The LLVM Module has an optional target triple and target datalayout. Without them, an llvm::DataLayout can't be constructed with meaningful data. The benefit to making them optional is to permit optimization that would work across all possible DataLayouts, then allow us to commit to a particular one at a later point in time, thereby performing more optimization in advance. This feature is not being used. Instead, every user of LLVM IR in a portability system defines one or more standardized datalayouts for their platform, and shims to place calls with the outside world. The primary reason for this is that independence from DataLayout is not sufficient to achieve portability because it doesn't also represent ABI lowering constraints. If you have a system that attempts to use LLVM IR in a portable fashion and does it without standardizing on a datalayout, please share your experience. The cost to keeping this feature around is that we have to pass around the DataLayout object in many places, test for its presence, in some cases write different optimizations depending on whether we have DataLayout, and in the worst case I can think of, we have two different canonical forms for constant expressions depending on whether DL is present. Our canonical IR is different with and without datalayout, and we have two canonicalizers fighting it out (IR/ConstantFold.cpp and Analysis/ConstantFolding.cpp). I'm trying to force the issue. Either this is a useful feature to maintain in which case I want to see a design on how to defer ABI decisions until a later point in time, or else we do not support it and target triple and target datalayout become a mandatory part of a valid Module again. I think the correct direction is to make them mandatory, but this is a large change that warrants debate. If we decide that target information should be a mandatory part of a module, there's another question about what we should do with existing .bc and .ll files that don't have one. Load in a default of the host machine? Nick -------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20140129/8660dd36/attachment.html>
Hi Nick, The main use case I’ve seen is that it makes writing generic test cases for ‘opt’ easier in that it’s not necessary to specify a target triple on the command line or have a data layout in the .ll/.bc file. That is, in my experience, it’s more for convenience and perhaps historical layering considerations. I have no philosophical objection to the direction you’re suggesting. For modules without a data layout, use the host machine as you suggest. That’s consistent with what already happens with llc, so extending that to opt and other such tools seems reasonable to me. -Jim On Jan 29, 2014, at 3:40 PM, Nick Lewycky <nlewycky at google.com> wrote:> The LLVM Module has an optional target triple and target datalayout. Without them, an llvm::DataLayout can't be constructed with meaningful data. The benefit to making them optional is to permit optimization that would work across all possible DataLayouts, then allow us to commit to a particular one at a later point in time, thereby performing more optimization in advance. > > This feature is not being used. Instead, every user of LLVM IR in a portability system defines one or more standardized datalayouts for their platform, and shims to place calls with the outside world. The primary reason for this is that independence from DataLayout is not sufficient to achieve portability because it doesn't also represent ABI lowering constraints. If you have a system that attempts to use LLVM IR in a portable fashion and does it without standardizing on a datalayout, please share your experience. > > The cost to keeping this feature around is that we have to pass around the DataLayout object in many places, test for its presence, in some cases write different optimizations depending on whether we have DataLayout, and in the worst case I can think of, we have two different canonical forms for constant expressions depending on whether DL is present. Our canonical IR is different with and without datalayout, and we have two canonicalizers fighting it out (IR/ConstantFold.cpp and Analysis/ConstantFolding.cpp). > > I'm trying to force the issue. Either this is a useful feature to maintain in which case I want to see a design on how to defer ABI decisions until a later point in time, or else we do not support it and target triple and target datalayout become a mandatory part of a valid Module again. I think the correct direction is to make them mandatory, but this is a large change that warrants debate. > > If we decide that target information should be a mandatory part of a module, there's another question about what we should do with existing .bc and .ll files that don't have one. Load in a default of the host machine? > > Nick > > _______________________________________________ > LLVM Developers mailing list > LLVMdev at cs.uiuc.edu http://llvm.cs.uiuc.edu > http://lists.cs.uiuc.edu/mailman/listinfo/llvmdev
