Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

A Hacker's Tale

The date is 12/02/10. The days before Christmas are dripping away and I've pretty much hit a major road block as a windows programmer. I've been using AQTime, I've tried sleepy, shiny, and very sleepy, and as we speak, VTune is installing. I've tried to use the VS2008 profiler, and it's been positively punishing as well as often insensible. I've used the random pause technique. I've examined call-trees. I've fired off function traces. But the sad painful fact of the matter is that the app I'm working with is over a million lines of code, with probably another million lines worth of third-party apps.

I need better tools. I've read the other topics. I've tried out each profiler listed in each topic. There simply has to be something better than these junky and expensive options, or ludicrous amounts of work for almost no gain. To further complicate matters, our code is heavily threaded, and runs a number of Qt Event loops, some of which are so fragile that they crash under heavy instrumentation due to timing delays. Don't ask me why we're running multiple event loops. No one can tell me.

Are there any options more along the lines of Valgrind in a windows environment?
Is there anything better than the long swath of broken tools I've already tried?
Is there anything designed to integrate with Qt, perhaps with a useful display of events in queue?

A full list of the tools I tried, with the ones that were really useful in italics:

  • AQTime: Rather good! Has some trouble with deep recursion, but the call graph is correct in these cases, and can be used to clear up any confusion you might have. Not a perfect tool, but worth trying out. It might suit your needs, and it certainly was good enough for me most of the time.
  • Random Pause attack in debug mode: Not enough information enough of the time.
    A good tool but not a complete solution.
  • Parallel Studios: The nuclear option. Obtrusive, weird, and crazily powerful. I think you should hit up the 30 day evaluation, and figure out if it's a good fit. It's just darn cool, too.
  • AMD Codeanalyst: Wonderful, easy to use, very crash-prone, but I think that's an environment thing. I'd recommend trying it, as it is free.
  • Luke Stackwalker: Works fine on small projects, it's a bit trying to get it working on ours. Some good results though, and it definitely replaces Sleepy for my personal tasks.
  • PurifyPlus: No support for Win-x64 environments, most prominently Windows 7. Otherwise excellent. A number of my colleagues in other departments swear by it.
  • VS2008 Profiler: Produces output in the 100+gigs range in function trace mode at the required resolution. On the plus side, produces solid results.
  • GProf: Requires GCC to be even moderately effective.
  • VTune: VTune's W7 support borders on criminal. Otherwise excellent
  • PIN: I'd need to hack up my own tool, so this is sort of a last resort.
  • Sleepy\VerySleepy: Useful for smaller apps, but failing me here.
  • EasyProfiler: Not bad if you don't mind a bit of manually injected code to indicate where to instrument.
  • Valgrind: *nix only, but very good when you're in that environment.
  • OProfile: Linux only.
  • Proffy: They shoot wild horses.

Suggested tools that I haven't tried:

  • XPerf:
  • Glowcode:
  • Devpartner:

Notes: Intel environment at the moment. VS2008, boost libraries. Qt 4+. And the wretched humdinger of them all: Qt/MFC integration via trolltech.


Now: Almost two weeks later, it looks like my issue is resolved. Thanks to a variety of tools, including almost everything on the list and a couple of my personal tricks, we found the primary bottlenecks. However, I'm going to keep testing, exploring, and trying out new profilers as well as new tech. Why? Because I owe it to you guys, because you guys rock. It does slow the timeline down a little, but I'm still very excited to keep trying out new tools.

Synopsis
Among many other problems, a number of components had recently been switched to the incorrect threading model, causing serious hang-ups due to the fact that the code underneath us was suddenly no longer multithreaded. I can't say more because it violates my NDA, but I can tell you that this would never have been found by casual inspection or even by normal code review. Without profilers, callgraphs, and random pausing in conjunction, we'd still be screaming our fury at the beautiful blue arc of the sky. Thankfully, I work with some of the best hackers I've ever met, and I have access to an amazing 'verse full of great tools and great people.

Gentlefolk, I appreciate this tremendously, and only regret that I don't have enough rep to reward each of you with a bounty. I still think this is an important question to get a better answer to than the ones we've got so far on SO.

