PropertyT.jl/src/CheckSolution.jl

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)
      groupring_square(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, logger)
    info(logger, "------------------------------------------------------------")
    info(logger, "λ = $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
Bootstrap Julia Package 2017-03-13 14:49:55 +01:00			`import Base: rationalize`

use IntervalArithmetic instead of ValidatedNumerics 2017-06-25 09:28:44 +02:00			`using IntervalArithmetic`

change rounding mode to :tight 2017-07-26 12:58:39 +02:00			`IntervalArithmetic.setrounding(Interval, :tight)`
increase sigfigs to 12; remove explicit precision setting (it's 53 anyway); 2017-10-27 18:25:13 +02:00			`IntervalArithmetic.setformat(sigfigs=12)`
use IntervalArithmetic instead of ValidatedNumerics 2017-06-25 09:28:44 +02:00
			`import IntervalArithmetic.±`
tidy ValidatedNumerics and move functions 2017-03-14 23:34:47 +01:00
move functions 2017-06-25 09:31:52 +02:00			`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))`

make EOI a one-liner 2017-07-21 17:11:25 +02:00			`EOI{T<:Number}(Δ::GroupRingElem{T}, λ::T) = ΔΔ - λΔ`
Bootstrap Julia Package 2017-03-13 14:49:55 +01:00
simplify groupring_square 2017-08-04 20:33:02 +02:00			`function groupring_square(vect::AbstractVector, l, pm)`
			`zzz = zeros(eltype(vect), l)`
cut on allocations in compute_SOS 2017-11-03 16:54:41 +01:00			`return GroupRings.mul!(zzz, vect, vect, pm)`
Bootstrap Julia Package 2017-03-13 14:49:55 +01:00			`end`

new low-level compute_SOS function 2017-10-27 18:29:19 +02:00			`function compute_SOS(Q::AbstractArray, pm::Array{Int,2}, l::Int)`
compute SOS now is @parallel 2017-03-14 16:40:35 +01:00
new low-level compute_SOS function 2017-10-27 18:29:19 +02:00			`# result = zeros(eltype(Q), l)`
cut on allocations in compute_SOS 2017-11-03 16:54:41 +01:00			`# r = similar(result)`
			`# for i in 1:size(Q,2)`
			`# print(" $i")`
			`# result += GroupRings.mul!(r, view(Q,:,i), view(Q,:,i), pm)`
single-threaded compute_SOS with @parallel option 2017-08-27 18:30:49 +02:00			`# end`

@parallel compute_SOS 2017-10-09 18:08:22 +02:00			`@everywhere groupring_square = PropertyT.groupring_square`

cut on allocations in compute_SOS 2017-11-03 16:54:41 +01:00			`result = @parallel (+) for i in 1:size(Q,2)`
pass only the i-th column in @parallel mode this cuts on memory per worker drastically 2017-11-05 19:28:51 +01:00			`groupring_square(Q[:,i], l, pm)`
@parallel compute_SOS 2017-10-09 18:08:22 +02:00			`end`

cut on allocations in compute_SOS 2017-11-03 16:54:41 +01:00			`println("")`

new low-level compute_SOS function 2017-10-27 18:29:19 +02:00			`return result`
Bootstrap Julia Package 2017-03-13 14:49:55 +01:00			`end`

Higher level compute_SOS 2017-10-27 18:33:18 +02:00			`function compute_SOS(Q::AbstractArray, RG::GroupRing, l::Int)`
			`result = compute_SOS(Q, RG.pm, l)`
			`return GroupRingElem(result, RG)`
Bootstrap Julia Package 2017-03-13 14:49:55 +01:00			`end`

