Fix sort_int_range! for rangelen::UInt64#2
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LilithHafner merged 1 commit intopatch-1from Oct 20, 2021
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…43226) In order to allow `Argument`s to be printed nicely. > before ```julia julia> code_typed((Float64,)) do x sin(x) end 1-element Vector{Any}: CodeInfo( 1 ─ %1 = invoke Main.sin(_2::Float64)::Float64 └── return %1 ) => Float64 julia> code_typed((Bool,Any,Any)) do c, x, y z = c ? x : y z end 1-element Vector{Any}: CodeInfo( 1 ─ goto #3 if not c 2 ─ goto #4 3 ─ nothing::Nothing 4 ┄ %4 = φ (#2 => _3, #3 => _4)::Any └── return %4 ) => Any ``` > after ```julia julia> code_typed((Float64,)) do x sin(x) end 1-element Vector{Any}: CodeInfo( 1 ─ %1 = invoke Main.sin(x::Float64)::Float64 └── return %1 ) => Float64 julia> code_typed((Bool,Any,Any)) do c, x, y z = c ? x : y z end 1-element Vector{Any}: CodeInfo( 1 ─ goto #3 if not c 2 ─ goto #4 3 ─ nothing::Nothing 4 ┄ %4 = φ (#2 => x, #3 => y)::Any └── return %4 ) => Any ```
LilithHafner
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…43226) In order to allow `Argument`s to be printed nicely. > before ```julia julia> code_typed((Float64,)) do x sin(x) end 1-element Vector{Any}: CodeInfo( 1 ─ %1 = invoke Main.sin(_2::Float64)::Float64 └── return %1 ) => Float64 julia> code_typed((Bool,Any,Any)) do c, x, y z = c ? x : y z end 1-element Vector{Any}: CodeInfo( 1 ─ goto #3 if not c 2 ─ goto #4 3 ─ nothing::Nothing 4 ┄ %4 = φ (#2 => _3, #3 => _4)::Any └── return %4 ) => Any ``` > after ```julia julia> code_typed((Float64,)) do x sin(x) end 1-element Vector{Any}: CodeInfo( 1 ─ %1 = invoke Main.sin(x::Float64)::Float64 └── return %1 ) => Float64 julia> code_typed((Bool,Any,Any)) do c, x, y z = c ? x : y z end 1-element Vector{Any}: CodeInfo( 1 ─ goto #3 if not c 2 ─ goto #4 3 ─ nothing::Nothing 4 ┄ %4 = φ (#2 => x, #3 => y)::Any └── return %4 ) => Any ```
LilithHafner
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…43226) In order to allow `Argument`s to be printed nicely. > before ```julia julia> code_typed((Float64,)) do x sin(x) end 1-element Vector{Any}: CodeInfo( 1 ─ %1 = invoke Main.sin(_2::Float64)::Float64 └── return %1 ) => Float64 julia> code_typed((Bool,Any,Any)) do c, x, y z = c ? x : y z end 1-element Vector{Any}: CodeInfo( 1 ─ goto #3 if not c 2 ─ goto #4 3 ─ nothing::Nothing 4 ┄ %4 = φ (#2 => _3, #3 => _4)::Any └── return %4 ) => Any ``` > after ```julia julia> code_typed((Float64,)) do x sin(x) end 1-element Vector{Any}: CodeInfo( 1 ─ %1 = invoke Main.sin(x::Float64)::Float64 └── return %1 ) => Float64 julia> code_typed((Bool,Any,Any)) do c, x, y z = c ? x : y z end 1-element Vector{Any}: CodeInfo( 1 ─ goto #3 if not c 2 ─ goto #4 3 ─ nothing::Nothing 4 ┄ %4 = φ (#2 => x, #3 => y)::Any └── return %4 ) => Any ```
LilithHafner
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Mar 31, 2022
Currently the optimizer handles abstract callsite only when there is a single dispatch candidate (in most cases), and so inlining and static-dispatch are prohibited when the callsite is union-split (in other word, union-split happens only when all the dispatch candidates are concrete). However, there are certain patterns of code (most notably our Julia-level compiler code) that inherently need to deal with abstract callsite. The following example is taken from `Core.Compiler` utility: ```julia julia> @inline isType(@nospecialize t) = isa(t, DataType) && t.name === Type.body.name isType (generic function with 1 method) julia> code_typed((Any,)) do x # abstract, but no union-split, successful inlining isType(x) end |> only CodeInfo( 1 ─ %1 = (x isa Main.DataType)::Bool └── goto #3 if not %1 2 ─ %3 = π (x, DataType) │ %4 = Base.getfield(%3, :name)::Core.TypeName │ %5 = Base.getfield(Type{T}, :name)::Core.TypeName │ %6 = (%4 === %5)::Bool └── goto #4 3 ─ goto #4 4 ┄ %9 = φ (#2 => %6, #3 => false)::Bool └── return %9 ) => Bool julia> code_typed((Union{Type,Nothing},)) do x # abstract, union-split, unsuccessful inlining isType(x) end |> only CodeInfo( 1 ─ %1 = (isa)(x, Nothing)::Bool └── goto #3 if not %1 2 ─ goto #4 3 ─ %4 = Main.isType(x)::Bool └── goto #4 4 ┄ %6 = φ (#2 => false, #3 => %4)::Bool └── return %6 ) => Bool ``` (note that this is a limitation of the inlining algorithm, and so any user-provided hints like callsite inlining annotation doesn't help here) This commit enables inlining and static dispatch for abstract union-split callsite. The core idea here is that we can simulate our dispatch semantics by generating `isa` checks in order of the specialities of dispatch candidates: ```julia julia> code_typed((Union{Type,Nothing},)) do x # union-split, unsuccessful inlining isType(x) end |> only CodeInfo( 1 ─ %1 = (isa)(x, Nothing)::Bool └── goto #3 if not %1 2 ─ goto #9 3 ─ %4 = (isa)(x, Type)::Bool └── goto #8 if not %4 4 ─ %6 = π (x, Type) │ %7 = (%6 isa Main.DataType)::Bool └── goto #6 if not %7 5 ─ %9 = π (%6, DataType) │ %10 = Base.getfield(%9, :name)::Core.TypeName │ %11 = Base.getfield(Type{T}, :name)::Core.TypeName │ %12 = (%10 === %11)::Bool └── goto #7 6 ─ goto #7 7 ┄ %15 = φ (#5 => %12, #6 => false)::Bool └── goto #9 8 ─ Core.throw(ErrorException("fatal error in type inference (type bound)"))::Union{} └── unreachable 9 ┄ %19 = φ (#2 => false, #7 => %15)::Bool └── return %19 ) => Bool ``` Inlining/static-dispatch of abstract union-split callsite will improve the performance in such situations (and so this commit will improve the latency of our JIT compilation). Especially, this commit helps us avoid excessive specializations of `Core.Compiler` code by statically-resolving `@nospecialize`d callsites, and as the result, the # of precompiled statements is now reduced from `2005` ([`master`](f782430)) to `1912` (this commit). And also, as a side effect, the implementation of our inlining algorithm gets much simplified now since we no longer need the previous special handlings for abstract callsites. One possible drawback would be increased code size. This change seems to certainly increase the size of sysimage, but I think these numbers are in an acceptable range: > [`master`](f782430) ``` ❯ du -shk usr/lib/julia/* 17604 usr/lib/julia/corecompiler.ji 194072 usr/lib/julia/sys-o.a 169424 usr/lib/julia/sys.dylib 23784 usr/lib/julia/sys.dylib.dSYM 103772 usr/lib/julia/sys.ji ``` > this commit ``` ❯ du -shk usr/lib/julia/* 17512 usr/lib/julia/corecompiler.ji 195588 usr/lib/julia/sys-o.a 170908 usr/lib/julia/sys.dylib 23776 usr/lib/julia/sys.dylib.dSYM 105360 usr/lib/julia/sys.ji ```
