julia-common 0.4.7-6 / usr / share / julia / test / parallel_exec.jl

# This file is a part of Julia. License is MIT: http://julialang.org/license

using Base.Test

addprocs(3; exeflags=`--check-bounds=yes --depwarn=error`)

id_me = myid()
id_other = filter(x -> x != id_me, procs())[rand(1:(nprocs()-1))]

@test fetch(@spawnat id_other myid()) == id_other
@test @fetchfrom id_other begin myid() end == id_other
@fetch begin myid() end

rr=RemoteRef()
@test typeof(rr) == RemoteRef{Channel{Any}}
a = rand(5,5)
put!(rr, a)
@test rr[2,3] == a[2,3]
@test rr[] == a

rr=RemoteRef(workers()[1])
@test typeof(rr) == RemoteRef{Channel{Any}}
a = rand(5,5)
put!(rr, a)
@test rr[1,5] == a[1,5]
@test rr[] == a

dims = (20,20,20)

@linux_only begin
    S = SharedArray(Int64, dims)
    @test startswith(S.segname, "/jl")
    @test !ispath("/dev/shm" * S.segname)

    S = SharedArray(Int64, dims; pids=[id_other])
    @test startswith(S.segname, "/jl")
    @test !ispath("/dev/shm" * S.segname)
end

# TODO : Need a similar test of shmem cleanup for OSX

##### SharedArray tests

function check_pids_all(S::SharedArray)
    pidtested = falses(size(S))
    for p in procs(S)
        idxes_in_p = remotecall_fetch(p, D -> parentindexes(D.loc_subarr_1d)[1], S)
        @test all(sdata(S)[idxes_in_p] .== p)
        pidtested[idxes_in_p] = true
    end
    @test all(pidtested)
end

d = Base.shmem_rand(1:100, dims)
a = convert(Array, d)

partsums = Array(Int, length(procs(d)))
@sync begin
    for (i, p) in enumerate(procs(d))
        @async partsums[i] = remotecall_fetch(p, D->sum(D.loc_subarr_1d), d)
    end
end
@test sum(a) == sum(partsums)

d = Base.shmem_rand(dims)
for p in procs(d)
    idxes_in_p = remotecall_fetch(p, D -> parentindexes(D.loc_subarr_1d)[1], d)
    idxf = first(idxes_in_p)
    idxl = last(idxes_in_p)
    d[idxf] = Float64(idxf)
    rv = remotecall_fetch(p, (D,idxf,idxl) -> begin assert(D[idxf] == Float64(idxf)); D[idxl] = Float64(idxl); D[idxl];  end, d,idxf,idxl)
    @test d[idxl] == rv
end

@test ones(10, 10, 10) == Base.shmem_fill(1.0, (10,10,10))
@test zeros(Int32, 10, 10, 10) == Base.shmem_fill(0, (10,10,10))

d = Base.shmem_rand(dims)
s = Base.shmem_rand(dims)
copy!(s, d)
@test s == d
s = Base.shmem_rand(dims)
copy!(s, sdata(d))
@test s == d
a = rand(dims)
@test sdata(a) == a

d = SharedArray(Int, dims; init = D->fill!(D.loc_subarr_1d, myid()))
for p in procs(d)
    idxes_in_p = remotecall_fetch(p, D -> parentindexes(D.loc_subarr_1d)[1], d)
    idxf = first(idxes_in_p)
    idxl = last(idxes_in_p)
    @test d[idxf] == p
    @test d[idxl] == p
end

d = SharedArray(Float64, (2,3))
@test isa(d[:,2], Vector{Float64})

### SharedArrays from a file

# Mapping an existing file
fn = tempname()
open(fn, "w") do io
    write(io, 1:30)
end
sz = (6,5)
Atrue = reshape(1:30, sz)

S = SharedArray(fn, Int, sz)
@test S == Atrue
@test length(procs(S)) > 1
@sync begin
    for p in procs(S)
        @async remotecall_wait(p, D->fill!(D.loc_subarr_1d, myid()), S)
    end
end
check_pids_all(S)

filedata = similar(Atrue)
open(fn, "r") do io
    read!(io, filedata)
end
@test filedata == sdata(S)