As a result, each week for the next three weeks, I'll be putting up the biggest bounty I can afford, and awarding it to the answer with the nicest tool that I think isn't common knowledge. After three weeks, we'll hopefully have accumulated a definitive profile of the profilers, if you'll pardon my punning.

Take-away
Use a profiler. They're good enough for Ritchie, Kernighan, Bentley, and Knuth. I don't care who you think you are. Use a profiler. If the one you've got doesn't work, find another. If you can't find one, code one. If you can't code one, or it's a small hang up, or you're just stuck, use random pausing. If all else fails, hire some grad students to bang out a profiler.


A Longer View
So, I thought it might be nice to write up a bit of a retrospective. I opted to work extensively with Parallel Studios, in part because it is actually built on top of the PIN Tool. Having had academic dealings with some of the researchers involved, I felt that this was probably a mark of some quality. Thankfully, I was right. While the GUI is a bit dreadful, I found IPS to be incredibly useful, though I can't comfortably recommend it for everyone. Critically, there's no obvious way to get line-level hit counts, something that AQT and a number of other profilers provide, and I've found very useful for examining rate of branch-selection among other things. In net, I've enjoyed using AQTime as well, and I've found their support to be really responsive. Again, I have to qualify my recommendation: A lot of their features don't work that well, and some of them are downright crash-prone on Win7x64. XPerf also performed admirably, but is agonizingly slow for the sampling detail required to get good reads on certain kinds of applications.

Right now, I'd have to say that I don't think there's a definitive option for profiling C++ code in a W7x64 environment, but there are certainly options that simply fail to perform any useful service.

share|improve this question
14  
Have you looked into getting a different job? :) –  Nikolai N Fetissov Dec 9 '10 at 3:43
6  
Where else would I get to solve puzzles this hard? I guess I could go back to kernel hacking, but that doesn't pay as well. –  Jake Kurzer Dec 9 '10 at 3:47
3  
@Kos I think for gprof to be of any use you have to be using the gcc toolset compiled with -pg otherwise it doesn't produce the gprof.out file. In the OP's case it sounds like he's using msvc which rules out using gprof. Then again I dont' think gprof would fair any better for him if the others on the list are failing his needs –  greatwolf Dec 9 '10 at 15:39
2  
@Marc Gravell That's fair enough, I suppose.... It seems an odd heuristic to me, that the most well-maintained posts pass abruptly into the community domain, effectively producing a situation where the more you update and maintain your question or answer, the less you get out of that maintenance in the eyes of the community at large. Should I take this to meta? –  Jake Kurzer Dec 17 '10 at 2:28
2  
Does anyone want a retrospective, given what I now know about profilers? –  Jake Kurzer Jan 25 '11 at 19:24
show 13 more comments

15 Answers

up vote 38 down vote accepted
+100

First:

Time sampling profilers are more robust than CPU sampling profilers. I'm not extremely familiar with Windows development tools so I can't say which ones are which. Most profilers are CPU sampling.

A CPU sampling profiler grabs a stack trace every N instructions.
This technique will reveal portions of your code that are CPU bound. Which is awesome if that is the bottle neck in your application. Not so great if your application threads spend most of their time fighting over a mutex.

A time sampling profiler grabs a stack trace every N microseconds.
This technique will zero in on "slow" code. Whether the cause is CPU bound, blocking IO bound, mutex bound, or cache thrashing sections of code. In short what ever piece of code is slowing your application will standout.

So use a time sampling profiler if at all possible especially when profiling threaded code.

Second:

Sampling profilers generate gobs of data. The data is extremely useful, but there is often too much to be easily useful. A profile data visualizer helps tremendously here. The best tool I've found for profile data visualization is gprof2dot. Don't let the name fool you, it handles all kinds of sampling profiler output (AQtime, Sleepy, XPerf, etc). Once the visualization has pointed out the offending function(s), jump back to the raw profile data to get better hints on what the real cause is.

The gprof2dot tool generates a dot graph description that you then feed into a graphviz tool. The output is basically a callgraph with functions color coded by their impact on the application. alt text

A few hints to get gprof2dot to generate nice output.

