2017-03-13 14:49:55 +01:00
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import Base: rationalize
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2017-03-14 23:34:47 +01:00
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using ValidatedNumerics
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2017-06-22 15:48:06 +02:00
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ValidatedNumerics.setrounding(Interval, :accurate)
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2017-03-20 21:41:34 +01:00
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ValidatedNumerics.setformat(:standard)
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2017-03-31 22:38:51 +02:00
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# setprecision(Interval, 53) # slightly faster than 256
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2017-03-14 23:34:47 +01:00
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2017-05-16 18:53:25 +02:00
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function EOI{T<:Number}(Δ::GroupRingElem{T}, λ::T)
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2017-04-01 15:21:57 +02:00
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return Δ*Δ - λ*Δ
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2017-03-13 14:49:55 +01:00
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end
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2017-05-28 20:00:22 +02:00
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function groupring_square(vect, elt)
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2017-05-16 18:53:25 +02:00
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zzz = zeros(eltype(vect), elt.coeffs)
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zzz[1:length(vect)] = vect
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2017-06-07 00:22:06 +02:00
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return GroupRings.mul(zzz, zzz, parent(elt).pm)
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2017-03-13 14:49:55 +01:00
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end
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2017-03-14 16:40:35 +01:00
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function compute_SOS(sqrt_matrix, elt)
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2017-03-13 14:49:55 +01:00
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n = size(sqrt_matrix,2)
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2017-03-14 16:40:35 +01:00
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T = eltype(sqrt_matrix)
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2017-05-16 18:53:25 +02:00
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# result = zeros(T, length(elt.coeffs))
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2017-03-14 16:40:35 +01:00
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# for i in 1:n
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2017-05-28 20:00:22 +02:00
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# result += groupring_square(sqrt_matrix[:,i], elt)
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2017-03-14 16:40:35 +01:00
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# end
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result = @parallel (+) for i in 1:n
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2017-05-28 20:00:22 +02:00
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groupring_square(sqrt_matrix[:,i], elt)
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2017-03-13 14:49:55 +01:00
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end
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2017-05-16 18:53:25 +02:00
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return GroupRingElem(result, parent(elt))
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2017-03-13 14:49:55 +01:00
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end
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function correct_to_augmentation_ideal{T<:Rational}(sqrt_matrix::Array{T,2})
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sqrt_corrected = similar(sqrt_matrix)
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l = size(sqrt_matrix,2)
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for i in 1:l
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2017-04-08 13:50:59 +02:00
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col = sqrt_matrix[:,i]
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2017-03-13 14:49:55 +01:00
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sqrt_corrected[:,i] = col - sum(col)//l
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# @assert sum(sqrt_corrected[:,i]) == 0
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end
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return sqrt_corrected
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end
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2017-03-14 23:34:47 +01:00
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import ValidatedNumerics.±
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function (±){T<:Number}(X::AbstractArray{T}, tol::Real)
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2017-03-31 22:35:30 +02:00
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r{T}(x::T) = (x == zero(T)? @interval(0) : x ± tol)
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2017-03-14 23:34:47 +01:00
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return r.(X)
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end
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2017-05-16 18:53:25 +02:00
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(±)(X::GroupRingElem, tol::Real) = GroupRingElem(X.coeffs ± tol, parent(X))
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2017-03-14 23:34:47 +01:00
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function Base.rationalize{T<:Integer, S<:Real}(::Type{T},
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X::AbstractArray{S}; tol::Real=eps(eltype(X)))
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r(x) = rationalize(T, x, tol=tol)
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return r.(X)
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end
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ℚ(x, tol::Real) = rationalize(BigInt, x, tol=tol)
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2017-03-14 23:35:52 +01:00
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2017-06-09 09:35:33 +02:00
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function distance_to_cone{T<:Rational}(λ::T, sqrt_matrix::Array{T,2}, Δ::GroupRingElem{T}, wlen)
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2017-03-14 23:35:52 +01:00
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SOS = compute_SOS(sqrt_matrix, Δ)
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2017-03-13 14:49:55 +01:00
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2017-04-01 15:21:57 +02:00
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SOS_diff = EOI(Δ, λ) - SOS
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2017-06-04 20:30:34 +02:00
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eoi_SOS_L1_dist = norm(SOS_diff,1)
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2017-03-13 14:49:55 +01:00
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2017-04-01 15:21:57 +02:00
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info(logger, "λ = $λ (≈$(@sprintf("%.10f", float(λ)))")
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2017-05-28 20:01:03 +02:00
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ɛ_dist = GroupRings.augmentation(SOS_diff)
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2017-03-15 17:51:13 +01:00
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if ɛ_dist ≠ 0//1
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2017-06-04 20:30:34 +02:00
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warn(logger, "The SOS is not in the augmentation ideal, numbers below are meaningless!")
