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Take purity modeling seriously #43852
Conversation
Two quick questions:
Does this include code calling back into the optimizer, e.g. via
Does |
How does one show the implication? A function const C = []
f() = C seems to satisfy the assertions but Also, since const COUNTER = Ref(0)
function g!(arg::RefValue{Int})
arg[] = COUNTER[] += 1
return 0
end is considered |
Lines 1836 to 1838 in 294b0df
No, the thrown value is treated like the return value, I can write that down explicitly. |
You are correct, this is
Yes, it's considered |
In what sense |
You're correct. I named these before I had nailed down the exact semantics I wanted. I'll think about a better name, I'm thinking |
stable seems bad some 3 it has nothing to do with your stability |
I think I get why |
Re |
Observational equivalence is the definition of the egality property, but here you're not really asserting observational equivalence. There may be observable side effects. Maybe just |
BTW, does it also require the |
It does not. I considered requiring it, but it's usually false. E.g. MethodErrors get freshly allocated every time. |
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Just some typos in the docstring
I'm gonna go with |
Although actually, now that I'm doing the replacement, I don't like it anymore, since it also says something about optimizer behavior, which doesn't really have anything to do with the state. |
Let's go with "unchanging in nature, standard, or effect over time." which seems like it fits well. |
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Rebased our everything that got merged independently and squashed the history. |
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I think this is in a reasonable state now. There's more that could be done with this, but I think this is a pretty good place to pause. |
This is for JuliaLang/julia#43852. Probably hold off on merging until the review phase is through, but the PR is here for people who want to work on the branch and need Revise to work.
This adds a new effect :nothrow_if_inbounds that basically does what it says on the tin. Running #43852 through its paces, I've found it highly effective, except in cases where a function was only nothrow because of a boundscheck with unknown bounds. This PR adds support to make use of @inbounds annotations to still let inlining remove calls that are nothrow except for an unknown boundscheck.
This commit replaces `@pure`/`@_pure_meta` annotations used in `Base` with corresponding effect settings (`:total` or `:total_or_throw`). The concrete evaluation mechanism based on the effect system (#43852) has the following benefits over the `@pure`-based optimization: - it can fold cases when consistent exception is thrown - it can handle constant union-split situation as well - effects can be propagated inter-procedurally While revisiting the existing annotations, I stripped some of them and added some new more annotations (mostly for reflection utilities). In theory this should give us some performance benefits, e.g. now we can concrete-evaluate union-spit `typeintersect`: ```julia @test Base.return_types((Union{Int,Nothing},)) do x typeintersect(String, typeof(x)) end |> only === Type{Union{}} ``` Though this commit ends up bigger than I expected -- we should carefully check a benchmark result so that it doesn't come with any regressions.
This commit replaces `@pure`/`@_pure_meta` annotations used in `Base` with corresponding effect settings (`:total` or `:total_or_throw`). The concrete evaluation mechanism based on the effect system (#43852) has the following benefits over the `@pure`-based optimization: - it can fold cases when consistent exception is thrown - it can handle constant union-split situation as well - effects can be propagated inter-procedurally While revisiting the existing annotations, I stripped some of them and added some new more annotations (mostly for reflection utilities). In theory this should give us some performance benefits, e.g. now we can concrete-evaluate union-spit `typeintersect`: ```julia @test Base.return_types((Union{Int,Nothing},)) do x typeintersect(String, typeof(x)) end |> only === Type{Union{}} ``` Though this commit ends up bigger than I expected -- we should carefully check a benchmark result so that it doesn't come with any regressions.
This commit replaces `@pure`/`@_pure_meta` annotations used in `Base` with corresponding effect settings (`:total` or `:total_or_throw`). The concrete evaluation mechanism based on the effect system (#43852) has the following benefits over the `@pure`-based optimization: - it can fold cases when consistent exception is thrown - it can handle constant union-split situation as well - effects can be propagated inter-procedurally While revisiting the existing annotations, I removed some unnecessary ones and also added some more hopefully new annotations (mostly for reflection utilities). In theory this should give us some performance benefits, e.g. now we can concrete-evaluate union-spit `typeintersect`: ```julia @test Base.return_types((Union{Int,Nothing},)) do x typeintersect(String, typeof(x)) end |> only === Type{Union{}} ``` Though this commit ends up bigger than I expected -- we should carefully check a benchmark result so that it doesn't come with any regressions.