LilithHafner
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Jun 30, 2022
…Lang#45790) Currently the `@nospecialize`-d `push!(::Vector{Any}, ...)` can only take a single item and we will end up with runtime dispatch when we try to call it with multiple items: ```julia julia> code_typed(push!, (Vector{Any}, Any)) 1-element Vector{Any}: CodeInfo( 1 ─ $(Expr(:foreigncall, :(:jl_array_grow_end), Nothing, svec(Any, UInt64), 0, :(:ccall), Core.Argument(2), 0x0000000000000001, 0x0000000000000001))::Nothing │ %2 = Base.arraylen(a)::Int64 │ Base.arrayset(true, a, item, %2)::Vector{Any} └── return a ) => Vector{Any} julia> code_typed(push!, (Vector{Any}, Any, Any)) 1-element Vector{Any}: CodeInfo( 1 ─ %1 = Base.append!(a, iter)::Vector{Any} └── return %1 ) => Vector{Any} ``` This commit adds a new specialization that it can take arbitrary-length items. Our compiler should still be able to optimize the single-input case as before via the dispatch mechanism. ```julia julia> code_typed(push!, (Vector{Any}, Any)) 1-element Vector{Any}: CodeInfo( 1 ─ $(Expr(:foreigncall, :(:jl_array_grow_end), Nothing, svec(Any, UInt64), 0, :(:ccall), Core.Argument(2), 0x0000000000000001, 0x0000000000000001))::Nothing │ %2 = Base.arraylen(a)::Int64 │ Base.arrayset(true, a, item, %2)::Vector{Any} └── return a ) => Vector{Any} julia> code_typed(push!, (Vector{Any}, Any, Any)) 1-element Vector{Any}: CodeInfo( 1 ─ %1 = Base.arraylen(a)::Int64 │ $(Expr(:foreigncall, :(:jl_array_grow_end), Nothing, svec(Any, UInt64), 0, :(:ccall), Core.Argument(2), 0x0000000000000002, 0x0000000000000002))::Nothing └── goto #7 if not true 2 ┄ %4 = φ (#1 => 1, #6 => %14)::Int64 │ %5 = φ (#1 => 1, #6 => %15)::Int64 │ %6 = Base.getfield(x, %4, true)::Any │ %7 = Base.add_int(%1, %4)::Int64 │ Base.arrayset(true, a, %6, %7)::Vector{Any} │ %9 = (%5 === 2)::Bool └── goto #4 if not %9 3 ─ goto #5 4 ─ %12 = Base.add_int(%5, 1)::Int64 └── goto #5 5 ┄ %14 = φ (#4 => %12)::Int64 │ %15 = φ (#4 => %12)::Int64 │ %16 = φ (#3 => true, #4 => false)::Bool │ %17 = Base.not_int(%16)::Bool └── goto #7 if not %17 6 ─ goto #2 7 ┄ return a ) => Vector{Any} ``` This commit also adds the equivalent implementations for `pushfirst!`.
LilithHafner
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When calling `jl_error()` or `jl_errorf()`, we must check to see if we
are so early in the bringup process that it is dangerous to attempt to
construct a backtrace because the data structures used to provide line
information are not properly setup.
This can be easily triggered by running:
```
julia -C invalid
```
On an `i686-linux-gnu` build, this will hit the "Invalid CPU Name"
branch in `jitlayers.cpp`, which calls `jl_errorf()`. This in turn
calls `jl_throw()`, which will eventually call `jl_DI_for_fptr` as part
of the backtrace printing process, which fails as the object maps are
not fully initialized. See the below `gdb` stacktrace for details:
```
$ gdb -batch -ex 'r' -ex 'bt' --args ./julia -C invalid
...
fatal: error thrown and no exception handler available.
ErrorException("Invalid CPU name "invalid".")
Thread 1 "julia" received signal SIGSEGV, Segmentation fault.
0xf75bd665 in std::_Rb_tree<unsigned int, std::pair<unsigned int const, JITDebugInfoRegistry::ObjectInfo>, std::_Select1st<std::pair<unsigned int const, JITDebugInfoRegistry::ObjectInfo> >, std::greater<unsigned int>, std::allocator<std::pair<unsigned int const, JITDebugInfoRegistry::ObjectInfo> > >::lower_bound (__k=<optimized out>, this=0x248) at /usr/local/i686-linux-gnu/include/c++/9.1.0/bits/stl_tree.h:1277
1277 /usr/local/i686-linux-gnu/include/c++/9.1.0/bits/stl_tree.h: No such file or directory.
#0 0xf75bd665 in std::_Rb_tree<unsigned int, std::pair<unsigned int const, JITDebugInfoRegistry::ObjectInfo>, std::_Select1st<std::pair<unsigned int const, JITDebugInfoRegistry::ObjectInfo> >, std::greater<unsigned int>, std::allocator<std::pair<unsigned int const, JITDebugInfoRegistry::ObjectInfo> > >::lower_bound (__k=<optimized out>, this=0x248) at /usr/local/i686-linux-gnu/include/c++/9.1.0/bits/stl_tree.h:1277
#1 std::map<unsigned int, JITDebugInfoRegistry::ObjectInfo, std::greater<unsigned int>, std::allocator<std::pair<unsigned int const, JITDebugInfoRegistry::ObjectInfo> > >::lower_bound (__x=<optimized out>, this=0x248) at /usr/local/i686-linux-gnu/include/c++/9.1.0/bits/stl_map.h:1258
#2 jl_DI_for_fptr (fptr=4155049385, symsize=symsize@entry=0xffffcfa8, slide=slide@entry=0xffffcfa0, Section=Section@entry=0xffffcfb8, context=context@entry=0xffffcf94) at /cache/build/default-amdci5-4/julialang/julia-master/src/debuginfo.cpp:1181
#3 0xf75c056a in jl_getFunctionInfo_impl (frames_out=0xffffd03c, pointer=4155049385, skipC=0, noInline=0) at /cache/build/default-amdci5-4/julialang/julia-master/src/debuginfo.cpp:1210
#4 0xf7a6ca98 in jl_print_native_codeloc (ip=4155049385) at /cache/build/default-amdci5-4/julialang/julia-master/src/stackwalk.c:636
#5 0xf7a6cd54 in jl_print_bt_entry_codeloc (bt_entry=0xf0798018) at /cache/build/default-amdci5-4/julialang/julia-master/src/stackwalk.c:657
#6 jlbacktrace () at /cache/build/default-amdci5-4/julialang/julia-master/src/stackwalk.c:1090
#7 0xf7a3cd2b in ijl_no_exc_handler (e=0xf0794010) at /cache/build/default-amdci5-4/julialang/julia-master/src/task.c:605
#8 0xf7a3d10a in throw_internal (ct=ct@entry=0xf070c010, exception=<optimized out>, exception@entry=0xf0794010) at /cache/build/default-amdci5-4/julialang/julia-master/src/task.c:638
#9 0xf7a3d330 in ijl_throw (e=0xf0794010) at /cache/build/default-amdci5-4/julialang/julia-master/src/task.c:654
#10 0xf7a905aa in ijl_errorf (fmt=fmt@entry=0xf7647cd4 "Invalid CPU name \"%s\".") at /cache/build/default-amdci5-4/julialang/julia-master/src/rtutils.c:77
#11 0xf75a4b22 in (anonymous namespace)::createTargetMachine () at /cache/build/default-amdci5-4/julialang/julia-master/src/jitlayers.cpp:823
#12 JuliaOJIT::JuliaOJIT (this=<optimized out>) at /cache/build/default-amdci5-4/julialang/julia-master/src/jitlayers.cpp:1044
#13 0xf7531793 in jl_init_llvm () at /cache/build/default-amdci5-4/julialang/julia-master/src/codegen.cpp:8585
