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After doing the following test:

for( i = 0; i < 3000000; i++ ) {
    printf( "Test string\n" );

for( i = 0; i < 3000000; i++ ) {
    write( STDOUT_FILENO, "Test string\n", strlen( "Test string\n" ) );

it turns out that the calls to printf take a grand total of 3 seconds, while the calls to write take a whopping 46 seconds. How, with all the fancy formatting magic that printf does, and the fact that printf itself calls write, is this possible? Is there something that I'm missing?

Any and all thoughts and input are appreciated.

share|improve this question
it depends on your system – JMBise Jun 26 '12 at 17:45
printf does buffering. – Paul Tomblin Jun 26 '12 at 17:46
Really? You are calculating the string length each and every time and then measuring that as part of the timings? – K-ballo Jun 26 '12 at 17:46
@K-ballo With optimisations, that should be computed only once, during compilation. – Daniel Fischer Jun 26 '12 at 17:50
puts should even be faster. – Jens Gustedt Jun 26 '12 at 18:18
up vote 20 down vote accepted

How, with ... the fact that printf itself calls write, is this possible? Is there something that I'm missing?

Yes, there is something that you are missing. printf doesn't necessarily call write every time. Rather, printf buffers its output. That is, it often stores its result in a memory buffer, only calling write when the buffer is full, or on some other conditions.

write is a fairly expensive call, much more expensive than copying data into printf's buffer, so reducing the number of write calls provides a net performance win.

If your stdout is directed to a terminal device, then printf calls write every time it sees a \n -- in your case, every time it is called. If your stdout is directed to a file (or to /dev/null), then printf calls write only when its internal buffer is full.

Supposing that you are redirecting your output, and that printf's internal buffer is 4Kbytes, then the first loop invokes write 3000000 / (4096 / 12) == 8780 times. Your second loop, however, invokes write 3000000 times.

Beyond the effect of fewer calls to write, is the size of the calls to write. The quantum of storage in a hard drive is a sector -- often 512 bytes. To write a smaller amount of data than a sector may involve reading the original data in the sector, modifying it, and writing the result back out. Invoking write with a complete sector, however, may go faster since you don't have to read in the original data. printf's buffer size is chosen to be a multiple of the typical sector size. That way the system can most efficiently write the data to disk.

I'd expect your first loop to go much faster than the second.

share|improve this answer
This explains everything quite well. Thank you! Regarding your comment about the data size...why wouldn't the original data need to be read just because it fits perfectly in the sector? Doesn't the write call still need to know the data that needs to be written? – Ataraxia Jun 26 '12 at 23:27

You are not comparing apples to apples, because the loop with write runs strlen 3000000 times, while printf does not do any of that; it does not do any formatting either, so "fancy formatting magic" hardly applies.

size_t len = strlen( "Test string\n" );
for( i = 0; i < 3000000; i++ ) {
    write( STDOUT_FILENO, "Test string\n", len );

Another important difference is that printf flushes every time when you pass \n, while write does not. You should remove \n from both strings to make your benchmarks more equitable.

share|improve this answer
On my system, gcc-4.5.1 evaluates the strlen at compile-time even without optimisations. The flushing/buffering seem to be what makes the difference. – Daniel Fischer Jun 26 '12 at 18:06
@DanielFischer Thanks! It's nice to know that gcc is smart enough to fold strlen expression into a constant. – dasblinkenlight Jun 26 '12 at 18:08
printf does not flush on every \n if the output is redirected to a file. Also, it is more accurate to say that write flushes every time, reglardless of content -- after all, "flush" in this context means merely "calls write." – Robᵩ Jun 26 '12 at 18:27
@dasblinkenlight the fact that in order to copy a null-terminated string to a destination it must either have it's length calculated, or be copied character-by-character. – Chris Stratton Jun 26 '12 at 18:45
@ChrisStratton But when you output a string character by character, you still read each character from the memory only once, not twice. Both write and printf need to move all characters from the string to some place in the memory that I/O system owns and manages, from which these characters eventually go to a disk or a tty (I am intentionally avoiding the word "buffer"). printf would stop when the \0 character is reached; write would stop when the count passed in is exhausted. – dasblinkenlight Jun 26 '12 at 18:55

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