mirror of
https://github.com/kalmarek/GroupRings.jl.git
synced 2024-12-29 11:00:28 +01:00
commit
e977f9c2b1
@ -5,9 +5,8 @@ os:
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- osx
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julia:
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- 1.0
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- 1.1
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- 1.2
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- 1.3
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- 1.4
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- 1.5
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- nightly
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notifications:
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email: true
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@ -1,7 +1,7 @@
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name = "GroupRings"
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uuid = "0befed6a-bd73-11e8-1e41-a1190947c2f5"
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authors = ["Marek Kaluba <kalmar@amu.edu.pl>"]
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version = "0.3.2"
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version = "0.3.3"
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[deps]
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AbstractAlgebra = "c3fe647b-3220-5bb0-a1ea-a7954cac585d"
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@ -21,7 +21,7 @@ mutable struct GroupRing{Gr<:GroupOrNCRing, T<:GroupOrNCRingElem} <: NCRing
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group::Gr
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basis::Vector{T}
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basis_dict::Dict{T, Int}
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pm::Array{Int,2}
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pm::Matrix{Int}
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function GroupRing(G::Gr, basis::Vector{T};
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cachedmul::Bool=false) where {Gr, T}
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@ -75,7 +75,7 @@ function GroupRing(G::Generic.SymmetricGroup; cachedmul::Bool=false)
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return GroupRing(G, vec(collect(G)), cachedmul=cachedmul)
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end
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function GroupRing(G::Group, basis::Vector, pm::Array{Int,2})
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function GroupRing(G::Group, basis::AbstractVector, pm::AbstractMatrix{<:Integer})
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size(pm,1) == size(pm,2) || throw("pm must be square, got $(size(pm))")
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eltype(basis) == elem_type(G) || throw("Basis must consist of elements of $G")
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return GroupRing(G, basis, reverse_dict(basis), pm)
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@ -95,9 +95,7 @@ parent(g::GroupRingElem) = g.parent
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parent_type(X::GroupRingElem) = typeof(parent(X))
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import Base.promote_rule
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promote_rule(::Type{GroupRingElem{T}}, ::Type{GroupRingElem{S}}) where {T,S} =
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Base.promote_rule(::Type{GroupRingElem{T}}, ::Type{GroupRingElem{S}}) where {T,S} =
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GroupRingElem{promote_type(T,S)}
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function convert(::Type{T}, X::GroupRingElem) where T<:Number
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@ -259,9 +257,6 @@ end
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###############################################################################
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function (==)(X::GroupRingElem, Y::GroupRingElem)
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if eltype(X.coeffs) != eltype(Y.coeffs)
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@warn("Comparing elements with different coeffs Rings!")
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end
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suppX = supp(X)
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suppX == supp(Y) || return false
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@ -284,6 +279,9 @@ end
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hasbasis(A::GroupRing) = isdefined(A, :basis)
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Base.deepcopy_internal(x::GroupRingElem, dict::IdDict) =
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parent(x)(deepcopy(x.coeffs))
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###############################################################################
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#
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# Scalar operators
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@ -297,19 +295,13 @@ function mul!(a::T, X::GroupRingElem{T}) where T
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return X
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end
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mul(a::T, X::GroupRingElem{T}) where T = GroupRingElem(a*X.coeffs, parent(X))
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_mul(a::Number, X::GroupRingElem) = GroupRingElem(a*X.coeffs, parent(X))
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function mul(a::T, X::GroupRingElem{S}) where {T<:Number, S}
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TT = promote_type(T,S)
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TT == S || @warn("Scalar and coeffs are in different rings! Promoting result to $(TT)")
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return GroupRingElem(a.*X.coeffs, parent(X))
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end
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(*)(a::Number, X::GroupRingElem) = mul(a, X)
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(*)(X::GroupRingElem, a::Number) = mul(a, X)
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Base.:*(a::Number, X::GroupRingElem) = _mul(a, X)
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Base.:*(X::GroupRingElem, a::Number) = a*X
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# disallow Rings to hijack *(::, ::GroupRingElem)
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*(a::Union{AbstractFloat, Integer, RingElem, Rational}, X::GroupRingElem) = mul(a, X)
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*(a::Union{AbstractFloat, Integer, RingElem, Rational}, X::GroupRingElem) = _mul(a, X)
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(/)(X::GroupRingElem, a) = 1/a*X
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(//)(X::GroupRingElem, a::Union{Integer, Rational}) = 1//a*X
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@ -327,21 +319,8 @@ function addeq!(X::GroupRingElem, Y::GroupRingElem)
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return X
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end
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function +(X::GroupRingElem{T}, Y::GroupRingElem{T}) where T
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return GroupRingElem(X.coeffs+Y.coeffs, parent(X))
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end
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function +(X::GroupRingElem{S}, Y::GroupRingElem{T}) where {S, T}
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@warn("Adding elements with different coefficient rings, Promoting result to $(promote_type(T,S))")
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return GroupRingElem(X.coeffs+Y.coeffs, parent(X))
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end
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-(X::GroupRingElem{T}, Y::GroupRingElem{T}) where T = addeq!((-Y), X)
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function -(X::GroupRingElem{S}, Y::GroupRingElem{T}) where {S, T}
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@warn("Adding elements with different coefficient rings, Promoting result to $(promote_type(T,S))")
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addeq!((-Y), X)
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end
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Base.:+(X::GroupRingElem, Y::GroupRingElem) = addeq!(deepcopy(X), Y)
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-(X::GroupRingElem, Y::GroupRingElem) where T = addeq!((-Y), X)
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"""
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fmac!(result::AbstractVector{T},
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@ -425,7 +404,7 @@ function mul!(result::GroupRingElem, X::GroupRingElem, Y::GroupRingElem)
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if isdefined(RG, :pm)
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s = size(RG.pm)
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k = findprev(!iszero, X.coeffs, lX)
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(k == nothing ? 0 : k) <= s[1] || throw("Element in X outside of support of parents product")
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(k == nothing ? 0 : k) <= s[1] || throw("Element in X outside of support of parents product: $k $(RG.basis[k])")
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k = findprev(!iszero, Y.coeffs, lY)
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(k == nothing ? 0 : k) <= s[2] || throw("Element in Y outside of support of parents product")
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@ -455,34 +434,18 @@ function mul!(result::GroupRingElem, X::GroupRingElem, Y::GroupRingElem)
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return result
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end
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function *(X::GroupRingElem{T}, Y::GroupRingElem{T}, check::Bool=true) where T
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if check
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parent(X) == parent(Y) || throw("Elements don't seem to belong to the same Group Ring!")