#14 0xf75318a8 in jl_init_codegen_impl () at /cache/build/default-amdci5-4/julialang/julia-master/src/codegen.cpp:8648
#15 0xf7a51a52 in jl_restore_system_image_from_stream (f=<optimized out>) at /cache/build/default-amdci5-4/julialang/julia-master/src/staticdata.c:2131
#16 0xf7a55c03 in ijl_restore_system_image_data (buf=0xe859c1c0 <jl_system_image_data> "8'\031\003", len=125161105) at /cache/build/default-amdci5-4/julialang/julia-master/src/staticdata.c:2184
#17 0xf7a55cf9 in jl_load_sysimg_so () at /cache/build/default-amdci5-4/julialang/julia-master/src/staticdata.c:424
#18 ijl_restore_system_image (fname=0x80a0900 "/build/bk_download/julia-d78fdad601/lib/julia/sys.so") at /cache/build/default-amdci5-4/julialang/julia-master/src/staticdata.c:2157
#19 0xf7a3bdfc in _finish_julia_init (rel=rel@entry=JL_IMAGE_JULIA_HOME, ct=<optimized out>, ptls=<optimized out>) at /cache/build/default-amdci5-4/julialang/julia-master/src/init.c:741
JuliaLang#20 0xf7a3c8ac in julia_init (rel=<optimized out>) at /cache/build/default-amdci5-4/julialang/julia-master/src/init.c:728
JuliaLang#21 0xf7a7f61d in jl_repl_entrypoint (argc=<optimized out>, argv=0xffffddf4) at /cache/build/default-amdci5-4/julialang/julia-master/src/jlapi.c:705
JuliaLang#22 0x080490a7 in main (argc=3, argv=0xffffddf4) at /cache/build/default-amdci5-4/julialang/julia-master/cli/loader_exe.c:59
```
To prevent this, we simply avoid calling `jl_errorf` this early in the
process, punting the problem to a later PR that can update guard
conditions within `jl_error*`.
LilithHafner
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Aug 12, 2023
This commit improves SROA pass by extending the `unswitchtupleunion`
optimization to handle the general parametric types, e.g.:
```julia
julia> struct A{T}
x::T
end;
julia> function foo(a1, a2, c)
t = c ? A(a1) : A(a2)
return getfield(t, :x)
end;
julia> only(Base.code_ircode(foo, (Int,Float64,Bool); optimize_until="SROA"))
```
> Before
```
2 1 ─ goto #3 if not _4 │
2 ─ %2 = %new(A{Int64}, _2)::A{Int64} │╻ A
└── goto #4 │
3 ─ %4 = %new(A{Float64}, _3)::A{Float64} │╻ A
4 ┄ %5 = φ (#2 => %2, #3 => %4)::Union{A{Float64}, A{Int64}} │
3 │ %6 = Main.getfield(%5, :x)::Union{Float64, Int64} │
└── return %6 │
=> Union{Float64, Int64}
```
> After
```
julia> only(Base.code_ircode(foo, (Int,Float64,Bool); optimize_until="SROA"))
2 1 ─ goto #3 if not _4 │
2 ─ nothing::A{Int64} │╻ A
└── goto #4 │
3 ─ nothing::A{Float64} │╻ A
4 ┄ %8 = φ (#2 => _2, #3 => _3)::Union{Float64, Int64} │
│ nothing::Union{A{Float64}, A{Int64}}
3 │ %6 = %8::Union{Float64, Int64} │
└── return %6 │
=> Union{Float64, Int64}
```
LilithHafner
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Dec 7, 2023
…#51489) This exposes the GC "stop the world" API to the user, for causing a thread to quickly stop executing Julia code. This adds two APIs (that will need to be exported and documented later): ``` julia> @CCall jl_safepoint_suspend_thread(#=tid=#1::Cint, #=magicnumber=#2::Cint)::Cint # roughly tkill(1, SIGSTOP) julia> @CCall jl_safepoint_resume_thread(#=tid=#1::Cint)::Cint # roughly tkill(1, SIGCONT) ``` You can even suspend yourself, if there is another task to resume you 10 seconds later: ``` julia> ccall(:jl_enter_threaded_region, Cvoid, ()) julia> t = @task let; Libc.systemsleep(10); print("\nhello from $(Threads.threadid())\n"); @CCall jl_safepoint_resume_thread(0::Cint)::Cint; end; ccall(:jl_set_task_tid, Cint, (Any, Cint), t, 1); schedule(t); julia> @time @CCall jl_safepoint_suspend_thread(0::Cint, 2::Cint)::Cint hello from 2 10 seconds (6 allocations: 264 bytes) 1 ``` The meaning of the magic number is actually the kind of stop that you want: ``` // n.b. suspended threads may still run in the GC or GC safe regions // but shouldn't be observable, depending on which enum the user picks (only 1 and 2 are typically recommended here) // waitstate = 0 : do not wait for suspend to finish // waitstate = 1 : wait for gc_state != 0 (JL_GC_STATE_WAITING or JL_GC_STATE_SAFE) // waitstate = 2 : wait for gc_state != 0 (JL_GC_STATE_WAITING or JL_GC_STATE_SAFE) and that GC is not running on that thread // waitstate = 3 : wait for full suspend (gc_state == JL_GC_STATE_WAITING) -- this may never happen if thread is sleeping currently // if another thread comes along and calls jl_safepoint_resume, we also return early // return new suspend count on success, 0 on failure ``` Only magic number 2 is currently meaningful to the user though. The difference between waitstate 1 and 2 is only relevant in C code which is calling this from JL_GC_STATE_SAFE, since otherwise it is a priori known that GC isn't running, else we too would be running the GC. But the distinction of those states might be useful if we have a concurrent collector. Very important warning: if the stopped thread is holding any locks (e.g. for codegen or types) that you then attempt to acquire, your thread will deadlock. This is very likely, unless you are very careful. A future update to this API may try to change the waitstate to give the option to wait for the thread to release internal or known locks.
LilithHafner
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Dec 21, 2023
Adds a convenient way to enable PGO+LTO on Julia and LLVM together:
1. `cd contrib/pgo-lto`
2. `make -j$(nproc) stage1`
3. `make clean-profiles`
4. `./stage1.build/julia -O3 -e 'using Pkg; Pkg.add("LoopVectorization"); Pkg.test("LoopVectorization")'`
5. `make -j$(nproc) stage2`
This results quite often in spectacular speedups for time to first X as
it reduces the time spent in LLVM optimization passes by 25 or even 30%.
Example 1:
```julia
using LoopVectorization
function f!(a, b)
@turbo for i in eachindex(a)
a[i] *= b[i]
end
return a
end
f!(rand(1), rand(1))
```
```console
$ time ./julia -O3 lv.jl
```
Without PGO+LTO: 14.801s
With PGO+LTO: 11.978s (-19%)
Example 2:
```console
$ time ./julia -e 'using Pkg; Pkg.test("Unitful");'
```
Without PGO+LTO: 1m47.688s
With PGO+LTO: 1m35.704s (-11%)
Example 3 (taken from issue JuliaLang#45395, which is almost only LLVM):
```console
$ JULIA_LLVM_ARGS=-time-passes ./julia script-45395.jl
```
Without PGO+LTO:
```
===-------------------------------------------------------------------------===
... Pass execution timing report ...
