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When would I use std::istringstream, std::ostringstream and std::stringstream and why shouldn't I just use std::stringstream in every scenario (are there any runtime performance issues?).

Lastly, is there anything bad about this (instead of using a stream at all):

std::string stHehe("Hello ");

stHehe += "stackoverflow.com";
stHehe += "!";
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Thank you ALL for your helpful answers and your very time :x –  Oliver Baur Jul 20 '10 at 17:37

8 Answers 8

up vote 39 down vote accepted

Personally I find it very rare that I want to preform streaming into and out of the same string stream.

Usually I want to either initialize a stream from a string and then parse it; or stream things too a string stream and then extract the result and store it.

If you're streaming to and from the same stream you have to be very careful with the stream state and stream positions.

Using 'just' istringstream or ostringstream better expresses your intent and gives you some checking against silly mistakes such as accidental use of << vs >>.

There might be some performance improvement but I wouldn't be looking at that first.

There's nothing wrong with what you've written. If you find it doesn't perform well enough then you could profile other approaches, otherwise stick with what's clearest. Personally, I'd just go for:

std::string stHehe( "Hello stackoverflow.com!" );
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Thank you for you very informative contribution! I started laughing when I saw the very last bit of your answer (the code part) :D Of course the example I posted was not well chosen. –  Oliver Baur Jul 20 '10 at 17:36

A stringstream is somewhat larger, and might have slightly lower performance -- multiple inheritance can require an adjustment to the vtable pointer. The main difference is (at least in theory) better expressing your intent, and preventing you from accidentally using >> where you intended << (or vice versa). OTOH, the difference is sufficiently small that especially for quick bits of demonstration code and such, I'm lazy and just use stringstream. I can't quite remember the last time I accidentally used << when I intended >>, so to me that bit of safety seems mostly theoretical (especially since if you do make such a mistake, it'll almost always be really obvious almost immediately).

Nothing at all wrong with just using a string, as long as it accomplishes what you want. If you're just putting strings together, it's easy and works fine. If you want to format other kinds of data though, a stringstream will support that, and a string mostly won't.

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In most cases, you won't find yourself needing both input and output on the same stringstream, so using std::ostringstream and std::istringstream explicitly makes your intention clear. It also prevents you from accidentally typing the wrong operator (<< vs >>).

When you need to do both operations on the same stream you would obviously use the general purpose version.

Performance issues would be the least of your concerns here, clarity is the main advantage.

Finally there's nothing wrong with using string append as you have to construct pure strings. You just can't use that to combine numbers like you can in languages such as perl.

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Others have already handled stringstream vs.[i|o]stringstream well enough; no need for me to go there.

As for std::string -- well, I don't believe that it has << or >> operators, so you couldn't use it where a file stream might be needed. More importantly, though, I'd expect repeated and arbitrary concatenations to a std::string to have O(N**2) performance, or at best O(N*log(N)) performance -- the difference being how careful the programmer is to allocate excess capacity in the target string. However, N concatenations to an ostringstream should have essentially O(N) performance (leaving aside the length of individual strings.) That may be a trivial difference when you're concatenating only one or two strings, and ostringstream may still be slower than std::string when N is small. But I've known cases where N was very large, and the O(N**2) performance really hurt.

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Which C++ standard do your O figures relate to? std::string contatinations have become substantially more performant in C++11 because of move construction of all those temporary objects. However, I'm unaware how this now compares to stringstream. –  Benj Mar 12 '12 at 10:34
    
@Benj: Any string implementation (indeed, any anything implementation) that allocates a single fixed-sized buffer, concatenates new data to the end of the buffer, and re-allocates (with a copy) if the buffer grows too big, will degenerate to O(N**2) performance in the worst case, or O(N * log(N)) if the re-allocations provide reasonable room for growth. You may not always see the degenerate case, though, especially if you're not doing repeated and arbitrary concatenations. (And, for all I know, the std implementers have come up with some sneaky way around using single fixed-size buffers.) –  Dan Breslau Mar 13 '12 at 23:31

istringstream is for input, ostringstream for output. stringstream is input and output. You can use stringstream pretty much everywhere. However, if you give your object to another user, and it uses operator >> whereas you where waiting a write only object, you will not be happy ;-)

PS: nothing bad about it, just performance issues.

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Why open a file for read/write access if you only need to read from it, for example?

What if multiple processes needed to read from the same file?

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To answer your third question: No, that's perfectly reasonable. The advantage of using streams is that you can enter any sort of value that's got an operator<< defined, while you can only add strings (either C++ or C) to a std::string.

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Presumably when only insertion or only extraction is appropriate for your operation you could use one of the 'i' or 'o' prefixed versions to exclude the unwanted operation.

If that is not important then you can use the i/o version.

The string concatenation you're showing is perfectly valid. Although concatenation using stringstream is possible that is not the most useful feature of stringstreams, which is to be able to insert and extract POD and abstract data types.

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