I just read about the FastFormat C++ i/o formatting library, and it seems too good to be true: Faster even than printf, typesafe, and with what I consider a pleasing interface:

// prints: "This formats the remaining arguments based on their order - in this case we put 1 before zero, followed by 1 again"
fastformat::fmt(std::cout, "This formats the remaining arguments based on their order - in this case we put {1} before {0}, followed by {1} again", "zero", 1);

// prints: "This writes each argument in the order, so first zero followed by 1"
fastformat::write(std::cout, "This writes each argument in the order, so first ", "zero", " followed by ", 1);

This looks almost too good to be true. Is there a catch? Have you had good, bad or indifferent experiences with it?

  • How does it know how to write arbitrary objects in the write() case? For that matter, how does it know when it hit the end of the argument list? Is it not using <stdarg.h>? – Mike DeSimone Dec 14 '09 at 16:46
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    An interesting performance is to measure this library versus a sprintf and fwrite pair. The second fastest method to output formatted data is to format to memory then block write to the output. The fastest method is not to use formatted output. – Thomas Matthews Dec 15 '09 at 22:27

Is there a 'catch' with FastFormat?

Last time I checked, there was one annoying catch:

You can only use either the narrow string version or the wide string version of this library. (The functions for wchar_t and char are the same -- which type is used is a compile time switch.)

With iostreams, stdio or Boost.Format you can use both.

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Found one "catch", though for most people it will never manifest. From the project page:

Atomic operation. It doesn't write out statement elements one at a time, like the IOStreams, so has no atomicity issues

The only way I can see this happening is if it buffers the whole write() call's output itself, then writes it out to the ostream in one step. This means it needs to allocate memory, and if an object passed into the write() call produces a lot of output (several megabytes or more), it can consume up to twice that much memory in internal buffers (assuming it uses the grow-a-buffer-by-doubling-its-size-each-time trick).

If you're just using it for logging, and not, say, dumping huge amounts of XML, you'll never see this problem.

The only other "catch" I'm seeing is:

Highly portable. It will work with all good modern C++ compilers; it even works with Visual C++ 6!

So it won't work with an old C++ compiler, like cfront, whereas iostreams is backward compatible to the late 80's. Again, I'd be surprised if anyone ever had a problem with this.

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  • The memory allocation can indeed be an issue on embedded systems. – xtofl Jan 7 '10 at 12:10
  • True that. I'm working on gettin FreeRTOS up and running on a Cortex-M3 chip. They provide two memory allocators you can use instead of malloc()/free() because those routines are (relatively) big, slow, and overkill in most embedded apps. – Mike DeSimone Jan 7 '10 at 17:02
  • It also does not support MSVC 2012 – Preet Kukreti Mar 18 '13 at 12:16
  • Well, this was 2009. Anyway, if it works with MSVC++ 6, there should be a way to port it. (Now if you're saying it doesn't work with C, well, can't help you there...) – Mike DeSimone Mar 18 '13 at 12:38

Although FastFormat is a good library there are a number of issues with it:

  • Limited formatting support, in particular the following features are not supported:
    • Leading zeros (or any other non-space padding)
    • Octal/hexadecimal encoding
    • Runtime width/alignment specification
  • The library is quite big for a relatively small task of formatting and has even bigger dependency (STLSoft).
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It looks pretty interesting indeed! Good tip regardless, and +1 for that!

I've been playing with it for a bit. The main drawback I see is that FastFormat supports less formatting options for the output. This is I think a direct consequence of the way the higher typesafety is achieved, and a good tradeoff depending on your circumstances.

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If you look in detail at his performance benchmark page, you'll notice that good old C printf-family functions are still winning on Linux. In fact, the only test case where they perform poorly is the test case that should be static string concatenations, where I would expect printf to be wasteful. Moreover, GCC provides static type-checking on printf-style function calls, so the benefit of type-safety is reduced. So: if you are running on Linux and if you need the absolute best performance, FastFormat is probably not the optimal solution.

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The library depends on a couple of environment variables, as mentioned in the docs.

That might be no biggie to some people, but I'd prefer my code to be as self-contained as possible. If I check it out from source control, it should work and compile. It won't, if it requires you to set environment variables.

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    That answer confused me at first! :-) You need some environment variables to get it to build, which isn't a big problem IMHO! (Just set them in you build script) – Martin Ba Dec 3 '10 at 13:38
  • Not a big problem, but unnecessary and annoying. So far, it's been enough to keep me from using it. Like I said, I prefer my code to just work. – jalf Dec 3 '10 at 14:35

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