Difference between revisions of "Debugging Gramps"
m (→Use gdb C debugger: <pre>)
Revision as of 16:04, 16 January 2013
An overview on how to debug GRAMPS.
When a hard crash occurs, you typically have no idea where the crash occurs. It is important to know the line where the crash occurs. So if you are able to reproduce the crash, restart GRAMPS with the command:
python -m trace -t src/gramps.py
This will usually generate vast terminal output and slow the system down for that, so redirecting output to a file is usually good:
python -m trace -t src/gramps.py >/tmp/trace.out
Then check the file "/tmp/trace.out" and save if needed, or redirect to somewhere else in the earlier step.
Add debug statements
GRAMPS is run with the optimize flag.
python -O gramps.py
This gives you the option of adding debug statements. You can use the __debug__ variable or the assert statement for this. This allows us to add code to GRAMPS that will be printed out when GRAMPS runs without the optimize flag:
More info: 
Use the log infrastructure
GRAMPS has built in the python log infratructure. GRAMPS runs with logging level logging.DEBUG to stderrh.
More info: Logging system
Short: in your code add data to the logger with: log.warning(), log.error(), log.info()... Start GRAMPS with the --debug flag: python gramps.py --debug="name_of_the_logger"
This is useful when working in different parts, adding info output, and selecting on the command line with --debug the logger you want to see output with.
GRAMPS has a convenience hook to allow you to do profiling. Profiling gives an overview how many times methods are called in a code fragment and how long each one took. It helps to find performance bottlenecks.
An example usage:
Add at the top of the file you want to use profiling:
from Utils import profile
Then, suppose you want to profile a save function on one of the editors. The save is called due to a connect done in the method _connect_signals. So, change the connect to save to a new method testsave you make:
#self.define_ok_button(self.top.get_widget("ok"), self.save) self.define_ok_button(self.top.get_widget("ok"), self.testsave)
Now add the testsave function as follows, where you use the profile convenience function:
def testsave(self, *obj): profile(self.save, *obj)
Then run GRAMPS, every time you save, the profiler kicks in and prints to command line a report with the time for each function.
So in short: replace the call to a function/method to calling profile with as first parameter the function/method, and other parameters the parameters of the function/method.
Use the winpdb python debugger
Note: there are some issues with the winpdb debugger. For a workaround see bug ticket: 2564
Winpdb (Ubuntu: sudo apt-get install winpdb) is a graphical interface for the python debugger. Start it with:
Use gdb C debugger
With GObject introscpection, much more can go wrong on a lower level, causing C errors. For these gdb can be used. You should install some debug libraries like libglib2.0-0-dbg, python-gobject-dbg, ... . Then, you start in a terminal gdb in the directory where gramps.py is stored with
You should see something like:
GNU gdb (Ubuntu/Linaro 7.2-1ubuntu11) 7.2 Copyright (C) 2010 Free Software Foundation, Inc. License GPLv3+: GNU GPL version 3 or later <http://gnu.org/licenses/gpl.html> This is free software: you are free to change and redistribute it. There is NO WARRANTY, to the extent permitted by law. Type "show copying" and "show warranty" for details. This GDB was configured as "x86_64-linux-gnu". For bug reporting instructions, please see: <http://www.gnu.org/software/gdb/bugs/>... Reading symbols from /usr/bin/python...Reading symbols from /usr/lib/debug/usr/bin/python2.7...done. done. (gdb)
You just type now:
and then navigate gramps to the segmentation fault. After that, you see something like
Program received signal SIGSEGV, Segmentation fault. 0x00007ffff5e7226b in g_type_check_value () from /usr/lib/x86_64-linux-gnu/libgobject-2.0.so.0 (gdb)
Now you request the backtrace, to see the code that leads to the error:
which will print the backtrace. You are now ready to use your C knowledge to fix the bug!