https://github.com/JuliaLang/julia
Tip revision: bbb2fe4ba468b15658dfb524ffb0a91dbd805762 authored by Tim Besard on 03 August 2016, 20:16:15 UTC
Fix keywordargs test.
Fix keywordargs test.
Tip revision: bbb2fe4
ccall.jl
# This file is a part of Julia. License is MIT: http://julialang.org/license
import Base.copy, Base.==
const libccalltest = "libccalltest"
const verbose = false
ccall((:set_verbose, libccalltest), Void, (Int32,), verbose)
# Test for proper argument register truncation
ccall_test_func(x) = ccall((:testUcharX, libccalltest), Int32, (UInt8,), x % UInt8)
@test ccall_test_func(3) == 1
@test ccall_test_func(259) == 1
# Test for proper round-trip of Ref{T} type
ccall_echo_func{T,U}(x, ::Type{T}, ::Type{U}) = ccall((:test_echo_p, libccalltest), T, (U,), x)
# Make sure object x is still valid (rooted as argument)
# when loading the pointer. This works as long as we still keep the argument
# rooted but might fail if we are smarter about eliminating dead root.
@noinline ccall_echo_load{T,U}(x, ::Type{T}, ::Type{U}) =
unsafe_load(ccall_echo_func(x, T, U))
@noinline ccall_echo_objref{T,U}(x, ::Type{T}, ::Type{U}) =
unsafe_pointer_to_objref(ccall_echo_func(x, Ptr{T}, U))
type IntLike
x::Int
end
@test ccall_echo_load(132, Ptr{Int}, Ref{Int}) === 132
@test ccall_echo_load(Ref(921), Ptr{Int}, Ref{Int}) === 921
@test ccall_echo_load(IntLike(993), Ptr{Int}, Ref{IntLike}) === 993
@test ccall_echo_load(IntLike(881), Ptr{IntLike}, Ref{IntLike}).x === 881
@test ccall_echo_func(532, Int, Int) === 532
if Sys.WORD_SIZE == 64
# this test is valid only for x86_64 and win64
@test ccall_echo_func(164, IntLike, Int).x === 164
end
@test ccall_echo_func(IntLike(828), Int, IntLike) === 828
@test ccall_echo_func(913, Any, Any) === 913
@test ccall_echo_objref(553, Ptr{Any}, Any) === 553
@test ccall_echo_func(124, Ref{Int}, Any) === 124
@test ccall_echo_load(422, Ptr{Any}, Ref{Any}) === 422
@test ccall_echo_load([383], Ptr{Int}, Ref{Int}) === 383
@test ccall_echo_load(Ref([144,172],2), Ptr{Int}, Ref{Int}) === 172
# @test ccall_echo_load(Ref([8],1,1), Ptr{Int}, Ref{Int}) === 8
## Tests for passing and returning structs
let a, ci_ary, x
a = 20 + 51im
x = ccall((:ctest, libccalltest), Complex{Int}, (Complex{Int},), a)
@test x == a + 1 - 2im
ci_ary = [a] # Make sure the array is alive during unsafe_load
x = unsafe_load(ccall((:cptest, libccalltest), Ptr{Complex{Int}},
(Ptr{Complex{Int}},), ci_ary))
@test x == a + 1 - 2im
@test a == 20 + 51im
x = ccall((:cptest_static, libccalltest), Ptr{Complex{Int}}, (Ptr{Complex{Int}},), &a)
@test unsafe_load(x) == a
Libc.free(convert(Ptr{Void},x))
end
let a, b, x
a = 2.84 + 5.2im
x = ccall((:cgtest, libccalltest), Complex128, (Complex128,), a)
