I have an application that issues LOTS of command-line operations (e.g., at the "console"), from different threads. For this I'm using
QProcess (Qt C++):
QProcess* p = new QProcess(); // ...maybe set QProcessEnvironment, set up stdout/stderr, etc.... p->start("cmd.exe"); p->write("dir\n"); p->closeWriteChannel(); p->waitForBytesWritten(-1/*forever*/); p->waitForReadyRead(-1/*forever*/); p->waitForFinished(-1/*forever*/); // ...read all text from process
The above works fine. I could not get it to work properly under any permutation without
QProcess::closeWriteChannel(), but I'd be interested if anyone is aware of an option (see below).
My understanding is that since I called
QProcess::closeWriteChannel(), I can never re-open that channel. However, since I went through the work of instantiating the
QProcess and setting the
QProcessEnvironment, I could merely start the process again (which re-opens the write-channel).
// ...after previous run: p->start("cmd.exe"); // ...use it again...
This works fine too.
So, I'm comparing TWO design options:
QProcesseach time. No re-use beyond a single command-line invocation. Simple.
QProcess. Do the work of "remembering" which
QProcessinstance has which
QProcessEnvironmentalready set-up, so I can run commands in the appropriate environment. Faster (no re-instantiation of
QProcess, no re-set-up of
QProcessEnvironment()), but requires more "book-keeping".
QUESTION: How significant is the runtime overhead for instantiating
QProcess and setting up the
Significant? I need to execute many thousands of command-line operations across many threads. If it is "big", that steers me towards (2) (do-able, I've figured out how). Otherwise, (1) is really simple, and I don't want to complicate things for no reason.
Yes, "Premature optimization is the root of all evil." I'm not trying to do that. This system needs to massively scale.