rename parameter S -> T 2017-11-02 13:48:20 +01:00			`function distance_to_cone{T<:Interval}(elt::GroupRingElem, Q::AbstractArray{T,2}, wlen::Int)`
just two simple distance_to_cone functions for Numbers and for Intervals 2017-10-27 18:30:59 +02:00			`SOS = compute_SOS(Q, parent(elt), length(elt.coeffs))`
			`SOS_diff = elt - SOS`
Bootstrap Julia Package 2017-03-13 14:49:55 +01:00
just two simple distance_to_cone functions for Numbers and for Intervals 2017-10-27 18:30:59 +02:00			`ɛ_dist = GroupRings.augmentation(SOS_diff)`
fix Memento deprecations; make clear when logger is global 2018-01-01 13:13:44 +01:00			`info(LOGGER, "ɛ(∑ξᵢ*ξᵢ) ∈ $(ɛ_dist)")`
replace all shows and printlns by info(logger,... 2017-03-15 17:51:13 +01:00
just two simple distance_to_cone functions for Numbers and for Intervals 2017-10-27 18:30:59 +02:00			`eoi_SOS_L1_dist = norm(SOS_diff,1)`
fix Memento deprecations; make clear when logger is global 2018-01-01 13:13:44 +01:00			`info(LOGGER, "‖Δ² - λΔ - ∑ξᵢ*ξᵢ‖₁ ∈ $(eoi_SOS_L1_dist)")`
Bootstrap Julia Package 2017-03-13 14:49:55 +01:00
just two simple distance_to_cone functions for Numbers and for Intervals 2017-10-27 18:30:59 +02:00			`dist = 2^(wlen-1)*eoi_SOS_L1_dist`
			`return dist`
Bootstrap Julia Package 2017-03-13 14:49:55 +01:00			`end`

just two simple distance_to_cone functions for Numbers and for Intervals 2017-10-27 18:30:59 +02:00			`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`
multiple dispatch on distance_to_cone 2017-03-14 23:35:52 +01:00
just two simple distance_to_cone functions for Numbers and for Intervals 2017-10-27 18:30:59 +02:00			`ɛ_dist = GroupRings.augmentation(SOS_diff)`
fix Memento deprecations; make clear when logger is global 2018-01-01 13:13:44 +01:00			`info(LOGGER, "ɛ(Δ² - λΔ - ∑ξᵢ*ξᵢ) ≈ $(@sprintf("%.10f", ɛ_dist))")`
multiple dispatch on distance_to_cone 2017-03-14 23:35:52 +01:00
just two simple distance_to_cone functions for Numbers and for Intervals 2017-10-27 18:30:59 +02:00			`eoi_SOS_L1_dist = norm(SOS_diff,1)`
fix Memento deprecations; make clear when logger is global 2018-01-01 13:13:44 +01:00			`info(LOGGER, "‖Δ² - λΔ - ∑ξᵢ*ξᵢ‖₁ ≈ $(@sprintf("%.10f", eoi_SOS_L1_dist))")`
just two simple distance_to_cone functions for Numbers and for Intervals 2017-10-27 18:30:59 +02:00
			`dist = 2^(wlen-1)*eoi_SOS_L1_dist`
			`return dist`
			`end`
replace all shows and printlns by info(logger,... 2017-03-15 17:51:13 +01:00
replace rationalise&project with interval&project 2017-10-27 18:32:58 +02:00			`function augIdproj{T, I<:AbstractInterval}(S::Type{I}, Q::AbstractArray{T,2})`
			`l = size(Q, 2)`
Specify concrete Interval types in augIdproj 2017-11-03 16:42:53 +01:00			`R = zeros(S, (l,l))`
replace rationalise&project with interval&project 2017-10-27 18:32:58 +02:00			`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`
multiple dispatch on distance_to_cone 2017-03-14 23:35:52 +01:00			`end`
Bootstrap Julia Package 2017-03-13 14:49:55 +01:00
replace rationalise&project with interval&project 2017-10-27 18:32:58 +02:00			`function augIdproj{T}(Q::AbstractArray{T,2}, logger)`
			`info(logger, "Projecting columns of Q to the augmentation ideal...")`
Specify concrete Interval types in augIdproj 2017-11-03 16:42:53 +01:00			`@logtime logger Q = augIdproj(Interval{T}, Q)`
put rationalization and projection to augmentation in a separate function to have gc collect unused matrices of Rationals after this is finished 2017-08-04 20:36:25 +02:00
logging 2017-08-27 18:50:56 +02:00			`info(logger, "Checking that sum of every column contains 0.0... ")`
overwrite Q to allow gc 2017-10-09 18:06:29 +02:00			`check = all([0.0 in sum(view(Q, :, i)) for i in 1:size(Q, 2)])`
logging 2017-08-27 18:50:56 +02:00			`info(logger, (check? "They do." : "FAILED!"))`

