PropertyT.jl/src/PropertyT.jl

__precompile__()
module PropertyT

using AbstractAlgebra
using Groups
using GroupRings

import AbstractAlgebra: Group, GroupElem, Ring, perm

using JLD
using JuMP
using MathProgBase

exists(fname::String) = isfile(fname) || islink(fname)

filename(prefix, s::Symbol) = filename(prefix, Val{s})

@eval begin
    for (s,n) in [
        [:pm,   "pm.jld"],
        [:Δ,    "delta.jld"],
        [:λ,    "lambda.jld"],
        [:P,    "SDPmatrix.jld"],
        [:warm, "warmstart.jld"],
        [:Uπs,  "U_pis.jld"],
        [:orb,  "orbits.jld"],
        [:preps,"preps.jld"],

        [:fulllog,   "full_$(string(now())).log"],
        [:solverlog,   "solver_$(string(now())).log"]
        ]

        filename(prefix::String, ::Type{Val{$:(s)}}) = joinpath(prefix, :($n))
    end
end

function Laplacian(name::String, G::Group)
    if exists(filename(name, :Δ)) && exists(filename(name, :pm))
        RG = GroupRing(G, load(filename(name, :pm), "pm"))
        Δ = GroupRingElem(load(filename(name, :Δ), "Δ")[:, 1], RG)
    else
        throw("You need to precompute $(filename(name, :pm)) and $(filename(name, :Δ)) to load it!")
    end
    return Δ
end

function Laplacian{T<:GroupElem}(S::Vector{T}, Id::T; radius::Int=2)

    info("Generating metric ball of radius $radius...")
    @time E_R, sizes = Groups.generate_balls(S, Id, radius=2*radius)
    info("Generated balls of sizes $sizes.")

    info("Creating product matrix...")
    @time pm = GroupRings.create_pm(E_R, GroupRings.reverse_dict(E_R), sizes[radius]; twisted=true)

    RG = GroupRing(parent(Id), E_R, pm)

    Δ = spLaplacian(RG, S)
    return Δ
end

function λandP(name::String)
    λ_fname = filename(name, :λ)
    P_fname = filename(name, :P)

    if exists(λ_fname) && exists(P_fname)
        λ = load(λ_fname, "λ")
        P = load(P_fname, "P")
    else
        throw("You need to precompute $λ_fname and $P_fname to load it!")
    end
    return λ, P
end

function λandP(name::String, SDP::JuMP.Model, varλ, varP, warmstart=true)

    if warmstart && isfile(filename(name, :warm))
        ws = load(filename(name, :warm), "warmstart")
    else
        ws = nothing
    end

    function f()
        Base.Libc.flush_cstdio()
        λ, P, w = solve_SDP(SDP, varλ, varP, warmstart=ws)
        Base.Libc.flush_cstdio()
        return λ, P, w
    end

    solverlog = open(filename(name, :solverlog),"a+")
    λ, P, warmstart = redirect_stdout(f, solverlog)
    close(solverlog)

    if λ > 0
        save(filename(name, :λ), "λ", λ)
        save(filename(name, :P), "P", P)
        save(filename(name, :warm), "warmstart", warmstart)
    else
        throw(ErrorException("Solver did not produce a valid solution: λ = $λ"))
    end
    return λ, P
end

Kazhdan(λ::Number,N::Integer) = sqrt(2*λ/N)

function check_property_T(name::String, S, Id, solver, upper_bound, tol, radius, warm::Bool=false)

    isdir(name) || mkdir(name)

    if exists(filename(name, :pm)) && exists(filename(name, :Δ))
        # cached
        info("Loading precomputed Δ...")
        Δ = Laplacian(name, parent(S[1]))
    else
        # compute
        Δ = Laplacian(S, Id, radius=radius)
        save(filename(name, :pm), "pm", parent(Δ).pm)
        save(filename(name, :Δ), "Δ", Δ.coeffs)
    end

    fullpath = joinpath(name, string(upper_bound))
    isdir(fullpath) || mkdir(fullpath)

    files_exist = exists(filename(fullpath, :λ)) && exists(filename(fullpath, :P))

    if !(warm) && files_exist
        info("Loading precomputed λ, P...")
        λ, P = λandP(fullpath)
    else
        info("Creating SDP problem...")
        SDP_problem, varλ, varP = create_SDP_problem(Δ, constraints(parent(Δ).pm), upper_bound=upper_bound)
        JuMP.setsolver(SDP_problem, solver)
        info(Base.repr(SDP_problem))

        if warm && isfile(filename(name, :warm))
            ws = load(filename(name, :warm), "warmstart")
        else
            ws = nothing
        end