===-------------------------------------------------------------------------===
Total Execution Time: 101.0130 seconds (98.6253 wall clock)
---User Time--- --System Time-- --User+System-- ---Wall Time--- --- Name ---
53.6961 ( 54.7%) 0.1050 ( 3.8%) 53.8012 ( 53.3%) 53.8045 ( 54.6%) Unroll loops
25.5423 ( 26.0%) 0.0072 ( 0.3%) 25.5495 ( 25.3%) 25.5444 ( 25.9%) Global Value Numbering
7.1995 ( 7.3%) 0.0526 ( 1.9%) 7.2521 ( 7.2%) 7.2517 ( 7.4%) Induction Variable Simplification
5.0541 ( 5.1%) 0.0098 ( 0.3%) 5.0639 ( 5.0%) 5.0561 ( 5.1%)
Combine redundant instructions #2
```
Wit PGO+LTO:
```
===-------------------------------------------------------------------------===
... Pass execution timing report ...
===-------------------------------------------------------------------------===
Total Execution Time: 72.6507 seconds (70.1337 wall clock)
---User Time--- --System Time-- --User+System-- ---Wall Time--- --- Name ---
36.0894 ( 51.7%) 0.0825 ( 2.9%) 36.1719 ( 49.8%) 36.1738 ( 51.6%) Unroll loops
16.5713 ( 23.7%) 0.0129 ( 0.5%) 16.5843 ( 22.8%) 16.5794 ( 23.6%) Global Value Numbering
5.9047 ( 8.5%) 0.0395 ( 1.4%) 5.9442 ( 8.2%) 5.9438 ( 8.5%) Induction Variable Simplification
4.7566 ( 6.8%) 0.0078 ( 0.3%) 4.7645 ( 6.6%) 4.7575 ( 6.8%) Combine redundant instructions #2
```
Or -28% time spent in LLVM.
---
Finally there's a significant reduction in binary sizes. For libLLVM.so:
```
79M usr/lib/libLLVM-13jl.so (before)
67M usr/lib/libLLVM-13jl.so (after)
```
And it can be reduced by another 2MB with `--icf=safe` when using LLD as
a linker anways.
Turn into makefile
Newline
Use two out of source builds
Ignore profiles + build dirs
Add --icf=safe
stage0 setup prebuilt clang with [cd]tors->init/fini patch
LilithHafner
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Apr 18, 2024
`@something` eagerly unwraps any `Some` given to it, while keeping the
variable between its arguments the same. This can be an issue if a
previously unpacked value is used as input to `@something`, leading to a
type instability on more than two arguments (e.g. because of a fallback
to `Some(nothing)`). By using different variables for each argument,
type inference has an easier time handling these cases that are isolated
to single branches anyway.
This also adds some comments to the macro, since it's non-obvious what
it does.
Benchmarking the specific case I encountered this in led to a ~2x
performance improvement on multiple machines.
1.10-beta3/master:
```
[sukera@tower 01]$ jl1100 -q --project=. -L 01.jl -e 'bench()'
v"1.10.0-beta3"
BenchmarkTools.Trial: 10000 samples with 1 evaluation.
Range (min … max): 38.670 μs … 70.350 μs ┊ GC (min … max): 0.00% … 0.00%
Time (median): 43.340 μs ┊ GC (median): 0.00%
Time (mean ± σ): 43.395 μs ± 1.518 μs ┊ GC (mean ± σ): 0.00% ± 0.00%
▆█▂ ▁▁
▂▂▂▂▂▂▂▂▂▁▂▂▂▃▃▃▂▂▃▃▃▂▂▂▂▂▄▇███▆██▄▂▂▂▂▂▂▂▂▂▂▂▂▂▂▂▂▂▂▂▂▂▂▂▂ ▃
38.7 μs Histogram: frequency by time 48 μs <
Memory estimate: 0 bytes, allocs estimate: 0.
```
This PR:
```
[sukera@tower 01]$ julia -q --project=. -L 01.jl -e 'bench()'
v"1.11.0-DEV.970"
BenchmarkTools.Trial: 10000 samples with 1 evaluation.
Range (min … max): 22.820 μs … 44.980 μs ┊ GC (min … max): 0.00% … 0.00%
Time (median): 24.300 μs ┊ GC (median): 0.00%
Time (mean ± σ): 24.370 μs ± 832.239 ns ┊ GC (mean ± σ): 0.00% ± 0.00%
▂▅▇██▇▆▅▁
▂▂▂▂▂▂▂▂▃▃▄▅▇███████████▅▄▃▃▂▂▂▂▂▂▂▂▂▂▁▂▂▂▂▂▂▂▂▂▂▂▂▂▂▂▂▂▁▁▂▂ ▃
22.8 μs Histogram: frequency by time 27.7 μs <
Memory estimate: 0 bytes, allocs estimate: 0.
```
<details>
<summary>Benchmarking code (spoilers for Advent Of Code 2023 Day 01,
Part 01). Running this requires the input of that Advent Of Code
day.</summary>
```julia
using BenchmarkTools
using InteractiveUtils
isdigit(d::UInt8) = UInt8('0') <= d <= UInt8('9')
someDigit(c::UInt8) = isdigit(c) ? Some(c - UInt8('0')) : nothing
function part1(data)
total = 0
may_a = nothing
may_b = nothing
for c in data
digitRes = someDigit(c)
may_a = @something may_a digitRes Some(nothing)
may_b = @something digitRes may_b Some(nothing)
if c == UInt8('\n')
digit_a = may_a::UInt8
digit_b = may_b::UInt8
total += digit_a*0xa + digit_b
may_a = nothing
may_b = nothing
end
end
return total
end
function bench()
data = read("input.txt")
display(VERSION)
println()
display(@benchmark part1($data))
nothing
end
```
</details>
<details>
<summary>`@code_warntype` before</summary>
```julia
julia> @code_warntype part1(data)
MethodInstance for part1(::Vector{UInt8})
from part1(data) @ Main ~/Documents/projects/AOC/2023/01/01.jl:7
Arguments
#self#::Core.Const(part1)
data::Vector{UInt8}
Locals
@_3::Union{Nothing, Tuple{UInt8, Int64}}
may_b::Union{Nothing, UInt8}
may_a::Union{Nothing, UInt8}
total::Int64
c::UInt8
digit_b::UInt8
digit_a::UInt8
val@_10::Any
val@_11::Any
digitRes::Union{Nothing, Some{UInt8}}
@_13::Union{Some{Nothing}, Some{UInt8}, UInt8}
@_14::Union{Some{Nothing}, Some{UInt8}}
@_15::Some{Nothing}
@_16::Union{Some{Nothing}, Some{UInt8}, UInt8}
@_17::Union{Some{Nothing}, UInt8}