  • I use a --skew of 0.001 on my graphs so I can easily see the hot code paths. Otherwise the int main() dominates the graph.
  • If you're doing anything crazy with C++ templates you'll probably want to add --strip. This is especially true with Boost.
  • I use OProfile to generate my sampling data. To get good output I need configure it to load the debug symbols from my 3rd party and system libraries. Be sure to do the same, otherwise you'll see that CRT is taking 20% of your application's time when what's really going on is malloc is trashing the heap and eating up 15%.
share|improve this answer
    
While I don't know that this is the full answer to my problems, gprof2dot has entered my vast arsenal, and is rapidly assuming a favorite spot. I think that's worth a bounty! –  Jake Kurzer Dec 15 '10 at 20:36
    
What time sampling profilers do you recommend? –  naumcho Feb 2 '12 at 18:37
    
I asked this question Linux time sample based profiler. OProfile is supposed the get time based sampling eventually. They produce very high quality output, so once they add that feature I'll use them. Other than that I had a friend hack together a gdb + backtrace solution for profiling. Very hacky, but it did find the bottleneck. –  deft_code Feb 3 '12 at 4:17
add comment

What happened when you tried random pausing? I use it all the time on a monster app. You said it did not give enough information, and you've suggested you need high resolution. Sometimes people need a little help in understanding how to use it.

What I do, under VS, is configure the stack display so it doesn't show me the function arguments, because that makes the stack display totally unreadable, IMO.

Then I take about 10 samples by hitting "pause" during the time it's making me wait. I use ^A, ^C, and ^V to copy them into notepad, for reference. Then I study each one, to try to figure out what it was in the process of trying to accomplish at that time.

If it was trying to accomplish something on 2 or more samples, and that thing is not strictly necessary, then I've found a live problem, and I know roughly how much fixing it will save.

There are things you don't really need to know, like precise percents are not important, and what goes on inside 3rd-party code is not important, because you can't do anything about those. What you can do something about is the rich set of call-points in code you can modify displayed on each stack sample. That's your happy hunting ground.

Examples of the kinds of things I find:

  • During startup, it can be about 30 layers deep, in the process of trying to extract internationalized character strings from DLL resources. If the actual strings are examined, it can easily turn out that the strings don't really need to be internationalized, like they are strings the user never actually sees.

  • During normal usage, some code innocently sets a Modified property in some object. That object comes from a super-class that captures the change and triggers notifications that ripple throughout the entire data structure, manipulating the UI, creating and desroying obects in ways hard to foresee. This can happen a lot - the unexpected consequences of notifications.

  • Filling in a worksheet row-by-row, cell-by-cell. It turns out if you build the row all at once, from an array of values, it's a lot faster.

P.S. If you're multi-threaded, when you pause it, all threads pause. Take a look at the call stack of each thread. Chances are, only one of them is the real culprit, and the others are idling.

share|improve this answer
1  
Comments? Comments? THIS IS SPARTA! I... Sorry, don't know where that came from. No, the code makes Klingon Opera look readable, and it's about as well documented. Actually, I think it's far less documented.... Oh god. –  Jake Kurzer Dec 9 '10 at 23:10
2  
QTMFC integration? Oh great, you've got complicated and evil, and you haven't even gotten to the application-specific code yet. –  Ben Voigt Dec 10 '10 at 2:48
4  
QT/MFC? Shouldn't that produce mutant children with 3 heads that rock back and forth while calling every idea they hear the stupidest idea ever? Errr... I digress... If you're using any of the MFC Socket classes, immediately rewrite your socket code and then profile. There are ALOT of places in the CSocket code that uses the message loop version of WaitForSingleObject which I've found to kill performance. For the life of me I cannot remember the name of the wait func... :/ –  JimR Dec 10 '10 at 3:08
1  
Oh god, trust me, it is exactly as screwy as you think. –  Jake Kurzer Dec 10 '10 at 16:51
2  
@Jake: Not much comfort, but that's the glory of Turing universality. Any language, no matter how high or low level, is equivalent in its unbounded ability to be misused. –  Mike Dunlavey Dec 10 '10 at 17:10
show 22 more comments

I've had some success with AMD CodeAnalyst.

