On Mon, Nov 18, 2013 at 10:50 AM, Michael Goffioul
<address@hidden <mailto:address@hidden>> wrote:
One main issue I'd like to raise and discuss is the interaction with
readline. Basically when you combine octave (using gnulib), readline
(not using gnulib) and the fact that Win32 does not have siglongjmp,
you start having conflicting situations.
Typically, readline installs its own SIGINT handler, but also store
the previous handler for later use. During SIGINT handling, it does
some internal clean-up, restore the previous handler, than
"raise(SIGINT)" to execute the previous handler.
OTOH, octave uses gnulib. The gnulib's signal handling is along
those lines: block the signal, execute the handler, unblock the
signal. If the signal handler performs a longjmp, the signal will
stay in "blocked" state (in gnulib, this translates into having a
dummy handler that does nothing). Now the problem is that on the
next run of readline, the stored handler will be the gnulib's dummy
one, and CTRL-C will end up being ignored while being in readline
loop. This does not happen on platforms having sigsetjmp/siglongjmp,
or more generally on POSIX platforms.
I've worked around that issue by installing octave_interrupt_hook
and make sure SIGINT is handled after an interrupt. Another way,
which I tested, is to disable signal handling in readline by setting
rl_catch_signals to 0, but I'm not sure to what extend this is a
problem in readline itself.
Scrap that, it didn't work. It appears that gnulib is keeping
internal/static states about signal handlers, which is not really
compatible with readline making direct calls to the "signal" function
from windows runtime DLL.
I ended up disabling signals in readline. The attached path works for me
in GUI and CLI. Although as explained earlier, CTRL-C in CLI mode
doesn't work as expected when in readline, because the key sequence is
reported in the input buffer, not as a signal.
It would nice if someone can test it in MinGW.