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I have a custom terminal in boost::spirit and I want user to be able to provide first parameter of my terminal as lazy parameter and rest of them as normal literal strings. is this possible using use_lazy_terminal for example if in my specialization I use:

struct use_lazy_terminal<qi::domain, my_custom_tag, 1 /*only first parameter*/>
    : mpl::true_ {};

@sehe so much thanks for your answer, my concern in this question is not performance and I know that compiler will optimize and ... . let me explain why I create my custom terminal:

As you know compile of qi grammars is really slow and finding the source of error is really hard(comparing to simple use of the qi itself), so I decided to write a custom terminal that get this: debug_position( debug_callback, rule_name, msg ). So I can send custom messages from my rules to a custom debugger, as you see its really simple, I could do this with the help of semantic actions, but using this technique and combining it with a macro that expand to nothing in release mode I can simply write my grammars and debug any of them that I want. But since my messages and rule names are constant, I store them as const char* not an std::string or something like that, so I think is it possible to first argument supplied from a function but rest of them forced to be literals? I can use const char (&) [N] in my specialization of use_terminal to force user use string literals.

As you see I can live without this, but I really want to know, can I do this in spirit?

my source code is at:

share|improve this question
I'd really love to see a small example of this. Both because I haven't done a custom terminal with Spirit before, and because it might help me to see where exactly your worries lie. – sehe Nov 7 '12 at 10:45
Spotted your sample: works out nicely for me: (after ironing out the MSVC bugs). What exactly do you want altered? I'll update my answer with some more orthodox approaches to debugging grammars. – sehe Nov 7 '12 at 21:27
@sehe My sample is already working, and I'm already using it to debug my rules and grammars, but I want to know is there any way that I can get my debugger instance from a global function and force user to provide 2 other arguments as string literal?? as you see in my sample my debugger capture them as raw pointers. I know I can change it string, but I'm curious is there any way that only first argument become lazy and 2 others should provided as value?? – BigBoss Nov 7 '12 at 22:46
up vote 1 down vote accepted

I don't see the exact problem here. Whether or not the code compiles down to literals or references would depend on the calling code.

Much simpler example when using semantic actions:

rule1 = int_ [ myactor(_1, phx::val("thisvalue"), phx::cref(instance) ];

// or equivalently

rule1 = int_ [ myactor(_1, "thisvalue", phx::cref(instance) ];


  • the first argument is a lazy actor
  • the second argument is a literal, and it's value (in this case, a const char(&)[10]) will get bound. This will pass as a const char* on invocation. (action_dispatch)
  • the third will pass a const reference to instance, i.e. it will not copy the value at the time of the expression template initialization.

All of this is compile-time generic, meaning that you can expect the same code to be generated by your compiler (with optimizations enabled), as when you coded a direct function invocation

 myfunction(?, "thisvalue", instance); // assuming instance a const lvalue


I think you can ignore the issue. I'd say not treating the arguments as lazy actors would mainly be an compilation-time optimization (as in, an optimization to reduce compilation time and template instantiation).

I expect that you should get what you want, by just declaring all arguments as 'potentially lazy'1:

  • it will copy any actors you pass in as actors
  • it wraps any non-phoenix values in val actors - this is a bit different from universal references
  • however, the final generated code should 'evaporate' that wrapper layer by inlining it away

Note I haven't got the time to check/demonstrate the assertions I make in the above. I'm still throwing this out there, so you can chew on it on your part.

1 looking for a term similar to [universal references] here: a formal parameter type that 'deduces' (compiles down to) to an actor or a literal depending on the actual argument that gets passed in.

Of course, in this case, literals will just be wrapped in phx::val

share|improve this answer
I add explanation and source code – BigBoss Nov 7 '12 at 11:15

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