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optimizer: allow EA-powered finalizer inlining (JuliaLang#55954)
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E.g. this allows `finalizer` inlining in the following case:
```julia
mutable struct ForeignBuffer{T}
    const ptr::Ptr{T}
end
const foreign_buffer_finalized = Ref(false)
function foreign_alloc(::Type{T}, length) where T
    ptr = Libc.malloc(sizeof(T) * length)
    ptr = Base.unsafe_convert(Ptr{T}, ptr)
    obj = ForeignBuffer{T}(ptr)
    return finalizer(obj) do obj
        Base.@assume_effects :notaskstate :nothrow
        foreign_buffer_finalized[] = true
        Libc.free(obj.ptr)
    end
end
function f_EA_finalizer(N::Int)
    workspace = foreign_alloc(Float64, N)
    GC.@preserve workspace begin
        (;ptr) = workspace
        Base.@assume_effects :nothrow @noinline println(devnull, "ptr = ", ptr)
    end
end
```
```julia
julia> @code_typed f_EA_finalizer(42)
CodeInfo(
1 ── %1  = Base.mul_int(8, N)::Int64
│    %2  = Core.lshr_int(%1, 63)::Int64
│    %3  = Core.trunc_int(Core.UInt8, %2)::UInt8
│    %4  = Core.eq_int(%3, 0x01)::Bool
└───       goto mmtk#3 if not %4
2 ──       invoke Core.throw_inexacterror(:convert::Symbol, UInt64::Type, %1::Int64)::Union{}
└───       unreachable
3 ──       goto mmtk#4
4 ── %9  = Core.bitcast(Core.UInt64, %1)::UInt64
└───       goto mmtk#5
5 ──       goto mmtk#6
6 ──       goto mmtk#7
7 ──       goto mmtk#8
8 ── %14 = $(Expr(:foreigncall, :(:malloc), Ptr{Nothing}, svec(UInt64), 0, :(:ccall), :(%9), :(%9)))::Ptr{Nothing}
└───       goto mmtk#9
9 ── %16 = Base.bitcast(Ptr{Float64}, %14)::Ptr{Float64}
│    %17 = %new(ForeignBuffer{Float64}, %16)::ForeignBuffer{Float64}
└───       goto mmtk#10
10 ─ %19 = $(Expr(:gc_preserve_begin, :(%17)))
│    %20 = Base.getfield(%17, :ptr)::Ptr{Float64}
│          invoke Main.println(Main.devnull::Base.DevNull, "ptr = "::String, %20::Ptr{Float64})::Nothing
│          $(Expr(:gc_preserve_end, :(%19)))
│    %23 = Main.foreign_buffer_finalized::Base.RefValue{Bool}
│          Base.setfield!(%23, :x, true)::Bool
│    %25 = Base.getfield(%17, :ptr)::Ptr{Float64}
│    %26 = Base.bitcast(Ptr{Nothing}, %25)::Ptr{Nothing}
│          $(Expr(:foreigncall, :(:free), Nothing, svec(Ptr{Nothing}), 0, :(:ccall), :(%26), :(%25)))::Nothing
└───       return nothing
) => Nothing
```

However, this is still a WIP. Before merging, I want to improve EA's
precision a bit and at least fix the test case that is currently marked
as `broken`. I also need to check its impact on compiler performance.

