original in en Arnout Engelen
Arnout Engelen is a CS student at the University of Nijmegen, the Netherlands, and an employee at TUNIX, an internet security company. In his spare time, he likes to run distances and play the tenor sax.
GProf provides a surprisingly easy way to profile your C/C++ application and spot the interesting pieces right away. A small case study shows how GProf was used to reduce the running time of a real-world application from over 3 minutes to under 5 seconds, by identifying 2 data structures as important and optimizing those.
Historically, the program goes back as far as 1982, when it was introduced on the the SIGPLAN Symposium on Compiler Construction. It is now a standard tool available on virtually all flavors of UNIX.
event2dotexecutable which translates a pathalizer 'events' file to a graphviz 'dot' file.
In short, it reads the events from a file, storing them as graphs (with pages as nodes, and transitions between pages as edges). This collection of graphs is then 'summarized' into one big graph, which is printed in the graphviz 'dot' format.
On my machine, a run of
event2dot took more than 3 minutes on this input:
real 3m36.316s user 0m55.590s sys 0m1.070s
g++ -pg dotgen.cpp readfile.cpp main.cpp graph.cpp config.cpp -o event2dot
We can now run
event2dot again on our test-eventsfile. During this run,
profiling information on
event2dot will be gathered, and a 'gmon.out' file
will be generated. We view the result by running 'gprof
event2dot | less'.
gprof now shows us the following functions are important:
% cumulative self self total time seconds seconds calls s/call s/call name 43.32 46.03 46.03 339952989 0.00 0.00 CompareNodes(Node *,Node *) 25.06 72.66 26.63 55000 0.00 0.00 getNode(char *,NodeListNode *&) 16.80 90.51 17.85 339433374 0.00 0.00 CompareEdges(Edge *,AnnotatedEdge *) 12.70 104.01 13.50 51987 0.00 0.00 addAnnotatedEdge(AnnotatedGraph *,Edge *) 1.98 106.11 2.10 51987 0.00 0.00 addEdge(Graph *,Node *,Node *) 0.07 106.18 0.07 1 0.07 0.07 FindTreshold(AnnotatedEdge *,int) 0.06 106.24 0.06 1 0.06 28.79 getGraphFromFile(char *,NodeListNode *&,Config *) 0.02 106.26 0.02 1 0.02 77.40 summarize(GraphListNode *,Config *) 0.00 106.26 0.00 55000 0.00 0.00 FixName(char *)The most interesting column is the first one: this is the percentage of the running time of the program that is spent in this function.
CompareNodes. A quick grep shows CompareNodes is called only by
CompareEdges, which in turn is only called by
addAnnotatedEdge- both of which are also in this list. This looks like an interesting point to do some optimizing.
addAnnotatedEdge is traversing a linked list. Though easy to implement, a linked
list is not the best of data types. We decide to replace g->edges with a binary tree: this should make
finding stuff in the structure much faster, while still being able to 'walk' through it.
real 2m19.314s user 0m36.370s sys 0m0.940s
% cumulative self self total time seconds seconds calls s/call s/call name 87.01 25.25 25.25 55000 0.00 0.00 getNode(char *,NodeListNode *&) 10.65 28.34 3.09 51987 0.00 0.00 addEdge(Graph *,Node *,Node *)It looks like the functions that used to take up more than half of the time have now been reduced to irrelevant details! Let's try this again: we replace the NodeList by a NodeHashTable.
This is also clearly a big improvement:
real 0m3.269s user 0m0.830s sys 0m0.090s
perl -d:DProf mycode.pland view the results with
dprofpp. If you can compile your Java program with gcj, you can just use gprof, however only single threaded Java code is currently supported.