This commit replaces `@pure`/`@_pure_meta` annotations used in `Base` with corresponding effect settings (`:total` or `:total_or_throw`). The concrete evaluation mechanism based on the effect system (#43852) has the following benefits over the `@pure`-based optimization: - it can fold cases when consistent exception is thrown - it can handle constant union-split situation as well - effects can be propagated inter-procedurally While revisiting the existing annotations, I removed some unnecessary ones and also added some more hopefully new annotations (mostly for reflection utilities). In theory this should give us some performance benefits, e.g. now we can concrete-evaluate union-spit `typeintersect`: ```julia @test Base.return_types((Union{Int,Nothing},)) do x typeintersect(String, typeof(x)) end |> only === Type{Union{}} ``` Though this commit ends up bigger than I expected -- we should carefully check a benchmark result so that it doesn't come with any regressions. Co-Authored-By: Jameson Nash <vtjnash@gmail.com>
This commit replaces `@pure`/`@_pure_meta` annotations used in `Base` with corresponding effect settings (`:total` or `:total_or_throw`). The concrete evaluation mechanism based on the effect system (#43852) has the following benefits over the `@pure`-based optimization: - it can fold cases when consistent exception is thrown - it can handle constant union-split situation as well - effects can be propagated inter-procedurally While revisiting the existing annotations, I removed some unnecessary ones and also added some more hopefully new annotations (mostly for reflection utilities). In theory this should give us some performance benefits, e.g. now we can concrete-evaluate union-spit `typeintersect`: ```julia @test Base.return_types((Union{Int,Nothing},)) do x typeintersect(String, typeof(x)) end |> only === Type{Union{}} ``` Though this commit ends up bigger than I expected -- we should carefully check a benchmark result so that it doesn't come with any regressions. Co-Authored-By: Jameson Nash <vtjnash@gmail.com>
This commit replaces `@pure`/`@_pure_meta` annotations used in `Base` with corresponding effect settings (`:total` or `:total_or_throw`). The concrete evaluation mechanism based on the effect system (#43852) has the following benefits over the `@pure`-based optimization: - it can fold cases when consistent exception is thrown - it can handle constant union-split situation as well - effects can be propagated inter-procedurally While revisiting the existing annotations, I removed some unnecessary ones and also added some more hopefully new annotations (mostly for reflection utilities). In theory this should give us some performance benefits, e.g. now we can concrete-evaluate union-spit `typeintersect`: ```julia @test Base.return_types((Union{Int,Nothing},)) do x typeintersect(String, typeof(x)) end |> only === Type{Union{}} ``` Though this commit ends up bigger than I expected -- we should carefully check a benchmark result so that it doesn't come with any regressions. Co-Authored-By: Jameson Nash <vtjnash@gmail.com>
This commit replaces `@pure`/`@_pure_meta` annotations used in `Base` with corresponding effect settings (`:total` or `:total_or_throw`). The concrete evaluation mechanism based on the effect system (#43852) has the following benefits over the `@pure`-based optimization: - it can fold cases when consistent exception is thrown - it can handle constant union-split situation as well - effects can be propagated inter-procedurally While revisiting the existing annotations, I removed some unnecessary ones and also added some more hopefully new annotations (mostly for reflection utilities). In theory this should give us some performance benefits, e.g. now we can concrete-evaluate union-spit `typeintersect`: ```julia @test Base.return_types((Union{Int,Nothing},)) do x typeintersect(String, typeof(x)) end |> only === Type{Union{}} ``` Though this commit ends up bigger than I expected -- we should carefully check a benchmark result so that it doesn't come with any regressions.
This commit replaces `@pure`/`@_pure_meta` annotations used in `Base` with corresponding effect settings (`:total` or `:total_or_throw`). The concrete evaluation mechanism based on the effect system (#43852) has the following benefits over the `@pure`-based optimization: - it can fold cases when consistent exception is thrown - it can handle constant union-split situation as well - effects can be propagated inter-procedurally While revisiting the existing annotations, I removed some unnecessary ones and also added some more hopefully new annotations (mostly for reflection utilities). In theory this should give us some performance benefits, e.g. now we can concrete-evaluate union-spit `typeintersect`: ```julia @test Base.return_types((Union{Int,Nothing},)) do x typeintersect(String, typeof(x)) end |> only === Type{Union{}} ``` Though this commit ends up bigger than I expected -- we should carefully check a benchmark result so that it doesn't come with any regressions.