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end
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if hasbasis(parent(X))
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result = parent(X)(similar(X.coeffs))
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result = mul!(result, X, Y)
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else
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result = GRmul!(similar(X.coeffs), X.coeffs, Y.coeffs, parent(X).pm)
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result = GroupRingElem(result, parent(X))
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end
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return result
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end
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function *(X::GroupRingElem{T}, Y::GroupRingElem{S}, check::Bool=true) where {T,S}
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if check
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parent(X) == parent(Y) || throw("Elements don't seem to belong to the same Group Ring!")
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parent(X) === parent(Y) || throw("Elements don't seem to belong to the same Group Ring!")
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end
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TT = typeof(first(X.coeffs)*first(Y.coeffs))
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@warn("Multiplying elements with different base rings! Promoting the result to $TT.")
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TT = promote_type(T,S)
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if hasbasis(parent(X))
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result = parent(X)(similar(X.coeffs))
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result = convert(TT, result)
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result = parent(X)(similar(X.coeffs, TT))
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result = mul!(result, X, Y)
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else
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result = convert(TT, similar(X.coeffs))
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result = similar(X.coeffs, TT)
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result = RGmul!(result, X.coeffs, Y.coeffs, parent(X).pm)
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result = GroupRingElem(result, parent(X))
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end
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@ -501,13 +464,16 @@ function star(X::GroupRingElem{T}) where T
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result = RG(T)
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for (i,c) in enumerate(X.coeffs)
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if c != zero(T)
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g = inv(RG.basis[i])
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g = star(RG.basis[i])
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result[g] = c
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end
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end
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return result
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end
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star(g::GroupElem) = inv(g)
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star(r::NCRingElem) = inv(r)
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###############################################################################
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#
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# Misc
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@ -535,7 +501,7 @@ function create_pm(basis::AbstractVector{T}, basis_dict::Dict{T, Int},
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Threads.@threads for i in 1:limit
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x = basis[i]
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if twisted
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x = inv(x)
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x = star(x)
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end
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for j in 1:limit
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product_matrix[i,j] = get(basis_dict, x*basis[j], 0)
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@ -554,7 +520,7 @@ function check_pm(product_matrix, basis, twisted=false)
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if idx != nothing
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@warn("Product is not supported on basis")
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i,j = Tuple(idx)
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x = (twisted ? inv(basis[i]) : basis[i])
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x = (twisted ? star(basis[i]) : basis[i])
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throw(KeyError(x*basis[j]))
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end
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return true
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@ -568,9 +534,9 @@ function complete!(RG::GroupRing, twisted::Bool=false)
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end
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warning = false
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for idx in findall(RG.pm .== 0)
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for idx in findall(iszero, RG.pm)
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i,j = Tuple(idx)
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g = (twisted ? inv(RG.basis[i]) : RG.basis[i])*RG.basis[j]
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g = (twisted ? star(RG.basis[i]) : RG.basis[i])*RG.basis[j]
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if haskey(RG.basis_dict, g)
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RG.pm[i,j] = RG.basis_dict[g]
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else
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@ -145,10 +145,10 @@ using SparseArrays
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ww = "Scalar and coeffs are in different rings! Promoting result to Float64"
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@test isa(2.0*a, GroupRingElem)
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@test_logs (:warn, ww) eltype(2.0*a) == typeof(2.0)
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@test_logs (:warn, ww) (2.0*a).coeffs == 2.0.*(a.coeffs)
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@test eltype(2.0*a) == typeof(2.0)
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@test (2.0*a).coeffs == 2.0.*(a.coeffs)
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@test_logs (:warn, ww) (a/2).coeffs == a.coeffs./2
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@test (a/2).coeffs == a.coeffs./2
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b = a/2
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@test isa(b, GroupRingElem)
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@test eltype(b) == typeof(1/2)
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