# Error for write-only files
@test_throws ArgumentError SharedArray(fn, Int, sz, mode="w")

# Error for file doesn't exist, but not allowed to create
@test_throws ArgumentError SharedArray(tempname(), Int, sz, mode="r")

# Creating a new file
fn2 = tempname()
S = SharedArray(fn2, Int, sz, init=D->D[localindexes(D)] = myid())
@test S == filedata
filedata2 = similar(Atrue)
open(fn2, "r") do io
    read!(io, filedata2)
end
@test filedata == filedata2

# Appending to a file
fn3 = tempname()
open(fn3, "w") do io
    write(io, ones(UInt8, 4))
end
S = SharedArray(fn3, UInt8, sz, 4, mode="a+", init=D->D[localindexes(D)]=0x02)
len = prod(sz)+4
@test filesize(fn3) == len
filedata = Array(UInt8, len)
open(fn3, "r") do io
    read!(io, filedata)
end
@test all(filedata[1:4] .== 0x01)
@test all(filedata[5:end] .== 0x02)

@unix_only begin # these give unlink: operation not permitted (EPERM) on Windows
    rm(fn); rm(fn2); rm(fn3)
end

### Utility functions

# reshape

d = Base.shmem_fill(1.0, (10,10,10))
@test ones(100, 10) == reshape(d,(100,10))
d = Base.shmem_fill(1.0, (10,10,10))
@test_throws DimensionMismatch reshape(d,(50,))

# rand, randn
d = Base.shmem_rand(dims)
@test size(rand!(d)) == dims
d = Base.shmem_fill(1.0, dims)
@test size(randn!(d)) == dims

# similar
d = Base.shmem_rand(dims)
@test size(similar(d, Complex128)) == dims
@test size(similar(d, dims)) == dims

# issue #6362
d = Base.shmem_rand(dims)
s = copy(sdata(d))
ds = deepcopy(d)
@test ds == d
pids_d = procs(d)
remotecall_fetch(pids_d[findfirst(id->(id != myid()), pids_d)], setindex!, d, 1.0, 1:10)
@test ds != d
@test s != d


# SharedArray as an array
# Since the data in d will depend on the nprocs, just test that these operations work
a = d[1:5]
@test_throws BoundsError d[-1:5]
a = d[1,1,1:3:end]
d[2:4] = 7
d[5,1:2:4,8] = 19

AA = rand(4,2)
A = convert(SharedArray, AA)
B = convert(SharedArray, AA')
@test B*A == ctranspose(AA)*AA

d=SharedArray(Int64, (10,10); init = D->fill!(D.loc_subarr_1d, myid()), pids=[id_me, id_other])
d2 = map(x->1, d)
@test reduce(+, d2) == 100

@test reduce(+, d) == ((50*id_me) + (50*id_other))
map!(x->1, d)
@test reduce(+, d) == 100

@test fill!(d, 1) == ones(10, 10)
@test fill!(d, 2.) == fill(2, 10, 10)
@test d[:] == fill(2, 100)
@test d[:,1] == fill(2, 10)
@test d[1,:] == fill(2, 1, 10)

# Boundary cases where length(S) <= length(pids)
@test 2.0 == remotecall_fetch(id_other, D->D[2], Base.shmem_fill(2.0, 2; pids=[id_me, id_other]))
@test 3.0 == remotecall_fetch(id_other, D->D[1], Base.shmem_fill(3.0, 1; pids=[id_me, id_other]))

# Shared arrays of singleton immutables
@everywhere immutable ShmemFoo end
for T in [Void, ShmemFoo]
    s = SharedArray(T, 10)
    @test T() === remotecall_fetch(workers()[1], x->x[3], s)
end

function finalize_and_test(r)
    finalize(r)
    @test_throws ErrorException fetch(r)
end

for id in [id_me, id_other]
    finalize_and_test(RemoteRef(id))
    finalize_and_test((r=RemoteRef(id); put!(r, 1); r))
end

d = SharedArray(Int,10)
finalize(d)
@test_throws BoundsError d[1]