@test x == a + 1 - 2im
b = [a] # Make sure the array is alive during unsafe_load
x = unsafe_load(ccall((:cgptest, libccalltest), Ptr{Complex128}, (Ptr{Complex128},), b))
@test x == a + 1 - 2im
@test a == 2.84 + 5.2im
end
let a, b, x
a = 3.34f0 + 53.2f0im
x = ccall((:cftest, libccalltest), Complex64, (Complex64,), a)
@test x == a + 1 - 2im
b = [a] # Make sure the array is alive during unsafe_load
x = unsafe_load(ccall((:cfptest, libccalltest), Ptr{Complex64}, (Ptr{Complex64},), b))
@test x == a + 1 - 2im
@test a == 3.34f0 + 53.2f0im
end
## Tests for native Julia data types
let a
a = 2.84 + 5.2im
@test_throws MethodError ccall((:cptest, libccalltest), Ptr{Complex{Int}}, (Ptr{Complex{Int}},), a)
@test_throws MethodError ccall((:cptest, libccalltest), Ptr{Complex{Int}}, (Complex{Int},), &a)
end
## Tests for various sized data types (ByVal)
type Struct1
x::Float32
y::Float64
end
copy(a::Struct1) = Struct1(a.x, a.y)
let a, b, a2, x
a = Struct1(352.39422f23, 19.287577)
b = Float32(123.456)
a2 = copy(a)
x = ccall((:test_1, libccalltest), Struct1, (Struct1, Float32), a2, b)
@test a2.x == a.x && a2.y == a.y
@test !(a2 === x)
@test x.x ≈ a.x + 1*b
@test x.y ≈ a.y - 2*b
end
let a, b, x, y
a = Complex{Int32}(Int32(10),Int32(31))
b = Int32(42)
x = ccall((:test_2a, libccalltest), Complex{Int32}, (Complex{Int32}, Int32), a, b)
y = ccall((:test_2b, libccalltest), Complex{Int32}, (Complex{Int32},Int32), a, b)
@test a == Complex{Int32}(Int32(10),Int32(31))
@test x == y
@test x == a + b*1 - b*2im
end
let a, b, x, y, z
a = Complex{Int64}(Int64(20),Int64(51))
b = Int64(42)
x = ccall((:test_3a, libccalltest), Complex{Int64}, (Complex{Int64}, Int64), a, b)
y = ccall((:test_3b, libccalltest), Complex{Int64}, (Complex{Int64}, Int64), a, b)
z = ccall((:test_128, libccalltest), Complex{Int64}, (Complex{Int64}, Int64), a, b)
@test a == Complex{Int64}(Int64(20),Int64(51))
@test x == y
@test x == a + b*1 - b*2im
@test z == a + 1*b
end
type Struct4
x::Int32
y::Int32
z::Int32
end
let a, b, x
a = Struct4(-512275808,882558299,-2133022131)
b = Int32(42)
x = ccall((:test_4, libccalltest), Struct4, (Struct4,Int32), a, b)
@test x.x == a.x+b*1
@test x.y == a.y-b*2
@test x.z == a.z+b*3
end
type Struct5
x::Int32
y::Int32
z::Int32
a::Int32
end
let a, b, x
a = Struct5(1771319039, 406394736, -1269509787, -745020976)
b = Int32(42)
x = ccall((:test_5, libccalltest), Struct5, (Struct5,Int32), a, b)
@test x.x == a.x+b*1
@test x.y == a.y-b*2
@test x.z == a.z+b*3
@test x.a == a.a-b*4
end
type Struct6
x::Int64
y::Int64
z::Int64
end
let a, b, x
a = Struct6(-654017936452753226, -5573248801240918230, -983717165097205098)
b = Int64(42)