share|improve this answer
    
Intel environment, at the moment. I'll keep it in mind though! :) –  Jake Kurzer Dec 9 '10 at 4:08
3  
@Jake: I'm not sure what you mean there. AMD CodeAnalyst doesn't require AMD chips, it should work on most x86 or x64 (aka x86-64/IA-64/AMD64) chips, including Intel chips. –  Adam Rosenfield Dec 9 '10 at 4:13
1  
Apparently, I'm illiterate! That's wonderful news. I'll try it out tomorrow and update the question. –  Jake Kurzer Dec 9 '10 at 4:14
    
So far, it's very unstable when sampling at the resolutions I need. –  Jake Kurzer Dec 9 '10 at 5:05
    
@Adam: i tried code analyst on a intel pentium IV machine recently, and it only offered time-based sampling, with no information about thread usage, nor thread related information whatsoever... the amount of information i got was really mediocre.. additionally it caused crashes in the qt integration of visual studio.. i was not satisfied :( –  smerlin Dec 9 '10 at 20:24
show 1 more comment

Do you have an MFC OnIdle function? In the past I had a near real-time app I had to fix that was dropping serial packets when set at 19.2K speed which a PentiumD should have been able to keep up with. The OnIdle function was what was killing things. I'm not sure if QT has that concept, but I'd check for that too.

share|improve this answer
2  
We actually do have an OnIdle, and thanks to our QTMFC integration, it's flowing through the QT ev..e...eve...event loop. Oh G'd. –  Jake Kurzer Dec 12 '10 at 19:30
    
Turns out that this lead directly to our solution, so while it's not a perfect answer to the question, I think the question is unanswerable. –  Jake Kurzer Dec 17 '10 at 21:06
add comment

Re the VS Profiler -- if it's generating such large files, perhaps your sampling interval is too frequent? Try lowering it, as you probably have enough samples anyway.

And ideally, make sure you're not collecting samples until you're actually exercising the problem area. So start with collection paused, get your program to do its "slow activity", then start collection. You only need at most 20 seconds of collection. Stop collection after this.

This should help reduce your sample file sizes, and only capture what is necessary for your analysis.

share|improve this answer
    
I'll give this a shot tomorrow. –  Jake Kurzer Dec 9 '10 at 18:16
add comment

I have successfully used PurifyPlus for Windows. Although it is not cheap, IBM provides a trial version that is slightly crippled. All you need for profiling with quantify are pdb files and linking with /FIXED:NO. Only drawback: No support for Win7/64.

share|improve this answer
    
Unfortunately, our primary target is Win7. I'll add that info to the main post. –  Jake Kurzer Dec 14 '10 at 18:46
    
The current version of PurifyPlus supports Win7/64. –  hmuelner Oct 16 '13 at 14:20
add comment

Easyprofiler - I haven't seen it mentioned here yet so not sure if you've looked at it already. It takes a slightly different approach in how it gathers metric data. A drawback to using its compile-time profile approach is you have to make changes to the code-base. Thus you'll need to have some idea of where the slow might be and insert profiling code there.

Going by your latest comments though, it sounds like you're at least making some headway. Perhaps this tool might provide some useful metrics for you. If nothing else it has some really purdy charts and pictures :P

share|improve this answer
    
I am quite fond of pretty charts........ –  Jake Kurzer Dec 10 '10 at 23:59
add comment

Two more tool suggestions.

Luke Stackwalker has a cute name (even if it's trying a bit hard for my taste), it won't cost you anything, and you get the source code. It claims to support multi threaded programs, too. So it is surely worth a spin.

http://lukestackwalker.sourceforge.net/

Also Glowcode, which I've had pointed out to me as worth using:

http://www.glowcode.com/

Unfortunately I haven't done any PC work for a while, so I haven't tried either of these. I hope the suggestions are of help anyway.

share|improve this answer
add comment

If you're suspicious of the event loop, could overriding QCoreApplication::notify() and inserting something manual there help?

I'm thinking that you first log the frequency of event types, then examine those events more carefully (which object sends it, what does it contain, etc). Signals across threads are queued implicitly, so they end up in the event loop (as well explicit queued connections too, obviously).