# Test @parallel load balancing - all processors should get either M or M+1
# iterations out of the loop range for some M.
workloads = hist(@parallel((a,b)->[a;b], for i=1:7; myid(); end), nprocs())[2]
@test maximum(workloads) - minimum(workloads) <= 1

# @parallel reduction should work even with very short ranges
@test @parallel(+, for i=1:2; i; end) == 3

# Testing timedwait on multiple channels
@sync begin
    rr1 = Channel()
    rr2 = Channel()
    rr3 = Channel()

    @async begin sleep(0.5); put!(rr1, :ok) end
    @async begin sleep(1.0); put!(rr2, :ok) end
    @async begin sleep(2.0); put!(rr3, :ok) end

    tic()
    timedwait(1.0) do
        all(map(isready, [rr1, rr2, rr3]))
    end
    et=toq()
    # assuming that 0.5 seconds is a good enough buffer on a typical modern CPU
    try
        @test (et >= 1.0) && (et <= 1.5)
        @test !isready(rr3)
    catch
        warn("timedwait tests delayed. et=$et, isready(rr3)=$(isready(rr3))")
    end
    @test isready(rr1)
end

# Test multiple concurrent put!/take! on a channel
function testcpt()
    c = Channel()
    size = 0
    inc() = size += 1
    dec() = size -= 1
    @sync for i = 1:10^4
        @async (sleep(rand()); put!(c, i); inc())
        @async (sleep(rand()); take!(c); dec())
    end
    @test size == 0
end
testcpt()

# Test multiple "for" loops waiting on the same channel which
# is closed after adding a few elements.
c=Channel()
results=[]
@sync begin
    for i in 1:20
        @async for i in c
            push!(results, i)
        end
    end
    sleep(1.0)
    for i in 1:5
        put!(c,i)
    end
    close(c)
end
@test sum(results) == 15

@test_throws ArgumentError sleep(-1)
@test_throws ArgumentError timedwait(()->false, 0.1, pollint=-0.5)

# specify pids for pmap
@test sort(workers()[1:2]) == sort(unique(pmap(x->(sleep(0.1);myid()), 1:10, pids = workers()[1:2])))

# Testing buffered  and unbuffered reads
# This large array should write directly to the socket
a = ones(10^6)
@test a == remotecall_fetch(id_other, (x)->x, a)

# Not a bitstype, should be buffered
s = [randstring() for x in 1:10^5]
@test s == remotecall_fetch(id_other, (x)->x, s)

#large number of small requests
num_small_requests = 10000
@test fill(id_other, num_small_requests) == [remotecall_fetch(id_other, myid) for i in 1:num_small_requests]

# test parallel sends of large arrays from multiple tasks to the same remote worker
ntasks = 10
rr_list = [Channel() for x in 1:ntasks]
a=ones(2*10^5);
for rr in rr_list
    @async let rr=rr
        try
            for i in 1:10
                @test a == remotecall_fetch(id_other, (x)->x, a)
                yield()
            end
            put!(rr, :OK)
        catch
            put!(rr, :ERROR)
        end
    end
end

@test [fetch(rr) for rr in rr_list] == [:OK for x in 1:ntasks]

function test_channel(c)
    put!(c, 1)
    put!(c, "Hello")
    put!(c, 5.0)

    @test isready(c) == true
    @test fetch(c) == 1
    @test fetch(c) == 1   # Should not have been popped previously
    @test take!(c) == 1
    @test take!(c) == "Hello"
    @test fetch(c) == 5.0
    @test take!(c) == 5.0
    @test isready(c) == false
    close(c)
end

test_channel(Channel(10))
test_channel(RemoteRef(()->Channel(10)))

c=Channel{Int}(1)
@test_throws MethodError put!(c, "Hello")