x = ccall((:test_6, libccalltest), Struct6, (Struct6, Int64), a, b)
@test x.x == a.x+b*1
@test x.y == a.y-b*2
@test x.z == a.z+b*3
end
type Struct7
x::Int64
y::Cchar
end
let a, b, x
a = Struct7(-384082741977533896, 'h')
b = Int8(42)
x = ccall((:test_7, libccalltest), Struct7, (Struct7,Int8), a, b)
@test x.x == a.x+Int(b)*1
@test x.y == a.y-Int(b)*2
end
type Struct8
x::Int32
y::Cchar
end
let a, b, x
a = Struct8(-384082896, 'h')
b = Int8(42)
r8 = ccall((:test_8, libccalltest), Struct8, (Struct8,Int8), a, b)
@test r8.x == a.x+b*1
@test r8.y == a.y-b*2
end
type Struct9
x::Int32
y::Int16
end
let a, b, x
a = Struct9(-394092996, -3840)
b = Int16(42)
x = ccall((:test_9, libccalltest), Struct9, (Struct9,Int16), a, b)
@test x.x == a.x+b*1
@test x.y == a.y-b*2
end
type Struct10
x::Cchar
y::Cchar
z::Cchar
a::Cchar
end
let a, b, x
a = Struct10('0', '1', '2', '3')
b = Int8(2)
x = ccall((:test_10, libccalltest), Struct10, (Struct10,Int8), a, b)
@test x.x == a.x+b*1
@test x.y == a.y-b*2
@test x.z == a.z+b*3
@test x.a == a.a-b*4
end
type Struct11
x::Complex64
end
let a, b, x
a = Struct11(0.8877077f0 + 0.4591081f0im)
b = Float32(42)
x = ccall((:test_11, libccalltest), Struct11, (Struct11,Float32), a, b)
@test x.x ≈ a.x + b*1 - b*2im
end
type Struct12
x::Complex64
y::Complex64
end
let a, b, x
a = Struct12(0.8877077f5 + 0.4591081f2im, 0.0004842868f0 - 6982.3265f3im)
b = Float32(42)
x = ccall((:test_12, libccalltest), Struct12, (Struct12,Float32), a, b)
@test x.x ≈ a.x + b*1 - b*2im
@test x.y ≈ a.y + b*3 - b*4im
end
type Struct13
x::Complex128
end
let a, b, x
a = Struct13(42968.97560380495 - 803.0576845153616im)
b = Float64(42)
x = ccall((:test_13, libccalltest), Struct13, (Struct13,Float64), a, b)
@test x.x ≈ a.x + b*1 - b*2im
end
type Struct14
x::Float32
y::Float32
end
let a, b, x
a = Struct14(0.024138331f0, 0.89759064f32)
b = Float32(42)
x = ccall((:test_14, libccalltest), Struct14, (Struct14,Float32), a, b)
@test x.x ≈ a.x + b*1
@test x.y ≈ a.y - b*2
end
type Struct15
x::Float64
y::Float64
end
let a, b, x
a = Struct15(4.180997967273657, -0.404218594294923)
b = Float64(42)
x = ccall((:test_15, libccalltest), Struct15, (Struct15,Float64), a, b)
@test x.x ≈ a.x + b*1
@test x.y ≈ a.y - b*2
end
type Struct16
x::Float32
y::Float32
z::Float32
a::Float64
b::Float64
c::Float64
end
let a, b, x
a = Struct16(0.1604656f0, 0.6297606f0, 0.83588994f0,
0.6460273620993535, 0.9472692581106656, 0.47328535437352093)
b = Float32(42)
x = ccall((:test_16, libccalltest), Struct16, (Struct16,Float32), a, b)
@test x.x ≈ a.x + b*1
@test x.y ≈ a.y - b*2
@test x.z ≈ a.z + b*3
@test x.a ≈ a.a - b*4
@test x.b ≈ a.b + b*5
@test x.c ≈ a.c - b*6
end
let a, b, x
a = Int128(0x7f00123456789abc)<<64 + typemax(UInt64)