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2017-03-13 14:49:55 +01:00
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end
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2017-04-01 15:21:57 +02:00
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info(logger, "ɛ(Δ² - λΔ - ∑ξᵢ*ξᵢ) = $ɛ_dist")
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2017-06-04 20:30:34 +02:00
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info(logger, "‖Δ² - λΔ - ∑ξᵢ*ξᵢ‖₁ = $(@sprintf("%.10f", float(eoi_SOS_L1_dist)))")
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2017-03-15 17:51:13 +01:00
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2017-06-09 09:35:33 +02:00
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distance_to_cone = λ - 2^(wlen-1)*eoi_SOS_L1_dist
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2017-03-13 14:49:55 +01:00
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return distance_to_cone
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end
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2017-06-09 09:35:33 +02:00
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function distance_to_cone{T<:Rational, S<:Interval}(λ::T, sqrt_matrix::Array{S,2}, Δ::GroupRingElem{T}, wlen)
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2017-03-14 23:35:52 +01:00
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SOS = compute_SOS(sqrt_matrix, Δ)
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2017-05-28 20:01:03 +02:00
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info(logger, "ɛ(∑ξᵢ*ξᵢ) ∈ $(GroupRings.augmentation(SOS))")
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2017-06-04 20:30:34 +02:00
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λ_int = @interval(λ)
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2017-06-05 17:27:55 +02:00
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Δ_int = GroupRingElem([@interval(c) for c in Δ.coeffs], parent(Δ))
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2017-06-04 20:30:34 +02:00
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SOS_diff = EOI(Δ_int, λ_int) - SOS
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eoi_SOS_L1_dist = norm(SOS_diff,1)
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2017-03-13 14:49:55 +01:00
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2017-04-01 15:21:57 +02:00
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info(logger, "λ = $λ (≈≥$(@sprintf("%.10f",float(λ))))")
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2017-05-28 20:01:03 +02:00
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ɛ_dist = GroupRings.augmentation(SOS_diff)
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2017-03-15 17:51:13 +01:00
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2017-04-01 15:21:57 +02:00
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info(logger, "ɛ(Δ² - λΔ - ∑ξᵢ*ξᵢ) ∈ $(ɛ_dist)")
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2017-06-04 20:30:34 +02:00
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info(logger, "‖Δ² - λΔ - ∑ξᵢ*ξᵢ‖₁ ∈ $(eoi_SOS_L1_dist)")
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2017-03-13 14:49:55 +01:00
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2017-06-09 09:35:33 +02:00
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distance_to_cone = λ - 2^(wlen-1)*eoi_SOS_L1_dist
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2017-03-14 23:35:52 +01:00
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return distance_to_cone
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2017-03-13 14:49:55 +01:00
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end
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2017-06-09 09:35:33 +02:00
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function distance_to_cone(λ, sqrt_matrix::Array, Δ::GroupRingElem, wlen)
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2017-03-14 23:35:52 +01:00
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SOS = compute_SOS(sqrt_matrix, Δ)
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2017-04-01 15:21:57 +02:00
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SOS_diff = EOI(Δ, λ) - SOS
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2017-06-05 17:24:45 +02:00
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eoi_SOS_L1_dist = norm(SOS_diff,1)
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2017-03-14 23:35:52 +01:00
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2017-04-01 15:21:57 +02:00
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info(logger, "λ = $λ")
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2017-05-28 20:01:03 +02:00
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ɛ_dist = GroupRings.augmentation(SOS_diff)
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2017-04-01 15:21:57 +02:00
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info(logger, "ɛ(Δ² - λΔ - ∑ξᵢ*ξᵢ) ≈ $(@sprintf("%.10f", ɛ_dist))")
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2017-06-05 17:24:45 +02:00
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info(logger, "‖Δ² - λΔ - ∑ξᵢ*ξᵢ‖₁ ≈ $(@sprintf("%.10f", eoi_SOS_L1_dist))")
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2017-03-15 17:51:13 +01:00
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2017-06-09 09:35:33 +02:00
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distance_to_cone = λ - 2^(wlen-1)*eoi_SOS_L1_dist
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2017-03-14 23:35:52 +01:00
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return distance_to_cone
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end
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2017-03-13 14:49:55 +01:00
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2017-06-22 11:56:46 +02:00
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function check_distance_to_positive_cone(Δ::GroupRingElem, λ, Q, wlen;
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2017-06-09 09:35:33 +02:00
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tol=1e-7, rational=false)
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2017-03-13 14:49:55 +01:00
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2017-03-15 17:56:01 +01:00
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info(logger, "------------------------------------------------------------")
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2017-03-15 17:51:13 +01:00
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info(logger, "")
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info(logger, "Checking in floating-point arithmetic...")
