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fix inverses and symplectic twists to finally arrive at SAut(π₁Σ)
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@ -20,10 +20,18 @@ end
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function SurfaceGroup(genus::Integer, boundaries::Integer)
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@assert genus > 1
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# The (confluent) rewriting systems comes from
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# S. Hermiller, Rewriting systems for Coxeter groups
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# Journal of Pure and Applied Algebra
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# Volume 92, Issue 2, 7 March 1994, Pages 137-148
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# https://doi.org/10.1016/0022-4049(94)90019-1
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# Note: the notation is "inverted":
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# a_g of the article becomes A_g here.
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ltrs = String[]
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for i in 1:genus
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subscript = join('₀'+d for d in reverse(digits(i)))
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append!(ltrs, ["a" * subscript, "A" * subscript, "b" * subscript, "B" * subscript])
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append!(ltrs, ["A" * subscript, "a" * subscript, "B" * subscript, "b" * subscript])
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end
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Al = Alphabet(reverse!(ltrs))
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@ -66,17 +74,17 @@ relations(S::SurfaceGroup) = S.relations
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function symplectic_twists(π₁Σ::SurfaceGroup)
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g = genus(π₁Σ)
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saut = SpecialAutomorphismGroup(FreeGroup(2g))
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saut = SpecialAutomorphismGroup(FreeGroup(2g), maxrules=100)
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Aij = [SymplecticMappingClass(π₁Σ, saut, :A, i, j) for i in 1:g for j in 1:g if i≠j]
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Aij = [SymplecticMappingClass(saut, :A, i, j) for i in 1:g for j in 1:g if i≠j]
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Bij = [SymplecticMappingClass(π₁Σ, saut, :B, i, j) for i in 1:g for j in i+1:g]
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Bij = [SymplecticMappingClass(saut, :B, i, j) for i in 1:g for j in 1:g if i≠j]
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mBij = [SymplecticMappingClass(π₁Σ, saut, :B, i, j, minus=true) for i in 1:g for j in i+1:g]
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mBij = [SymplecticMappingClass(saut, :B, i, j, minus=true) for i in 1:g for j in 1:g if i≠j]
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Bii = [SymplecticMappingClass(π₁Σ, saut, :B, i, i) for i in 1:g]
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Bii = [SymplecticMappingClass(saut, :B, i, i) for i in 1:g]
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mBii = [SymplecticMappingClass(π₁Σ, saut, :B, i, i, minus=true) for i in 1:g]
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mBii = [SymplecticMappingClass(saut, :B, i, i, minus=true) for i in 1:g]
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return [Aij; Bij; mBij; Bii; mBii]
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end
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@ -86,5 +94,10 @@ KnuthBendix.alphabet(G::AutomorphismGroup{<:SurfaceGroup}) = rewriting(G)
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function AutomorphismGroup(π₁Σ::SurfaceGroup; kwargs...)
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S = vcat(symplectic_twists(π₁Σ)...)
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A = Alphabet(S)
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return AutomorphismGroup(π₁Σ, S, A, ntuple(i->gens(π₁Σ, i), 2genus(π₁Σ)))
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# this is to fix the definitions of symplectic twists:
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# with i->gens(π₁Σ, i) the corresponding automorphisms return
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# reversed words
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domain = ntuple(i->inv(gens(π₁Σ, i)), 2genus(π₁Σ))
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return AutomorphismGroup(π₁Σ, S, A, domain)
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end
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@ -175,8 +175,6 @@ struct SymplecticMappingClass{T, F} <: GSymbol
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minus::Bool
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inv::Bool
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autFn_word::T
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perm::Vector{Int}
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invperm::Vector{Int}
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f::F
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end
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@ -185,8 +183,7 @@ Base.:(==)(a::SymplecticMappingClass, b::SymplecticMappingClass) = a.autFn_word
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Base.hash(a::SymplecticMappingClass, h::UInt) = hash(a.autFn_word, h)
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function SymplecticMappingClass(
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Σ::SurfaceGroup,
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sautFn,
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sautFn::AutomorphismGroup{<:FreeGroup},
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id::Symbol,
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i::Integer,
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j::Integer;
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@ -195,11 +192,12 @@ function SymplecticMappingClass(
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)
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@assert i > 0 && j > 0
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id === :A && @assert i ≠ j
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@assert 2genus(Σ) == ngens(object(sautFn))
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@assert iseven(ngens(object(sautFn)))
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genus = ngens(object(sautFn))÷2
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A = KnuthBendix.alphabet(sautFn)
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λ = ΡΛ(:λ, A, 2genus(Σ))
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ϱ = ΡΛ(:ϱ, A, 2genus(Σ))
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A = alphabet(sautFn)
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λ = ΡΛ(:λ, A, 2genus)
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ϱ = ΡΛ(:ϱ, A, 2genus)
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w = if id === :A
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Te(λ, ϱ, i, j) *
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@ -229,14 +227,14 @@ function SymplecticMappingClass(
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throw("Type not recognized: $id")
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end
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# w is a word defined in the context of A (= alphabet(sautFn))
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# so this "coercion" is correct
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a = sautFn(w)
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g = genus(Σ)
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perm = [2g:-2:1; (2g-1):-2:1]
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f = compiled(a)
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# f = t -> evaluate!(t, a)
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res = SymplecticMappingClass(id, UInt(i), UInt(j), minus, inverse, a, perm, invperm(perm), f)
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res = SymplecticMappingClass(id, UInt(i), UInt(j), minus, inverse, a, f)
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return res
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end
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@ -255,7 +253,7 @@ function Base.inv(m::SymplecticMappingClass)
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inv_w = inv(m.autFn_word)
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# f(t) = evaluate!(t, inv_w)
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f = compiled(inv_w)
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return SymplecticMappingClass(m.id, m.i, m.j, m.minus, !m.inv, inv_w, m.perm, m.invperm, f)
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return SymplecticMappingClass(m.id, m.i, m.j, m.minus, !m.inv, inv_w, f)
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end
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function evaluate!(
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@ -263,9 +261,9 @@ function evaluate!(
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smc::SymplecticMappingClass,
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tmp=nothing,
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) where {N,T}
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t = smc.f(t[smc.perm])[smc.invperm]
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t = smc.f(t)
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for i in 1:N
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normalform!(t[i])
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end
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return t
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end
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end
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end
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