A parser for Valgrind massif.out files.
The msparser module offers a simple interface to parse the Valgrind massif.out file format, i.e. data files produced by the valgrind heap profiler, and should be compatible with Python 2.5 and up (including 3.x and pypy).
As usual, import the module:
>>> import msparser
To extract the data from a massif.out file, you simply have to give its path to
the parse_file function:
>>> data = msparser.parse_file('massif.out')
You could also use the msparser.parse function directly with a file
descriptor.
The parsed data is returned as a dictionary which follow closely the massif.out format. It looks like this:
>>> from pprint import pprint
>>> pprint(data, depth=1)
{'cmd': './a.out',
'desc': '--time-unit=ms',
'detailed_snapshot_indices': [...],
'peak_snapshot_index': 16,
'snapshots': [...],
'time_unit': 'ms'}
The detailed_snapshot_indices and peak_snapshot_index fields allow
efficient localisation of the detailled and peak snapshots in the snapshots
list. For example, to retrieve the peak snapshot from the snapshots list,
we could do:
>>> peak_index = data['peak_snapshot_index'] >>> peak_snapshot = data['snapshots'][peak_index]
The snapshots list stores dictionaries representing each snapshot data:
>>> second_snapshot = data['snapshots'][1]
>>> pprint(second_snapshot)
{'heap_tree': None,
'id': 1,
'mem_heap': 1000,
'mem_heap_extra': 8,
'mem_stack': 0,
'time': 183}
If the snapshot is detailled, the heap_tree field, instead of being None,
will store a heap tree:
>>> peak_heap_tree = peak_snapshot['heap_tree']
>>> pprint(peak_heap_tree, depth=3)
{'children': [{'children': [...], 'details': {...}, 'nbytes': 12000},
{'children': [], 'details': {...}, 'nbytes': 10000},
{'children': [...], 'details': {...}, 'nbytes': 8000},
{'children': [...], 'details': {...}, 'nbytes': 2000}],
'details': None,
'nbytes': 32000}
On the root node, the details field is always None, but on the children
nodes it's a dictionary which looks like this:
>>> first_child = peak_snapshot['heap_tree']['children'][0]
>>> pprint(first_child['details'], width=1)
{'address': '0x8048404',
'file': 'prog.c',
'function': 'h',
'line': 4}
Obviously, if the node is below the massif threshold, the details field
will be None.
From this data structure, it's very easy to write a procedure that produce a data table ready for Gnuplot consumption:
print("# valgrind --tool=massif", data['desc'], data['cmd'])
print("# id", "time", "heap", "extra", "total", "stack", sep='\t')
for snapshot in data['snapshots']:
id = snapshot['id']
time = snapshot['time']
heap = snapshot['mem_heap']
extra = snapshot['mem_heap_extra']
total = heap + extra
stack = snapshot['mem_stack']
print(' '+str(id), time, heap, extra, total, stack, sep='\t')
The output should looks like this:
# valgrind --tool=massif --time-unit=ms ./a.out # id time heap extra total stack 0 0 0 0 0 0 1 183 1000 8 1008 0 2 184 2000 16 2016 0 3 184 3000 24 3024 0 4 184 4000 32 4032 0 5 184 5000 40 5040 0 6 184 6000 48 6048 0 7 184 7000 56 7056 0 8 184 8000 64 8064 0 9 184 9000 72 9072 0
To run msparser's test suite:
$ python msparser_test.py --verbose
The current build status on travis: http://travis-ci.org/#!/MathieuTurcotte/msparser
This code is free to use under the terms of the MIT license.