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@ -120,11 +120,11 @@ equation(rel::AlignsWithBy) = mprod(rel.elements[1].vec, rel.elements[2].vec) -
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# --- constructions ---
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mutable struct Construction{T}
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points::Vector{Point{T}}
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spheres::Vector{Sphere{T}}
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relations::Vector{Relation{T}}
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points::Set{Point{T}}
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spheres::Set{Sphere{T}}
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relations::Set{Relation{T}}
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function Construction{T}(; elements = Vector{Element{T}}(), relations = Vector{Relation{T}}()) where T
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function Construction{T}(; elements = Set{Element{T}}(), relations = Set{Relation{T}}()) where T
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allelements = union(elements, (rel.elements for rel in relations)...)
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new{T}(
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filter(elt -> isa(elt, Point), allelements),
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@ -197,7 +197,8 @@ function realize(ctx::Construction{T}) where T
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push!(eqns, sum(elt.vec[2] for elt in Iterators.flatten((ctx.points, ctx.spheres))) - n_elts)
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end
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(Generic.Ideal(coordring, eqns), eqns)
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## [test] (Generic.Ideal(coordring, eqns), eqns)
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(nothing, eqns)
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end
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end
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@ -1,6 +1,5 @@
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module Numerical
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using Random: default_rng
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using LinearAlgebra
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using AbstractAlgebra
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using HomotopyContinuation:
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@ -29,16 +28,16 @@ end
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# --- sampling ---
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function real_samples(F::AbstractSystem, dim; rng = default_rng())
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function real_samples(F::AbstractSystem, dim)
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# choose a random real hyperplane of codimension `dim` by intersecting
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# hyperplanes whose normal vectors are uniformly distributed over the unit
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# sphere
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# [to do] guard against the unlikely event that one of the normals is zero
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normals = transpose(hcat(
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(normalize(randn(rng, nvariables(F))) for _ in 1:dim)...
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(normalize(randn(nvariables(F))) for _ in 1:dim)...
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))
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cut = LinearSubspace(normals, fill(0., dim))
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filter(isreal, results(witness_set(F, cut, seed = 0x1974abba)))
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filter(isreal, results(witness_set(F, cut)))
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end
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AbstractAlgebra.evaluate(pt::Point, vals::Vector{<:RingElement}) =
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@ -23,40 +23,92 @@ using GLMakie
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CoeffType = Rational{Int64}
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spheres = [Engine.Sphere{CoeffType}() for _ in 1:3]
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tangencies = [
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Engine.AlignsWithBy{CoeffType}(
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spheres[n],
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spheres[mod1(n+1, length(spheres))],
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CoeffType(1)
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)
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for n in 1:3
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]
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ctx_tan_sph = Engine.Construction{CoeffType}(elements = spheres, relations = tangencies)
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ideal_tan_sph, eqns_tan_sph = Engine.realize(ctx_tan_sph)
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freedom = Engine.dimension(ideal_tan_sph)
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println("Three mutually tangent spheres: $freedom degrees of freedom")
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##a = Engine.Point{CoeffType}()
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##s = Engine.Sphere{CoeffType}()
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##a_on_s = Engine.LiesOn{CoeffType}(a, s)
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##ctx = Engine.Construction{CoeffType}(elements = Set([a]), relations= Set([a_on_s]))
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##ideal_a_s = Engine.realize(ctx)
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##println("A point on a sphere: $(Engine.dimension(ideal_a_s)) degrees of freedom")
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##b = Engine.Point{CoeffType}()
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##b_on_s = Engine.LiesOn{CoeffType}(b, s)
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##Engine.push!(ctx, b)
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##Engine.push!(ctx, s)
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##Engine.push!(ctx, b_on_s)
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##ideal_ab_s, eqns_ab_s = Engine.realize(ctx)
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##freedom = Engine.dimension(ideal_ab_s)
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##println("Two points on a sphere: $freedom degrees of freedom")
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##spheres = [Engine.Sphere{CoeffType}() for _ in 1:3]
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##tangencies = [
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## Engine.AlignsWithBy{CoeffType}(
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## spheres[n],
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## spheres[mod1(n+1, length(spheres))],
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## CoeffType(-1//1)
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## )
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## for n in 1:3
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##]
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##tangencies = [
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##Engine.LiesOn{CoeffType}(points[1], spheres[2]),
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##Engine.LiesOn{CoeffType}(points[1], spheres[3]),
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##Engine.LiesOn{CoeffType}(points[2], spheres[3]),
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##Engine.LiesOn{CoeffType}(points[2], spheres[1]),
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##Engine.LiesOn{CoeffType}(points[3], spheres[1]),
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##Engine.LiesOn{CoeffType}(points[3], spheres[2])
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##]
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##ctx_tan_sph = Engine.Construction{CoeffType}(elements = Set(spheres), relations = Set(tangencies))
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##ideal_tan_sph, eqns_tan_sph = Engine.realize(ctx_tan_sph)
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##freedom = Engine.dimension(ideal_tan_sph)
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##println("Three mutually tangent spheres: $freedom degrees of freedom")
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points = [Engine.Point{CoeffType}() for _ in 1:3]
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spheres = [Engine.Sphere{CoeffType}() for _ in 1:2]
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ctx_joined = Engine.Construction{CoeffType}(
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elements = Set([points; spheres]),
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relations= Set([
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Engine.LiesOn{CoeffType}(pt, sph)
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for pt in points for sph in spheres
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])
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)
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ideal_joined, eqns_joined = Engine.realize(ctx_joined)
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freedom = Engine.dimension(ideal_joined)
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println("$(length(points)) points on $(length(spheres)) spheres: $freedom degrees of freedom")
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# --- test rational cut ---
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coordring = base_ring(ideal_tan_sph)
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coordring = base_ring(ideal_joined)
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vbls = Variable.(symbols(coordring))
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# test a random witness set
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system = CompiledSystem(System(eqns_tan_sph, variables = vbls))
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system = CompiledSystem(System(eqns_joined, variables = vbls))
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norm2 = vec -> real(dot(conj.(vec), vec))
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rng = MersenneTwister(6071)
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n_planes = 6
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Random.seed!(6071)
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n_planes = 3
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samples = []
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for _ in 1:n_planes
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real_solns = solution.(Engine.Numerical.real_samples(system, freedom, rng = rng))
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real_solns = solution.(Engine.Numerical.real_samples(system, freedom))
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for soln in real_solns
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if all(norm2(soln - samp) > 1e-4*length(gens(coordring)) for samp in samples)
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push!(samples, soln)
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end
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end
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end
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println("Found $(length(samples)) sample solutions")
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println("$(length(samples)) sample solutions:")
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for soln in samples
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## display([vbls round.(soln, digits = 6)]) ## [verbose]
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k_sq = abs2(soln[1])
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if abs2(soln[end-2]) > 1e-12
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if k_sq < 1e-12
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println(" center at infinity: z coordinates $(round(soln[end], digits = 6)) and $(round(soln[end-1], digits = 6))")
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else
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sum_sq = soln[4]^2 + soln[7]^2 + soln[end-2]^2 / k_sq
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println(" center on z axis: r² = $(round(1/k_sq, digits = 6)), x² + y² + h² = $(round(sum_sq, digits = 6))")
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end
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else
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sum_sq = sum(soln[[4, 7, 10]] .^ 2)
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println(" center at origin: r² = $(round(1/k_sq, digits = 6)); x² + y² + z² = $(round(sum_sq, digits = 6))")
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end
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end
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# show a sample solution
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function show_solution(ctx, vals)
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