        @time λ, P, ws = λandP(SDP_problem, varλ, varP, warmstart=ws, solverlog=filename(name, :solverlog))

        if λ > 0
            save(filename(name, :λ), "λ", λ)
            save(filename(name, :P), "P", P)
            save(filename(name, :warm), "warmstart", ws)
        else
            throw(ErrorException("Solver did not produce a valid solution: λ = $λ"))
        end
    end

    info("λ = $λ")
    info("sum(P) = $(sum(P))")
    info("maximum(P) = $(maximum(P))")
    info("minimum(P) = $(minimum(P))")

    isapprox(eigvals(P), abs.(eigvals(P)), atol=tol) ||
        warn("The solution matrix doesn't seem to be positive definite!")

    return interpret_results(name, S, radius, λ, P)
end

function interpret_results(name, S, radius, λ, P)

    RG = GroupRing(parent(first(S)), load(filename(name, :pm), "pm"))
    Δ = GroupRingElem(load(filename(name, :Δ), "Δ")[:, 1], RG)
    @time Q = real(sqrtm(Symmetric(P)))

    sgap = distance_to_cone(Δ, λ, Q, wlen=2*radius)

    if sgap > 0
        Kazhdan_κ = Kazhdan(sgap, length(S))
        if Kazhdan_κ > 0
            info("κ($name, S) ≥ $Kazhdan_κ: Group HAS property (T)!")
            return true
        end
    end
    info("λ($name, S) ≥ $sgap < 0: Tells us nothing about property (T)")
    return false
end

include("SDPs.jl")
include("CheckSolution.jl")
include("Orbit-wise.jl")

end # module Property(T)
remove references to logger! 2018-08-19 20:05:45 +02:00			`__precompile__()`
mv Property(T).jl -> PropertyT.jl 2017-03-13 15:56:07 +01:00			`module PropertyT`
Bootstrap Julia Package 2017-03-13 14:49:55 +01:00
migrate to AbstractAlgebra 2018-07-31 10:21:54 +02:00			`using AbstractAlgebra`
cleaning using and imports 2017-06-22 15:15:43 +02:00			`using Groups`
using GroupRings 2017-05-28 20:03:57 +02:00			`using GroupRings`
use Memento for logging 2017-03-15 17:48:52 +01:00
migrate to AbstractAlgebra 2018-07-31 10:21:54 +02:00			`import AbstractAlgebra: Group, GroupElem, Ring, perm`
cleaning using and imports 2017-06-22 15:15:43 +02:00
			`using JLD`
			`using JuMP`
using MathProgBase 2017-12-01 17:03:24 +01:00			`using MathProgBase`
cleaning using and imports 2017-06-22 15:15:43 +02:00
fix indentation to 4 spaces 2018-01-01 14:06:33 +01:00			`exists(fname::String) = isfile(fname) \|\| islink(fname)`
replace isfile by exists which returns true also for symlinks 2017-09-06 16:02:46 +02:00
another rework of filenames 2018-01-02 02:55:53 +01:00			`filename(prefix, s::Symbol) = filename(prefix, Val{s})`

			`@eval begin`
			`for (s,n) in [`
			`[:pm, "pm.jld"],`
			`[:Δ, "delta.jld"],`
			`[:λ, "lambda.jld"],`
			`[:P, "SDPmatrix.jld"],`
			`[:warm, "warmstart.jld"],`
			`[:Uπs, "U_pis.jld"],`
			`[:orb, "orbits.jld"],`
			`[:preps,"preps.jld"],`

