kalmar/PropertyT.jl
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PropertyT.jl/src/CheckSolution.jl

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import Base: rationalize
using IntervalArithmetic
IntervalArithmetic.setrounding(Interval, :tight)
IntervalArithmetic.setformat(sigfigs=12)
import IntervalArithmetic
function (±){T<:Number}(X::AbstractArray{T}, tol::Real)
r{T}(x::T) = (x == zero(T)? @interval(0) : x ± tol)
return r.(X)
end
(±)(X::GroupRingElem, tol::Real) = GroupRingElem(X.coeffs ± tol, parent(X))
EOI{T<:Number}(Δ::GroupRingElem{T}, λ::T) = Δ*Δ - λ*Δ
function groupring_square(vect::AbstractVector, l, pm)
zzz = zeros(eltype(vect), l)
return GroupRings.mul!(zzz, vect, vect, pm)
end
function compute_SOS(Q::AbstractArray, pm::Array{Int,2}, l::Int)
# result = zeros(eltype(Q), l)
# r = similar(result)
# for i in 1:size(Q,2)
# print(" $i")
# result += GroupRings.mul!(r, view(Q,:,i), view(Q,:,i), pm)
# end
@everywhere groupring_square = PropertyT.groupring_square
result = @parallel (+) for i in 1:size(Q,2)
print(" $i")
groupring_square(view(Q,:,i), l, pm)
end
println("")
return result
end
function compute_SOS(Q::AbstractArray, RG::GroupRing, l::Int)
result = compute_SOS(Q, RG.pm, l)
return GroupRingElem(result, RG)
end
function distance_to_cone{T<:Interval}(elt::GroupRingElem, Q::AbstractArray{T,2}, wlen::Int)
SOS = compute_SOS(Q, parent(elt), length(elt.coeffs))
SOS_diff = elt - SOS
ɛ_dist = GroupRings.augmentation(SOS_diff)
info(logger, "ɛ(∑ξᵢ*ξᵢ) ∈ $(ɛ_dist)")
eoi_SOS_L1_dist = norm(SOS_diff,1)
info(logger, "‖Δ² - λΔ - ∑ξᵢ*ξᵢ‖₁ ∈ $(eoi_SOS_L1_dist)")
dist = 2^(wlen-1)*eoi_SOS_L1_dist
return dist
end
function distance_to_cone{T}(elt::GroupRingElem, Q::AbstractArray{T,2}, wlen::Int)
SOS = compute_SOS(Q, parent(elt), length(elt.coeffs))
SOS_diff = elt - SOS
ɛ_dist = GroupRings.augmentation(SOS_diff)
info(logger, "ɛ(Δ² - λΔ - ∑ξᵢ*ξᵢ) ≈ $(@sprintf("%.10f", ɛ_dist))")
eoi_SOS_L1_dist = norm(SOS_diff,1)
info(logger, "‖Δ² - λΔ - ∑ξᵢ*ξᵢ‖₁ ≈ $(@sprintf("%.10f", eoi_SOS_L1_dist))")
dist = 2^(wlen-1)*eoi_SOS_L1_dist
return dist
end
function augIdproj{T, I<:AbstractInterval}(S::Type{I}, Q::AbstractArray{T,2})
l = size(Q, 2)
R = zeros(S, (l,l))
Threads.@threads for j in 1:l
col = sum(view(Q, :,j))/l
for i in 1:l
R[i,j] = Q[i,j] - col ± eps(0.0)
end
end
return R
end
function augIdproj{T}(Q::AbstractArray{T,2}, logger)
info(logger, "Projecting columns of Q to the augmentation ideal...")
@logtime logger Q = augIdproj(Interval{T}, Q)
info(logger, "Checking that sum of every column contains 0.0... ")
check = all([0.0 in sum(view(Q, :, i)) for i in 1:size(Q, 2)])
info(logger, (check? "They do." : "FAILED!"))
@assert check
return Q
end
function distance_to_positive_cone(Δ::GroupRingElem, λ, Q, wlen::Int)
info(logger, "------------------------------------------------------------")
info(logger, "λ = ")
info(logger, "Checking in floating-point arithmetic...")
Δ²_λΔ = EOI(Δ, λ)
@logtime logger fp_distance = λ - distance_to_cone(Δ²_λΔ, Q, wlen)
info(logger, "Floating point distance (to positive cone) ≈ $(@sprintf("%.10f", fp_distance))")
info(logger, "------------------------------------------------------------")
if fp_distance 0
return fp_distance
end
info(logger, "")
Q = augIdproj(Q, logger)
info(logger, "Checking in interval arithmetic")
λ = @interval(λ)
Δ = GroupRingElem([@interval(c) for c in Δ.coeffs], parent(Δ))
Δ²_λΔ = EOI(Δ, λ)
@logtime logger Interval_dist_to_ΣSq = λ - distance_to_cone(Δ²_λΔ, Q, wlen)
info(logger, "The Augmentation-projected actual distance (to positive cone) ∈ $(Interval_dist_to_ΣSq)")
info(logger, "------------------------------------------------------------")
return Interval_dist_to_ΣSq
end
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