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mirror of https://github.com/kalmarek/PropertyT.jl.git synced 2024-12-26 02:30:29 +01:00

simplify compute_orbit_data

by reusing of compute/load-Laplacian, etc
This commit is contained in:
kalmarek 2018-08-20 03:57:33 +02:00
parent 66ac37a6a7
commit 1825cc0b3d
2 changed files with 22 additions and 34 deletions

View File

@ -182,9 +182,19 @@ end
function check_property_T(sett::Settings)
ex(s) = exists(filename(prepath(sett), s))
ex(s::Symbol) = exists(filename(prepath(sett), s))
files_exists = ex.([:pm, , :Uπs, :orb, :preps])
if ex(:pm) && ex()
# cached
Δ = loadLaplacian(prepath(sett), parent(sett.S[1]))
else
# compute
Δ = computeLaplacian(sett.S, sett.radius)
save(filename(prepath(sett), :pm), "pm", parent(Δ).pm)
save(filename(prepath(sett), ), "Δ", Δ.coeffs)
end
files_exist = ex.([:Uπs, :orbits, :preps])
if !all(files_exists)
compute_orbit_data(prepath(sett), sett.S, sett.autS, radius=sett.radius)

View File

@ -129,43 +129,21 @@ function orthSVD{T}(M::AbstractMatrix{T})
return fact[:U][:,1:M_rank]
end
function compute_orbit_data{T<:GroupElem}(name::String, S::Vector{T}, autS::Group; radius=2)
isdir(name) || mkdir(name)
info("Generating ball of radius $(2*radius)")
# TODO: Fix that by multiple dispatch?
G = parent(first(S))
Id = (isa(G, Ring) ? one(G) : G())
@time E_2R, sizes = Groups.generate_balls(S, Id, radius=2*radius);
info("Balls of sizes $sizes.")
info("Reverse dict")
@time E_rdict = GroupRings.reverse_dict(E_2R)
info("Product matrix")
@time pm = GroupRings.create_pm(E_2R, E_rdict, sizes[radius], twisted=true)
RG = GroupRing(G, E_2R, E_rdict, pm)
Δ = PropertyT.spLaplacian(RG, S)
@assert GroupRings.aug(Δ) == 0
save(filename(name, ), "Δ", Δ.coeffs)
save(filename(name, :pm), "pm", pm)
function compute_orbit_data(name::String, RG::GroupRing, autS::Group)
info("Decomposing E into orbits of $(autS)")
@time orbs = orbit_decomposition(autS, E_2R, E_rdict)
@assert sum(length(o) for o in orbs) == length(E_2R)
@time orbs = orbit_decomposition(autS, RG.basis, RG.basis_dict)
@assert sum(length(o) for o in orbs) == length(RG.basis)
info("E consists of $(length(orbs)) orbits!")
save(joinpath(name, "orbits.jld"), "orbits", orbs)
info("Action matrices")
@time reps = perm_reps(autS, E_2R[1:sizes[radius]], E_rdict)
save_preps(filename(name, :preps), reps)
reps = matrix_reps(reps)
@time preps = perm_reps(autS, RG.basis[1:size(RG.pm,1)], RG.basis_dict)
mreps = matrix_reps(preps)
info("Projections")
@time autS_mps = Projections.rankOne_projections(GroupRing(autS));
@time π_E_projections = [Cstar_repr(p, reps) for p in autS_mps]
@time π_E_projections = [Cstar_repr(p, mreps) for p in autS_mps]
info("Uπs...")
@time Uπs = orthSVD.(π_E_projections)
@ -174,10 +152,10 @@ function compute_orbit_data{T<:GroupElem}(name::String, S::Vector{T}, autS::Grou
info("multiplicities = $multiplicities")
dimensions = [Int(p[autS()]*Int(order(autS))) for p in autS_mps];
info("dimensions = $dimensions")
@assert dot(multiplicities, dimensions) == sizes[radius]
@assert dot(multiplicities, dimensions) == size(RG.pm,1)
save(joinpath(name, "U_pis.jld"),
"Uπs", Uπs,
"dims", dimensions)
save(filename(name, :orbits), "orbits", orbs)
save_preps(filename(name, :preps), preps)
save(filename(name, :Uπs), "Uπs", Uπs, "dims", dimensions)
return 0
end