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add scripts/PRA_has_T.jl
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scripts/PRA_has_T.jl
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162
scripts/PRA_has_T.jl
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using LinearAlgebra
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BLAS.set_num_threads(4)
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ENV["OMP_NUM_THREADS"] = 4
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include(joinpath(@__DIR__, "../test/optimizers.jl"))
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using SCS_MKL_jll
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using Groups
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import Groups.MatrixGroups
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using PropertyT
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import PropertyT.SW as SW
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using PropertyT.PG
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using PropertyT.SA
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include(joinpath(@__DIR__, "argparse.jl"))
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const N = parsed_args["N"]
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const HALFRADIUS = parsed_args["halfradius"]
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const UPPER_BOUND = parsed_args["upper_bound"]
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# fixes/hacks
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import Groups.KnuthBendix
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KnuthBendix.ordering(o::KnuthBendix.WordOrdering) = o
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function KnuthBendix.rewrite!(
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u::KnuthBendix.AbstractWord,
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w::KnuthBendix.AbstractWord,
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o::KnuthBendix.WordOrdering,
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)
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return KnuthBendix.rewrite!(u, w, KnuthBendix.alphabet(o))
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end
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struct Letter{T} <: Groups.GSymbol # letter of an Alphabet
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elt::T
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end
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Base.show(io::IO, tt::Letter) = show(io, tt.elt)
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Base.inv(tt::Letter) = Letter(inv(tt.elt))
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Base.:(==)(tt::Letter, ss::Letter) = tt.elt == ss.elt
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Base.hash(tt::Letter, h::UInt) = hash(tt.elt, hash(Letter, h))
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Base.Base.@propagate_inbounds function Groups.evaluate!(
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v::Tuple{Vararg{T,N}},
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tt::Letter,
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tmp = one(first(v)),
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) where {T,N}
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return Groups.evaluate!(v, tt.elt, tmp)
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end
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function PropertyT._conj(tt::Letter, g)
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G = parent(tt.elt)
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A = alphabet(G)
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w = [A[PropertyT._conj(A[l], g)] for l in word(tt.elt)]
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return Letter(G(w))
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end
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G = let G = SpecialAutomorphismGroup(FreeGroup(N + 1))
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A = alphabet(G)
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lambdas = [Groups.λ(1, i) for i in 2:N+1]
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append!(lambdas, [Groups.λ(i, 1) for i in 2:N+1])
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rhos = [Groups.ϱ(1, i) for i in 2:N+1]
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append!(rhos, [Groups.ϱ(i, 1) for i in 2:N+1])
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_alph = eltype(G)[]
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for i in 2:N+1
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for j in 2:N+1
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i == j && continue
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g = G([A[Groups.ϱ(1, i)], A[Groups.ϱ(j, 1)]])
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h = G([A[Groups.λ(1, i)], A[Groups.λ(j, 1)]])
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push!(_alph, g, h)
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end
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end
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alph = Letter.(_alph)
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AutomorphismGroup(
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FreeGroup(N + 1),
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alph,
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KnuthBendix.LenLex(Groups.Alphabet(alph)),
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Groups.domain(one(G)),
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)
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end
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# @info "Running Δ² - λ·Δ sum of squares decomposition for " G
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@info "computing group algebra structure"
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RG, S, sizes = @time PropertyT.group_algebra(G, halfradius = HALFRADIUS)
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@info "computing WedderburnDecomposition"
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wd = let RG = RG, N = N
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G = StarAlgebras.object(RG)
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P = PermGroup(perm"(2,3)", Perm([1; 1 .+ circshift(1:N, -1)]))
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Σ = Groups.Constructions.WreathProduct(PermGroup(perm"(1,2)"), P)
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act = PropertyT.action_by_conjugation(G, P)
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wdfl = @time SW.WedderburnDecomposition(
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Float64,
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P,
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act,
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basis(RG),
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StarAlgebras.Basis{UInt16}(@view basis(RG)[1:sizes[HALFRADIUS]]),
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)
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end
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@info wd
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Δ = RG(length(S)) - sum(RG(s) for s in S)
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elt = Δ^2;
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unit = Δ;
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warm = nothing
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@info "defining optimization problem"
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@time model, varP = PropertyT.sos_problem_primal(
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elt,
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unit,
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wd;
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upper_bound = UPPER_BOUND,
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augmented = true,
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show_progress = true,
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)
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let status = JuMP.OPTIMIZE_NOT_CALLED, warm = warm, eps = 1e-10
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certified, λ = false, 0.0
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while status ≠ JuMP.OPTIMAL
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@time status, warm = PropertyT.solve(
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model,
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scs_optimizer(;
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linear_solver = SCS.MKLDirectSolver,
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eps = eps,
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max_iters = N * 10_000,
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accel = 50,
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alpha = 1.95,
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),
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warm,
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)
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@info "reconstructing the solution"
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Q = @time let wd = wd, Ps = [JuMP.value.(P) for P in varP], eps = 1e-10
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PropertyT.__droptol!.(Ps, 100eps)
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Qs = real.(sqrt.(Ps))
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PropertyT.__droptol!.(Qs, eps)
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PropertyT.reconstruct(Qs, wd)
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end
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@info "certifying the solution"
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certified, λ = PropertyT.certify_solution(
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elt,
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unit,
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JuMP.objective_value(model),
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Q;
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halfradius = HALFRADIUS,
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augmented = true,
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)
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end
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if certified && λ > 0
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Κ(λ, S) = round(sqrt(2λ / length(S)), Base.RoundDown; digits = 5)
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@info "Certified result: $G has property (T):" N λ Κ(λ, S)
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else
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@info "Could NOT certify the result:" certified λ
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end
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end
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