update to the Memento-0.9.0 2018-07-31 10:25:17 +02:00			`[:fulllog, "full_$(string(now())).log"],`
			`[:solverlog, "solver_$(string(now())).log"]`
another rework of filenames 2018-01-02 02:55:53 +01:00			`]`
Bootstrap Julia Package 2017-03-13 14:49:55 +01:00
another rework of filenames 2018-01-02 02:55:53 +01:00			`filename(prefix::String, ::Type{Val{$:(s)}}) = joinpath(prefix, :($n))`
			`end`
			`end`
Bootstrap Julia Package 2017-03-13 14:49:55 +01:00
rename Delta -> Laplacian, splaplacian -> spLaplacian 2018-01-02 00:07:05 +01:00			`function Laplacian(name::String, G::Group)`
decouple obtaining Delta from constraints 2018-01-02 00:01:24 +01:00			`if exists(filename(name, :Δ)) && exists(filename(name, :pm))`
			`RG = GroupRing(G, load(filename(name, :pm), "pm"))`
			`Δ = GroupRingElem(load(filename(name, :Δ), "Δ")[:, 1], RG)`
			`else`
			`throw("You need to precompute $(filename(name, :pm)) and $(filename(name, :Δ)) to load it!")`
			`end`
			`return Δ`
Bootstrap Julia Package 2017-03-13 14:49:55 +01:00			`end`

remove references to logger! 2018-08-19 20:05:45 +02:00			`function Laplacian{T<:GroupElem}(S::Vector{T}, Id::T; radius::Int=2)`
Bootstrap Julia Package 2017-03-13 14:49:55 +01:00
remove references to logger! 2018-08-19 20:05:45 +02:00			`info("Generating metric ball of radius $radius...")`
			`@time E_R, sizes = Groups.generate_balls(S, Id, radius=2*radius)`
			`info("Generated balls of sizes $sizes.")`
bring ΔandSDPconstraints{T<:GroupElem} from specific groups definition 2017-06-05 13:20:32 +02:00
remove references to logger! 2018-08-19 20:05:45 +02:00			`info("Creating product matrix...")`
			`@time pm = GroupRings.create_pm(E_R, GroupRings.reverse_dict(E_R), sizes[radius]; twisted=true)`
bring ΔandSDPconstraints{T<:GroupElem} from specific groups definition 2017-06-05 13:20:32 +02:00
constraints_from_pm -> constraints returns a vector of constraints, i.e. vectors of Tuple{Int, Int} 2017-11-08 09:25:40 +01:00			`RG = GroupRing(parent(Id), E_R, pm)`
bring ΔandSDPconstraints{T<:GroupElem} from specific groups definition 2017-06-05 13:20:32 +02:00
logged and clean version of Laplacian 2018-01-02 03:02:22 +01:00			`Δ = spLaplacian(RG, S)`
decouple obtaining Delta from constraints 2018-01-02 00:01:24 +01:00			`return Δ`
bring ΔandSDPconstraints{T<:GroupElem} from specific groups definition 2017-06-05 13:20:32 +02:00			`end`

Change names: kappa -> lambda, A -> P 2017-04-01 15:21:57 +02:00			`function λandP(name::String)`
rework filename logic 2018-01-01 23:57:03 +01:00			`λ_fname = filename(name, :λ)`
			`P_fname = filename(name, :P)`
Change names: kappa -> lambda, A -> P 2017-04-01 15:21:57 +02:00
rework filename logic 2018-01-01 23:57:03 +01:00			`if exists(λ_fname) && exists(P_fname)`
Change names: kappa -> lambda, A -> P 2017-04-01 15:21:57 +02:00			`λ = load(λ_fname, "λ")`
rework filename logic 2018-01-01 23:57:03 +01:00			`P = load(P_fname, "P")`
Bootstrap Julia Package 2017-03-13 14:49:55 +01:00			`else`
rework filename logic 2018-01-01 23:57:03 +01:00			`throw("You need to precompute $λ_fname and $P_fname to load it!")`
Bootstrap Julia Package 2017-03-13 14:49:55 +01:00			`end`
Change names: kappa -> lambda, A -> P 2017-04-01 15:21:57 +02:00			`return λ, P`
rudimentary @time replacement for logging 2017-03-15 17:49:39 +01:00			`end`