b = Int64(1)
x = ccall((:test_128, libccalltest), Int128, (Int128, Int64), a, b)
@test x == a + b*1
@test a == Int128(0x7f00123456789abc)<<64 + typemax(UInt64)
end
type Struct_Big
x::Int
y::Int
z::Int8
end
copy(a::Struct_Big) = Struct_Big(a.x, a.y, a.z)
let a, a2, x
a = Struct_Big(424,-5,Int8('Z'))
a2 = copy(a)
x = ccall((:test_big, libccalltest), Struct_Big, (Struct_Big,), a2)
@test a2.x == a.x && a2.y == a.y && a2.z == a.z
@test x.x == a.x + 1
@test x.y == a.y - 2
@test x.z == a.z - Int('A')
end
const Struct_huge1a = NTuple{8, Int64}
const Struct_huge1b = NTuple{9, Int64}
const Struct_huge2a = NTuple{8, Cdouble}
const Struct_huge2b = NTuple{9, Cdouble}
type Struct_huge3a
cf::NTuple{3, Complex{Cfloat}}
f7::Cfloat
f8::Cfloat
end
type Struct_huge3b
cf::NTuple{7, Complex{Cfloat}}
r8a::Cfloat
r8b::Cfloat
end
type Struct_huge3c
cf::NTuple{7, Complex{Cfloat}}
r8a::Cfloat
r8b::Cfloat
r9::Cfloat
end
type Struct_huge4a
r12::Complex{Cdouble}
r34::Complex{Cdouble}
r5::Complex{Cfloat}
r67::Complex{Cdouble}
r8::Cdouble
end
type Struct_huge4b
r12::Complex{Cdouble}
r34::Complex{Cdouble}
r5::Complex{Cfloat}
r67::Complex{Cdouble}
r89::Complex{Cdouble}
end
const Struct_huge5a = NTuple{8, Complex{Cint}}
const Struct_huge5b = NTuple{9, Complex{Cint}}
function verify_huge(init, a, b)
@test typeof(init) === typeof(a) === typeof(b)
verbose && @show (a, b)
# make sure a was unmodified
for i = 1:nfields(a)
@test getfield(init, i) === getfield(a, i)
end
# make sure b was modifed as expected
a1, b1 = getfield(a, 1), getfield(b, 1)
while isa(a1, Tuple)
@test a1[2:end] === b1[2:end]
a1 = a1[1]
b1 = b1[1]
end
if isa(a1, VecElement)
a1 = a1.value
b1 = b1.value
end
@test oftype(a1, a1 * 39) === b1
for i = 2:nfields(a)
@test getfield(a, i) === getfield(b, i)
end
end
macro test_huge(i, b, init)
f = QuoteNode(Symbol("test_huge", i, b))
ty = Symbol("Struct_huge", i, b)
return quote
let a = $ty($(esc(init))...), f
f(b) = ccall(($f, libccalltest), $ty, (Cchar, $ty, Cchar), '0' + $i, a, $b[1])
#code_llvm(f, typeof((a,)))
verify_huge($ty($(esc(init))...), a, f(a))
end
end
end
@test_huge 1 'a' ((1, 2, 3, 4, 5, 6, 7, 8),)
@test_huge 1 'b' ((1, 2, 3, 4, 5, 6, 7, 8, 9),)
@test_huge 2 'a' ((1.0, 2.0, 3.0, 4.0, 5.0, 6.0, 7.0, 8.0),)
@test_huge 2 'b' ((1.0, 2.0, 3.0, 4.0, 5.0, 6.0, 7.0, 8.0, 9.0),)
@test_huge 3 'a' ((1.0 + 2.0im, 3.0 + 4.0im, 5.0 + 6.0im), 7.0, 8.0)
@test_huge 3 'b' ((1.0 + 2.0im, 3.0 + 4.0im, 5.0 + 6.0im, 7.0 + 8.0im, 9.0 + 10.0im, 11.0 + 12.0im, 13.0 + 14.0im), 7.0, 8.0)
@test_huge 3 'c' ((1.0 + 2.0im, 3.0 + 4.0im, 5.0 + 6.0im, 7.0 + 8.0im, 9.0 + 10.0im, 11.0 + 12.0im, 13.0 + 14.0im), 7.0, 8.0, 9.0)
@test_huge 4 'a' (1.0 + 2.0im, 3.0 + 4.0im, 5.0f0 + 6.0f0im, 7.0 + 8.0im, 9.0)
