Tozer, Stephen via llvm-dev
2020-Jul-07 15:28 UTC
[llvm-dev] Defining the DIExpression operator DW_OP_LLVM_arg
Currently, two patches undergoing review wish to add a new operator for LLVM's DIExpression: D70642[0], and D82363[1]. Though both of these cases use the same name, the operators have different meanings: in the former, it has the form `DW_OP_LLVM_argN` where N is in [0-7], and represents the Nth argument of the containing intrinsic; its purpose is to enable the intrinsic @llvm.dbg.derefval, which represents implicit pointers. In the latter, it has the form `DW_OP_LLVM_arg, N`, where N >= 0, and represents the Nth value in a variadic debug value, which is being added in the same patch. Functionally these are quite similar; the main difference is that the latter picks the Nth value from a subset of the intrinsic's operands, while the former picks the Nth value from the entire containing intrinsic. My personal opinion (possibly biased as the author of D82363) is that the best solution is to remove DW_OP_LLVM_argN from the implicit pointer work altogether. The operator introduced in that patch is more general-purpose than necessary; it is only used as DW_OP_LLVM_arg0 and in conjunction with @llvm.dbg.derefval, an intrinsic added in that patch. It seems at a glance that the functionality could be folded into the new intrinsic and operator pair by having them automatically refer to arg0. While it's possible that this general-purpose operator could have value in the future, I think that it is better to have specific operators for each use case, rather than an operator that could refer to a machine value, a local variable, or even the DIExpression that contains it. Also of note, the main feature that this operator would be useful for implementing is the feature that D82363 is adding: referencing multiple machine values in a debug value. The difference is that the version of the operator in the more recent patch is explicitly used to represent machine values; it cannot refer to anything else. Finally, the implicit pointer patches haven't received an update in a while: the last comment or update was on January 10th. It is possible at this point that the work will not make it in for a very long time, and may be substantially changed when it does - I imagine there will be very little cost associated with using a different operator in that case. I'm mainly looking to confirm that there are no objections to this, and also ensure that this change doesn't sneak past anyone if it is accepted. [0] https://reviews.llvm.org/D70642 [1] https://reviews.llvm.org/D82363 -------------- next part -------------- An HTML attachment was scrubbed... URL: <http://lists.llvm.org/pipermail/llvm-dev/attachments/20200707/563a97a3/attachment.html>
Adrian Prantl via llvm-dev
2020-Jul-07 20:20 UTC
[llvm-dev] Defining the DIExpression operator DW_OP_LLVM_arg
Thanks for bringing this up! To summarize my understanding: Neither of these operators is strictly necessary, since the same effect can be achieved by implicitly pushing all operands of a DBG_VALUE to the stack, followed by a combination of DW_OP_dup, DW_OP_pick, DW_OP_swap, DW_OP_rot, and DW_OP_over. However, the resulting expressions can get very long and unwieldy and it is easier to generate efficient DWARF from DIExpressions that explicitly refer to arguments. DW_OP_LLVM_argN has the advantage of using less memory, at the cost of limiting the number of arguments to a hardcoded value. By restricting their use to new intrinsics only (derefval and DBG_VALUE_VAR) we can avoid any confusion about whether argument 0 is implicitly pushed to the stack or not — in those new intrinsics, arguments always have to be referred to explicitly. Personally, I'm leaning more towards DW_OP_LLVM_argN, because of the space saving aspect. Finally, to completely derail this discussion — once we have multi-arg support, we may be able to simplify parts of the debug intrinsic handling by combining multiple DW_OP_LLVM_fragment intrinsics describing the same variable into one multi-argument expression with multiple DW_OP_LLVM_fragments. -- adrian
Tozer, Stephen via llvm-dev
2020-Jul-08 12:21 UTC
[llvm-dev] Defining the DIExpression operator DW_OP_LLVM_arg
> To summarize my understanding: Neither of these operators is strictly necessary, since the same effect can be achieved by implicitly pushing all operands of a DBG_VALUE to the stack, followed by a combination of DW_OP_dup, DW_OP_pick, DW_OP_swap, DW_OP_rot, and DW_OP_over. However, the resulting expressions can get very long and unwieldy and it is easier to generate efficient DWARF from DIExpressions that explicitly refer to arguments. DW_OP_LLVM_argN has the advantage of using less memory, at the cost of limiting the number of arguments to a hardcoded value.I'd also add that since `DW_OP_pick N` picks the Nth argument from the top of the stack rather than the bottom, using it would require us to know how many elements are on the stack at each point in the expression, and update the pick depth if this changes. Also, for the sake of not bloating the final DWARF we wouldn't want to actually push the args onto the stack first and then pick them, so we'd basically be treating the final DW_OP_pick operators as DW_OP_LLVM_arg either way.> By restricting their use to new intrinsics only (derefval and DBG_VALUE_VAR) we can avoid any confusion about whether argument 0 is implicitly pushed to the stack or not — in those new intrinsics, arguments always have to be referred to explicitly. Personally, I'm leaning more towards DW_OP_LLVM_argN, because of the space saving aspect.I think what you're saying here is that we could have them both use the new operator, assigning it a different meaning depending on the intrinsic it's used in? If so, I think it's unnecessary - the derefval case does not (as far as I understand it) need any value other than arg0, and will also always use arg0; we lose no information by omitting it. Having the meaning of the operand vary depending on the intrinsic that contains it is also something I think we should avoid if possible; if derefval was changed to be variadic (not an unreasonable possibility I think) and the first argument was passed as a variadic argument then it'd make more sense. As for the operator, I'm not attached to either implementation; DW_OP_LLVM_argN saves memory during compilation (though the size of the DWARF output is identical), while `DW_OP_LLVM_arg N` is easier to work with in code as we don't need any helper functions to extract N, or to generate one from a given N value. The other question is whether we might actually need more than 8 arguments at some point; I suspect that for the vast majority of cases the answer will be "no", but it's hard to be sure exactly what cases may open up over time. Although...> Finally, to completely derail this discussion — once we have multi-arg support, we may be able to simplify parts of the debug intrinsic handling by combining multiple DW_OP_LLVM_fragment intrinsics describing the same variable into one multi-argument expression with multiple DW_OP_LLVM_fragments.This makes for a good example of how a future change might require us to support more arguments in an intrinsic than initially seems necessary.
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