correct columns of Q directly to intervals hopefully containing 0 2017-08-27 18:46:31 +02:00			`@assert check`
put rationalization and projection to augmentation in a separate function to have gc collect unused matrices of Rationals after this is finished 2017-08-04 20:36:25 +02:00
overwrite Q to allow gc 2017-10-09 18:06:29 +02:00			`return Q`
put rationalization and projection to augmentation in a separate function to have gc collect unused matrices of Rationals after this is finished 2017-08-04 20:36:25 +02:00			`end`

fix Memento deprecations; make clear when logger is global 2018-01-01 13:13:44 +01:00			`function distance_to_positive_cone(Δ::GroupRingElem, λ, Q, wlen::Int, logger)`
printing 2017-03-15 17:56:01 +01:00			`info(logger, "------------------------------------------------------------")`
check_distance_to... -> distance_to_... and a lot of old code removal 2017-10-27 18:34:07 +02:00			`info(logger, "λ = $λ")`
replace all shows and printlns by info(logger,... 2017-03-15 17:51:13 +01:00			`info(logger, "Checking in floating-point arithmetic...")`
check_distance_to... -> distance_to_... and a lot of old code removal 2017-10-27 18:34:07 +02:00			`Δ²_λΔ = EOI(Δ, λ)`
replace @timed by @logtime 2017-11-02 13:45:12 +01:00			`@logtime logger fp_distance = λ - distance_to_cone(Δ²_λΔ, Q, wlen)`
better printing 2017-03-16 10:07:35 +01:00			`info(logger, "Floating point distance (to positive cone) ≈ $(@sprintf("%.10f", fp_distance))")`
printing 2017-03-15 17:56:01 +01:00			`info(logger, "------------------------------------------------------------")`
Bootstrap Julia Package 2017-03-13 14:49:55 +01:00
early exit if fp_distance <= 0 2017-04-17 15:22:33 +02:00			`if fp_distance ≤ 0`
typo 2017-05-28 20:06:21 +02:00			`return fp_distance`
early exit if fp_distance <= 0 2017-04-17 15:22:33 +02:00			`end`
break after checking in floats return negatives (commented out) 2017-03-31 22:38:18 +02:00
cosmetic 2017-06-05 17:29:22 +02:00			`info(logger, "")`
check_distance_to... -> distance_to_... and a lot of old code removal 2017-10-27 18:34:07 +02:00			`Q = augIdproj(Q, logger)`
Bootstrap Julia Package 2017-03-13 14:49:55 +01:00
replace all shows and printlns by info(logger,... 2017-03-15 17:51:13 +01:00			`info(logger, "Checking in interval arithmetic")`
check_distance_to... -> distance_to_... and a lot of old code removal 2017-10-27 18:34:07 +02:00			`λ = @interval(λ)`
			`Δ = GroupRingElem([@interval(c) for c in Δ.coeffs], parent(Δ))`
			`Δ²_λΔ = EOI(Δ, λ)`
put rationalization and projection to augmentation in a separate function to have gc collect unused matrices of Rationals after this is finished 2017-08-04 20:36:25 +02:00
replace @timed by @logtime 2017-11-02 13:45:12 +01:00			`@logtime logger Interval_dist_to_ΣSq = λ - distance_to_cone(Δ²_λΔ, Q, wlen)`
less unicode 2017-06-05 17:24:45 +02:00			`info(logger, "The Augmentation-projected actual distance (to positive cone) ∈ $(Interval_dist_to_ΣSq)")`
printing 2017-03-15 17:56:01 +01:00			`info(logger, "------------------------------------------------------------")`
Bootstrap Julia Package 2017-03-13 14:49:55 +01:00
check_distance_to... -> distance_to_... and a lot of old code removal 2017-10-27 18:34:07 +02:00			`return Interval_dist_to_ΣSq`
Bootstrap Julia Package 2017-03-13 14:49:55 +01:00			`end`