This commit replaces `@pure`/`@_pure_meta` annotations used in `Base` with corresponding effect settings (`:total` or `:total_or_throw`). The concrete evaluation mechanism based on the effect system (#43852) has the following benefits over the `@pure`-based optimization: - it can fold cases when consistent exception is thrown - it can handle constant union-split situation as well - effects can be propagated inter-procedurally While revisiting the existing annotations, I removed some unnecessary ones and also added some more hopefully new annotations (mostly for reflection utilities). In theory this should give us some performance benefits, e.g. now we can concrete-evaluate union-spit `typeintersect`: ```julia @test Base.return_types((Union{Int,Nothing},)) do x typeintersect(String, typeof(x)) end |> only === Type{Union{}} ``` Though this commit ends up bigger than I expected -- we should carefully check a benchmark result so that it doesn't come with any regressions.
They look like this: ``` CC src/processor.o In file included from /Users/mhorn/Projekte/Julia/julia.master/src/processor.cpp:10: In file included from ./processor.h:5: ./julia.h:395:9: warning: anonymous types declared in an anonymous union are an extension [-Wnested-anon-types] struct { ^ ./julia.h:405:9: warning: anonymous types declared in an anonymous union are an extension [-Wnested-anon-types] struct { ^ 2 warnings generated. ``` and come from code that was introduced by @Keno in PR JuliaLang#43852. But it turns out that the union is not used at all! So I'm simply removing the offending union. Perhaps it is needed for some future work, but it should be trivial to add it back if needed. If that happens, I suggest a comment is added that explain why this looks similar to but has different layout compared to the `typedef _jl_purity_overrides_t` also in `julia.h`.
This commit replaces `@pure`/`@_pure_meta` annotations used in `Base` with corresponding effect settings (`:total` or `:total_or_throw`). The concrete evaluation mechanism based on the effect system (#43852) has the following benefits over the `@pure`-based optimization: - it can fold cases when consistent exception is thrown - it can handle constant union-split situation as well - effects can be propagated inter-procedurally While revisiting the existing annotations, I removed some unnecessary ones and also added some more hopefully new annotations (mostly for reflection utilities). In theory this should give us some performance benefits, e.g. now we can concrete-evaluate union-spit `typeintersect`: ```julia @test Base.return_types((Union{Int,Nothing},)) do x typeintersect(String, typeof(x)) end |> only === Type{Union{}} ``` Though this commit ends up bigger than I expected -- we should carefully check a benchmark result so that it doesn't come with any regressions.
This commit replaces `@pure`/`@_pure_meta` annotations used in `Base` with corresponding effect settings (`:total` or `:total_or_throw`). The concrete evaluation mechanism based on the effect system (#43852) has the following benefits over the `@pure`-based optimization: - it can fold cases when consistent exception is thrown - it can handle constant union-split situation as well - effects can be propagated inter-procedurally While revisiting the existing annotations, I removed some unnecessary ones and also added some more hopefully new annotations (mostly for reflection utilities). In theory this should give us some performance benefits, e.g. now we can concrete-evaluate union-spit `typeintersect`: ```julia @test Base.return_types((Union{Int,Nothing},)) do x typeintersect(String, typeof(x)) end |> only === Type{Union{}} ``` Though this commit ends up bigger than I expected -- we should carefully check a benchmark result so that it doesn't come with any regressions.
This commit replaces `@pure`/`@_pure_meta` annotations used in `Base` with corresponding effect settings (`:total` or `:total_or_throw`). The concrete evaluation mechanism based on the effect system (#43852) has the following benefits over the `@pure`-based optimization: - it can fold cases when consistent exception is thrown - it can handle constant union-split situation as well - effects can be propagated inter-procedurally While revisiting the existing annotations, I removed some unnecessary ones and also added some more hopefully new annotations (mostly for reflection utilities). In theory this should give us some performance benefits, e.g. now we can concrete-evaluate union-spit `typeintersect`: ```julia @test Base.return_types((Union{Int,Nothing},)) do x typeintersect(String, typeof(x)) end |> only === Type{Union{}} ``` Though this commit ends up bigger than I expected -- we should carefully check a benchmark result so that it doesn't come with any regressions.