rework lambdaandP && solve_SDP 2018-01-02 02:52:45 +01:00			`function λandP(name::String, SDP::JuMP.Model, varλ, varP, warmstart=true)`
fix Memento deprecations; make clear when logger is global 2018-01-01 13:13:44 +01:00
rework lambdaandP && solve_SDP 2018-01-02 02:52:45 +01:00			`if warmstart && isfile(filename(name, :warm))`
			`ws = load(filename(name, :warm), "warmstart")`
fix indentation to 4 spaces 2018-01-01 14:06:33 +01:00			`else`
			`ws = nothing`
			`end`
Cleanup of the check_propertyT function 2017-03-31 16:07:08 +02:00
finally proper redirection of STDOUT to a file 2018-08-18 23:28:06 +02:00			`function f()`
			`Base.Libc.flush_cstdio()`
			`λ, P, w = solve_SDP(SDP, varλ, varP, warmstart=ws)`
			`Base.Libc.flush_cstdio()`
			`return λ, P, w`
			`end`
rework lambdaandP && solve_SDP 2018-01-02 02:52:45 +01:00
remove Memento's solverlog 2018-08-18 23:47:15 +02:00			`solverlog = open(filename(name, :solverlog),"a+")`
			`λ, P, warmstart = redirect_stdout(f, solverlog)`
			`close(solverlog)`
Cleanup of the check_propertyT function 2017-03-31 16:07:08 +02:00
fix indentation to 4 spaces 2018-01-01 14:06:33 +01:00			`if λ > 0`
rework filename logic 2018-01-01 23:57:03 +01:00			`save(filename(name, :λ), "λ", λ)`
			`save(filename(name, :P), "P", P)`
rework lambdaandP && solve_SDP 2018-01-02 02:52:45 +01:00			`save(filename(name, :warm), "warmstart", warmstart)`
fix indentation to 4 spaces 2018-01-01 14:06:33 +01:00			`else`
rework filename logic 2018-01-01 23:57:03 +01:00			`throw(ErrorException("Solver did not produce a valid solution: λ = $λ"))`
fix indentation to 4 spaces 2018-01-01 14:06:33 +01:00			`end`
			`return λ, P`
Cleanup of the check_propertyT function 2017-03-31 16:07:08 +02:00			`end`
fix solver logger, once again 2017-03-16 09:35:32 +01:00
update PropertyT.jl top changes in CheckSolution.jl 2018-08-14 19:21:09 +02:00			`Kazhdan(λ::Number,N::Integer) = sqrt(2*λ/N)`
reduce code duplication 2018-01-02 03:22:46 +01:00
add warmstarting 2018-01-25 21:38:38 +01:00			`function check_property_T(name::String, S, Id, solver, upper_bound, tol, radius, warm::Bool=false)`
Bootstrap Julia Package 2017-03-13 14:49:55 +01:00
short circut for directory creation 2017-06-05 17:29:05 +02:00			`isdir(name) \|\| mkdir(name)`
Bootstrap Julia Package 2017-03-13 14:49:55 +01:00
rework filename logic 2018-01-01 23:57:03 +01:00			`if exists(filename(name, :pm)) && exists(filename(name, :Δ))`
We can again use cached Delta and pm 2017-06-05 13:48:44 +02:00			`# cached`
remove references to logger! 2018-08-19 20:05:45 +02:00			`info("Loading precomputed Δ...")`
rename Delta -> Laplacian, splaplacian -> spLaplacian 2018-01-02 00:07:05 +01:00			`Δ = Laplacian(name, parent(S[1]))`
simplify \DeltaandSDPconstr... 2017-06-05 13:17:49 +02:00			`else`
We can again use cached Delta and pm 2017-06-05 13:48:44 +02:00			`# compute`
remove references to logger! 2018-08-19 20:05:45 +02:00			`Δ = Laplacian(S, Id, radius=radius)`
logged and clean version of Laplacian 2018-01-02 03:02:22 +01:00			`save(filename(name, :pm), "pm", parent(Δ).pm)`
			`save(filename(name, :Δ), "Δ", Δ.coeffs)`
missing end 2017-06-05 13:23:10 +02:00			`end`
Cleanup of the check_propertyT function 2017-03-31 16:07:08 +02:00
use the same directory structure as the orbit version 2018-01-02 03:53:01 +01:00			`fullpath = joinpath(name, string(upper_bound))`
			`isdir(fullpath) \|\| mkdir(fullpath)`

remove references to logger! 2018-08-19 20:05:45 +02:00			`files_exist = exists(filename(fullpath, :λ)) && exists(filename(fullpath, :P))`
add warmstarting 2018-01-25 21:38:38 +01:00
remove references to logger! 2018-08-19 20:05:45 +02:00			`if !(warm) && files_exist`
			`info("Loading precomputed λ, P...")`
use the same directory structure as the orbit version 2018-01-02 03:53:01 +01:00			`λ, P = λandP(fullpath)`
fix indentation to 4 spaces 2018-01-01 14:06:33 +01:00			`else`
remove references to logger! 2018-08-19 20:05:45 +02:00			`info("Creating SDP problem...")`
logtime of lambdaandP; use LOGGER everywere 2018-01-02 03:32:04 +01:00			`SDP_problem, varλ, varP = create_SDP_problem(Δ, constraints(parent(Δ).pm), upper_bound=upper_bound)`
fix indentation to 4 spaces 2018-01-01 14:06:33 +01:00			`JuMP.setsolver(SDP_problem, solver)`
remove references to logger! 2018-08-19 20:05:45 +02:00			`info(Base.repr(SDP_problem))`

