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generate_precompile.jl
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# This file is a part of Julia. License is MIT: https://julialang.org/license
if isempty(ARGS) || ARGS[1] !== "0"
# Prevent this from being put into the Main namespace
@eval Module() begin
if !isdefined(Base, :uv_eventloop)
Base.reinit_stdio()
end
Base.include(@__MODULE__, joinpath(Sys.BINDIR, "..", "share", "julia", "test", "testhelpers", "FakePTYs.jl"))
import .FakePTYs: open_fake_pty
CTRL_C = '\x03'
UP_ARROW = "\e[A"
DOWN_ARROW = "\e[B"
precompile_script = """
2+2
print("")
@time 1+1
; pwd
? reinterpret
using Ra\t$CTRL_C
\\alpha\t$CTRL_C
\e[200~paste here ;)\e[201~"$CTRL_C
$UP_ARROW$DOWN_ARROW$CTRL_C
123\b\b\b$CTRL_C
\b\b$CTRL_C
f(x) = x03
f(1,2)
[][1]
cd("complet_path\t\t$CTRL_C
"""
julia_exepath() = joinpath(Sys.BINDIR, Base.julia_exename())
have_repl = haskey(Base.loaded_modules,
Base.PkgId(Base.UUID("3fa0cd96-eef1-5676-8a61-b3b8758bbffb"), "REPL"))
Distributed = get(Base.loaded_modules,
Base.PkgId(Base.UUID("8ba89e20-285c-5b6f-9357-94700520ee1b"), "Distributed"),
nothing)
if Distributed !== nothing
precompile_script *= """
using Distributed
addprocs(2)
pmap(x->iseven(x) ? 1 : 0, 1:4)
@distributed (+) for i = 1:100 Int(rand(Bool)) end
"""
end
Pkg = get(Base.loaded_modules,
Base.PkgId(Base.UUID("44cfe95a-1eb2-52ea-b672-e2afdf69b78f"), "Pkg"),
nothing)
if Pkg !== nothing
precompile_script *= Pkg.precompile_script
end
function generate_precompile_statements()
start_time = time_ns()
debug_output = devnull # or stdout
# Precompile a package
mktempdir() do prec_path
push!(DEPOT_PATH, prec_path)
push!(LOAD_PATH, prec_path)
pkgname = "__PackagePrecompilationStatementModule"
mkpath(joinpath(prec_path, pkgname, "src"))
write(joinpath(prec_path, pkgname, "src", "$pkgname.jl"),
"""
module $pkgname
end
""")
@eval using __PackagePrecompilationStatementModule
empty!(LOAD_PATH)
empty!(DEPOT_PATH)
end
print("Generating precompile statements...")
mktemp() do precompile_file, precompile_file_h
# Run a repl process and replay our script
pty_slave, pty_master = open_fake_pty()
blackhole = Sys.isunix() ? "/dev/null" : "nul"
if have_repl
cmdargs = ```--color=yes
-e 'import REPL; REPL.Terminals.is_precompiling[] = true'
```
else
cmdargs = `-e nothing`
end
p = withenv("JULIA_HISTORY" => blackhole,
"JULIA_PROJECT" => nothing, # remove from environment
"JULIA_LOAD_PATH" => Sys.iswindows() ? "@;@stdlib" : "@:@stdlib",
"TERM" => "") do
sysimg = Base.unsafe_string(Base.JLOptions().image_file)
run(```$(julia_exepath()) -O0 --trace-compile=$precompile_file --sysimage $sysimg
--cpu-target=native --startup-file=no --color=yes
-e 'import REPL; REPL.Terminals.is_precompiling[] = true'
-i $cmdargs```,
pty_slave, pty_slave, pty_slave; wait=false)
end
Base.close_stdio(pty_slave)
# Prepare a background process to copy output from process until `pty_slave` is closed
output_copy = Base.BufferStream()
tee = @async try
while !eof(pty_master)
l = readavailable(pty_master)
write(debug_output, l)
Sys.iswindows() && (sleep(0.1); yield(); yield()) # workaround hang - probably a libuv issue?
write(output_copy, l)
end
close(output_copy)
close(pty_master)
catch ex
close(output_copy)
close(pty_master)
if !(ex isa Base.IOError && ex.code == Base.UV_EIO)
rethrow() # ignore EIO on pty_master after pty_slave dies
end
end
# wait for the definitive prompt before start writing to the TTY
readuntil(output_copy, "julia>")
sleep(0.1)
readavailable(output_copy)
# Input our script
if have_repl
for l in split(precompile_script, '\n'; keepempty=false)
sleep(0.1)
# consume any other output
bytesavailable(output_copy) > 0 && readavailable(output_copy)
# push our input
write(debug_output, "\n#### inputting statement: ####\n$(repr(l))\n####\n")
write(pty_master, l, "\n")
readuntil(output_copy, "\n")
# wait for the next prompt-like to appear
# NOTE: this is rather innaccurate because the Pkg REPL mode is a special flower
readuntil(output_copy, "\n")
readuntil(output_copy, "> ")
end
end
write(pty_master, "exit()\n")
wait(tee)
success(p) || Base.pipeline_error(p)
close(pty_master)
write(debug_output, "\n#### FINISHED ####\n")
# Extract the precompile statements from the precompile file
statements = Set{String}()
for statement in eachline(precompile_file_h)
# Main should be completely clean
occursin("Main.", statement) && continue
push!(statements, statement)
end
# Create a staging area where all the loaded packages are available
PrecompileStagingArea = Module()
for (_pkgid, _mod) in Base.loaded_modules
if !(_pkgid.name in ("Main", "Core", "Base"))
eval(PrecompileStagingArea, :(const $(Symbol(_mod)) = $_mod))
end
end
# Execute the collected precompile statements
n_succeeded = 0
include_time = @elapsed for statement in sort(collect(statements))
# println(statement)
try
Base.include_string(PrecompileStagingArea, statement)
n_succeeded += 1
catch
# See #28808
# @error "Failed to precompile $statement"
end
end
if have_repl
# Seems like a reasonable number right now, adjust as needed
# comment out if debugging script
@assert n_succeeded > 1500
end
print(" $(length(statements)) generated in ")
tot_time = time_ns() - start_time
Base.time_print(tot_time)
print(" (overhead "); Base.time_print(tot_time - (include_time * 1e9)); println(")")
end
return
end
generate_precompile_statements()
end # @eval
end