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add GroupRing cache and basis manipulation

This commit is contained in:
kalmarek 2019-06-04 22:45:15 +02:00
parent 900709f5f2
commit e4e5121a71
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2 changed files with 96 additions and 78 deletions

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@ -13,84 +13,6 @@ import Base: convert, show, hash, ==, +, -, *, ^, //, /, length, getindex, setin
export GroupRing, GroupRingElem, complete!, create_pm, star, aug, supp
function reverse_dict(::Type{I}, iter) where I<:Integer
length(iter) > typemax(I) && error("Can not produce reverse dict: $(length(iter)) is too large for $T")
return Dict{eltype(iter), I}(x => i for (i,x) in enumerate(iter))
end
reverse_dict(iter) = reverse_dict(Int, iter)
function create_pm(basis::Vector{T}, basis_dict::Dict{T, Int},
limit::Int=length(basis); twisted::Bool=false, check=true) where {T<:GroupElem}
product_matrix = zeros(Int, (limit,limit))
Threads.@threads for i in 1:limit
x = basis[i]
if twisted
x = inv(x)
end
for j in 1:limit
product_matrix[i,j] = basis_dict[x*basis[j]]
end
end
check && check_pm(product_matrix, basis, twisted)
return product_matrix
end
create_pm(b::Vector{T}) where {T<:GroupElem} = create_pm(b, reverse_dict(b))
function check_pm(product_matrix, basis, twisted=false)
idx = findfirst(product_matrix' .== 0)
if idx != nothing
@warn("Product is not supported on basis")
i,j = Tuple(idx)
x = basis[i]
if twisted
x = inv(x)
end
throw(KeyError(x*basis[j]))
end
return true
end
function complete!(RG::GroupRing)
isdefined(RG, :basis) || throw(ArgumentError("Provide basis for completion first!"))
if !isdefined(RG, :pm)
initializepm!(RG, fill=false)
return RG
end
warning = false
for idx in findall(RG.pm .== 0)
i,j = Tuple(idx)
g = RG.basis[i]*RG.basis[j]
if haskey(RG.basis_dict, g)
RG.pm[i,j] = RG.basis_dict[g]
else
if !warning
warning = true
end
end
end
warning && @warn("Some products were not supported on basis")
return RG
end
function initializepm!(RG::GroupRing; fill::Bool=false)
isdefined(RG, :basis) || throw("For baseless Group Rings You need to provide pm.")
isdefined(RG, :pm) && return RG
if fill
RG.pm = try
create_pm(RG.basis, RG.basis_dict)
catch err
isa(err, KeyError) && throw("Product is not supported on basis, $err.")
throw(err)
end
else
RG.pm = zeros(Int, length(RG.basis), length(RG.basis))
end
return RG
end
end # of module GroupRings

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@ -159,3 +159,99 @@ function AbstractAlgebra.change_base_ring(X::GroupRingElem, R::Ring)
end
end
###############################################################################
#
# Cache Manipulation
#
###############################################################################
hasbasis(RG::GroupRing) = isdefined(RG, :basis)
cachesmultiplication(RG::GroupRing) = isdefined(RG, :pm)
reverse_dict(iter) = reverse_dict(Int32, iter)
function reverse_dict(::Type{I}, iter) where I<:Integer
length(iter) > typemax(I) && error("Can not produce reverse dict: $(length(iter)) is too large for $I")
return Dict{eltype(iter), I}(x => i for (i,x) in enumerate(iter))
end
setcache!(RG::GroupRing, pm::Matrix{<:Integer}) = (RG.pm = pm; return RG)
function complete!(RG::GroupRing,
indX=1:size(RG.pm, 1),
indY=1:size(RG.pm, 2);
twisted::Bool=false)
@assert hasbasis(RG)
# preallocate elements:
res = RG.group()
x = RG.group()
i_old = 0
for (i,j) in Iterators.ProductIterator((indX, indY))
if iszero(RG.pm[i,j])
if i == i_old
x = ifelse(twisted, inv(RG[i]), RG[i])
i_old = i
end
RG.pm[i,j] = RG[AbstractAlgebra.mul!(res, x, RG[j])]
end
end
return RG
end
function complete!(RG::GroupRing, limit::Integer; twisted::Bool=false, check::Bool=true)
hasbasis(RG) || throw(ArgumentError("Provide basis for completion first!"))
if !cachesmultiplication(RG)
setcache!(RG, create_pm(RG.basis, RG.basis_dict, limit, twisted=twisted, check=false))
# we check correctness below
else
complete!(RG, 1:limit, 1:limit; twisted=twisted)
end
check && @assert check_pm(RG.pm, RG.basis; twisted=twisted)
return RG
end
function create_pm(basis::AbstractVector{T}, basis_dict::Dict{T, <:Integer},
limit::Integer=length(basis); twisted::Bool=false, check::Bool=true) where T
product_matrix = zeros(Int32, limit, limit)
Threads.@threads for i in 1:size(product_matrix, 1)
x = ifelse(twisted, inv(basis[i]), basis[i])
for j in 1:size(product_matrix, 2)
product_matrix[i,j] = basis_dict[x*basis[j]]
end
end
# exceptions in threaded code are not critical so we need to
check && @assert check_pm(product_matrix, basis, twisted=twisted)
return product_matrix
end
function check_pm(pm::Matrix{<:Integer}, basis::Vector; twisted::Bool=false)
idx = (0,0)
for i in 1:size(pm, 1), j in 1:size(pm,2)
# @info "" i j
if iszero(pm[i,j])
idx = (i,j)
break
end
end
if idx == (0,0)
return true
else
i,j = Tuple(idx)
x = ifelse(twisted, inv(basis[i]), basis[i])
@error "Product x*y is not supported on basis:" x y=basis[j]
throw(KeyError(x*basis[j]))
end
end