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https://github.com/kalmarek/GroupRings.jl.git
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add conformance tests
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325
test/AARing_interface_conformance.jl
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325
test/AARing_interface_conformance.jl
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using Test
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using AbstractAlgebra
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has_base_ring(R::AbstractAlgebra.NCRing) = base_ring(R) != Union{}
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function test_data_type(f,g)
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@testset "Data type" begin
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f,g = deepcopy(f), deepcopy(g)
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if f isa NCRingElem
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@test parent(f) isa AbstractAlgebra.NCRing
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else
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@test parent(f) isa AbstractAlgebra.Ring
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end
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R = parent(f)
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@test typeof(R) <: parent_type(typeof(f))
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@test typeof(f) <: elem_type(typeof(R))
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@test base_ring(R) isa AbstractAlgebra.Ring || base_ring(R) == Union{}
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if f isa RingElement
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@test isdomain_type(typeof(f)) isa Bool
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end
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@test isexact_type(typeof(f)) isa Bool
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@test deepcopy(f) isa typeof(f)
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@test !(deepcopy(f) === f)
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@test parent(deepcopy(f)) === parent(f)
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@test hash(f, UInt(0)) isa UInt
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@test hash(deepcopy(f)) == hash(f)
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end
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end
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function test_constructors(f,g)
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@testset "Constructors" begin
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f,g = deepcopy(f), deepcopy(g)
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R = parent(f)
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@test R() isa typeof(f)
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@test R(0) isa typeof(f)
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@test R(Int16(0)) isa typeof(f)
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@test R(big(1)) isa typeof(f)
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@test zero(R) isa typeof(f)
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@test one(R) isa typeof(f)
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# no copy constructor
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@test R(f) === f
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if has_base_ring(R)
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S = base_ring(R)
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@test R(S(0)) isa typeof(f)
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@test R(S(1)) isa typeof(f)
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end
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@test iszero(R(0))
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@test !iszero(R(1))
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@test isone(R(1))
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@test !isone(R(0))
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@test !(iszero(f) && isone(f))
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if f isa RingElement
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@test canonical_unit(f) isa typeof(f)
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@test canonical_unit(f)*canonical_unit(g) == canonical_unit(f * g)
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if f isa FieldElement
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@test canonical_unit(f) === f
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end
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end
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end
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end
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function test_string_io(f,g)
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f,g = deepcopy(f), deepcopy(g)
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@testset "String I/O" begin
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# these go through show unless string() is defined
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@test string(f) isa String
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@test string(parent(f)) isa String
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@test needs_parentheses(f) isa Bool
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@test displayed_with_minus_in_front(f) isa Bool
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@test show_minus_one(typeof(f)) isa Bool
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end
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end
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function test_comparison(f,g)
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f,g = deepcopy(f), deepcopy(g)
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@testset "Comparison" begin
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R = parent(f)
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@test R(0) == R()
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@test R(Int16(0)) == R()
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@test zero(R) == R(0)
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@test one(R) == R(1)
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@test f == f
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@test g == g
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@test (f == g) isa Bool
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@test isequal(f,g) isa Bool
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@test isequal(R(0), R())
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@test isequal(R(1), one(R))
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@test isequal(f,f)
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@test isequal(g,g)
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if !isexact_type(typeof(f))
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@test isapprox(f, f; atol=1e-12) isa Bool
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if has_base_ring(R)
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S = base_ring(R)
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@test isapprox(f, S(1); atol=1e-12) isa Bool
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@test isapprox(S(1), f; atol=1e-12) isa Bool
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end
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end
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end
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end
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function test_unary_binary_ops(f,g)
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f,g = deepcopy(f), deepcopy(g)
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@testset "Unary/binary operators" begin
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R = parent(f)
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# check that operations have no side effects:
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old_f, old_g = deepcopy(f), deepcopy(g)
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@test parent(-f) == parent(f)
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@test !(-f === f)
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@test f+g isa typeof(f)
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@test parent(f) == parent(f+g)
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@test !(f+g === f) && !(f+g === g)
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@test f == old_f && g == old_g
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@test f-g isa typeof(f)
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@test parent(f) == parent(f-g)
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@test !(f-g === f) && !(f-g === g)
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@test f == old_f && g == old_g
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@test f*g isa typeof(f)
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@test parent(f) == parent(f*g)
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@test !(f*g === f) && !(f*g === g)
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@test f == old_f && g == old_g
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# unary minus
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@test -f isa typeof(f)
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@test -(-f) == f
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@test -R(1) == R(-1)
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@test -R(0) == R(0)
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# arithmetic binary ops
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@test f + g == g + f
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@test R(0) + R(1) == R(1)
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@test R(1) + R(1) == R(2)
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@test R(0) - R(1) == -R(1)
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@test f - f == -f + f == R(0)
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@test (f + g) + R(1) == g + (f + R(1))
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@test R(0) * R(1) == R(0)
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@test R(1) * f == f
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@test R(0) * f == R(0)
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@test f^2 == f * f
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@test f^5 == (f * f)^2 * f
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@test (f*g)^2 == f*g*f*g