Additionally, I believe this feature is not yet practical. In
particular, there is still significant room for improvement in the
following areas:
- EA's interprocedural capabilities: currently EA is performed ad-hoc
for limited frames because of latency reasons, which significantly
reduces its precision in the presence of interprocedural calls.
- Relaxing the `:nothrow` check for finalizer inlining: the current
algorithm requires `:nothrow`-ness on all paths from the allocation of
the mutable struct to its last use, which is not practical for
real-world cases. Even when `:nothrow` cannot be guaranteed, auxiliary
optimizations such as inserting a `finalize` call after the last use
might still be possible (JuliaLang#55990).
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aviatesk authored Oct 16, 2024
1 parent f5937b4 commit b19a7c1
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Showing 7 changed files with 225 additions and 101 deletions.
2 changes: 1 addition & 1 deletion base/compiler/optimize.jl
Original file line number Diff line number Diff line change
Expand Up @@ -665,7 +665,7 @@ function refine_effects!(interp::AbstractInterpreter, opt::OptimizationState, sv
if !is_effect_free(sv.result.ipo_effects) && sv.all_effect_free && !isempty(sv.ea_analysis_pending)
ir = sv.ir
nargs = Int(opt.src.nargs)
estate = EscapeAnalysis.analyze_escapes(ir, nargs, optimizer_lattice(interp), GetNativeEscapeCache(interp))
estate = EscapeAnalysis.analyze_escapes(ir, nargs, optimizer_lattice(interp), get_escape_cache(interp))
argescapes = EscapeAnalysis.ArgEscapeCache(estate)
stack_analysis_result!(sv.result, argescapes)
validate_mutable_arg_escapes!(estate, sv)
Expand Down
59 changes: 41 additions & 18 deletions base/compiler/ssair/EscapeAnalysis/EscapeAnalysis.jl
Original file line number Diff line number Diff line change
Expand Up @@ -18,7 +18,7 @@ import ._TOP_MOD: ==, getindex, setindex!
using Core: MethodMatch, SimpleVector, ifelse, sizeof
using Core.IR
using ._TOP_MOD: # Base definitions
@__MODULE__, @assert, @eval, @goto, @inbounds, @inline, @label, @noinline,
@__MODULE__, @assert, @eval, @goto, @inbounds, @inline, @label, @noinline, @show,
@nospecialize, @specialize, BitSet, Callable, Csize_t, IdDict, IdSet, UnitRange, Vector,
copy, delete!, empty!, enumerate, error, first, get, get!, haskey, in, isassigned,
isempty, ismutabletype, keys, last, length, max, min, missing, pop!, push!, pushfirst!,
Expand Down Expand Up @@ -657,11 +657,13 @@ function analyze_escapes(ir::IRCode, nargs::Int, 𝕃ₒ::AbstractLattice, get_e
# `escape_exception!` conservatively propagates `AllEscape` anyway,
# and so escape information imposed on `:the_exception` isn't computed
continue
elseif head === :gc_preserve_begin
# GC preserve is handled by `escape_gc_preserve!`
elseif head === :gc_preserve_end
escape_gc_preserve!(astate, pc, stmt.args)
elseif head === :static_parameter || # this exists statically, not interested in its escape
head === :copyast || # XXX can this account for some escapes?
head === :isdefined || # just returns `Bool`, nothing accounts for any escapes
head === :gc_preserve_begin || # `GC.@preserve` expressions themselves won't be used anywhere
head === :gc_preserve_end # `GC.@preserve` expressions themselves won't be used anywhere
head === :copyast || # XXX escape something?
head === :isdefined # just returns `Bool`, nothing accounts for any escapes
continue
else
add_conservative_changes!(astate, pc, stmt.args)
Expand Down Expand Up @@ -1064,17 +1066,27 @@ end
function escape_invoke!(astate::AnalysisState, pc::Int, args::Vector{Any})
mi = first(args)::MethodInstance
first_idx, last_idx = 2, length(args)
add_liveness_changes!(astate, pc, args, first_idx, last_idx)
# TODO inspect `astate.ir.stmts[pc][:info]` and use const-prop'ed `InferenceResult` if available
cache = astate.get_escape_cache(mi)
ret = SSAValue(pc)
if cache isa Bool
if cache
return nothing # guaranteed to have no escape
# This method call is very simple and has good effects, so there's no need to
# escape its arguments. However, since the arguments might be returned, we need
# to consider the possibility of aliasing between them and the return value.
for argidx = first_idx:last_idx
arg = args[argidx]
if !is_mutation_free_argtype(argextype(arg, astate.ir))
add_alias_change!(astate, ret, arg)
end
end
return nothing
else
return add_conservative_changes!(astate, pc, args, 2)
end
end
cache = cache::ArgEscapeCache
ret = SSAValue(pc)
retinfo = astate.estate[ret] # escape information imposed on the call statement
method = mi.def::Method
nargs = Int(method.nargs)
Expand Down Expand Up @@ -1162,6 +1174,17 @@ function escape_foreigncall!(astate::AnalysisState, pc::Int, args::Vector{Any})
end
end

