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the whole point of const_string is avoiding make a unnecesary copy when the string is not supposed to change.

However, there are circumstances where you cannot guarantee the lifetime of the const char* source to outlive the const_string, for instance, if using const_string as keys of the map, if some of the const char* become reclaimed, you'll have very amusing segmentation faults to debug ahead of you.

Is there a way to tell const_string, hey pal, please keep a private copy of this const char*? or std::string?

I'll refer to a previous question so you understand what i'm after.

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Sounds like you are not abiding by the ownership semantics of the type you're using. – PreferenceBean Feb 26 '12 at 13:07
@daknøk: The second sentence in the linked text covers that (whether you agree with it or not, it's covered at least!) This looks like a boost::shared_ptr<const char> of sorts (well, you know what I mean) – PreferenceBean Feb 26 '12 at 13:07
@tomalak, maybe, but what i'm after should not be impossible; i want to keep keys in the map with their own buffers, but i want it unordered_map (or any other std/boost container) to take an instance of the same type but that doesn't need a private copy of the data (just a reference will work to do a search) because the search instance will have a well defined scope. Yeah probably i can hack something to keep the const_strings pointing to buffers hold by the map instance, but maybe i can do it less hacky? – lurscher Feb 26 '12 at 13:10
Why do you need to hack anything? Just don't abuse the data to which you're giving const_string ownership. It's just the same as not writing shared_ptr<T> p(new T()); delete p; – PreferenceBean Feb 26 '12 at 13:12
what you mean abuse the data? you mean if i feed const_string a const char* it will take ownership of it? so you mean that it will free the buffer at destruction? I think that is the part i'm not clear about and why i'm seeking clarification – lurscher Feb 26 '12 at 13:13
up vote 1 down vote accepted

And what doesn't work? By looking at the code (the documentation is mediocre at best), I can see that const_string(charp) (as opposed to const_string(boost::cref(charp)) with charp being char* should make a copy of the data. Another possibility is using the const_string(Iterator begin, Iterator end) constructor. (See the two-argument constructor of const_string_storage in storage.hpp, line 153)

They even use a temporary std::basic_string to initialize const_string in their test (I haven't run it to be honest), so it should work normally.

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