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c++ - linux perf: how to interpret and find hotspots

I tried out linux' perf utility today and am having trouble in interpreting its results. I'm used to valgrind's callgrind which is of course a totally different approach to the sampling based method of perf.

What I did:

perf record -g -p $(pidof someapp)
perf report -g -n

Now I see something like this:

+     16.92%  kdevelop  libsqlite3.so.0.8.6               [.] 0x3fe57                                                                                                              ↑
+     10.61%  kdevelop  libQtGui.so.4.7.3                 [.] 0x81e344                                                                                                             ?
+      7.09%  kdevelop  libc-2.14.so                      [.] 0x85804                                                                                                              ?
+      4.96%  kdevelop  libQtGui.so.4.7.3                 [.] 0x265b69                                                                                                             ?
+      3.50%  kdevelop  libQtCore.so.4.7.3                [.] 0x18608d                                                                                                             ?
+      2.68%  kdevelop  libc-2.14.so                      [.] memcpy                                                                                                               ?
+      1.15%  kdevelop  [kernel.kallsyms]                 [k] copy_user_generic_string                                                                                             ?
+      0.90%  kdevelop  libQtGui.so.4.7.3                 [.] QTransform::translate(double, double)                                                                                ?
+      0.88%  kdevelop  libc-2.14.so                      [.] __libc_malloc                                                                                                        ?
+      0.85%  kdevelop  libc-2.14.so                      [.] memcpy 
...

Ok, these functions might be slow, but how do I find out where they are getting called from? As all these hotspots lie in external libraries I see no way to optimize my code.

Basically I am looking for some kind of callgraph annotated with accumulated cost, where my functions have a higher inclusive sampling cost than the library functions I call.

Is this possible with perf? If so - how?

Note: I found out that "E" unwraps the callgraph and gives somewhat more information. But the callgraph is often not deep enough and/or terminates randomly without giving information about how much info was spent where. Example:

-     10.26%  kate  libkatepartinterfaces.so.4.6.0  [.] Kate::TextLoader::readLine(int&...
     Kate::TextLoader::readLine(int&, int&)                                            
     Kate::TextBuffer::load(QString const&, bool&, bool&)                              
     KateBuffer::openFile(QString const&)                                              
     KateDocument::openFile()                                                          
     0x7fe37a81121c

Could it be an issue that I'm running on 64 bit? See also: http://lists.fedoraproject.org/pipermail/devel/2010-November/144952.html (I'm not using fedora but seems to apply to all 64bit systems).

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With Linux 3.7 perf is finally able to use DWARF information to generate the callgraph:

perf record --call-graph dwarf -- yourapp
perf report -g graph --no-children

Neat, but the curses GUI is horrible compared to VTune, KCacheGrind or similar... I recommend to try out FlameGraphs instead, which is a pretty neat visualization: http://www.brendangregg.com/FlameGraphs/cpuflamegraphs.html

Note: In the report step, -g graph makes the results output simple to understand "relative to total" percentages, rather than "relative to parent" numbers. --no-children will show only self cost, rather than inclusive cost - a feature that I also find invaluable.

If you have a new perf and Intel CPU, also try out the LBR unwinder, which has much better performance and produces far smaller result files:

perf record --call-graph lbr -- yourapp

The downside here is that the call stack depth is more limited compared to the default DWARF unwinder configuration.


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