# test channel iterations
function test_iteration(in_c, out_c)
    t=@schedule for v in in_c
        put!(out_c, v)
    end

    isa(in_c, Channel) && @test isopen(in_c) == true
    put!(in_c, 1)
    @test take!(out_c) == 1
    put!(in_c, "Hello")
    close(in_c)
    @test take!(out_c) == "Hello"
    isa(in_c, Channel) && @test isopen(in_c) == false
    @test_throws InvalidStateException put!(in_c, :foo)
    yield()
    @test istaskdone(t) == true
end

test_iteration(Channel(10), Channel(10))
# make sure exceptions propagate when waiting on Tasks
@test_throws CompositeException (@sync (@async error("oops")))
try
    @sync begin
        for i in 1:5
            @async error(i)
        end
    end
    error("unexpected")
catch ex
    @test typeof(ex) == CompositeException
    @test length(ex) == 5
    @test typeof(ex.exceptions[1]) == CapturedException
    @test typeof(ex.exceptions[1].ex) == ErrorException
    errors = map(x->x.ex.msg, ex.exceptions)
    @test collect(1:5) == sort(map(x->parse(Int, x), errors))
end

macro test_remoteexception_thrown(expr)
    quote
        try
            $(esc(expr))
            error("unexpected")
        catch ex
            @test typeof(ex) == RemoteException
            @test typeof(ex.captured) == CapturedException
            @test typeof(ex.captured.ex) == ErrorException
            @test ex.captured.ex.msg == "foobar"
        end
    end
end

for id in [id_other, id_me]
    @test_remoteexception_thrown remotecall_fetch(id, ()->throw(ErrorException("foobar")))
    @test_remoteexception_thrown remotecall_wait(id, ()->throw(ErrorException("foobar")))
    @test_remoteexception_thrown wait(remotecall(id, ()->throw(ErrorException("foobar"))))
end

# The below block of tests are usually run only on local development systems, since:
# - tests which print errors
# - addprocs tests are memory intensive
# - ssh addprocs requires sshd to be running locally with passwordless login enabled.
# The test block is enabled by defining env JULIA_TESTFULL=1

DoFullTest = Bool(parse(Int,(get(ENV, "JULIA_TESTFULL", "0"))))

if DoFullTest
    # pmap tests
    # needs at least 4 processors dedicated to the below tests
    ppids = remotecall_fetch(1, ()->addprocs(4))
    s = "abcdefghijklmnopqrstuvwxyz";
    ups = uppercase(s);
    @test ups == bytestring(UInt8[UInt8(c) for c in pmap(x->uppercase(x), s)])
    @test ups == bytestring(UInt8[UInt8(c) for c in pmap(x->uppercase(Char(x)), s.data)])

    # retry, on error exit
    res = pmap(x->(x=='a') ? error("EXPECTED TEST ERROR. TO BE IGNORED.") : (sleep(0.1);uppercase(x)), s; err_retry=true, err_stop=true, pids=ppids);
    @test (length(res) < length(ups))
    @test isa(res[1], Exception)

    # no retry, on error exit
    res = pmap(x->(x=='a') ? error("EXPECTED TEST ERROR. TO BE IGNORED.") : (sleep(0.1);uppercase(x)), s; err_retry=false, err_stop=true, pids=ppids);
    @test (length(res) < length(ups))
    @test isa(res[1], Exception)

    # retry, on error continue
    res = pmap(x->iseven(myid()) ? error("EXPECTED TEST ERROR. TO BE IGNORED.") : (sleep(0.1);uppercase(x)), s; err_retry=true, err_stop=false, pids=ppids);
    @test length(res) == length(ups)
    @test ups == bytestring(UInt8[UInt8(c) for c in res])

    # no retry, on error continue
    res = pmap(x->(x=='a') ? error("EXPECTED TEST ERROR. TO BE IGNORED.") : (sleep(0.1);uppercase(x)), s; err_retry=false, err_stop=false, pids=ppids);
    @test length(res) == length(ups)
    @test isa(res[1], Exception)

    # Topology tests need to run externally since a given cluster at any
    # time can only support a single topology and the current session
    # is already running in parallel under the default topology.
    script = joinpath(dirname(@__FILE__), "topology.jl")
    cmd = `$(joinpath(JULIA_HOME,Base.julia_exename())) $script`

