When you redirect the stdout of the program to
/dev/null, any call to
printf(3) will still evaluate all the arguments, and the string formatting process will still take place before calling
write(2), which writes the full formatted string to the standard output of the process. It's at the kernel level that the data isn't written to disk, but discarded by the handler associated with the special device
So at the very best, you won't bypass or evade the overhead of evaluating the arguments and passing them to
printf, the string formatting job behind
printf, and at least one system call to actually write the data, just by redirecting stdout to
/dev/null. Well, that's a true difference on Linux. The implementation just returns the number of bytes you wanted to write (specified by the 3rd argument of your call to
write(2)) and ignores everything else (see this answer). Depending on the amount of data you're writing, and the speed of the target device (disk or terminal), the difference in performance may vary a lot. On embedded systems, generally speaking, cutting off the disk write by redirecting to
/dev/null can save quite some system resources for a non-trivial amount of written data.
Although in theory, the program could detect
/dev/null and perform some optimizations within the restrictions of standards they comply to (ISO C and POSIX), based on general understanding of common implementations, they practically don't (i.e. I am unaware of any Unix or Linux system doing so).
The POSIX standard mandates writing to the standard output for any call to
printf(3), so it's not standard-conforming to suppress the call to
write(2) depending on the associated file descriptors. For more details about POSIX requirements, you can read Damon's answer. Oh, and a quick note: All Linux distros are practically POSIX-compliant, despite not being certified to be so.
Be aware that if you replace
printf completely, some side effects may go wrong, for example
printf("%d%n", a++, &b). If you really need to suppress the output depending on the program execution environment, consider setting a global flag and wrap up printf to check the flag before printing — it isn't going to slow down the program to an extent where the performance loss is visible, as a single condition check is much faster than calling
printf and doing all the string formatting.