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this should be pretty common yet I find it fascinating that I couldn't find any straight forward solution.

Basically I read in a file over the network into a stringstream. This is the declaration:

std::stringstream membuf(std::ios::in | std::ios::out | std::ios::binary);

Now I have some C library that wants direct access to the read chunk of the memory. How do I get that? Read only access is OK. After the C function is done, I dispose of the memorystream, no need for it.

str() copies the buffer, which seems unnecessary and doubles the memory.

Am I missing something obvious? Maybe a different stl class would work better.

Edit: Apparently, stringstream is not guaranteed to be stored continuously. What is?

if I use vector<char> how do I get byte buffer?

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Since vector stores all of its elements contiguously, you can get the "buffer" as follows: char* buffer = &vector_char.front(); –  Steve Guidi Dec 9 '09 at 23:35
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@Steve Guidi: Unless you know how many bytes are going to come in off the network, a vector<char> may make more copies than a std:stringstream because it has to reallocate and copy its data as your appending to it to keep the storage contiguous. –  Charles Bailey Dec 10 '09 at 6:14
    
Does this help: stackoverflow.com/questions/132358/… –  Loki Astari Dec 10 '09 at 6:43
    
@Kugel: If you're waiting for stuff across a network then one (or even two) local memory copies would usually disappear into background noise as far as performance measurements go. Have you measured std::stringstream performance and found it to be inadequate and if so what are your performance requirements? –  Charles Bailey Dec 10 '09 at 13:37
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In that case I'd just extract a string from the std::stringstream and pass .c_str() to the function needing the read-only contiguous buffer. At two lines of code you're not going to get much simpler. –  Charles Bailey Dec 10 '09 at 15:21

4 Answers 4

up vote 6 down vote accepted

You can call str() to get back a std::string. From there you can call c_str() on the std::string to get a char*. Note that c_str() isn't offically supported for this use, but everyone uses it this way :)

Edit

This is probably a better solution: std::istream::read. From the example on that page:

  buffer = new char [length];

  // read data as a block:
  is.read (buffer,length);
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2  
Man, thats tripling the buffer. –  Kugel Dec 9 '09 at 23:11
    
This however works. I will mark it as an answer if there is no better way in STL. –  Kugel Dec 9 '09 at 23:23
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c_str() is part of the standard interface of std::basic_string. Apart from the minor detail that it returns a const char* (and the question on asks for read-only access anyway), how is this usage of c_str not supported? –  Charles Bailey Dec 10 '09 at 6:11
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When you say "everyone uses it this way", I think you used the wrong word - you meant "no-one". –  anon Dec 10 '09 at 10:31
    
regarding edit, I don't know the length beforehand to allocate the buffer. –  Kugel Dec 10 '09 at 11:46

std::stringstream doesn't (necessarily) store its buffer contiguously but can allocate chunks as it is gradually filled. If you then want all of its data in a contiguous region of memory then you will need to copy it and that is what str() does for you.

Of course, if you want to use or write a class with a different storage strategy then you can, but you don't then need to use std::stringstream at all.

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Thanks for the continuity remark. –  Kugel Dec 9 '09 at 23:18
    
Charles, can you help me? I know that I can get the underlying stringbuf used by the stringstream with 'rdbuf()'. And I cannot find wording in the Standard saying that the stringbuf/stringstream can be non-contiguous. I'd appreciate any pointers you can give. Thanks. –  Don Wakefield Dec 10 '09 at 0:02
    
Where does it say that stringbuf has to use contiguous storage? The standard requires it to store an underlying character sequence but doesn't specify how. The streambuf interface has overflow and underflow so doesn't require the stream to be made available as a single contiguous range and the only other requirements are the constructor from std::string and the str overloads all of which deal with copies of the underlying character sequence. I'd be (mildly) disappointed with any implementation that always used contiguous storage as the interface is designed for incremental appends. –  Charles Bailey Dec 10 '09 at 6:07

Well, if you are seriously concerned about storage, you can get closer to the metal. *basic_stringstream* has a method, rdbuf() which returns it's *basic_stringbuf* (which is derived from *basic_streambuf*). You can then use the eback(), egptr(), and gptr() pointers to access characters directly out of the buffer. I've used this machinery in the past to implement a custom buffer with my desired semantics, so it is do-able.

Beware, this is not for the faint of heart! Set aside a few days, read Standard C++ IOStreams and Locales, or similar nitpicky reference, and be careful...

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Thanks for the heads up I do know have time budget to dig in. I may as well implement my own memorystream. –  Kugel Dec 10 '09 at 0:08
    
eback, egptr and gptr are protected so obtaining the rdbuf pointer for the stringbuf isn't going to give you access to these. Even if it did, I don't think that it's guaranteed that you could create a contiguous copy of the underlying sequence with fewer copies that .str() and .data(). –  Charles Bailey Dec 10 '09 at 6:09
    
Okay. Since I was implementing my own derived buffer, I could access the methods. And I guess G++ just does contiguous access. I still couldn't find this restriction (non-contiguous) in the standard... –  Don Wakefield Dec 10 '09 at 18:49

You can take full control of the buffer used by writing the buffer yourself and using that buffer in the stringstream

stringstream membuf(std::ios::in | std::ios::out | std::ios::binary);
membuf.rdbuf(yourVeryOwnStreamBuf);

Your own buffer should be derived from basic_streambuf, and override the sync() and overflow() methods appropriately.

For your internal representation you could probably use something like vector< char >, and reserve() it to the needed size so that no reallocations and copies are done.

This implies you know an upper bound for the space needed in advance. But if you don't know the size in advance, and need a continguous buffer in the end, copies are of course unavoidable.

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