@test_huge 4 'b' (1.0 + 2.0im, 3.0 + 4.0im, 5.0f0 + 6.0f0im, 7.0 + 8.0im, 9.0 + 10.0im)
@test_huge 5 'a' ((1 + 2im, 3 + 4im, 5 + 6im, 7 + 8im, 9 + 10im, 11 + 12im, 13 + 14im, 15 + 16im),)
@test_huge 5 'b' ((1 + 2im, 3 + 4im, 5 + 6im, 7 + 8im, 9 + 10im, 11 + 12im, 13 + 14im, 15 + 16im, 17 + 17im),)
## cfunction roundtrip
verbose && Libc.flush_cstdio()
verbose && println("Testing cfunction roundtrip: ")
cf64 = 2.84+5.2im
cf32 = 3.34f0+53.2f0im
ci32 = Complex{Int32}(Int32(10),Int32(31))
ci64 = Complex{Int64}(Int64(20),Int64(51))
s1 = Struct1(352.39422f23, 19.287577)
==(a::Struct1,b::Struct1) = a.x == b.x && a.y == b.y
for (t,v) in ((Complex{Int32},:ci32),(Complex{Int64},:ci64),
(Complex64,:cf32),(Complex128,:cf64),(Struct1,:s1))
fname = Symbol("foo",v)
fname1 = Symbol("foo1",v)
@eval begin
verbose && println($t)
a = copy($v)
verbose && println("A: ",a)
function $fname1(s::$t)
verbose && println("B: ",s)
@test s == $v
@test s === a
global c = s
s
end
function $fname1(s)
@assert false
end
function $fname(s::$t)
verbose && println("B: ",s)
@test s == $v
if($(t).mutable)
@test !(s === a)
end
global c = s
s
end
function $fname(s)
@assert false
end
b = ccall(cfunction($fname1,Ref{$t},(Ref{$t},)),Ref{$t},(Ref{$t},),a)
verbose && println("C: ",b)
@test b == $v
@test b === a
@test b === c
b = ccall(cfunction($fname,$t,($t,)),$t,($t,),a)
verbose && println("C: ",b)
@test b == $v
if ($(t).mutable)
@test !(b === c)
@test !(b === a)
end
b = ccall(cfunction($fname1,$t,(Ref{$t},)),$t,(Ref{$t},),a)
verbose && println("C: ",b)
@test b == $v
if ($(t).mutable)
@test !(b === c)
@test !(b === a)
end
b = ccall(cfunction($fname,Ref{$t},($t,)),Ref{$t},($t,),a)
verbose && println("C: ",b)
@test b == $v
@test b === c
if ($(t).mutable)
@test !(b === a)
end
b = ccall(cfunction($fname,Any,(Ref{$t},)),Any,(Ref{$t},),$v)
verbose && println("C: ",b)
@test b == $v
@test b === c
if ($(t).mutable)
@test !(b === a)
end
b = ccall(cfunction($fname,Any,(Ref{Any},)),Any,(Ref{Any},),$v)
@test b == $v
@test b === c
if ($(t).mutable)
@test !(b === a)
end
@test_throws TypeError ccall(cfunction($fname,Ref{AbstractString},(Ref{Any},)),Any,(Ref{Any},),$v)
@test_throws TypeError ccall(cfunction($fname,AbstractString,(Ref{Any},)),Any,(Ref{Any},),$v)
end
end
# issue 13031
foo13031(x) = Cint(1)
foo13031p = cfunction(foo13031, Cint, (Ref{Tuple{}},))
ccall(foo13031p, Cint, (Ref{Tuple{}},), ())
foo13031(x,y,z) = z
foo13031p = cfunction(foo13031, Cint, (Ref{Tuple{}},Ref{Tuple{}},Cint))
ccall(foo13031p, Cint, (Ref{Tuple{}},Ref{Tuple{}},Cint), (), (), 8)
# issue 17219
function ccall_reassigned_ptr(ptr::Ptr{Void})
ptr = Libdl.dlsym(Libdl.dlopen(libccalltest), "test_echo_p")