function escape_gc_preserve!(astate::AnalysisState, pc::Int, args::Vector{Any})
@assert length(args) == 1 "invalid :gc_preserve_end"
val = args[1]
@assert val isa SSAValue "invalid :gc_preserve_end"
beginstmt = astate.ir[val][:stmt]
@assert isexpr(beginstmt, :gc_preserve_begin) "invalid :gc_preserve_end"
beginargs = beginstmt.args
# COMBAK we might need to add liveness for all statements from `:gc_preserve_begin` to `:gc_preserve_end`
add_liveness_changes!(astate, pc, beginargs)
end

normalize(@nospecialize x) = isa(x, QuoteNode) ? x.value : x

function escape_call!(astate::AnalysisState, pc::Int, args::Vector{Any})
Expand All @@ -1187,20 +1210,12 @@ function escape_call!(astate::AnalysisState, pc::Int, args::Vector{Any})
if result === missing
# if this call hasn't been handled by any of pre-defined handlers, escape it conservatively
add_conservative_changes!(astate, pc, args)
return
elseif result === true
add_liveness_changes!(astate, pc, args, 2)
return # ThrownEscape is already checked
elseif is_nothrow(astate.ir, pc)
add_liveness_changes!(astate, pc, args, 2)
else
# we escape statements with the `ThrownEscape` property using the effect-freeness
# computed by `stmt_effect_flags` invoked within inlining
# TODO throwness ≠ "effect-free-ness"
if is_nothrow(astate.ir, pc)
add_liveness_changes!(astate, pc, args, 2)
else
add_fallback_changes!(astate, pc, args, 2)
end
return
add_fallback_changes!(astate, pc, args, 2)
end
end

Expand Down Expand Up @@ -1528,4 +1543,12 @@ function escape_array_copy!(astate::AnalysisState, pc::Int, args::Vector{Any})
add_liveness_changes!(astate, pc, args, 6)
end

function escape_builtin!(::typeof(Core.finalizer), astate::AnalysisState, pc::Int, args::Vector{Any})
if length(args) 3
obj = args[3]
add_liveness_change!(astate, obj, pc) # TODO setup a proper FinalizerEscape?
end
return false
end