On 29 January 2014 15:53, Jim Grosbach <grosbach at apple.com> wrote:> Hi Nick, > > The main use case I’ve seen is that it makes writing generic test cases > for ‘opt’ easier in that it’s not necessary to specify a target triple on > the command line or have a data layout in the .ll/.bc file. That is, in my > experience, it’s more for convenience and perhaps historical layering > considerations. > > I have no philosophical objection to the direction you’re suggesting. > > For modules without a data layout, use the host machine as you suggest. > That’s consistent with what already happens with llc, so extending that to > opt and other such tools seems reasonable to me. >This is also what many clang tests do, where TUs get parsed using the host triple. If we keep target datalayout out of the test files and fill it in with the host's information, then our test coverage expands as our buildbot diversity grows, which is a neat property. Nick On Jan 29, 2014, at 3:40 PM, Nick Lewycky <nlewycky at google.com> wrote:> > > The LLVM Module has an optional target triple and target datalayout. > Without them, an llvm::DataLayout can't be constructed with meaningful > data. The benefit to making them optional is to permit optimization that > would work across all possible DataLayouts, then allow us to commit to a > particular one at a later point in time, thereby performing more > optimization in advance. > > > > This feature is not being used. Instead, every user of LLVM IR in a > portability system defines one or more standardized datalayouts for their > platform, and shims to place calls with the outside world. The primary > reason for this is that independence from DataLayout is not sufficient to > achieve portability because it doesn't also represent ABI lowering > constraints. If you have a system that attempts to use LLVM IR in a > portable fashion and does it without standardizing on a datalayout, please > share your experience. > > > > The cost to keeping this feature around is that we have to pass around > the DataLayout object in many places, test for its presence, in some cases > write different optimizations depending on whether we have DataLayout, and > in the worst case I can think of, we have two different canonical forms for > constant expressions depending on whether DL is present. Our canonical IR > is different with and without datalayout, and we have two canonicalizers > fighting it out (IR/ConstantFold.cpp and Analysis/ConstantFolding.cpp). > > > > I'm trying to force the issue. Either this is a useful feature to > maintain in which case I want to see a design on how to defer ABI decisions > until a later point in time, or else we do not support it and target triple > and target datalayout become a mandatory part of a valid Module again. I > think the correct direction is to make them mandatory, but this is a large > change that warrants debate. > > > > If we decide that target information should be a mandatory part of a > module, there's another question about what we should do with existing .bc > and .ll files that don't have one. Load in a default of the host machine? > > > > Nick > > > > _______________________________________________ > > LLVM Developers mailing list > > LLVMdev at cs.uiuc.edu http://llvm.cs.uiuc.edu > > http://lists.cs.uiuc.edu/mailman/listinfo/llvmdev > >-------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20140129/f3c17a7a/attachment.html>
On 1/29/14 3:40 PM, Nick Lewycky wrote:> The LLVM Module has an optional target triple and target datalayout. > Without them, an llvm::DataLayout can't be constructed with meaningful > data. The benefit to making them optional is to permit optimization > that would work across all possible DataLayouts, then allow us to > commit to a particular one at a later point in time, thereby > performing more optimization in advance. > > This feature is not being used. Instead, every user of LLVM IR in a > portability system defines one or more standardized datalayouts for > their platform, and shims to place calls with the outside world. The > primary reason for this is that independence from DataLayout is not > sufficient to achieve portability because it doesn't also represent > ABI lowering constraints. If you have a system that attempts to use > LLVM IR in a portable fashion and does it without standardizing on a > datalayout, please share your experience.Nick, I don't have a current system in place, but I do want to put forward an alternate perspective. We've been looking at doing late insertion of safepoints for garbage collection. One of the properties that we end up needing to preserve through all the optimizations which precede our custom rewriting phase is that the optimizer has not chosen to "hide" pointers from us by using ptrtoint and integer math tricks. Currently, we're simply running a verification pass before our rewrite, but I'm very interested long term in constructing ways to ensure a "gc safe" set of optimization passes. One of the ways I've been thinking about - but haven't actually implemented yet - is to deny the optimization passes information about pointer sizing. Under the assumption that an opto pass can't insert an ptrtoint cast without knowing a safe integer size to use, this seems like it would outlaw a class of optimizations we'd be broken by. My understanding is that the only current way to do this would be to not specify a DataLayout. (And hack a few places with built in assumptions. Let's ignore that for the moment.) With your proposed change, would there be a clean way to express something like this? p.s. From reading the mailing list a while back, I suspect that the SPIR folks might have similar needs. (i.e. hiding pointer sizes, etc..) Pure speculation on my part though. Philip
Rafael Espíndola
2014-Jan-30 21:07 UTC
[LLVMdev] make DataLayout a mandatory part of Module