ccall(ptr, Any, (Any,), "foo")
end
@test ccall_reassigned_ptr(C_NULL) == "foo"
# @threadcall functionality
threadcall_test_func(x) =
@threadcall((:testUcharX, libccalltest), Int32, (UInt8,), x % UInt8)
@test threadcall_test_func(3) == 1
@test threadcall_test_func(259) == 1
let n=3
tids = Culong[]
@sync for i in 1:10^n
@async push!(tids, @threadcall(:uv_thread_self, Culong, ()))
end
# The work should not be done on the master thread
t0 = ccall(:uv_thread_self, Culong, ())
@test length(tids) == 10^n
for t in tids
@test t != t0
end
end
@test ccall(:jl_getpagesize, Clong, ()) == @threadcall(:jl_getpagesize, Clong, ())
# Pointer finalizer (issue #15408)
let A = [1]
ccall((:set_c_int, libccalltest), Void, (Cint,), 1)
@test ccall((:get_c_int, libccalltest), Cint, ()) == 1
finalizer(A, cglobal((:finalizer_cptr, libccalltest), Void))
finalize(A)
@test ccall((:get_c_int, libccalltest), Cint, ()) == -1
end
# SIMD Registers
typealias VecReg{N,T} NTuple{N,VecElement{T}}
typealias V2xF32 VecReg{2,Float32}
typealias V4xF32 VecReg{4,Float32}
typealias V2xF64 VecReg{2,Float64}
typealias V2xI32 VecReg{2,Int32}
typealias V4xI32 VecReg{4,Int32}
immutable Struct_AA64_1
v1::Int32
v2::Int128
end
immutable Struct_AA64_2
v1::Float16
v2::Float64
end
# This is a homogenious short vector aggregate
immutable Struct_AA64_3
v1::VecReg{8,Int8}
v2::VecReg{2,Float32}
end
# This is NOT a homogenious short vector aggregate
immutable Struct_AA64_4
v2::VecReg{2,Float32}
v1::VecReg{8,Int16}
end
type Struct_huge1_ppc64
m::Int64
v::V4xF32
end
type Struct_huge2_ppc64
v1::V4xF32
v2::V2xI32
end
type Struct_huge3_ppc64
v1::V4xF32
f::NTuple{4,Float32}
end
type Struct_huge4_ppc64
v1::V2xF32
v2::V2xF64
end
type Struct_huge5_ppc64
v1::NTuple{9,V4xF32}
end
type Struct_huge6_ppc64
v1::NTuple{8,V4xF32}
v2::V4xF32
end
type Struct_huge7_ppc64
v1::VecReg{3,Int32}
v2::VecReg{3,Int32}
end
type Struct_huge1_ppc64_hva
v1::NTuple{8,V4xF32}
end
type Struct_huge2_ppc64_hva
v1::NTuple{2,NTuple{2,V4xF32}}
end
type Struct_huge3_ppc64_hva
vf1::V4xF32
vf2::Tuple{NTuple{2,V4xF32}}
end
type Struct_huge4_ppc64_hva
v1::V4xI32
v2::V4xF32
end
type Struct_huge5_ppc64_hva
v1::V4xI32
v2::V2xF64
end
if Sys.ARCH === :x86_64
function test_sse(a1::V4xF32,a2::V4xF32,a3::V4xF32,a4::V4xF32)
ccall((:test_m128, libccalltest), V4xF32, (V4xF32,V4xF32,V4xF32,V4xF32), a1, a2, a3, a4)
end
function test_sse(a1::V4xI32,a2::V4xI32,a3::V4xI32,a4::V4xI32)
ccall((:test_m128i, libccalltest), V4xI32, (V4xI32,V4xI32,V4xI32,V4xI32), a1, a2, a3, a4)
end
foo_ams(a1, a2, a3, a4) = VecReg(ntuple(i->VecElement(a1[i].value+a2[i].value*(a3[i].value-a4[i].value)),4))
rt_sse{T}(a1::T,a2::T,a3::T,a4::T) = ccall(cfunction(foo_ams,T,(T,T,T,T)), T, (T,T,T,T), a1, a2, a3,a4)
