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I am trying to replace a class method which returns const std::string & with const boost::interprocess::basic_string &. The main challenge I am facing is the incompatibility between the two classes despite their implementation similarity. For more clear explanation I will put that into code

class A
{ std::string m_str;
 const std::string & StrVal() { return m_str; }
}

Now this class has to look like this:

typedef boost::interprocess::allocator<char,boost::interprocess::managed_shared_memory::segment_manager> ShmemAllocatorChar;
typedef boost::interprocess::basic_string<char, std::char_traits<char>,ShmemAllocatorChar> ShMemString;

class A
{
 ShMemString m_str;
 const ShMemString & StrVal() { return m_str; }
}

The problem is that we have a huge code base depending on this:

A a;
const std::string & str = a.StrVal();
// Many string specific operations go here, comparing str with other std::strings for instance

Even If I go over all the code replacing the expected results with const ShMemString &, it will be an even harder work to also fix the uses that follow. I was surprised to find out that the boost's string does not include any comparison/construction methods from std::string.

Any ideas on how to approach this?

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2 Answers 2

up vote 2 down vote accepted

Even if boost::interprocess::basic_string<> did have a conversion to std::basic_string<>, it would be completely useless for your purposes -- after the conversion, the interprocess string would be destroyed, and its allocator is the important one (i.e., the one holding the data in shared memory, which I assume is your motivation for switching basic_string<> implementations in the first place).

So, in the end, you have no choice but to go over all the code replacing the expected results with ShMemString const& (or auto const& if your compiler is recent enough to support it).


To make this less painful in the future, typedef judiciously:

struct A
{
    typedef ShMemString StrValType;
    StrValType const& StrVal() { return m_str; }
private:
    StrValType m_str;
};

// ...

A a;
A::StrValType const& str = a.StrVal();

This way, only the typedef inside of A needs to change and all code relying on it will automatically use the correct type.

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So, how does this solve the problem of the missing comparison functions from interprocess::string? –  Nicol Bolas Sep 16 '11 at 20:59
    
@Nicol : Why should boost::interprocess::string have functions built-in to compare to std::string? What purpose would that serve other than to tightly couple the former to the latter? I.e., one can simply use any iterator-based algorithm and avoid the coupling. –  ildjarn Sep 16 '11 at 21:05
1  
That interporcess::basic_string shouldn't have comparison functions to std::string may be true. But saying it does not solve his problem. He still needs those comparison functions in order to get done the things he needs to do. Your suggestion is basically to abandon std::string everywhere in his codebase, even in places that aren't dealing with interprocess communication. That is an exceedingly heavyweight change, and there is no real need for it. –  Nicol Bolas Sep 16 '11 at 21:19
    
@Nicol : No, I'm advocating using iterator-based comparison algorithms instead of boost::interprocess::string/std::string member functions. –  ildjarn Sep 16 '11 at 22:12

The problem is that we have a huge code base depending on this:

Why does A::StrVal in the second one return an interprocess::basic_string? It is an implementation detail of the class A that it uses interprocess::basic_string internally. The actual string class it's interface uses does not have to be the same. This is simply poor refactoring.

A::StrVal should return a std::string, just like always (well, not a const& of course, but user code won't need to change because of that). And therefore, A::StrVal will need to do the conversion between the two string types. That's how proper refactoring is done: you change the implementation, but the interface stays the same.

Yes, this means you're going to have to copy the string data. Live with it.

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I don't think it's an implementation detail that the class intends to return data stored in shared memory... –  ildjarn Sep 16 '11 at 21:07
    
@ildjarn: It is if the last version of the class returned a std::string. And if the interface needs to change, then it should still support the old std::string interface while supporting the new one too. You never modify an existing interface when you refactor something. You can add new interfaces, but you still need to support the old ones. –  Nicol Bolas Sep 16 '11 at 21:17
    
I don't know what to say other than that I disagree almost completely. –  ildjarn Sep 16 '11 at 22:13
    
@Nicol unfortunately keeping the interface and returning std::string & would involve keeping an additional member and synchronizing its value solely for the purpose of this method. –  Yordan Pavlov Sep 17 '11 at 9:35
    
@Yordan: Who says that you would need to return a std::string&? Just return it by value. You return a const std::string & now, so even if they capture it by const std::string &, it will still work. The const& will extend the lifetime of the temporary. –  Nicol Bolas Sep 17 '11 at 9:41

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