This question is about the C++ Boost program_options library.

All the tutorials are very clear that I should call notify() on my completed variable map, but I'm not sure what this is actually doing for me. Commenting it out didn't seem to have any effect, and the documentation didn't go into much detail:


Other sources suggest that it runs "user-defined" functions. If so, how are those functions registered and what do they do? Might they throw exceptions?


notify() is a member function of value_semantic. It is a hook that is provided so that, once the final value of an option is determined, any action that should be taken with that option can be done automatically and be encapsulated in its own function. This prevents code from having one long function that acts on each of the options. As the possible options grow, that kind of procedural code can get unwieldy.

You can see an example of setting a notify function in the Boost manual:

options_description desc;
    ("compression", value<int>()->default_value(10), "compression level")
    ("email", value< vector<string> >()
        ->composing()->notifier(&your_function), "email")

These declarations specify that default value of the first option is 10, that the second option can appear several times and all instances should be merged, and that after parsing is done, the library will call function &your_function, passing the value of the "email" option as argument.

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  • Oh, I see it now. You have to look for "notifier," not notify. The notify function is past a const reference to value, so can't mutate it? I don't see much you can do with it other than throw an exception if the option is "bad." – olooney Aug 19 '11 at 20:25
  • @olooney: The intent is that you take whatever the intended action would be with that option. For instance, if you have an option which changes the search path, your notifier function would modify the search path. As I note in my answer, you can do this same logic in your option parsing code by checking each option individually and then taking some action, but that can result in a long procedural blob which is hard to read or modify. – Conspicuous Compiler Aug 20 '11 at 3:54
  • 2
    Sure, but without the ability to mutate the variable_map, pass an opaque handle to an environment object, or bind to functor (using boost::function, say), you're really limited to exceptions and global side effects. That's still useful for changing the working directory or setting a global "verbose" flag, but it's not general enough to move the bulk of option parsing into notifiers. Maybe I should try it before I make a judgement though, I'm just theorizing here. – olooney Aug 21 '11 at 19:30

I think you are on the right track when you mention "functor"...

It's quite common for an option to be processed by passing its argument(s) to some object's method. This can be done more directly with notifiers if you can wrap the method into something that notifier() will accept as an argument. And you can. (If boost::function has a way of doing so, I'm not familiar enough with it (and am too lazy to go study up on it now) -- the following uses the routines in header functional from STDLIB.)


One of your options is --config-file, taking a string argument, which tells the path of a non-default configuration file. You have a class called ConfigParser. Without notifiers, your code might look something like this:

ConfigParser *cp = new ConfigParser();
std::string cp_path;
    ("config-file", value<std::string>(&cp_path)->default_value("~/.myconfig"), "Config File")
    // ... the rest of your options


With notifiers:

#include <functional>

ConfigParser *cp = new ConfigParser();
    ("config-file", value<std::string>()->default_value("~/.myconfig")->notifier(std::bind1st(std::mem_fun(&ConfigParser::setPath), cp)), "Config File")
    // ... the rest of your options
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