@_18::Some{Nothing}
Body::Int64
1 ── (total = 0)
│ (may_a = Main.nothing)
│ (may_b = Main.nothing)
│ %4 = data::Vector{UInt8}
│ (@_3 = Base.iterate(%4))
│ %6 = (@_3 === nothing)::Bool
│ %7 = Base.not_int(%6)::Bool
└─── goto JuliaLang#24 if not %7
2 ┄─ Core.NewvarNode(:(digit_b))
│ Core.NewvarNode(:(digit_a))
│ Core.NewvarNode(:(val@_10))
│ %12 = @_3::Tuple{UInt8, Int64}
│ (c = Core.getfield(%12, 1))
│ %14 = Core.getfield(%12, 2)::Int64
│ (digitRes = Main.someDigit(c))
│ (val@_11 = may_a)
│ %17 = (val@_11::Union{Nothing, UInt8} !== Base.nothing)::Bool
└─── goto #4 if not %17
3 ── (@_13 = val@_11::UInt8)
└─── goto #11
4 ── (val@_11 = digitRes)
│ %22 = (val@_11::Union{Nothing, Some{UInt8}} !== Base.nothing)::Bool
└─── goto #6 if not %22
5 ── (@_14 = val@_11::Some{UInt8})
└─── goto #10
6 ── (val@_11 = Main.Some(Main.nothing))
│ %27 = (val@_11::Core.Const(Some(nothing)) !== Base.nothing)::Core.Const(true)
└─── goto #8 if not %27
7 ── (@_15 = val@_11::Core.Const(Some(nothing)))
└─── goto #9
8 ── Core.Const(:(@_15 = Base.nothing))
9 ┄─ (@_14 = @_15)
10 ┄ (@_13 = @_14)
11 ┄ %34 = @_13::Union{Some{Nothing}, Some{UInt8}, UInt8}
│ (may_a = Base.something(%34))
│ (val@_10 = digitRes)
│ %37 = (val@_10::Union{Nothing, Some{UInt8}} !== Base.nothing)::Bool
└─── goto #13 if not %37
12 ─ (@_16 = val@_10::Some{UInt8})
└─── goto JuliaLang#20
13 ─ (val@_10 = may_b)
│ %42 = (val@_10::Union{Nothing, UInt8} !== Base.nothing)::Bool
└─── goto #15 if not %42
14 ─ (@_17 = val@_10::UInt8)
└─── goto #19
15 ─ (val@_10 = Main.Some(Main.nothing))
│ %47 = (val@_10::Core.Const(Some(nothing)) !== Base.nothing)::Core.Const(true)
└─── goto #17 if not %47
16 ─ (@_18 = val@_10::Core.Const(Some(nothing)))
└─── goto #18
17 ─ Core.Const(:(@_18 = Base.nothing))
18 ┄ (@_17 = @_18)
19 ┄ (@_16 = @_17)
20 ┄ %54 = @_16::Union{Some{Nothing}, Some{UInt8}, UInt8}
│ (may_b = Base.something(%54))
│ %56 = c::UInt8
│ %57 = Main.UInt8('\n')::Core.Const(0x0a)
│ %58 = (%56 == %57)::Bool
└─── goto JuliaLang#22 if not %58
21 ─ (digit_a = Core.typeassert(may_a, Main.UInt8))
│ (digit_b = Core.typeassert(may_b, Main.UInt8))
│ %62 = total::Int64
│ %63 = (digit_a * 0x0a)::UInt8
│ %64 = (%63 + digit_b)::UInt8
│ (total = %62 + %64)
│ (may_a = Main.nothing)
└─── (may_b = Main.nothing)
22 ┄ (@_3 = Base.iterate(%4, %14))
│ %69 = (@_3 === nothing)::Bool
│ %70 = Base.not_int(%69)::Bool
└─── goto JuliaLang#24 if not %70
23 ─ goto #2
24 ┄ return total
```
</details>
<details>
<summary>`@code_native debuginfo=:none` Before </summary>
```julia
julia> @code_native debuginfo=:none part1(data)
.text
.file "part1"
.globl julia_part1_418 # -- Begin function julia_part1_418
.p2align 4, 0x90
.type julia_part1_418,@function
julia_part1_418: # @julia_part1_418
# %bb.0: # %top
push rbp
mov rbp, rsp
push r15
push r14
push r13
push r12
push rbx
sub rsp, 40
mov rax, qword ptr [rdi + 8]
test rax, rax
je .LBB0_1
# %bb.2: # %L17
mov rcx, qword ptr [rdi]
dec rax
mov r10b, 1
xor r14d, r14d
# implicit-def: $r12b
# implicit-def: $r13b
# implicit-def: $r9b
# implicit-def: $sil
mov qword ptr [rbp - 64], rax # 8-byte Spill
mov al, 1
mov dword ptr [rbp - 48], eax # 4-byte Spill
# implicit-def: $al
# kill: killed $al
xor eax, eax
mov qword ptr [rbp - 56], rax # 8-byte Spill
mov qword ptr [rbp - 72], rcx # 8-byte Spill
# implicit-def: $cl
jmp .LBB0_3
.p2align 4, 0x90
.LBB0_8: # in Loop: Header=BB0_3 Depth=1
mov dword ptr [rbp - 48], 0 # 4-byte Folded Spill
.LBB0_24: # %post_union_move
# in Loop: Header=BB0_3 Depth=1
movzx r13d, byte ptr [rbp - 41] # 1-byte Folded Reload
mov r12d, r8d
cmp qword ptr [rbp - 64], r14 # 8-byte Folded Reload
je .LBB0_13
.LBB0_25: # %guard_exit113
# in Loop: Header=BB0_3 Depth=1
inc r14
mov r10d, ebx
.LBB0_3: # %L19
# =>This Inner Loop Header: Depth=1
mov rax, qword ptr [rbp - 72] # 8-byte Reload
xor ebx, ebx
xor edi, edi
movzx r15d, r9b
movzx ecx, cl
movzx esi, sil
mov r11b, 1
# implicit-def: $r9b
movzx edx, byte ptr [rax + r14]
lea eax, [rdx - 58]
lea r8d, [rdx - 48]
cmp al, -10
setae bl
setb dil
test r10b, 1
cmovne r15d, edi
mov edi, 0
cmovne ecx, ebx
mov bl, 1
cmovne esi, edi
test r15b, 1
jne .LBB0_7
# %bb.4: # %L76
# in Loop: Header=BB0_3 Depth=1
mov r11b, 2
test cl, 1
jne .LBB0_5
# %bb.6: # %L78
# in Loop: Header=BB0_3 Depth=1
mov ebx, r10d
mov r9d, r15d
mov byte ptr [rbp - 41], r13b # 1-byte Spill
test sil, 1
je .LBB0_26
.LBB0_7: # %L82
# in Loop: Header=BB0_3 Depth=1
cmp al, -11
jbe .LBB0_9
jmp .LBB0_8
.p2align 4, 0x90
.LBB0_5: # in Loop: Header=BB0_3 Depth=1
mov ecx, r8d
mov sil, 1
xor ebx, ebx
mov byte ptr [rbp - 41], r8b # 1-byte Spill
xor r9d, r9d
xor ecx, ecx
cmp al, -11
ja .LBB0_8
.LBB0_9: # %L90
# in Loop: Header=BB0_3 Depth=1
test byte ptr [rbp - 48], 1 # 1-byte Folded Reload
jne .LBB0_23
# %bb.10: # %L115
# in Loop: Header=BB0_3 Depth=1
cmp dl, 10
jne .LBB0_11
# %bb.14: # %L122
# in Loop: Header=BB0_3 Depth=1
test r15b, 1
jne .LBB0_15
