[/============================================================================== Copyright (C) 2001-2015 Joel de Guzman Copyright (C) 2001-2011 Hartmut Kaiser Distributed under the Boost Software License, Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt) ===============================================================================/] [section Number List Attribute - one more, with style] You've seen that the `double_` parser has a `double` attribute. All parsers have an attribute, even complex parsers. Those that are composed from primitives using operators, like the list parser, also have an attribute. It so happens that the attribute of a list parser: p % d is a `std::vector` of the attribute of `p`. So, for our parser: double_ % ',' we'll have an attribute of: std::vector So, what does this give us? Well, we can simply pass in a `std::vector` to our number list parser and it will happily churn out our result in our vector. For that to happen, we'll use a variation of the `phrase_parse` with an additional argument: the parser's attribute. With the following arguments passed to `phrase_parse` # An iterator pointing to the start of the input # An iterator pointing to one past the end of the input # The parser object # Another parser called the skip parser # The parser's attribute Our parser now is further simplified to: template bool parse_numbers(Iterator first, Iterator last, std::vector& v) { using x3::double_; using x3::phrase_parse; using x3::_attr; using ascii::space; bool r = phrase_parse(first, last, // Begin grammar ( double_ % ',' ) , // End grammar space, v); if (first != last) // fail if we did not get a full match return false; return r; } The full cpp file for this example can be found here: [@../../../example/x3/num_list/num_list4.cpp num_list4.cpp] [*Hey, no more actions!!!] Now we're entering the realm of attribute grammars. Cool eh? [endsect]