for s in [Float32,Int32]
a1 = VecReg(ntuple(i->VecElement(s(1i)),4))
a2 = VecReg(ntuple(i->VecElement(s(2i)),4))
a3 = VecReg(ntuple(i->VecElement(s(3i)),4))
a4 = VecReg(ntuple(i->VecElement(s(4i)),4))
r = VecReg(ntuple(i->VecElement(s(1i+2i*(3i-4i))),4))
@test test_sse(a1,a2,a3,a4) == r
# cfunction round-trip
@test rt_sse(a1,a2,a3,a4) == r
end
elseif Sys.ARCH === :aarch64
for v1 in 1:99:1000, v2 in -100:-1999:-20000
@test ccall((:test_aa64_i128_1, libccalltest), Int128,
(Int64, Int128), v1, v2) == v1 * 2 - v2
end
for v1 in 1:4, v2 in -4:-1, v3_1 in 3:5, v3_2 in 7:9
res = ccall((:test_aa64_i128_2, libccalltest), Struct_AA64_1,
(Int64, Int128, Struct_AA64_1),
v1, v2, Struct_AA64_1(v3_1, v3_2))
expected = Struct_AA64_1(v1 ÷ 2 + 1 - v3_1, v2 * 2 - 1 - v3_2)
@test res === expected
end
for v1 in 1:4, v2 in -4:-1, v3 in 3:5, v4 in -(1:3)
res = ccall((:test_aa64_fp16_1, libccalltest), Float16,
(Cint, Float32, Float64, Float16),
v1, v2, v3, v4)
expected = Float16(v1 + v2 * 2 + v3 * 3 + v4 * 4)
@test res === expected
res = ccall((:test_aa64_fp16_2, libccalltest), Struct_AA64_2,
(Cint, Float32, Float64, Float16),
v1, v2, v3, v4)
expected = Struct_AA64_2(v4 / 2 + 1, v1 * 2 + v2 * 4 - v3)
@test res === expected
end
for v1_1 in 1:4, v1_2 in -2:2, v2 in -4:-1, v3_1 in 3:5, v3_2 in 6:8
res = ccall((:test_aa64_vec_1, libccalltest),
VecReg{2,Int64},
(VecReg{2,Int32}, Float32, VecReg{2,Int32}),
(VecElement(Int32(v1_1)), VecElement(Int32(v1_2))),
v2, (VecElement(Int32(v3_1)), VecElement(Int32(v3_2))))
expected = (VecElement(v1_1 * v2 + v3_1), VecElement(v1_2 * v2 + v3_2))
@test res === expected
end
for v1_11 in 1:4, v1_12 in -2:2, v1_21 in 1:4, v1_22 in -2:2,
v2_11 in 1:4, v2_12 in -2:2, v2_21 in 1:4, v2_22 in -2:2
v1 = Struct_AA64_3((VecElement(Int8(v1_11)), VecElement(Int8(v1_12)),
VecElement(Int8(0)), VecElement(Int8(0)),
VecElement(Int8(0)), VecElement(Int8(0)),
VecElement(Int8(0)), VecElement(Int8(0))),
(VecElement(Float32(v1_21)),
VecElement(Float32(v1_22))))
v2 = Struct_AA64_4((VecElement(Float32(v2_21)),
VecElement(Float32(v2_22))),
(VecElement(Int16(v2_11)), VecElement(Int16(v2_12)),
VecElement(Int16(0)), VecElement(Int16(0)),
VecElement(Int16(0)), VecElement(Int16(0)),
VecElement(Int16(0)), VecElement(Int16(0))))
res = ccall((:test_aa64_vec_2, libccalltest),
Struct_AA64_3, (Struct_AA64_3, Struct_AA64_4), v1, v2)
expected = Struct_AA64_3((VecElement(Int8(v1_11 + v2_11)),
VecElement(Int8(v1_12 + v2_12)),
VecElement(Int8(0)), VecElement(Int8(0)),
VecElement(Int8(0)), VecElement(Int8(0)),
VecElement(Int8(0)), VecElement(Int8(0))),
(VecElement(Float32(v1_21 - v2_21)),
VecElement(Float32(v1_22 - v2_22))))
@test res === expected