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2017-06-09 09:35:33 +02:00
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t = @timed fp_distance = distance_to_cone(λ, Q, Δ, wlen)
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2017-03-15 20:13:53 +01:00
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info(logger, timed_msg(t))
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2017-03-16 10:07:35 +01:00
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info(logger, "Floating point distance (to positive cone) ≈ $(@sprintf("%.10f", fp_distance))")
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2017-03-15 17:56:01 +01:00
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info(logger, "------------------------------------------------------------")
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2017-03-13 14:49:55 +01:00
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2017-04-17 15:22:33 +02:00
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if fp_distance ≤ 0
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2017-05-28 20:06:21 +02:00
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return fp_distance
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2017-04-17 15:22:33 +02:00
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end
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2017-03-31 22:38:18 +02:00
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2017-06-05 17:29:22 +02:00
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info(logger, "")
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2017-04-01 15:21:57 +02:00
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info(logger, "Projecting columns of rationalized Q to the augmentation ideal...")
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δ = eps(λ)
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Q_ℚ = ℚ(Q, δ)
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t = @timed Q_ℚω = correct_to_augmentation_ideal(Q_ℚ)
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2017-03-31 15:21:45 +02:00
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info(logger, timed_msg(t))
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2017-04-01 15:21:57 +02:00
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λ_ℚ = ℚ(λ, δ)
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2017-03-14 16:40:53 +01:00
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Δ_ℚ = ℚ(Δ, δ)
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2017-03-13 14:49:55 +01:00
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2017-03-15 17:51:13 +01:00
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info(logger, "Checking in interval arithmetic")
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2017-06-04 20:30:34 +02:00
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Q_ℚω_int = Float64.(Q_ℚω) ± δ
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2017-06-09 09:35:33 +02:00
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t = @timed Interval_dist_to_ΣSq = distance_to_cone(λ_ℚ, Q_ℚω_int, Δ_ℚ, wlen)
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2017-03-15 20:13:53 +01:00
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info(logger, timed_msg(t))
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2017-06-05 17:24:45 +02:00
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info(logger, "The Augmentation-projected actual distance (to positive cone) ∈ $(Interval_dist_to_ΣSq)")
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2017-03-15 17:56:01 +01:00
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info(logger, "------------------------------------------------------------")
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2017-03-13 14:49:55 +01:00
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2017-06-05 17:24:45 +02:00
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if Interval_dist_to_ΣSq.lo ≤ 0 || !rational
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return Interval_dist_to_ΣSq
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2017-03-13 14:49:55 +01:00
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else
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2017-03-15 17:51:13 +01:00
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info(logger, "Checking Projected SOS decomposition in exact rational arithmetic...")
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2017-06-09 09:35:33 +02:00
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t = @timed ℚ_dist_to_ΣSq = distance_to_cone(λ_ℚ, Q_ℚω, Δ_ℚ, wlen)
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2017-03-15 20:13:53 +01:00
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info(logger, timed_msg(t))
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2017-06-05 17:24:45 +02:00
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@assert isa(ℚ_dist_to_ΣSq, Rational)
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info(logger, "Augmentation-projected rational distance (to positive cone) ≥ $(Float64(trunc(ℚ_dist_to_ΣSq,8)))")
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2017-03-15 17:56:01 +01:00
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info(logger, "------------------------------------------------------------")
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2017-06-05 17:24:45 +02:00
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return ℚ_dist_to_ΣSq
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2017-03-13 14:49:55 +01:00
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end
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end
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