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I read somewhere that snprintf is faster than ostringstream. Has anyone has any experiences with it? If yes why is it faster.

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10 Answers 10

up vote 19 down vote accepted

std::ostringstream is not required to be slower, but it is generally slower when implemented. FastFormat's website has some benchmarks.

The Standard library design for streams supports much more than snprintf does. The design is meant to be extensible, and includes protected virtual methods that are called by the publicly exposed methods. This allows you to derive from one of the stream classes, with the assurance that if you overload the protected method you will get the behavior you want. I believe that a compiler could avoid the overhead of the virtual function call, but I'm not aware of any compilers that do.

Additionally, stream operations often use growable buffers internally; which implies relatively slow memory allocations.

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Wow - I haven't been to Matthew Wilson's website in a little while - looks like he's had a busy last few months... – Michael Burr Jan 15 '09 at 1:52
The FastFormat tests are biased. Downloading the code, you'll see the snprintf() benchmarks call a function called fastformat_util_snprintf(), which includes some wrapper code that probably throws the tests off. But you're right, the memory management probably is what makes ostringstream slower. – Max Jan 16 '09 at 11:13
I think dcw meant the other Max. :) Anyway, FastFormat looks nice, and the std IOStreams library is hopelessly flawed. But the convoluted installation of the library makes it a bit of a nonstarter for me. If I have to mess with env variables, I'll find another library. – jalf Dec 12 '09 at 9:47
One reason is that string streams usually are thread safe, and snprintf is not, so there is some overhead there. – Johan Kotlinski Aug 12 '10 at 8:21
The printf function family supports locales, just like iostream. @kotlinski: They are also threadsafe. – user79758 Jul 9 '12 at 19:30

We replaced some stringstreams in inner loops with sprintf (using statically allocated buffers), and this made a big difference, both in msvc and gcc. I imagine that the dynamic memory management of this code:

  char buf[100];
  int i = 100;
  sprintf(buf, "%d", i);
  // do something with buf

is much simpler than

  std::stringstream ss;
  int i = 100;
  ss << i;
  std::string s = ss.str();
  // do something with s

but i am very happy with the overall performance of stringstreams.

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Some guys would possibly tell you about that the functions can't be faster than each other, but their implementation can. That's right i think i would agree.

You are unlikely to ever notice a difference in other than benchmarks. The reason that c++ streams generally tend to be slower is that they are much more flexible. Flexibility most often comes at the cost of either time or code growth.

In this case, C++ streams are based on stream-buffers. In itself, streams are just the hull that keep formatting and error flags in place, and call the right i/o facets of the c++ standard library (for example, num_put to print numbers), that print the values, well formatted, into the underlying stream-buffer connected to the c++ stream.

All this mechanisms - the facets, and the buffers, are implemented by virtual functions. While there is indeed no mark note, those functions must be implemented to be slower than c stdio pendants that fact will make them somewhat slower than using c stdio functions normally (i benchmark'ed that some time ago with gcc/libstdc++ and in fact noticed a slowdown - but which you hardly notice in day-by-day usage).

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Absolutely this is implementation-specific.

But if you really want to know, write two small programs, and compare them. You would need to include typical usage for what you have in mind, the two programs would need to generate the same string, and you would use a profiler to look at the timing information.

Then you would know.

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Using the printf family of functions explicitly forces you to manage the type coercion instead of relying on the type system to do that for you.

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One issue would probably be that the type safety added by ostringstream carries extra overhead. I've not done any measurements, though.

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One reason I know that the printf family of functions are faster than the corresponding C++ functions (cout, cin, and other streams) is that the latter do typechecking. As this usually involves some requests to overloaded operators, it can take some time.

In fact, in programming competitions it is often recommended that you use printf et al rather than cout/cin for precisely this reason.

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This kind of typechecking as well as operator overloads are resolved in compile time. The reduced runtime performance is not explained by them. – pyrtsa Jan 15 '09 at 3:59
In fact, the printf() family has to parse the format at runtime, which does not match the observation – MSalters Jan 15 '09 at 15:23
C++ typechecking isn't a runtime cost. Unless you're talking about compilation speed, in which case <iostream> is awful. – Tom Dec 12 '09 at 2:44

As litb said, standard streams support many things we don't always need. Some streams implementation get rid of this never used flexibility, see FAStream for instance.

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What happened to FAStream? I have seen some replies in forum using them but now I am not able to find any information about that. – Javi V Apr 30 '14 at 11:37
Alas I don't know. I think the best is to ask directly to its author. – Luc Hermitte Apr 30 '14 at 12:27

It's quite possible that because sprintf is part of the CRT that is written in assembly. The ostringstream is part of the STL, and probably a little more generically written, and has OOP code/overhead to deal with.

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I very strongly doubt anyone has ever implemented sprintf in assembly except possibly as an exercise in masochism. All the way back to UNIX V6, the C runtime library has itself been written in C (except for a tiny handful of things that are impossible to write in C, like setjmp). – zwol Sep 19 '12 at 15:42

Yes, if you run the function below on a few million numbers with Visual C++ 5.0, the first version takes about twice as long as the second and produces the same output.

Compiling tight loops into a .exe and running the Windows timethis something.exe' or the Linux time something' is how I investigate most of my performance curiosities. (`timethis' is available on the web somewhere)

void Hex32Bit(unsigned int n, string &result)
#if 0
    stringstream ss;
        << hex
        << setfill('0')
        << "0x" << setw(8) << n
    result = ss.str();
    const size_t len = 11;
    char temp[len];
    _snprintf(temp, len, "0x%08x", n);
    temp[len - 1] = '\0';
    result = temp;
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