
    template <typename Iterator>
    struct cluster_parser : qi::grammar<Iterator, clustering(), qi::blank_type>
    {
        cluster_parser() : cluster_parser::base_type(clusters)
        {
            using qi::int_;
            using qi::lit;
            using qi::double_;
            using qi::bool_;
            using qi::lexeme;
            using qi::eol;
            using qi::ascii::char_;
            using qi::on_error;
            using qi::fail;
            using namespace qi::labels;
            using boost::phoenix::construct;
            using boost::phoenix::val;

            quoted_string %= lexeme['"' > +(char_ - '"') > '"'];

            spectrum_start %=
                lit("SPEC") >
                "#" > +(char_ - "File:") >
                "File:" > quoted_string > lit(",") >
                "NativeID:" > quoted_string >
                bool_ > double_ > int_ > double_;

            cluster_start %= 
                "=Cluster=" > eol >
                "id=" > +(char_ - eol) > eol >
                spectrum_start % eol;

            clusters %= 
                "name=" > +(char_ - eol) > eol >
                eol >
                cluster_start % eol;

            BOOST_SPIRIT_DEBUG_NODES((clusters)(cluster_start)(quoted_string)(spectrum_start))

            //on_error<fail>(clusters, report_error(_1, _2, _3, _4));
            //on_error<fail>(cluster_start, report_error(_1, _2, _3, _4));
            //on_error<fail>(spectrum_start, report_error(_1, _2, _3, _4));
            //on_error<fail>(quoted_string, report_error(_1, _2, _3, _4));

            // on_success(cluster_start, quantify_cluster(_1, _2, _3, _4)); ??
        }

        qi::rule<Iterator, std::string(), qi::blank_type> quoted_string;
        qi::rule<Iterator, cluster(), qi::blank_type> cluster_start;
        qi::rule<Iterator, spectrum(), qi::blank_type> spectrum_start;
        qi::rule<Iterator, clustering(), qi::blank_type> clusters;
    };
}

int main()
{
    using namespace model;

    cluster_parser<boost::spirit::istream_iterator> g; // Our grammar
    string str;
    //std::ifstream input("c:/test/Mo_tai.clustering");
    std::istringstream input("name=GreedyClustering_0.99\n"
"\n"
"=Cluster=\n"
"id=9c8c5830-5841-4f77-b819-64180509615b\n"
"SPEC\t#file=w:\\test\\Mo_Tai_iTRAQ_f4.mgf#id=index=219#title=Mo_Tai_iTRAQ_f4.1254.1254.2 File:\"Mo_Tai_iTRAQ_f4.raw\", NativeID:\"controllerType=0 controllerNumber=1 scan=1254\"\ttrue\t\t300.1374\t2\t\t\t0.0\n"
"=Cluster=\n"
"id=f8f384a1-3d5f-4af1-9581-4d03a5aa3342\n"
"SPEC\t#file=w:\\test\\Mo_Tai_iTRAQ_f9.mgf#id=index=560#title=Mo_Tai_iTRAQ_f9.1666.1666.3 File:\"Mo_Tai_iTRAQ_f9.raw\", NativeID:\"controllerType=0 controllerNumber=1 scan=1666\"\ttrue\t\t300.14413\t3\t\t\t0.0\n"
"SPEC\t#file=w:\\test\\Mo_Tai_iTRAQ_f9.mgf#id=index=520#title=Mo_Tai_iTRAQ_f9.1621.1621.3 File:\"Mo_Tai_iTRAQ_f9.raw\", NativeID:\"controllerType=0 controllerNumber=1 scan=1621\"\ttrue\t\t300.14197\t3\t\t\t0.0\n"
"=Cluster=\n"
"id=b84b79e1-44bc-44c0-a9af-5391ca02582d\n"
"SPEC\t#file=w:\\test\\Mo_Tai_iTRAQ_f2.mgf#id=index=7171#title=Mo_Tai_iTRAQ_f2.12729.12729.2 File:\"Mo_Tai_iTRAQ_f2.raw\", NativeID:\"controllerType=0 controllerNumber=1 scan=12729\"\ttrue\t\t300.15695\t2\t\t\t0.0");
    input.unsetf(std::ios::skipws);
    boost::spirit::istream_iterator begin(input);
    boost::spirit::istream_iterator end;

    clustering clusteringResults;
    bool r = phrase_parse(begin, end, g, qi::blank, clusteringResults);

    if (r && begin == end)
    {
        cout << "Parsing succeeded (" << clusteringResults.clusters.size() << " clusters)\n";

        /*for (size_t i = 0; i < std::min((size_t)10, clusteringResults.clusters.size()); ++i)
        {
            cluster& c = clusteringResults.clusters[i];
            cout << "Cluster " << c.id << " - avg. precursor m/z: " << c.avgPrecursorMz << ", num. spectra: " << c.spectra.size() << endl;
        }*/
        return 1;
    }
    else
    {
        std::cout << "Parsing failed (" << clusteringResults.clusters.size() << " clusters)\n";

        if (!clusteringResults.clusters.empty())
        {
            cluster& c = clusteringResults.clusters.back();
            cout << "Last cluster parsed " << c.id << ", num. spectra: " << c.spectra.size() << endl;
        }
        return 1;
    }
}

Não quero analisar o arquivo inteiro na memória antes de processá-lo. Como posso enfileirar uma entrada (cluster) para processamento após a conclusão de cada análise de cluster, excluir o cluster após o processamento e continuar analisando? Melhor ainda seria que outro thread processasse o processamento de forma assíncrona.

questionAnswers(1)

yourAnswerToTheQuestion