Debugging Octave: Difference between revisions

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[http://www.gnu.org/software/gdb/documentation gdb documentation]
[http://www.gnu.org/software/gdb/documentation gdb documentation]


For debugging octave_value variables to find out what the variable actually is (instead of just it's base class):
For debugging octave_value variables (e.g. <code>my_octave_value</code>) to find out what the variable actually is (instead of just it's base class):


<code>(gdb) print *(my_octave_value.rep)</code>
<syntaxhighlight lang="bash">
(gdb) print *(my_octave_value.rep)
</syntaxhighlight>


== ddd ==
== ddd ==

Revision as of 21:42, 21 July 2017

Preliminaries

Since compilation of all the source from scratch can take long it is good to have a source folder where most of the source has been compiled. To do this, you can create a parallel build:

mkdir dbg-octave
cd dbg-octave
/path/to/octave/source/configure FFLAGS=-g CFLAGS=-g CXXFLAGS=-g --enable-address-sanitizer-flags --prefix=/opt/dbg-octave
make # or make -jN where N is the number of CPU cores

This will create a new build of Octave in a different directory without optimisations (no -O2 gcc parameter) and with debug symbols compiled in. This build is useful for debugging Octave itself.

Debugging Source files without GUI

Ubuntu introduced a patch to disallow ptracing of non-child processes by non-root users - ie. only a process which is a parent of another process can ptrace it for normal users - whilst root can still ptrace every process. That's why gdb won't be able to link to the octave process if you start gdb from within an Octave session using the command

octave> system (sprintf ("gnome-terminal --command 'gdb -p %d'", getpid ()), "async");

You can temporarily disable this restriction by doing:

echo 0 | sudo tee /proc/sys/kernel/yama/ptrace_scope

and then reopen the gdb using the command mentioned above from within an Octave session or if you have admin right you can simply do:

octave> system (sprintf ("gnome-terminal --command 'sudo gdb -p %d'", getpid ()), "async");


Instead you can debug octave without gui using:

./run-octave -g --no-gui

Debugging oct-files

To debug oct-files, avoid making any optimization during compilation. Use export CXXFLAGS="-ggdb -Wall -O0" for C++ code or export CFLAGS="-ggdb -Wall -O0" for C code to suppress optimization. Compile the oct-file with the debug flag -g which enables debug symbols

mkoctfile -g file.cpp

start now the GNU debugger with octave. On most Unixy systems, you can start gdb from within an Octave session by evaluating a command like

octave> system (sprintf ("gnome-terminal --command 'gdb -p %d'", getpid ()), "async");

at the Octave prompt. This command will open a terminal window running gdb attached to the Octave process. At this point, Octave will be stopped. To tell Octave to continue, type

(gdb) continue

at the gdb prompt. The symbols from your oct-file will only be available to gdb once the oct-file is loaded in Octave. To do that without executing any functions from the oct-file, you can ask Octave to display the help for the oct-file:

octave> help file

Now halt execution of Octave by typing ctrl+c, you'll see again the gdb prompt. Set now a breakpoint in the line of interest

(gdb) b file.cpp:40

by typing c the execution of octave will continue and you can run your oct-file directly or via an m-script.

octave> x = file(y)

the debugger will stop on the above defined line and you can start debugging according to the manual of GNU debugger.

Tools for debugging

Producing a stack trace

Sometimes Octave will crash, meaning, it terminates abruptly and returns control to the operating system shell. In these cases, it is very helpful to produce a stack trace to diagnose the problem. To do so, you need to (re)compile Octave with debugging symbols and run the debugger, as explained above. Then execute whatever commands are necessary to cause Octave to crash. At that point, you will be back in a gdb session. Type where at the gdb prompt to obtain a stack trace.

Most used commands

gdb documentation

For debugging octave_value variables (e.g. my_octave_value) to find out what the variable actually is (instead of just it's base class):

(gdb) print *(my_octave_value.rep)

ddd

gui for gdb