    (strm, proc) = open(cmd)
    wait(proc)
    if !success(proc) && ccall(:jl_running_on_valgrind,Cint,()) == 0
        println(readall(strm))
        error("Topology tests failed : $cmd")
    end

    println("Testing exception printing on remote worker from a `remote_do` call")
    println("Please ensure the remote error and backtrace is displayed on screen")

    Base.remote_do(id_other, ()->throw(ErrorException("TESTING EXCEPTION ON REMOTE DO. PLEASE IGNORE")))
    sleep(0.5)  # Give some time for the above error to be printed

@unix_only begin
    function test_n_remove_pids(new_pids)
        for p in new_pids
            w_in_remote = sort(remotecall_fetch(p, workers))
            try
                @test intersect(new_pids, w_in_remote) == new_pids
            catch e
                print("p       :     $p\n")
                print("newpids :     $new_pids\n")
                print("w_in_remote : $w_in_remote\n")
                print("intersect   : $(intersect(new_pids, w_in_remote))\n\n\n")
                rethrow(e)
            end
        end

        @test :ok == remotecall_fetch(1, (p)->rmprocs(p; waitfor=5.0), new_pids)
    end

    print("\n\nTesting SSHManager. A minimum of 4GB of RAM is recommended.\n")
    print("Please ensure sshd is running locally with passwordless login enabled.\n")

    sshflags = `-o UserKnownHostsFile=/dev/null -o StrictHostKeyChecking=no -o LogLevel=ERROR `
    #Issue #9951
    hosts=[]
    localhost_aliases = ["localhost", string(getipaddr()), "127.0.0.1"]
    num_workers = parse(Int,(get(ENV, "JULIA_ADDPROCS_NUM", "9")))

    for i in 1:(num_workers/length(localhost_aliases))
        append!(hosts, localhost_aliases)
    end

    print("\nTesting SSH addprocs with $(length(hosts)) workers...\n")
    new_pids = remotecall_fetch(1, (h, sf) -> addprocs(h; sshflags=sf), hosts, sshflags)
    @test length(new_pids) == length(hosts)
    test_n_remove_pids(new_pids)

    print("\nMixed ssh addprocs with :auto\n")
    new_pids = sort(remotecall_fetch(1, (h, sf) -> addprocs(h; sshflags=sf), ["localhost", ("127.0.0.1", :auto), "localhost"], sshflags))
    @test length(new_pids) == (2 + Sys.CPU_CORES)
    test_n_remove_pids(new_pids)

    print("\nMixed ssh addprocs with numeric counts\n")
    new_pids = sort(remotecall_fetch(1, (h, sf) -> addprocs(h; sshflags=sf), [("localhost", 2), ("127.0.0.1", 2), "localhost"], sshflags))
    @test length(new_pids) == 5
    test_n_remove_pids(new_pids)

    print("\nssh addprocs with tunnel\n")
    new_pids = sort(remotecall_fetch(1, (h, sf) -> addprocs(h; tunnel=true, sshflags=sf), [("localhost", num_workers)], sshflags))
    @test length(new_pids) == num_workers
    test_n_remove_pids(new_pids)

end
end

# issue #7727
let A = [], B = []
    t = @task produce(11)
    @sync begin
        @async for x in t; push!(A,x); end
        @async for x in t; push!(B,x); end
    end
    @test (A == [11]) != (B == [11])
end

let t = @task 42
    schedule(t, ErrorException(""), error=true)
    @test_throws ErrorException wait(t)
end

# issue #8207
let A = Any[]
    @parallel (+) for i in (push!(A,1); 1:2)
        i
    end
    @test length(A) == 1
end

# issue #13168
function f13168(n)
    val = 0
    for i=1:n val+=sum(rand(n,n)^2) end
    val
end
let t = schedule(@task f13168(100))
    @test schedule(t) === t
end

# issue #13122
@test remotecall_fetch(workers()[1], identity, C_NULL) === C_NULL