			`if warm && isfile(filename(name, :warm))`
			`ws = load(filename(name, :warm), "warmstart")`
			`else`
			`ws = nothing`
			`end`

			`@time λ, P, ws = λandP(SDP_problem, varλ, varP, warmstart=ws, solverlog=filename(name, :solverlog))`
fix indentation to 4 spaces 2018-01-01 14:06:33 +01:00
remove references to logger! 2018-08-19 20:05:45 +02:00			`if λ > 0`
			`save(filename(name, :λ), "λ", λ)`
			`save(filename(name, :P), "P", P)`
			`save(filename(name, :warm), "warmstart", ws)`
			`else`
			`throw(ErrorException("Solver did not produce a valid solution: λ = $λ"))`
			`end`
fix indentation to 4 spaces 2018-01-01 14:06:33 +01:00			`end`

remove references to logger! 2018-08-19 20:05:45 +02:00			`info("λ = $λ")`
			`info("sum(P) = $(sum(P))")`
			`info("maximum(P) = $(maximum(P))")`
			`info("minimum(P) = $(minimum(P))")`
fix indentation to 4 spaces 2018-01-01 14:06:33 +01:00
reduce code duplication 2018-01-02 03:22:46 +01:00			`isapprox(eigvals(P), abs.(eigvals(P)), atol=tol) \|\|`
			`warn("The solution matrix doesn't seem to be positive definite!")`
fix indentation to 4 spaces 2018-01-01 14:06:33 +01:00
remove references to logger! 2018-08-19 20:05:45 +02:00			`return interpret_results(name, S, radius, λ, P)`
extract checking if lambda > 0 ... block to a separate function 2018-08-15 19:10:38 +02:00			`end`

remove references to logger! 2018-08-19 20:05:45 +02:00			`function interpret_results(name, S, radius, λ, P)`
extract checking if lambda > 0 ... block to a separate function 2018-08-15 19:10:38 +02:00
			`RG = GroupRing(parent(first(S)), load(filename(name, :pm), "pm"))`
			`Δ = GroupRingElem(load(filename(name, :Δ), "Δ")[:, 1], RG)`
remove references to logger! 2018-08-19 20:05:45 +02:00			`@time Q = real(sqrtm(Symmetric(P)))`
update PropertyT.jl top changes in CheckSolution.jl 2018-08-14 19:21:09 +02:00
remove references to logger! 2018-08-19 20:05:45 +02:00			`sgap = distance_to_cone(Δ, λ, Q, wlen=2*radius)`
update PropertyT.jl top changes in CheckSolution.jl 2018-08-14 19:21:09 +02:00
extract checking if lambda > 0 ... block to a separate function 2018-08-15 19:10:38 +02:00			`if sgap > 0`
update PropertyT.jl top changes in CheckSolution.jl 2018-08-14 19:21:09 +02:00			`Kazhdan_κ = Kazhdan(sgap, length(S))`
			`if Kazhdan_κ > 0`
remove references to logger! 2018-08-19 20:05:45 +02:00			`info("κ($name, S) ≥ $Kazhdan_κ: Group HAS property (T)!")`
update PropertyT.jl top changes in CheckSolution.jl 2018-08-14 19:21:09 +02:00			`return true`
			`end`
fix indentation to 4 spaces 2018-01-01 14:06:33 +01:00			`end`
remove references to logger! 2018-08-19 20:05:45 +02:00			`info("λ($name, S) ≥ $sgap < 0: Tells us nothing about property (T)")`
fix indentation to 4 spaces 2018-01-01 14:06:33 +01:00			`return false`
Bootstrap Julia Package 2017-03-13 14:49:55 +01:00			`end`

final integration via includes 2017-06-22 15:15:55 +02:00			`include("SDPs.jl")`
			`include("CheckSolution.jl")`
			`include("Orbit-wise.jl")`

Bootstrap Julia Package 2017-03-13 14:49:55 +01:00			`end # module Property(T)`