2024-02-10 19:50:50 +00:00
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module Algebraic
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export
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codimension, dimension,
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Construction, realize,
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Element, Point, Sphere,
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Relation, LiesOn, AlignsWithBy, mprod
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import Subscripts
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using LinearAlgebra
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using AbstractAlgebra
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using Groebner
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using ...HittingSet
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# --- commutative algebra ---
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# as of version 0.36.6, AbstractAlgebra only supports ideals in multivariate
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# polynomial rings when the coefficients are integers. we use Groebner to extend
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# support to rationals and to finite fields of prime order
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Generic.reduce_gens(I::Generic.Ideal{U}) where {T <: FieldElement, U <: MPolyRingElem{T}} =
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Generic.Ideal{U}(base_ring(I), groebner(gens(I)))
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function codimension(I::Generic.Ideal{U}, maxdepth = Inf) where {T <: RingElement, U <: MPolyRingElem{T}}
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leading = [exponent_vector(f, 1) for f in gens(I)]
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targets = [Set(findall(.!iszero.(exp_vec))) for exp_vec in leading]
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length(HittingSet.solve(HittingSetProblem(targets), maxdepth))
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end
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dimension(I::Generic.Ideal{U}, maxdepth = Inf) where {T <: RingElement, U <: MPolyRingElem{T}} =
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length(gens(base_ring(I))) - codimension(I, maxdepth)
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# --- primitve elements ---
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abstract type Element{T} end
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mutable struct Point{T} <: Element{T}
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coords::Vector{MPolyRingElem{T}}
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vec::Union{Vector{MPolyRingElem{T}}, Nothing}
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rel::Nothing
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## [to do] constructor argument never needed?
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Point{T}(
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coords::Vector{MPolyRingElem{T}} = MPolyRingElem{T}[],
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vec::Union{Vector{MPolyRingElem{T}}, Nothing} = nothing
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) where T = new(coords, vec, nothing)
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end
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function buildvec!(pt::Point)
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coordring = parent(pt.coords[1])
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pt.vec = [one(coordring), dot(pt.coords, pt.coords), pt.coords...]
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end
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mutable struct Sphere{T} <: Element{T}
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coords::Vector{MPolyRingElem{T}}
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vec::Union{Vector{MPolyRingElem{T}}, Nothing}
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rel::Union{MPolyRingElem{T}, Nothing}
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## [to do] constructor argument never needed?
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Sphere{T}(
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coords::Vector{MPolyRingElem{T}} = MPolyRingElem{T}[],
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vec::Union{Vector{MPolyRingElem{T}}, Nothing} = nothing,
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rel::Union{MPolyRingElem{T}, Nothing} = nothing
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) where T = new(coords, vec, rel)
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end
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function buildvec!(sph::Sphere)
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coordring = parent(sph.coords[1])
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sph.vec = sph.coords
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sph.rel = mprod(sph.coords, sph.coords) + one(coordring)
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end
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const coordnames = IdDict{Symbol, Vector{Union{Symbol, Nothing}}}(
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nameof(Point) => [nothing, nothing, :xₚ, :yₚ, :zₚ],
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nameof(Sphere) => [:rₛ, :sₛ, :xₛ, :yₛ, :zₛ]
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)
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coordname(elt::Element, index) = coordnames[nameof(typeof(elt))][index]
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function pushcoordname!(coordnamelist, indexed_elt::Tuple{Any, Element}, coordindex)
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eltindex, elt = indexed_elt
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name = coordname(elt, coordindex)
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if !isnothing(name)
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subscript = Subscripts.sub(string(eltindex))
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push!(coordnamelist, Symbol(name, subscript))
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end
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end
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function takecoord!(coordlist, indexed_elt::Tuple{Any, Element}, coordindex)
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elt = indexed_elt[2]
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if !isnothing(coordname(elt, coordindex))
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push!(elt.coords, popfirst!(coordlist))
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end
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end
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# --- primitive relations ---
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abstract type Relation{T} end
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mprod(v, w) = (v[1]*w[2] + w[1]*v[2]) / 2 - dot(v[3:end], w[3:end])
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# elements: point, sphere
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struct LiesOn{T} <: Relation{T}
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elements::Vector{Element{T}}
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LiesOn{T}(pt::Point{T}, sph::Sphere{T}) where T = new{T}([pt, sph])
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end
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equation(rel::LiesOn) = mprod(rel.elements[1].vec, rel.elements[2].vec)
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# elements: sphere, sphere
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struct AlignsWithBy{T} <: Relation{T}
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elements::Vector{Element{T}}
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cos_angle::T
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AlignsWithBy{T}(sph1::Sphere{T}, sph2::Sphere{T}, cos_angle::T) where T = new{T}([sph1, sph2], cos_angle)
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end
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equation(rel::AlignsWithBy) = mprod(rel.elements[1].vec, rel.elements[2].vec) - rel.cos_angle
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# --- constructions ---
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mutable struct Construction{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 = 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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filter(elt -> isa(elt, Sphere), allelements),
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relations
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)
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end
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end
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function Base.push!(ctx::Construction{T}, elt::Point{T}) where T
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push!(ctx.points, elt)
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end
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function Base.push!(ctx::Construction{T}, elt::Sphere{T}) where T
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push!(ctx.spheres, elt)
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end
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function Base.push!(ctx::Construction{T}, rel::Relation{T}) where T
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push!(ctx.relations, rel)
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for elt in rel.elements
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push!(ctx, elt)
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end
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end
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function realize(ctx::Construction{T}) where T
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# collect coordinate names
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coordnamelist = Symbol[]
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eltenum = enumerate(Iterators.flatten((ctx.spheres, ctx.points)))
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for coordindex in 1:5
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for indexed_elt in eltenum
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pushcoordname!(coordnamelist, indexed_elt, coordindex)
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end
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end
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# construct coordinate ring
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coordring, coordqueue = polynomial_ring(parent_type(T)(), coordnamelist, ordering = :degrevlex)
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# retrieve coordinates
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for (_, elt) in eltenum
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empty!(elt.coords)
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end
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for coordindex in 1:5
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for indexed_elt in eltenum
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takecoord!(coordqueue, indexed_elt, coordindex)
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end
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end
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# construct coordinate vectors
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for (_, elt) in eltenum
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buildvec!(elt)
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end
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# turn relations into equations
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eqns = vcat(
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equation.(ctx.relations),
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[elt.rel for (_, elt) in eltenum if !isnothing(elt.rel)]
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)
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# add relations to center, orient, and scale the construction
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2024-02-13 03:48:16 +00:00
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# [to do] the scaling constraint, as written, can be impossible to satisfy
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# when all of the spheres have to go through the origin
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2024-02-15 21:28:01 +00:00
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##if !isempty(ctx.points)
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## append!(eqns, [sum(pt.coords[k] for pt in ctx.points) for k in 1:3])
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##end
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##if !isempty(ctx.spheres)
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## append!(eqns, [sum(sph.coords[k] for sph in ctx.spheres) for k in 3:4])
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##end
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##n_elts = length(ctx.points) + length(ctx.spheres)
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##if n_elts > 0
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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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2024-02-10 19:50:50 +00:00
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2024-02-15 21:28:01 +00:00
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(Generic.Ideal(coordring, eqns), eqns)
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## [test] (nothing, eqns)
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2024-02-10 19:50:50 +00:00
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end
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end
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