On 29 January 2014 18:40, Nick Lewycky <nlewycky at google.com> wrote:> The LLVM Module has an optional target triple and target datalayout. Without > them, an llvm::DataLayout can't be constructed with meaningful data. The > benefit to making them optional is to permit optimization that would work > across all possible DataLayouts, then allow us to commit to a particular one > at a later point in time, thereby performing more optimization in advance. > > This feature is not being used. Instead, every user of LLVM IR in a > portability system defines one or more standardized datalayouts for their > platform, and shims to place calls with the outside world. The primary > reason for this is that independence from DataLayout is not sufficient to > achieve portability because it doesn't also represent ABI lowering > constraints. If you have a system that attempts to use LLVM IR in a portable > fashion and does it without standardizing on a datalayout, please share your > experience. > > The cost to keeping this feature around is that we have to pass around the > DataLayout object in many places, test for its presence, in some cases write > different optimizations depending on whether we have DataLayout, and in the > worst case I can think of, we have two different canonical forms for > constant expressions depending on whether DL is present. Our canonical IR is > different with and without datalayout, and we have two canonicalizers > fighting it out (IR/ConstantFold.cpp and Analysis/ConstantFolding.cpp). > > I'm trying to force the issue. Either this is a useful feature to maintain > in which case I want to see a design on how to defer ABI decisions until a > later point in time, or else we do not support it and target triple and > target datalayout become a mandatory part of a valid Module again. I think > the correct direction is to make them mandatory, but this is a large change > that warrants debate.I don't think we can reasonably express all the information needed by ABIs at the LLVM level. Given that, It would *love* to see DataLayout become a mandatory part of the IR!> If we decide that target information should be a mandatory part of a module, > there's another question about what we should do with existing .bc and .ll > files that don't have one. Load in a default of the host machine?For tools that don't link with target (llvm-as and llvm-dis being the most extreme cases) it would have to be the default "". For opt I would be ok with "" or the host triple. Thanks, Rafael
On 30 January 2014 09:55, Philip Reames <listmail at philipreames.com> wrote:> On 1/29/14 3:40 PM, Nick Lewycky wrote: > >> The LLVM Module has an optional target triple and target datalayout. >> Without them, an llvm::DataLayout can't be constructed with meaningful >> data. The benefit to making them optional is to permit optimization that >> would work across all possible DataLayouts, then allow us to commit to a >> particular one at a later point in time, thereby performing more >> optimization in advance. >> >> This feature is not being used. Instead, every user of LLVM IR in a >> portability system defines one or more standardized datalayouts for their >> platform, and shims to place calls with the outside world. The primary >> reason for this is that independence from DataLayout is not sufficient to >> achieve portability because it doesn't also represent ABI lowering >> constraints. If you have a system that attempts to use LLVM IR in a >> portable fashion and does it without standardizing on a datalayout, please >> share your experience. >> > Nick, I don't have a current system in place, but I do want to put forward > an alternate perspective. > > We've been looking at doing late insertion of safepoints for garbage > collection. One of the properties that we end up needing to preserve > through all the optimizations which precede our custom rewriting phase is > that the optimizer has not chosen to "hide" pointers from us by using > ptrtoint and integer math tricks. Currently, we're simply running a > verification pass before our rewrite, but I'm very interested long term in > constructing ways to ensure a "gc safe" set of optimization passes. >As a general rule passes need to support the whole of what the IR can support. Trying to operate on a subset of IR seems like a losing battle, unless you can show a mapping from one to the other (ie., using code duplication to remove all unnatural loops from IR, or collapsing a function to having a single exit node). What language were you planning to do this for? Does the language permit the user to convert pointers to integers and vice versa? If so, what do you do if the user program writes a pointer out to a file, reads it back in later, and uses it? One of the ways I've been thinking about - but haven't actually implemented> yet - is to deny the optimization passes information about pointer sizing.Right, pointer size (address space size) will become known to all parts of the compiler. It's not even going to be just the optimizations, ConstantExpr::get is going to grow smarter because of this, as lib/Analysis/ConstantFolding.cpp merges into lib/IR/ConstantFold.cpp. That is one of the major benefits that's driving this. (All parts of the compiler will also know endian-ness, which means we can constant fold loads, too.) Under the assumption that an opto pass can't insert an ptrtoint cast> without knowing a safe integer size to use, this seems like it would outlaw > a class of optimizations we'd be broken by. >Optimization passes generally prefer converting ptrtoint and inttoptr to GEPs whenever possible. I expect that we'll end up with *fewer* ptr<->int conversions with this change, because we'll know enough about the target to convert them into GEPs. My understanding is that the only current way to do this would be to not> specify a DataLayout. (And hack a few places with built in assumptions. > Let's ignore that for the moment.) With your proposed change, would there > be a clean way to express something like this? >I think your GC placement algorithm needs to handle inttoptr and ptrtoint, whichever way this discussion goes. Sorry. I'd be happy to hear others chime in -- I know I'm not an expert in this area or about GCs -- but I don't find this rationale compelling. p.s. From reading the mailing list a while back, I suspect that the SPIR> folks might have similar needs. (i.e. hiding pointer sizes, etc..) Pure > speculation on my part though. >The SPIR spec specifies two target datalayouts, one for 32 bits and one for 64 bits. Nick -------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20140131/5572e2a4/attachment.html>
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