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end
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end
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function test_divexact(f,g)
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f,g = deepcopy(f), deepcopy(g)
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@testset "divexact" begin
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R = parent(f)
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try
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divexact_left(g*f, f)
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@test divexact_left(g*f, f) == g
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if f isa RingElement && g isa RingElement
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@test divexact_left(g*f, g) == divexact_right(g*f, g)
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end
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catch DivideError
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nothing
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end
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try
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divexact_right(f*g, g)
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@test divexact_right(f*g, g) == f
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if f isa RingElement && g isa RingElement
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@test divexact_left(f*g, f) == divexact_right(g*f, f)
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end
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catch DivideError
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nothing
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end
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if f isa RingElement && g isa RingElement
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@test_throws DivideError divexact(f, R(0))
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end
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@test divexact_left(f, R(1)) == f
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@test divexact_right(g, R(1)) == g
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@test_throws DivideError divexact_left(f, R(0))
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@test_throws DivideError divexact_right(f, R(0))
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end
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end
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function test_unsafe_ops(f,g)
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f,g = deepcopy(f), deepcopy(g)
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@testset "unsafe operators" begin
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R = parent(f)
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let f = f, g = g
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t = deepcopy(f)
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@test zero!(t) == R(0)
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@test AbstractAlgebra.mul!(t, f, g) == f*g
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@test add!(t, f, g) == f+g
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@test addeq!(deepcopy(f), g) == f + g
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# the same but with aliasing:
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v = f * g
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@test AbstractAlgebra.mul!(f, f, g) == v
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v = f + g
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@test add!(f, f, g) == v
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v = f + g
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@test addeq!(f, g) == v
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end
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end
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end
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function test_promote_rules(f,g)
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f,g = deepcopy(f), deepcopy(g)
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@testset "promote_rules" begin
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@test AbstractAlgebra.promote_rule(typeof(f), Int16) == typeof(f)
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@test AbstractAlgebra.promote_rule(typeof(f), typeof(g)) == typeof(f)
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if has_base_ring(parent(f))
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S = base_ring(parent(f))
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@test AbstractAlgebra.promote_rule(typeof(f), elem_type(S)) == typeof(f)
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end
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# @test promote_rupe(typeof(f), BigInt) == typeof(f)
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end
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end
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function test_optional_functionality(f,g)
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f,g = deepcopy(f), deepcopy(g)
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function test_pmt(f,x, T=typeof(f))
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@test f+x isa T
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@test x+f isa T
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@test f-x isa T
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@test x-f isa T
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@test f*x isa T
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@test x*f isa T
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end
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@testset "Optional functionality" begin
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R = parent(f)
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@test R(1) == 1
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@test 0 == R(0)
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test_pmt(f, 2, typeof(f))
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if has_base_ring(R)
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S = base_ring(R)
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test_pmt(f, S(2), typeof(f))
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@test R(1) == S(1)
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@test S(0) == R(0)
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end
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try
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divexact(f, 1)
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@test divexact(f, 1) == f
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catch MethodError
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nothing
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end
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try
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isunit(f)
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@test isunit(f) isa Bool
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catch MethodError
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nothing
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end
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try
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f^big(2)
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@test f^big(2) == f^2
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catch MethodError
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nothing
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end
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try
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addmul!(r, f, g, R(0))
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r = R(1)
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@test addmul!(r, f, g, R(0)) == 1 + f * g
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@test r == 1 + f*g
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v = deepcopy(f)
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@test addmul!(f, f, g, R(0)) == v + v * g
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@test f == v + v*g
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catch MethodError
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nothing
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end
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end
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end
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function test_ringinterface(f, g)
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@testset "Ring Interface" begin
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test_data_type(f,g)
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test_constructors(f,g)
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test_string_io(f,g)
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test_comparison(f,g)
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test_unary_binary_ops(f,g)
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test_divexact(f,g)
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test_unsafe_ops(f,g)
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test_promote_rules(f,g)
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@testset "rand" begin
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# ???
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end
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test_optional_functionality(f,g)
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end
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end
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@ -9,6 +9,15 @@ include("unittests.jl")
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include("usetests.jl")
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let
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include("AARing_interface_conformance.jl")
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R = AbstractAlgebra.zz
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G = PermGroup(4)
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RG = GroupRing(R, G, collect(G), halfradius_length=order(G))
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X = rand(RG, 0.2, -3:3)
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Y = rand(RG, 0.4, -1:1)
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test_ringinterface(X, Y)
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end
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