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I have tested two writing configurations :

1) Fstream buffering :

// Initialization
const unsigned int length = 8192;
char buffer[length];
std::ofstream stream;
stream.rdbuf()->pubsetbuf(buffer, length);"test.dat", std::ios::binary | std::ios::trunc)

// To write I use :
stream.write(reinterpret_cast<char*>(&x), sizeof(x));

2) Manual buffering :

// Initialization
const unsigned int length = 8192;
char buffer[length];
std::ofstream stream("test.dat", std::ios::binary | std::ios::trunc);

// Then I put manually the data in the buffer

// To write I use :
stream.write(buffer, length);

I expected the same result...

But my manual buffering improve performance by a factor of 10 to write a file of 100MB, and the fstream buffering does not change anything compared to the normal situation (without redefining a buffer).

Does someone has an explanation of this situation ?

EDIT : Here are the news : a benchmark just done on a supercomputer (linux 64-bit architecture, lasts intel Xeon 8-core, Lustre filesystem and ... hopefully well configured compilers) benchmark (and I don't explain the reason of the "resonance" for a 1kB manual buffer...)

EDIT 2 : And the resonance at 1024 B (if someone has an idea about that, I'm interested) : enter image description here

share|improve this question
What system/compiler? – PiotrNycz Oct 21 '12 at 10:50
g++ 4.7.1 on Ubuntu 12.04 (inside a VirtualBox on Window 7 x64 pro) with a SSD disk. I will test that on a supercomputer and then I come back with the result of the test. – Vincent Oct 21 '12 at 10:52
And can you check default buffering size, like in this question:… – PiotrNycz Oct 21 '12 at 10:53
I recommend you check the source for the C++ library, to see what it does differently depending on the buffer. – Joachim Pileborg Oct 21 '12 at 15:28
Could you post the complete, compilable test program you're benchmarking (even if on an external site like – Michael Burr Oct 21 '12 at 16:48
up vote 12 down vote accepted

This is basically due to function call overhead and indirection. The ofstream::write() method is inherited from ostream. That function is not inlined in libstdc++, which is the first source of overhead. Then ostream::write() has to call rdbuf()->sputn() to do the actual writing, which is a virtual function call.

On top of that, libstdc++ redirects sputn() to another virtual function xsputn() which adds another virtual function call.

If you put the characters into the buffer yourself, you can avoid that overhead.

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