end
elseif Sys.ARCH === :powerpc64le || Sys.ARCH === :ppc64le
@test_huge 1 "_ppc64" (1, (2.0, 3.0, 4.0, 5.0),)
@test_huge 2 "_ppc64" ((1.0, 2.0, 3.0, 4.0), (11, 12))
@test_huge 3 "_ppc64" ((1, 2, 3, 4), (11.0, 12.0, 13.0, 14.0))
@test_huge 4 "_ppc64" ((1, 2), (11.0, 12.0))
@test_huge 5 "_ppc64" ((((1.0, 2.0, 3.0, 4.0),
(5.0, 6.0, 7.0, 8.0),
(11.0, 12.0, 13.0, 14.0),
(15.0, 16.0, 17.0, 18.0),
(21.0, 22.0, 23.0, 24.0),
(25.0, 26.0, 27.0, 28.0),
(31.0, 32.0, 33.0, 34.0),
(35.0, 36.0, 37.0, 38.0),
(41.0, 42.0, 43.0, 44.0)),))
@test_huge 6 "_ppc64" ((((1.0, 2.0, 3.0, 4.0),
(5.0, 6.0, 7.0, 8.0),
(11.0, 12.0, 13.0, 14.0),
(15.0, 16.0, 17.0, 18.0),
(21.0, 22.0, 23.0, 24.0),
(25.0, 26.0, 27.0, 28.0),
(31.0, 32.0, 33.0, 34.0),
(35.0, 36.0, 37.0, 38.0)),
(41.0, 42.0, 43.0, 44.0)))
@test_huge 1 "_ppc64_hva" ((((1.0, 2.0, 3.0, 4.0),
(5.0, 6.0, 7.0, 8.0),
(11.0, 12.0, 13.0, 14.0),
(15.0, 16.0, 17.0, 18.0),
(21.0, 22.0, 23.0, 24.0),
(25.0, 26.0, 27.0, 28.0),
(31.0, 32.0, 33.0, 34.0),
(35.0, 36.0, 37.0, 38.0)),))
@test_huge 2 "_ppc64_hva" (((((1.0, 2.0, 3.0, 4.0),
(5.0, 6.0, 7.0, 8.0)),
((11.0, 12.0, 13.0, 14.0),
(15.0, 16.0, 17.0, 18.0))),))
@test_huge 3 "_ppc64_hva" (((1.0, 2.0, 3.0, 4.0),
(((11.0, 12.0, 13.0, 14.0),
(15.0, 16.0, 17.0, 18.0)),)))
@test_huge 4 "_ppc64_hva" (((1, 2, 3, 4),
(11.0, 12.0, 13.0, 14.0)))
@test_huge 5 "_ppc64_hva" (((1, 2, 3, 4),
(11.0, 12.0)))
@test 18451 == ccall((:test_ppc64_vec1long, libccalltest), Int64,
(Int64, Int64, Int64, Int64, Int64, Int64, Int64, Int64, Int64, Struct_huge1_ppc64),
1, 2, 3, 4, 5, 6, 7, 8, 9, Struct_huge1_ppc64(18000, (100, 101, 102, 103)))
@test 941 == ccall((:test_ppc64_vec1long_vec, libccalltest), Int64,
(Int64, Int64, Int64, Int64, Int64, Int64, Int64, Int64, Int64, V4xF32),
11, 12, 13, 14, 15, 16, 17, 18, 19, (200, 201, 202, 203))
@test V4xF32((614232, 614218, 614204, 614190)) ==
ccall((:test_ppc64_vec2, libccalltest), V4xF32,
(Int64, V4xF32, V4xF32, V4xF32, V4xF32,
V4xF32, V4xF32, V4xF32, V4xF32, V4xF32,
V4xF32, V4xF32, V4xF32, V4xF32, V4xF32),
600000, (4, 3, 2, 1), (5, 4, 3, 2), (6, 5, 4, 3), (7, 6, 5, 4),
(14, 13, 12, 11), (15, 14, 13, 12), (16, 15, 14, 13), (17, 16, 15, 14), (18, 17, 16, 15),
(1024, 1023, 1022, 1021), (1025, 1024, 1023, 1022), (1026, 1025, 1024, 1023), (1027, 1026, 1025, 1024), (10028, 10027, 10026, 10025))
elseif Sys.ARCH !== :i686 && Sys.ARCH !== :arm # TODO
warn("ccall: no VecReg tests run for this platform")
end
# Special calling convention for `Array`
function f17204(a)
b = similar(a)
for i in eachindex(a)
b[i] = a[i] + 10
end
return b
end
@test ccall(cfunction(f17204, Vector{Any}, Tuple{Vector{Any}}),
Vector{Any}, (Vector{Any},), Any[1:10;]) == Any[11:20;]