We've done it to trap and report exceptions in our event handlers, so really, every event goes through there.

Just an idea.

share|improve this answer
    
That's a lovely idea! I'm not accustomed to a QT environment, having done most of my work with pyGTK here-to-fore. Thank you! –  Jake Kurzer Dec 13 '10 at 18:47
    
Do you have a recommended way of sourcing and resolving the nature of given signals? –  Jake Kurzer Dec 13 '10 at 19:30
    
I've only done it for signals with QStateMachine::SignalEvent, which doesn't seem to be the same. The source should still be the QObject* object parameter. Maybe MetaCall is the type for all signals (seems likely), but I'm not sure. This goes a bit beyond my experience, but peeking into the Qt source might glean some truth. (Or, ask a more pointed question w.r.t. queued signal invocations here on SO .. :) –  Macke Dec 13 '10 at 20:25
add comment

Checkout XPerf

This is free, non-invasive and extensible profiler offered by MS. It was developed by Microsoft to profile Windows.

share|improve this answer
1  
If it's used to profile Windows, it obviously doesn't work. –  Matt Joiner Jan 29 '11 at 15:04
add comment

Edit: I see now you mentioned this in your first post. Dammit, I never thought I'd be that guy.

You can use Pin to instrument your code with finer granularity. I think Pin would let you create a tool to count how many times you enter a function or how many clockticks you spend there, roughly emulating something like VTune or CodeAnalyst. Then you could strip down which functions get instrumented until your timing issues go away.

share|improve this answer
    
Actually, PIN was what I first reached for. There's actually something called PIN Play that would be perfect, but it's not for release outside Intel. I'm not sure I remember enough about using PIN to bodge together something really good, but... –  Jake Kurzer Dec 15 '10 at 18:14
    
I think PIN is cool enough to mention twice. –  Jake Kurzer Dec 16 '10 at 1:05
add comment

I can tell you what I use everyday.

a) AMD Code Analyst

  • It is easy, and it will give you a quick overview of what is happening. It will be ok for most of the time.
  • With AMD CPUs, it will tell you info about the cpu pipeline, but you only need this only if you have heavy loops, like in graphic engines, video codecs, etc.

b) VTune.

  • It is very well integrated in vs2008

  • after you know the hotspots, you need to sample not only time, but other things like cache misses, and memory usage. This is very important. Setup a sampling session, and edit the properties. I always sample for time, memory read/write, and cache misses (three different runs)

But more than the tool, you need to get experience with profiling. And that means understanding how the CPU/Memory/PCI works... so, this is my 3rd option

c) Unit testing

This is very important if you are developing a big application that needs huge performance. If you cannot split the app in some pieces, it will be difficult to track cpu usage. I dont test all the cases and classes, but I have hardcoded executions and input files with important features.

My advice is using random sampling in several small tests, and try to standardise a profile strategy.

share|improve this answer
    
AMD Code Analyst is unstable in my dev environment, and VTune explicitly does not support it. :S –  Jake Kurzer Dec 16 '10 at 4:26
add comment

DevPartner, originally developed by NuMega and now distributed by MicroFocus, was once the solution of choice for profiling and code analysis (memory and resource leaks for example). I haven't tried it recently, so I cannot assure you it will help you; but I once had excellent results with it, so that this is an alternative I do consider to re-install in our code quality process (they provide a 14 days trial)

share|improve this answer
add comment

though your os is win7,the programm cann't run under xp? how about profile it under xp and the result should be a hint for win7.

share|improve this answer
    
Certainly, it could, but that would require buying a license for a product that may never support your desired dev env well, or may take years to do so. 1.5k is a lot of money to bet, plus the costs in time of imaging and deploying an xp box. –  Jake Kurzer Dec 17 '10 at 19:05
add comment

There are lots of profilers listed here and I've tried a few of them myself - however I ended up writing my own based on this:

http://code.google.com/p/high-performance-cplusplus-profiler/

It does of course require that you modify the code base, but it's perfect for narrowing down bottlenecks, should work on all x86s (could be a problem with multi-core boxes, i.e. it uses rdtsc, however - this is purely for indicative timing anyway - so I find it's sufficient for my needs..)

share|improve this answer
add comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.