Boost.Spirit解析可选前缀

Question

我尝试解析一串以空格分隔的，可选标记的关键字。例如

descr:expense type:receivable customer 27.3

其中冒号前面的表达式是标记，并且它是可选的（即假定为默认标记）。

我无法让解析器完成我想要的操作。我从canonical example进行了一些小修改，其目的是解析键/值对（非常类似于HTTP查询字符串）。

typedef std::pair<boost::optional<std::string>, std::string> pair_type;
typedef std::vector<pair_type> pairs_type;

template <typename Iterator>
struct field_value_sequence_default_field
  : qi::grammar<Iterator, pairs_type()>
{
    field_value_sequence_default_field()
      : field_value_sequence_default_field::base_type(query)
    {
        query =  pair >> *(qi::lit(' ') >> pair);
        pair  = -(field >> ':') >> value;
        field = +qi::char_("a-zA-Z0-9");
        value = +qi::char_("a-zA-Z0-9+-\\.");
    }

    qi::rule<Iterator, pairs_type()> query;
    qi::rule<Iterator, pair_type()> pair;
    qi::rule<Iterator, std::string()> field, value;
};

但是，当我解析它时，当标记被遗漏时，optional<string>不是空/假。相反，它获得了价值的副本。该对的第二部分也具有价值。

如果未标记的关键字不能成为标记（语法规则，例如有小数点），那么事情就像我期待的那样。

我做错了什么？这是PEG的概念错误吗？

Answer 1

  

相反，它有一个价值的副本。该对的第二部分也具有价值。

这是容器属性和回溯的常见缺陷：使用qi::hold，例如Understanding Boost.spirit's string parser

    pair  = -qi::hold[field >> ':'] >> value;

完整示例 Live On Coliru

#include <boost/spirit/include/qi.hpp>
#include <boost/fusion/adapted/std_pair.hpp>
#include <boost/optional/optional_io.hpp>
#include <iostream>

namespace qi    = boost::spirit::qi;

typedef std::pair<boost::optional<std::string>, std::string> pair_type;
typedef std::vector<pair_type> pairs_type;

template <typename Iterator>
struct Grammar : qi::grammar<Iterator, pairs_type()>
{
    Grammar() : Grammar::base_type(query) {
        query =  pair % ' ';
        pair  = -qi::hold[field >> ':'] >> value;
        field = +qi::char_("a-zA-Z0-9");
        value = +qi::char_("a-zA-Z0-9+-\\.");
    }
  private:
    qi::rule<Iterator, pairs_type()> query;
    qi::rule<Iterator, pair_type()> pair;
    qi::rule<Iterator, std::string()> field, value;
};

int main()
{
    using It = std::string::const_iterator;

    for (std::string const input : {
            "descr:expense type:receivable customer 27.3",
            "expense type:receivable customer 27.3",
            "descr:expense receivable customer 27.3",
            "expense receivable customer 27.3",
    }) {
        It f = input.begin(), l = input.end();

        std::cout << "==== '" << input << "' =============\n";
        pairs_type data;
        if (qi::parse(f, l, Grammar<It>(), data)) {
            std::cout << "Parsed: \n";
            for (auto& p : data) {
                std::cout << p.first << "\t->'" << p.second << "'\n";
            }
        } else {
            std::cout << "Parse failed\n";
        }

        if (f != l)
            std::cout << "Remaining unparsed: '" << std::string(f,l) << "'\n";
    }
}

打印

==== 'descr:expense type:receivable customer 27.3' =============
Parsed: 
 descr  ->'expense'
 type   ->'receivable'
--  ->'customer'
--  ->'27.3'
==== 'expense type:receivable customer 27.3' =============
Parsed: 
--  ->'expense'
 type   ->'receivable'
--  ->'customer'
--  ->'27.3'
==== 'descr:expense receivable customer 27.3' =============
Parsed: 
 descr  ->'expense'
--  ->'receivable'
--  ->'customer'
--  ->'27.3'
==== 'expense receivable customer 27.3' =============
Parsed: 
--  ->'expense'
--  ->'receivable'
--  ->'customer'
--  ->'27.3'