Scott Egerton via llvm-dev
2016-Jun-17 18:54 UTC
[llvm-dev] [GSoC 2016] Capture Tracking Improvements - Mid term report
Hello, This is a more detailed overview of my progress than the weekly reports, which can also be found on the mailing list. Over the past two weeks I have been learning a lot more about capture tracking. From this I was able to instrument the current implementation in order to identify some of the false positives in it. I was hoping to have more definitive results by now than what I currently have, but due to some unforeseen issues with the output becoming scrambled I cannot provide this just yet. I have now resolved this and plan to have some more concrete results within the coming week. The current algorithm for Capture tracking will look through the uses of a pointer. If there are too many uses it will conservatively say that the value is captured to avoid taking up too much compile time. If not it will then determine whether or not the Value is captured in various ways based on its opcode. However there are some deficiencies with the current implementation. Such as the false positives and the fact that it takes rather a lot of compile time to run. I am currently compiling a large piece of code with an instrumented version of LLVM in order to identify false positives. I then plan to fix all the identified false positives. After this is complete I will be be moving onto adding the caching of results to the current design. This will make it more efficient. If I complete this, I will work on making the analysis more accurate in order to recognize object sub-graphs which do not escape. Please let me know if you have any suggestions. Many thanks, Scott
Sanjoy Das via llvm-dev
2016-Jun-17 21:27 UTC
[llvm-dev] [GSoC 2016] Capture Tracking Improvements - Mid term report
Hi Scott, On Fri, Jun 17, 2016 at 11:54 AM, Scott Egerton via llvm-dev <llvm-dev at lists.llvm.org> wrote:> Over the past two weeks I have been learning a lot more about capture > tracking. From this I was able to instrument the current implementation in > order to identify some of the false positives in it. I was hoping to haveHow are you instrumenting the analysis to identify false positives?> more definitive results by now than what I currently have, but due to some > unforeseen issues with the output becoming scrambled I cannot provide this > just yet. I have now resolved this and plan to have some more concrete > results within the coming week. > > The current algorithm for Capture tracking will look through the uses of a > pointer. If there are too many uses it will conservatively say that the > value is captured to avoid taking up too much compile time. If not it will > then determine whether or not the Value is captured in various ways based on > its opcode. > However there are some deficiencies with the current implementation. Such as > the false positives and the fact that it takes rather a lot of compile time > to run. > > I am currently compiling a large piece of code with an instrumented versionCan you give some more details here? What is this large piece of code?> of LLVM in order to identify false positives. I then plan to fix all the > identified false positives. After this is complete I will be be moving ontoThis sounds reasonable, but I'd say it is better to avoid this kind of workflow: for (every_false_positive) understand_false_positive; for (every_false_positive) fix_false_positive; but have it be more like: for (every_false_positive) { understand_false_positive; fix_false_positive; } i.e. you don't have to understand _all_ of the cases where our capture tracking is too conservative to make it better. Find one _specific_ case where LLVM today is stupid today, and fix it; and iterate. Making these kind of small changes will also increase the trust the community has in you, which will be helpful when you start proposing bigger changes (e.g. perhaps for non-escaping subgraphs). -- Sanjoy
Scott Egerton via llvm-dev
2016-Jun-18 18:43 UTC
[llvm-dev] [GSoC 2016] Capture Tracking Improvements - Mid term report
Hi Sanjoy, On 17/06/16 22:27, Sanjoy Das wrote:> Hi Scott, > > On Fri, Jun 17, 2016 at 11:54 AM, Scott Egerton via llvm-dev > <llvm-dev at lists.llvm.org> wrote: >> Over the past two weeks I have been learning a lot more about capture >> tracking. From this I was able to instrument the current implementation in >> order to identify some of the false positives in it. I was hoping to have > > How are you instrumenting the analysis to identify false positives?I've instrumented it so that it will output the pointer value to llvm::dbgs() whenever MayBeCaptured or MayBeCapturedBefore returns true in order to identify all "positives", false or not. Then I am manually filtering out all of cases which appear to be the correct behaviour. Hopefully everything left over will be a false positive.> >> more definitive results by now than what I currently have, but due to some >> unforeseen issues with the output becoming scrambled I cannot provide this >> just yet. I have now resolved this and plan to have some more concrete >> results within the coming week. >> >> The current algorithm for Capture tracking will look through the uses of a >> pointer. If there are too many uses it will conservatively say that the >> value is captured to avoid taking up too much compile time. If not it will >> then determine whether or not the Value is captured in various ways based on >> its opcode. >> However there are some deficiencies with the current implementation. Such as >> the false positives and the fact that it takes rather a lot of compile time >> to run. >> >> I am currently compiling a large piece of code with an instrumented version > > Can you give some more details here? What is this large piece of > code?It's the code for Firefox. I saw someone on IRC was using it as well and thought it would be good as it is supported well enough to "just work".> >> of LLVM in order to identify false positives. I then plan to fix all the >> identified false positives. After this is complete I will be be moving onto > > This sounds reasonable, but I'd say it is better to avoid this kind of > workflow: > > for (every_false_positive) > understand_false_positive; > for (every_false_positive) > fix_false_positive; > > but have it be more like: > > for (every_false_positive) { > understand_false_positive; > fix_false_positive; > } > > i.e. you don't have to understand _all_ of the cases where our capture > tracking is too conservative to make it better. Find one _specific_ > case where LLVM today is stupid today, and fix it; and iterate. > Making these kind of small changes will also increase the trust the > community has in you, which will be helpful when you start proposing > bigger changes (e.g. perhaps for non-escaping subgraphs).I agree that this does seem like a better workflow, however I am finding it difficult to identify a single false positive without at least finding a few because of the process I'm using, filtering the instrumented output.> > -- Sanjoy >Many thanks, Scott
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