# %bb.12: # %L130.thread
# in Loop: Header=BB0_3 Depth=1
movzx eax, byte ptr [rbp - 41] # 1-byte Folded Reload
mov bl, 1
add eax, eax
lea eax, [rax + 4*rax]
add al, r12b
movzx eax, al
add qword ptr [rbp - 56], rax # 8-byte Folded Spill
mov al, 1
mov dword ptr [rbp - 48], eax # 4-byte Spill
cmp qword ptr [rbp - 64], r14 # 8-byte Folded Reload
jne .LBB0_25
jmp .LBB0_13
.p2align 4, 0x90
.LBB0_23: # %L115.thread
# in Loop: Header=BB0_3 Depth=1
mov al, 1
# implicit-def: $r8b
mov dword ptr [rbp - 48], eax # 4-byte Spill
cmp dl, 10
jne .LBB0_24
jmp .LBB0_21
.LBB0_11: # in Loop: Header=BB0_3 Depth=1
mov r8d, r12d
jmp .LBB0_24
.LBB0_1:
xor eax, eax
mov qword ptr [rbp - 56], rax # 8-byte Spill
.LBB0_13: # %L159
mov rax, qword ptr [rbp - 56] # 8-byte Reload
add rsp, 40
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
ret
.LBB0_21: # %L122.thread
test r15b, 1
jne .LBB0_15
# %bb.22: # %post_box_union58
movabs rdi, offset .L_j_str1
movabs rax, offset ijl_type_error
movabs rsi, 140008511215408
movabs rdx, 140008667209736
call rax
.LBB0_15: # %fail
cmp r11b, 1
je .LBB0_19
# %bb.16: # %fail
movzx eax, r11b
cmp eax, 2
jne .LBB0_17
# %bb.20: # %box_union54
movzx eax, byte ptr [rbp - 41] # 1-byte Folded Reload
movabs rcx, offset jl_boxed_uint8_cache
mov rdx, qword ptr [rcx + 8*rax]
jmp .LBB0_18
.LBB0_26: # %L80
movabs rax, offset ijl_throw
movabs rdi, 140008495049392
call rax
.LBB0_19: # %box_union
movabs rdx, 140008667209736
jmp .LBB0_18
.LBB0_17:
xor edx, edx
.LBB0_18: # %post_box_union
movabs rdi, offset .L_j_str1
movabs rax, offset ijl_type_error
movabs rsi, 140008511215408
call rax
.Lfunc_end0:
.size julia_part1_418, .Lfunc_end0-julia_part1_418
# -- End function
.type .L_j_str1,@object # @_j_str1
.section .rodata.str1.1,"aMS",@progbits,1
.L_j_str1:
.asciz "typeassert"
.size .L_j_str1, 11
.section ".note.GNU-stack","",@progbits
```
</details>
<details>
<summary>`@code_warntype` After</summary>
```julia
[sukera@tower 01]$ julia -q --project=. -L 01.jl
julia> data = read("input.txt");
julia> @code_warntype part1(data)
MethodInstance for part1(::Vector{UInt8})
from part1(data) @ Main ~/Documents/projects/AOC/2023/01/01.jl:7
Arguments
#self#::Core.Const(part1)
data::Vector{UInt8}
Locals
@_3::Union{Nothing, Tuple{UInt8, Int64}}
may_b::Union{Nothing, UInt8}
may_a::Union{Nothing, UInt8}
total::Int64
val@_7::Union{}
val@_8::Union{}
c::UInt8
digit_b::UInt8
digit_a::UInt8
#JuliaLang#215::Some{Nothing}
#JuliaLang#216::Union{Nothing, UInt8}
#JuliaLang#217::Union{Nothing, Some{UInt8}}
#JuliaLang#212::Some{Nothing}
#JuliaLang#213::Union{Nothing, Some{UInt8}}
#JuliaLang#214::Union{Nothing, UInt8}
digitRes::Union{Nothing, Some{UInt8}}
@_19::Union{Nothing, UInt8}
@_20::Union{Nothing, UInt8}
@_21::Nothing
@_22::Union{Nothing, UInt8}
@_23::Union{Nothing, UInt8}
@_24::Nothing
Body::Int64
1 ── (total = 0)
│ (may_a = Main.nothing)
│ (may_b = Main.nothing)
│ %4 = data::Vector{UInt8}
│ (@_3 = Base.iterate(%4))
│ %6 = @_3::Union{Nothing, Tuple{UInt8, Int64}}
│ %7 = (%6 === nothing)::Bool
│ %8 = Base.not_int(%7)::Bool
└─── goto JuliaLang#24 if not %8
2 ┄─ Core.NewvarNode(:(val@_7))
│ Core.NewvarNode(:(val@_8))
│ Core.NewvarNode(:(digit_b))
│ Core.NewvarNode(:(digit_a))
│ Core.NewvarNode(:(#JuliaLang#215))
│ Core.NewvarNode(:(#JuliaLang#216))
│ Core.NewvarNode(:(#JuliaLang#217))
│ Core.NewvarNode(:(#JuliaLang#212))
│ Core.NewvarNode(:(#JuliaLang#213))
│ %19 = @_3::Tuple{UInt8, Int64}
│ (c = Core.getfield(%19, 1))
│ %21 = Core.getfield(%19, 2)::Int64
│ %22 = c::UInt8
│ (digitRes = Main.someDigit(%22))
│ %24 = may_a::Union{Nothing, UInt8}
│ (#JuliaLang#214 = %24)
│ %26 = Base.:!::Core.Const(!)
│ %27 = #JuliaLang#214::Union{Nothing, UInt8}
│ %28 = Base.isnothing(%27)::Bool
│ %29 = (%26)(%28)::Bool
└─── goto #4 if not %29
3 ── %31 = #JuliaLang#214::UInt8
│ (@_19 = Base.something(%31))
└─── goto #11
4 ── %34 = digitRes::Union{Nothing, Some{UInt8}}
│ (#JuliaLang#213 = %34)
│ %36 = Base.:!::Core.Const(!)
│ %37 = #JuliaLang#213::Union{Nothing, Some{UInt8}}
│ %38 = Base.isnothing(%37)::Bool
│ %39 = (%36)(%38)::Bool
└─── goto #6 if not %39
5 ── %41 = #JuliaLang#213::Some{UInt8}
│ (@_20 = Base.something(%41))
└─── goto #10
6 ── %44 = Main.Some::Core.Const(Some)
│ %45 = Main.nothing::Core.Const(nothing)
│ (#JuliaLang#212 = (%44)(%45))
│ %47 = Base.:!::Core.Const(!)
│ %48 = #JuliaLang#212::Core.Const(Some(nothing))
│ %49 = Base.isnothing(%48)::Core.Const(false)
│ %50 = (%47)(%49)::Core.Const(true)
└─── goto #8 if not %50
7 ── %52 = #JuliaLang#212::Core.Const(Some(nothing))
│ (@_21 = Base.something(%52))
└─── goto #9
8 ── Core.Const(nothing)
│ Core.Const(:(val@_8 = Base.something(Base.nothing)))
│ Core.Const(nothing)
│ Core.Const(:(val@_8))
└─── Core.Const(:(@_21 = %58))
9 ┄─ %60 = @_21::Core.Const(nothing)
└─── (@_20 = %60)
10 ┄ %62 = @_20::Union{Nothing, UInt8}
└─── (@_19 = %62)
11 ┄ %64 = @_19::Union{Nothing, UInt8}
│ (may_a = %64)
│ %66 = digitRes::Union{Nothing, Some{UInt8}}
│ (#JuliaLang#217 = %66)
│ %68 = Base.:!::Core.Const(!)
