Artur Pilipenko via llvm-dev
2019-Jan-04 23:24 UTC
[llvm-dev] Coupling between CaptureTracking and its users
Working on a downstream optimization which uses CaptureTracking (CT) I came across a coupling problem. It looks like optimizations and analyses which use CT often need to be in sync with CT implementation. Analyzing the uses of the given pointer CT handles three kinds of uses: * Simple non-capturing use. When one is encountered, CT just moves on. * Non-capturing, but produces another value, which needs to be tracked. Examples: bitcasts, geps, phis, selects, etc. I’ll call this kind of uses "aliases", for the lack of better word. * Capturing. The "aliases" are tricky. CT users often need to know about these. For example, rL331587<https://reviews.llvm.org/rL331587> taught CT the "alias" semantic of launder.invariant.group calls. Because BasicAA was not aware of this change, it lead to incorrect AA results. "BasicAA still considered every call instruction as a possible escape source and hence concluded that the result of a launder_invariant_group call cannot alias any local non-escaping value." The first attempt to fix it fixed BasicAA (rL332466<https://reviews.llvm.org/rL332466>), but apparently there were similar issues in other parts. These were fixed by rL333070<https://reviews.llvm.org/rL333070>. Another example is our downstream optimization which does some sort of scalar replacement of non-escaping allocations. It rewrites uses of the allocation and needs to know about "aliases" as their uses also need to be rewritten. Currently it knows about all the "aliases" supported by CT, but it's not resilient to further changes in CT. Proposal Currently CaptureTracker is notified about capturing uses through CaptureTracker::captured. I propose to notify the tracker about all the uses explicitly specifying the kind (NoCapture, Alias, Capture). This way the tracker can only accept Alias uses it knows how to handle. If something unexpected comes up the tracker can give up the analysis. The default tracker can ignore Alias uses under the assumption that upstream users of CT maintain tight coupling with the analysis, like it is today. Refactoring of upstream users of CT is out of scope for this proposal. But in future they can be decoupled from CT implementation by explicitly checking the Alias uses. Thoughts? Artur -------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20190104/d74aabe0/attachment.html>
Finkel, Hal J. via llvm-dev
2019-Jan-05 00:39 UTC
[llvm-dev] Coupling between CaptureTracking and its users
On 1/4/19 5:24 PM, Artur Pilipenko via llvm-dev wrote: Working on a downstream optimization which uses CaptureTracking (CT) I came across a coupling problem. It looks like optimizations and analyses which use CT often need to be in sync with CT implementation. Analyzing the uses of the given pointer CT handles three kinds of uses: * Simple non-capturing use. When one is encountered, CT just moves on. * Non-capturing, but produces another value, which needs to be tracked. Examples: bitcasts, geps, phis, selects, etc. I’ll call this kind of uses "aliases", for the lack of better word. * Capturing. The "aliases" are tricky. CT users often need to know about these. For example, rL331587<https://reviews.llvm.org/rL331587> taught CT the "alias" semantic of launder.invariant.group calls. Because BasicAA was not aware of this change, it lead to incorrect AA results. "BasicAA still considered every call instruction as a possible escape source and hence concluded that the result of a launder_invariant_group call cannot alias any local non-escaping value." The first attempt to fix it fixed BasicAA (rL332466<https://reviews.llvm.org/rL332466>), but apparently there were similar issues in other parts. These were fixed by rL333070<https://reviews.llvm.org/rL333070>. Another example is our downstream optimization which does some sort of scalar replacement of non-escaping allocations. It rewrites uses of the allocation and needs to know about "aliases" as their uses also need to be rewritten. Currently it knows about all the "aliases" supported by CT, but it's not resilient to further changes in CT. Proposal Currently CaptureTracker is notified about capturing uses through CaptureTracker::captured. I propose to notify the tracker about all the uses explicitly specifying the kind (NoCapture, Alias, Capture). This way the tracker can only accept Alias uses it knows how to handle. If something unexpected comes up the tracker can give up the analysis. The default tracker can ignore Alias uses under the assumption that upstream users of CT maintain tight coupling with the analysis, like it is today. Refactoring of upstream users of CT is out of scope for this proposal. But in future they can be decoupled from CT implementation by explicitly checking the Alias uses. Can you elaborate on how this makes the handling of special intrinsics, etc. easier to maintain? I certainly agree that the launder_invariant_group coupling seems unfortunate, but seemed to me to be a special case (and it is an intrinsic designed to have special aliasing properties). -Hal Thoughts? Artur _______________________________________________ LLVM Developers mailing list llvm-dev at lists.llvm.org<mailto:llvm-dev at lists.llvm.org> http://lists.llvm.org/cgi-bin/mailman/listinfo/llvm-dev -- Hal Finkel Lead, Compiler Technology and Programming Languages Leadership Computing Facility Argonne National Laboratory -------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20190105/8e60f415/attachment-0001.html>