This commit replaces `@pure`/`@_pure_meta` annotations used in `Base` with corresponding effect settings (`:total` or `:total_or_throw`). The concrete evaluation mechanism based on the effect system (#43852) has the following benefits over the `@pure`-based optimization: - it can fold cases when consistent exception is thrown - it can handle constant union-split situation as well - effects can be propagated inter-procedurally While revisiting the existing annotations, I removed some unnecessary ones and also added some more hopefully new annotations (mostly for reflection utilities). In theory this should give us some performance benefits, e.g. now we can concrete-evaluate union-spit `typeintersect`: ```julia @test Base.return_types((Union{Int,Nothing},)) do x typeintersect(String, typeof(x)) end |> only === Type{Union{}} ``` Though this commit ends up bigger than I expected -- we should carefully check a benchmark result so that it doesn't come with any regressions.
They look like this: ``` CC src/processor.o In file included from /Users/mhorn/Projekte/Julia/julia.master/src/processor.cpp:10: In file included from ./processor.h:5: ./julia.h:395:9: warning: anonymous types declared in an anonymous union are an extension [-Wnested-anon-types] struct { ^ ./julia.h:405:9: warning: anonymous types declared in an anonymous union are an extension [-Wnested-anon-types] struct { ^ 2 warnings generated. ``` and come from code that was introduced by @Keno in PR JuliaLang#43852. But it turns out that the union is not used at all! So I'm simply removing the offending union. Perhaps it is needed for some future work, but it should be trivial to add it back if needed. If that happens, I suggest a comment is added that explain why this looks similar to but has different layout compared to the `typedef _jl_purity_overrides_t` also in `julia.h`.
This commit replaces `@pure`/`@_pure_meta` annotations used in `Base` with corresponding effect settings (`:total` or `:total_or_throw`). The concrete evaluation mechanism based on the effect system (#43852) has the following benefits over the `@pure`-based optimization: - it can fold cases when consistent exception is thrown - it can handle constant union-split situation as well - effects can be propagated inter-procedurally While revisiting the existing annotations, I removed some unnecessary ones and also added some more hopefully new annotations (mostly for reflection utilities). In theory this should give us some performance benefits, e.g. now we can concrete-evaluate union-spit `typeintersect`: ```julia @test Base.return_types((Union{Int,Nothing},)) do x typeintersect(String, typeof(x)) end |> only === Type{Union{}} ``` Though this commit ends up bigger than I expected -- we should carefully check a benchmark result so that it doesn't come with any regressions.
They look like this: ``` CC src/processor.o In file included from /Users/mhorn/Projekte/Julia/julia.master/src/processor.cpp:10: In file included from ./processor.h:5: ./julia.h:395:9: warning: anonymous types declared in an anonymous union are an extension [-Wnested-anon-types] struct { ^ ./julia.h:405:9: warning: anonymous types declared in an anonymous union are an extension [-Wnested-anon-types] struct { ^ 2 warnings generated. ``` and come from code that was introduced by @Keno in PR #43852. But it turns out that the union is not used at all! So I'm simply removing the offending union. Perhaps it is needed for some future work, but it should be trivial to add it back if needed. If that happens, I suggest a comment is added that explain why this looks similar to but has different layout compared to the `typedef _jl_purity_overrides_t` also in `julia.h`.
This commit replaces `@pure`/`@_pure_meta` annotations used in `Base` with corresponding effect settings (`:total` or `:total_or_throw`). The concrete evaluation mechanism based on the effect system (#43852) has the following benefits over the `@pure`-based optimization: - it can fold cases when consistent exception is thrown - it can handle constant union-split situation as well - effects can be propagated inter-procedurally While revisiting the existing annotations, I removed some unnecessary ones and also added some more hopefully new annotations (mostly for reflection utilities). In theory this should give us some performance benefits, e.g. now we can concrete-evaluate union-spit `typeintersect`: ```julia @test Base.return_types((Union{Int,Nothing},)) do x typeintersect(String, typeof(x)) end |> only === Type{Union{}} ``` Though this commit ends up bigger than I expected -- we should carefully check a benchmark result so that it doesn't come with any regressions.
