It's a little hard to say what "can be problems with" (excessive?) use of
fflush. All kinds of things can be, or become, problems, depending on your goals and approaches. Probably a better way to look at this is what the intent of
The first thing to consider is that
fflush is defined only on output streams. An output stream collects "things to write to a file" into a large(ish) buffer, and then writes that buffer to the file. The point of this collecting-up-and-writing-later is to improve speed/efficiency, in two ways:
- On modern OSes, there's some penalty for crossing the user/kernel protection boundary (the system has to change some protection information in the CPU, etc). If you make a large number of OS-level write calls, you pay that penalty for each one. If you collect up, say, 8192 or so individual writes into one large buffer and then make one call, you remove most of that overhead.
- On many modern OSes, each OS write call will try to optimize file performance in some way, e.g., by discovering that you've extended a short file to a longer one, and it would be good to move the disk block from point A on the disk to point B on the disk, so that the longer data can fit contiguously. (On older OSes, this is a separate "defragmentation" step you might run manually. You can think of this as the modern OS doing dynamic, instantaneous defragmentation.) If you were to write, say, 500 bytes, and then another 200, and then 700, and so on, it will do a lot of this work; but if you make one big call with, say, 8192 bytes, the OS can allocate a large block once, and put everything there and not have to re-defragment later.
So, the folks who provide your C library and its stdio stream implementation do whatever is appropriate on your OS to find a "reasonably optimal" block size, and to collect up all output into chunk of that size. (The numbers 4096, 8192, 16384, and 65536 often, today, tend to be good ones, but it really depends on the OS, and sometimes the underlying file system as well. Note that "bigger" is not always "better": streaming data in chunks of four gigabytes at a time will probably perform worse than doing it in chunks of 64 Kbytes, for instance.)
But this creates a problem. Suppose you're writing to a file, such as a log file with date-and-time stamps and messages, and your code is going to keep writing to that file later, but right now, it wants to suspend for a while and let a log-analyzer read the current contents of the log file. One option is to use
fclose to close the log file, then
fopen to open it again in order to append more data later. It's more efficient, though, to push any pending log messages to the underlying OS file, but keep the file open. That's what
Buffering also creates another problem. Suppose your code has some bug, and it sometimes crashes but you're not sure if it's about to crash. And suppose you've written something and it's very important that this data get out to the underlying file system. You can call
fflush to push the data through to the OS, before calling your potentially-bad code that might crash. (Sometimes this is good for debugging.)
Or, suppose you're on a Unix-like system, and have a
fork system call. This call duplicates the entire user-space (makes a clone of the original process). The stdio buffers are in user space, so the clone has the same buffered-up-but-not-yet-written data that the original process had, at the time of the
fork call. Here again, one way to solve the problem is to use
fflush to push buffered data out just before doing the
fork. If everything is out before the
fork, there's nothing to duplicate; the fresh clone won't ever attempt to write the buffered-up data, as it no longer exists.
fflush-es you add, the more you're defeating the original idea of collecting up large chunks of data. That is, you are making a tradeoff: large chunks are more efficient, but are causing some other problem, so you make the decision: "be less efficient here, to solve a problem more important than mere efficiency". You call
Sometimes the problem is simply "debug the software". In that case, instead of repeatedly calling
fflush, you can use functions like
setvbuf to alter the buffering behavior of a stdio stream. This is more convenient (fewer, or even no, code changes required—you can control the set-buffering call with a flag) than adding a lot of
fflush calls, so that could be considered a "problem with use (or excessive-use) of