end # baremodule EscapeAnalysis
86 changes: 60 additions & 26 deletions base/compiler/ssair/passes.jl
Original file line number Diff line number Diff line change
Expand Up @@ -1300,7 +1300,13 @@ function sroa_pass!(ir::IRCode, inlining::Union{Nothing,InliningState}=nothing)
# Inlining performs legality checks on the finalizer to determine
# whether or not we may inline it. If so, it appends extra arguments
# at the end of the intrinsic. Detect that here.
length(stmt.args) == 5 || continue
if length(stmt.args) == 4 && stmt.args[4] === nothing
# constant case
elseif length(stmt.args) == 5 && stmt.args[4] isa Bool && stmt.args[5] isa MethodInstance
# inlining case
else
continue
end
end
is_finalizer = true
elseif isexpr(stmt, :foreigncall)
Expand Down Expand Up @@ -1685,18 +1691,21 @@ end
function sroa_mutables!(ir::IRCode, defuses::IdDict{Int,Tuple{SPCSet,SSADefUse}}, used_ssas::Vector{Int}, lazydomtree::LazyDomtree, inlining::Union{Nothing,InliningState})
𝕃ₒ = inlining === nothing ? SimpleInferenceLattice.instance : optimizer_lattice(inlining.interp)
lazypostdomtree = LazyPostDomtree(ir)
for (defidx, (intermediaries, defuse)) in defuses
# Check if there are any uses we did not account for. If so, the variable
# escapes and we cannot eliminate the allocation. This works, because we're guaranteed
# not to include any intermediaries that have dead uses. As a result, missing uses will only ever
# show up in the nuses_total count.
nleaves = length(defuse.uses) + length(defuse.defs)
nuses = 0
for iidx in intermediaries
nuses += used_ssas[iidx]
function find_finalizer_useidx(defuse::SSADefUse)
finalizer_useidx = nothing
for (useidx, use) in enumerate(defuse.uses)
if use.kind === :finalizer
# For now: Only allow one finalizer per allocation
finalizer_useidx !== nothing && return false
finalizer_useidx = useidx
end
end
nuses_total = used_ssas[defidx] + nuses - length(intermediaries)
nleaves == nuses_total || continue
if finalizer_useidx === nothing || inlining === nothing
return true
end
return finalizer_useidx
end
for (defidx, (intermediaries, defuse)) in defuses
# Find the type for this allocation
defexpr = ir[SSAValue(defidx)][:stmt]
isexpr(defexpr, :new) || continue
Expand All @@ -1706,22 +1715,47 @@ function sroa_mutables!(ir::IRCode, defuses::IdDict{Int,Tuple{SPCSet,SSADefUse}}
typ = widenconst(typ)
ismutabletype(typ) || continue
typ = typ::DataType
# First check for any finalizer calls
finalizer_useidx = nothing
for (useidx, use) in enumerate(defuse.uses)
if use.kind === :finalizer
# For now: Only allow one finalizer per allocation
finalizer_useidx !== nothing && @goto skip
finalizer_useidx = useidx
end
# Check if there are any uses we did not account for. If so, the variable
# escapes and we cannot eliminate the allocation. This works, because we're guaranteed
# not to include any intermediaries that have dead uses. As a result, missing uses will only ever
# show up in the nuses_total count.
nleaves = length(defuse.uses) + length(defuse.defs)
nuses = 0
for iidx in intermediaries
nuses += used_ssas[iidx]
end
nuses_total = used_ssas[defidx] + nuses - length(intermediaries)
all_eliminated = all_forwarded = true
if finalizer_useidx !== nothing && inlining !== nothing
finalizer_idx = defuse.uses[finalizer_useidx].idx
try_resolve_finalizer!(ir, defidx, finalizer_idx, defuse, inlining,
lazydomtree, lazypostdomtree, ir[SSAValue(finalizer_idx)][:info])
deleteat!(defuse.uses, finalizer_useidx)
all_eliminated = all_forwarded = false # can't eliminate `setfield!` calls safely
if nleaves nuses_total
finalizer_useidx = find_finalizer_useidx(defuse)
if finalizer_useidx isa Int
nargs = length(ir.argtypes) # COMBAK this might need to be `Int(opt.src.nargs)`
estate = EscapeAnalysis.analyze_escapes(ir, nargs, 𝕃ₒ, get_escape_cache(inlining.interp))
einfo = estate[SSAValue(defidx)]
if EscapeAnalysis.has_no_escape(einfo)
already = BitSet(use.idx for use in defuse.uses)
for idx = einfo.Liveness
if idx already
push!(defuse.uses, SSAUse(:EALiveness, idx))
end
end
finalizer_idx = defuse.uses[finalizer_useidx].idx
try_resolve_finalizer!(ir, defidx, finalizer_idx, defuse, inlining::InliningState,
lazydomtree, lazypostdomtree, ir[SSAValue(finalizer_idx)][:info])
end
end
continue
else
finalizer_useidx = find_finalizer_useidx(defuse)
if finalizer_useidx isa Int
finalizer_idx = defuse.uses[finalizer_useidx].idx
try_resolve_finalizer!(ir, defidx, finalizer_idx, defuse, inlining::InliningState,
lazydomtree, lazypostdomtree, ir[SSAValue(finalizer_idx)][:info])
deleteat!(defuse.uses, finalizer_useidx)
all_eliminated = all_forwarded = false # can't eliminate `setfield!` calls safely
elseif !finalizer_useidx
continue
end
end
# Partition defuses by field
fielddefuse = SSADefUse[SSADefUse() for _ = 1:fieldcount(typ)]
Expand Down
2 changes: 2 additions & 0 deletions base/compiler/types.jl
Original file line number Diff line number Diff line change
Expand Up @@ -457,6 +457,8 @@ typeinf_lattice(::AbstractInterpreter) = InferenceLattice(BaseInferenceLattice.i
ipo_lattice(::AbstractInterpreter) = InferenceLattice(IPOResultLattice.instance)
optimizer_lattice(::AbstractInterpreter) = SimpleInferenceLattice.instance

get_escape_cache(interp::AbstractInterpreter) = GetNativeEscapeCache(interp)

abstract type CallInfo end

@nospecialize
Expand Down
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