This commit replaces `@pure`/`@_pure_meta` annotations used in `Base` with corresponding effect settings (`:total` or `:total_or_throw`). The concrete evaluation mechanism based on the effect system (#43852) has the following benefits over the `@pure`-based optimization: - it can fold cases when consistent exception is thrown - it can handle constant union-split situation as well - effects can be propagated inter-procedurally While revisiting the existing annotations, I removed some unnecessary ones and also added some more hopefully new annotations (mostly for reflection utilities). In theory this should give us some performance benefits, e.g. now we can concrete-evaluate union-spit `typeintersect`: ```julia @test Base.return_types((Union{Int,Nothing},)) do x typeintersect(String, typeof(x)) end |> only === Type{Union{}} ``` Though this commit ends up bigger than I expected -- we should carefully check a benchmark result so that it doesn't come with any regressions.
They look like this: ``` CC src/processor.o In file included from /Users/mhorn/Projekte/Julia/julia.master/src/processor.cpp:10: In file included from ./processor.h:5: ./julia.h:395:9: warning: anonymous types declared in an anonymous union are an extension [-Wnested-anon-types] struct { ^ ./julia.h:405:9: warning: anonymous types declared in an anonymous union are an extension [-Wnested-anon-types] struct { ^ 2 warnings generated. ``` and come from code that was introduced by @Keno in PR #43852. But it turns out that the union is not used at all! So I'm simply removing the offending union. Perhaps it is needed for some future work, but it should be trivial to add it back if needed. If that happens, I suggest a comment is added that explain why this looks similar to but has different layout compared to the `typedef _jl_purity_overrides_t` also in `julia.h`. (cherry picked from commit bb91e62)
TLDR
Before:
After:
so roughly a 1000x improvement in compile time performance for const-prop heavy functions.
There are also run time improvements for functions that have patterns like:
The inliner will now be able to see that some_function_to_big_to_be_inlined_but_pure is effect free, even without inlining it and just delete it, improving runtime performance (if some_function_to_big_to_be_inlined_but_pure is small enough to be inlined, there is a small compile time throughput win, by being able to delete it without inlining, but that's a smaller gain than the compile time gain above).
Motivation / Overview
There are two motivations for this work. The first is the above mentioned improvement in compiler performance for const-prop heavy functions. This comes up a fair bit in various Modeling & Simulation codes we have where Julia code is often auto-generated from some combination of parameterized model codes and data. This ends up creating enormous functions with significant need for constant propagation (~50k statements with ~20k constant calls are not uncommon). Our current compiler was designed for people occasionally throwing a
sqrt(2)
or something in a function, not 20k of them, so performance is quite bad.The second motivation is to have finer grained control over our purity modeling. We have
@Base.pure
, but that has somewhat nebulous semantics and is quite a big hammer that is not appropriate in most situations.These may seem like orthogonal concerns at first, but they are not. The compile time issues fundamentally stem from us running constant propagation in inference's abstract interpreter. However, for simple, pure functions, that is entirely unnecessary, because we have a super-fast, JIT compiler version of that function just laying around in general. The issue is that we currently, we generally do not know when it is legal to run the JIT-compiled version of the function and when we need to abstractly interpret it. However, if the compiler were able to figure out an appropriate notion of purity, it could start doing that (which is what it does now for
@Base.pure
functions).This PR adds that kind of notion of purity, converges it along with type information during inference and then makes use of it to speed up evaluation of constant propagation (where it is legal to do so), as well as improving the inliner.
The new purity notions
The new purity model consists of four different kinds flags per code instance. For builtins and intrinsics the existing effect free and nothrow models are re-used. There is also a new macro
@Base.assume_effects
available, which can set the purity base case for methods or:foreigncall
s. Here is the docstring for that macro, which also explains the semantics of the new purity flags:Changes to data structures
Each CodeInstance gains two sets of four flags corresponding to the notions above (except terminates_locally, which is just a type inference flag). One set of flags tracks IPO-valid information (as determined by inference), the other set of flags tracks optimizer-valid information (as determined after optimization). Otherwise they have identical semantics.
Method and CodeInfo each gain 5 bit flags corresponding 1:1 to the purity notions defined above. No separate distinction is made between IPO valid and optimizer valid flags here. We might in the future want such a distinction, but I'm hoping to get away without it for now, since the IPO-vs-optimizer distinction is a bit subtle and I don't really want to expose that to the user.
:foreigncall
gains an extra argument (aftercconv
) to describe the effects of the call.Algorithm
Relatively straightforward.
TODO