│ %69 = #JuliaLang#217::Union{Nothing, Some{UInt8}}
│ %70 = Base.isnothing(%69)::Bool
│ %71 = (%68)(%70)::Bool
└─── goto #13 if not %71
12 ─ %73 = #JuliaLang#217::Some{UInt8}
│ (@_22 = Base.something(%73))
└─── goto JuliaLang#20
13 ─ %76 = may_b::Union{Nothing, UInt8}
│ (#JuliaLang#216 = %76)
│ %78 = Base.:!::Core.Const(!)
│ %79 = #JuliaLang#216::Union{Nothing, UInt8}
│ %80 = Base.isnothing(%79)::Bool
│ %81 = (%78)(%80)::Bool
└─── goto #15 if not %81
14 ─ %83 = #JuliaLang#216::UInt8
│ (@_23 = Base.something(%83))
└─── goto #19
15 ─ %86 = Main.Some::Core.Const(Some)
│ %87 = Main.nothing::Core.Const(nothing)
│ (#JuliaLang#215 = (%86)(%87))
│ %89 = Base.:!::Core.Const(!)
│ %90 = #JuliaLang#215::Core.Const(Some(nothing))
│ %91 = Base.isnothing(%90)::Core.Const(false)
│ %92 = (%89)(%91)::Core.Const(true)
└─── goto #17 if not %92
16 ─ %94 = #JuliaLang#215::Core.Const(Some(nothing))
│ (@_24 = Base.something(%94))
└─── goto #18
17 ─ Core.Const(nothing)
│ Core.Const(:(val@_7 = Base.something(Base.nothing)))
│ Core.Const(nothing)
│ Core.Const(:(val@_7))
└─── Core.Const(:(@_24 = %100))
18 ┄ %102 = @_24::Core.Const(nothing)
└─── (@_23 = %102)
19 ┄ %104 = @_23::Union{Nothing, UInt8}
└─── (@_22 = %104)
20 ┄ %106 = @_22::Union{Nothing, UInt8}
│ (may_b = %106)
│ %108 = Main.:(==)::Core.Const(==)
│ %109 = c::UInt8
│ %110 = Main.UInt8('\n')::Core.Const(0x0a)
│ %111 = (%108)(%109, %110)::Bool
└─── goto JuliaLang#22 if not %111
21 ─ %113 = may_a::Union{Nothing, UInt8}
│ (digit_a = Core.typeassert(%113, Main.UInt8))
│ %115 = may_b::Union{Nothing, UInt8}
│ (digit_b = Core.typeassert(%115, Main.UInt8))
│ %117 = Main.:+::Core.Const(+)
│ %118 = total::Int64
│ %119 = Main.:+::Core.Const(+)
│ %120 = Main.:*::Core.Const(*)
│ %121 = digit_a::UInt8
│ %122 = (%120)(%121, 0x0a)::UInt8
│ %123 = digit_b::UInt8
│ %124 = (%119)(%122, %123)::UInt8
│ (total = (%117)(%118, %124))
│ (may_a = Main.nothing)
└─── (may_b = Main.nothing)
22 ┄ (@_3 = Base.iterate(%4, %21))
│ %129 = @_3::Union{Nothing, Tuple{UInt8, Int64}}
│ %130 = (%129 === nothing)::Bool
│ %131 = Base.not_int(%130)::Bool
└─── goto JuliaLang#24 if not %131
23 ─ goto #2
24 ┄ %134 = total::Int64
└─── return %134
```
</details>
<details>
<summary>`@code_native debuginfo=:none` After </summary>
```julia
julia> @code_native debuginfo=:none part1(data)
.text
.file "part1"
.globl julia_part1_1203 # -- Begin function julia_part1_1203
.p2align 4, 0x90
.type julia_part1_1203,@function
julia_part1_1203: # @julia_part1_1203
; Function Signature: part1(Array{UInt8, 1})
# %bb.0: # %top
#DEBUG_VALUE: part1:data <- [DW_OP_deref] $rdi
push rbp
mov rbp, rsp
push r15
push r14
push r13
push r12
push rbx
sub rsp, 40
vxorps xmm0, xmm0, xmm0
#APP
mov rax, qword ptr fs:[0]
#NO_APP
lea rdx, [rbp - 64]
vmovaps xmmword ptr [rbp - 64], xmm0
mov qword ptr [rbp - 48], 0
mov rcx, qword ptr [rax - 8]
mov qword ptr [rbp - 64], 4
mov rax, qword ptr [rcx]
mov qword ptr [rbp - 72], rcx # 8-byte Spill
mov qword ptr [rbp - 56], rax
mov qword ptr [rcx], rdx
#DEBUG_VALUE: part1:data <- [DW_OP_deref] 0
mov r15, qword ptr [rdi + 16]
test r15, r15
je .LBB0_1
# %bb.2: # %L34
mov r14, qword ptr [rdi]
dec r15
mov r11b, 1
mov r13b, 1
# implicit-def: $r12b
# implicit-def: $r10b
xor eax, eax
jmp .LBB0_3
.p2align 4, 0x90
.LBB0_4: # in Loop: Header=BB0_3 Depth=1
xor r11d, r11d
mov ebx, edi
mov r10d, r8d
.LBB0_9: # %L114
# in Loop: Header=BB0_3 Depth=1
mov r12d, esi
test r15, r15
je .LBB0_12
.LBB0_10: # %guard_exit126
# in Loop: Header=BB0_3 Depth=1
inc r14
dec r15
mov r13d, ebx
.LBB0_3: # %L36
# =>This Inner Loop Header: Depth=1
movzx edx, byte ptr [r14]
test r13b, 1
movzx edi, r13b
mov ebx, 1
mov ecx, 0
cmove ebx, edi
cmovne edi, ecx
movzx ecx, r10b
lea esi, [rdx - 48]
lea r9d, [rdx - 58]
movzx r8d, sil
cmove r8d, ecx
cmp r9b, -11
ja .LBB0_4
# %bb.5: # %L89
# in Loop: Header=BB0_3 Depth=1
test r11b, 1
jne .LBB0_8
# %bb.6: # %L102
# in Loop: Header=BB0_3 Depth=1
cmp dl, 10
jne .LBB0_7
# %bb.13: # %L106
# in Loop: Header=BB0_3 Depth=1
test r13b, 1
jne .LBB0_14
# %bb.11: # %L114.thread
# in Loop: Header=BB0_3 Depth=1
add ecx, ecx
mov bl, 1
mov r11b, 1
lea ecx, [rcx + 4*rcx]
add cl, r12b
movzx ecx, cl
add rax, rcx
test r15, r15
jne .LBB0_10
jmp .LBB0_12
.p2align 4, 0x90
.LBB0_8: # %L102.thread
# in Loop: Header=BB0_3 Depth=1
mov r11b, 1
# implicit-def: $sil
cmp dl, 10
jne .LBB0_9
jmp .LBB0_15
.LBB0_7: # in Loop: Header=BB0_3 Depth=1
mov esi, r12d
jmp .LBB0_9
.LBB0_1:
xor eax, eax
.LBB0_12: # %L154
mov rcx, qword ptr [rbp - 56]
mov rdx, qword ptr [rbp - 72] # 8-byte Reload
mov qword ptr [rdx], rcx
add rsp, 40
pop rbx
pop r12
pop r13
pop r14
pop r15
pop rbp
ret
.LBB0_15: # %L106.thread
test r13b, 1
jne .LBB0_14
# %bb.16: # %post_box_union47
movabs rax, offset jl_nothing
movabs rcx, offset jl_small_typeof
movabs rdi, offset ".L_j_str_typeassert#1"
mov rdx, qword ptr [rax]
mov rsi, qword ptr [rcx + 336]
movabs rax, offset ijl_type_error
mov qword ptr [rbp - 48], rsi
call rax
.LBB0_14: # %post_box_union
movabs rax, offset jl_nothing
movabs rcx, offset jl_small_typeof
movabs rdi, offset ".L_j_str_typeassert#1"
mov rdx, qword ptr [rax]
mov rsi, qword ptr [rcx + 336]
movabs rax, offset ijl_type_error
mov qword ptr [rbp - 48], rsi
call rax
.Lfunc_end0:
.size julia_part1_1203, .Lfunc_end0-julia_part1_1203
# -- End function
.type ".L_j_str_typeassert#1",@object # @"_j_str_typeassert#1"
.section .rodata.str1.1,"aMS",@progbits,1
".L_j_str_typeassert#1":
.asciz "typeassert"
.size ".L_j_str_typeassert#1", 11
.section ".note.GNU-stack","",@progbits