Artur Pilipenko via llvm-dev
2019-Jan-05 01:26 UTC
[llvm-dev] Coupling between CaptureTracking and its users
On 4 Jan 2019, at 16:39, Finkel, Hal J. <hfinkel at anl.gov<mailto:hfinkel at anl.gov>> wrote: On 1/4/19 5:24 PM, Artur Pilipenko via llvm-dev wrote: Working on a downstream optimization which uses CaptureTracking (CT) I came across a coupling problem. It looks like optimizations and analyses which use CT often need to be in sync with CT implementation. Analyzing the uses of the given pointer CT handles three kinds of uses: * Simple non-capturing use. When one is encountered, CT just moves on. * Non-capturing, but produces another value, which needs to be tracked. Examples: bitcasts, geps, phis, selects, etc. I’ll call this kind of uses "aliases", for the lack of better word. * Capturing. The "aliases" are tricky. CT users often need to know about these. For example, rL331587<https://reviews.llvm.org/rL331587> taught CT the "alias" semantic of launder.invariant.group calls. Because BasicAA was not aware of this change, it lead to incorrect AA results. "BasicAA still considered every call instruction as a possible escape source and hence concluded that the result of a launder_invariant_group call cannot alias any local non-escaping value." The first attempt to fix it fixed BasicAA (rL332466<https://reviews.llvm.org/rL332466>), but apparently there were similar issues in other parts. These were fixed by rL333070<https://reviews.llvm.org/rL333070>. Another example is our downstream optimization which does some sort of scalar replacement of non-escaping allocations. It rewrites uses of the allocation and needs to know about "aliases" as their uses also need to be rewritten. Currently it knows about all the "aliases" supported by CT, but it's not resilient to further changes in CT. Proposal Currently CaptureTracker is notified about capturing uses through CaptureTracker::captured. I propose to notify the tracker about all the uses explicitly specifying the kind (NoCapture, Alias, Capture). This way the tracker can only accept Alias uses it knows how to handle. If something unexpected comes up the tracker can give up the analysis. The default tracker can ignore Alias uses under the assumption that upstream users of CT maintain tight coupling with the analysis, like it is today. Refactoring of upstream users of CT is out of scope for this proposal. But in future they can be decoupled from CT implementation by explicitly checking the Alias uses. Can you elaborate on how this makes the handling of special intrinsics, etc. easier to maintain? I certainly agree that the launder_invariant_group coupling seems unfortunate, but seemed to me to be a special case (and it is an intrinsic designed to have special aliasing properties). Currently there is an implicit dependency: CT clients should know to look though all "alias" uses known to CT. If the dependency is not satisfied, the result is a subtle miscompile. The proposal is to notify CT clients about "alias" uses, which gives them a chance to give up the analysis if an unexpected use comes up. It doesn't eliminate the need to teach the optimizations about new "aliases" added to CT. What it does, it turns a miscompile into a missed optimization. To give an example, let's say we had had this mechanism implemented before we taught launder_invariant_group semantic to CT. CT clients which need to look though CT "aliases" would have used a custom tracker which checks the aliases explicitly: bool CaptureTracker::notifyUse(Use *U, UseKind Kind) { if (Kind == Alias) if (U->getUser() is not supported type) return false; // Terminate the analysis } Introduction of a new launder_invariant_group "alias" wouldn't have resulted in miscompiles because the clients which didn't expect it as an alias would have conservatively treated it as a capture. Artur -Hal Thoughts? Artur _______________________________________________ LLVM Developers mailing list llvm-dev at lists.llvm.org<mailto:llvm-dev at lists.llvm.org> http://lists.llvm.org/cgi-bin/mailman/listinfo/llvm-dev -- Hal Finkel Lead, Compiler Technology and Programming Languages Leadership Computing Facility Argonne National Laboratory -------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20190105/dcd3db54/attachment.html>
Possibly Parallel Threads
- [LLVMdev] CaptureTracking.h?
- error Cached MIME parts don't match message during parsing: Cached header size mismatch (parts=)
- error Cached MIME parts don't match message during parsing: Cached header size mismatch (parts=)
- determine why mail clients download mails 2nd time
- A couple ideas for possible GSoC projects