```
</details>
Co-authored-by: Sukera <Seelengrab@users.noreply.github.com>
LilithHafner
added a commit
that referenced
this pull request
Apr 18, 2024
Adds a convenient way to enable PGO+LTO on Julia and LLVM together:
1. `cd contrib/pgo-lto`
2. `make -j$(nproc) stage1`
3. `make clean-profiles`
4. `./stage1.build/julia -O3 -e 'using Pkg;
Pkg.add("LoopVectorization"); Pkg.test("LoopVectorization")'`
5. `make -j$(nproc) stage2`
<details>
<summary>* Output looks roughly like as follows</summary>
```c++
$ make -C contrib/pgo-lto top
make: Entering directory '/dev/shm/julia/contrib/pgo-lto'
llvm-profdata show --topn=50 /dev/shm/julia/contrib/pgo-lto/profiles/merged.prof | c++filt
Instrumentation level: IR entry_first = 0
Total functions: 85943
Maximum function count: 7867557260
Maximum internal block count: 3468437590
Top 50 functions with the largest internal block counts:
llvm::BitVector::operator|=(llvm::BitVector const&), max count = 7867557260
LateLowerGCFrame::ComputeLiveness(State&), max count = 3468437590
llvm::hashing::detail::hash_combine_recursive_helper::hash_combine_recursive_helper(), max count = 1742259834
llvm::SUnit::addPred(llvm::SDep const&, bool), max count = 511396575
llvm::LiveRange::overlaps(llvm::LiveRange const&, llvm::CoalescerPair const&, llvm::SlotIndexes const&) const, max count = 508061762
llvm::StringMapImpl::LookupBucketFor(llvm::StringRef), max count = 505682177
std::map<llvm::BasicBlock*, BBState, std::less<llvm::BasicBlock*>, std::allocator<std::pair<llvm::BasicBlock* const, BBState> > >::operator[](llvm::BasicBlock* const&), max count = 395628888
llvm::LiveRange::advanceTo(llvm::LiveRange::Segment const*, llvm::SlotIndex) const, max count = 384642728
llvm::LiveRange::isLiveAtIndexes(llvm::ArrayRef<llvm::SlotIndex>) const, max count = 380291040
llvm::PassRegistry::enumerateWith(llvm::PassRegistrationListener*), max count = 352313953
ijl_method_instance_add_backedge, max count = 349608221
llvm::SUnit::ComputeHeight(), max count = 336604330
llvm::LiveRange::advanceTo(llvm::LiveRange::Segment*, llvm::SlotIndex), max count = 331030109
llvm::SmallPtrSetImplBase::insert_imp(void const*), max count = 272966545
llvm::LiveIntervals::checkRegMaskInterference(llvm::LiveInterval&, llvm::BitVector&), max count = 257449540
LateLowerGCFrame::ComputeLiveSets(State&), max count = 252096274
/dev/shm/julia/src/jltypes.c:has_free_typevars, max count = 230879464
ijl_get_pgcstack, max count = 216953592
LateLowerGCFrame::RefineLiveSet(llvm::BitVector&, State&, std::vector<int, std::allocator<int> > const&), max count = 188013152
/dev/shm/julia/src/flisp/flisp.c:apply_cl, max count = 174863813
/dev/shm/julia/src/flisp/builtins.c:fl_memq, max count = 168621603
```
</details>
This results quite often in spectacular speedups for time to first X as
it reduces the time spent in LLVM optimization passes by 25 or even 30%.
Example 1:
```julia
using LoopVectorization
function f!(a, b)
@turbo for i in eachindex(a)
a[i] *= b[i]
end
return a
end
f!(rand(1), rand(1))
```
```console
$ time ./julia -O3 lv.jl
```
Without PGO+LTO: 14.801s
With PGO+LTO: 11.978s (-19%)
Example 2:
```console
$ time ./julia -e 'using Pkg; Pkg.test("Unitful");'
```
Without PGO+LTO: 1m47.688s
With PGO+LTO: 1m35.704s (-11%)
Example 3 (taken from issue JuliaLang#45395, which is almost only LLVM):
```console
$ JULIA_LLVM_ARGS=-time-passes ./julia script-45395.jl
```
Without PGO+LTO:
```
===-------------------------------------------------------------------------===
... Pass execution timing report ...
===-------------------------------------------------------------------------===
Total Execution Time: 101.0130 seconds (98.6253 wall clock)
---User Time--- --System Time-- --User+System-- ---Wall Time--- --- Name ---
53.6961 ( 54.7%) 0.1050 ( 3.8%) 53.8012 ( 53.3%) 53.8045 ( 54.6%) Unroll loops
25.5423 ( 26.0%) 0.0072 ( 0.3%) 25.5495 ( 25.3%) 25.5444 ( 25.9%) Global Value Numbering
7.1995 ( 7.3%) 0.0526 ( 1.9%) 7.2521 ( 7.2%) 7.2517 ( 7.4%) Induction Variable Simplification
6.0541 ( 5.1%) 0.0098 ( 0.3%) 5.0639 ( 5.0%) 5.0561 ( 5.1%) Combine redundant instructions #2
```
With PGO+LTO:
```
===-------------------------------------------------------------------------===
... Pass execution timing report ...
===-------------------------------------------------------------------------===
Total Execution Time: 72.6507 seconds (70.1337 wall clock)
---User Time--- --System Time-- --User+System-- ---Wall Time--- --- Name ---
36.0894 ( 51.7%) 0.0825 ( 2.9%) 36.1719 ( 49.8%) 36.1738 ( 51.6%) Unroll loops
16.5713 ( 23.7%) 0.0129 ( 0.5%) 16.5843 ( 22.8%) 16.5794 ( 23.6%) Global Value Numbering
5.9047 ( 8.5%) 0.0395 ( 1.4%) 5.9442 ( 8.2%) 5.9438 ( 8.5%) Induction Variable Simplification
4.7566 ( 6.8%) 0.0078 ( 0.3%) 4.7645 ( 6.6%) 4.7575 ( 6.8%) Combine redundant instructions #2
```
Or -28% time spent in LLVM.
`perf` reports show this is mostly fewer instructions and reduction in
icache misses.
---
Finally there's a significant reduction in binary sizes. For libLLVM.so:
```
79M usr/lib/libLLVM-13jl.so (before)
67M usr/lib/libLLVM-13jl.so (after)
```
And it can be reduced by another 2MB with `--icf=safe` when using LLD as
a linker anyways.
- [x] Two out-of-source builds would be better than a single in-source
build, so that it's easier to find good profile data
---------
Co-authored-by: Oscar Smith <oscardssmith@gmail.com>
Co-authored-by: Lilith Orion Hafner <lilithhafner@gmail.com>
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