integrate with new PropertyT.jl
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8
AutFN.jl
8
AutFN.jl
@ -1,13 +1,11 @@
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using ArgParse
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using ArgParse
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using Nemo
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using Nemo
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Nemo.setpermstyle(:cycles)
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import SCS.SCSSolver
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using Groups
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using GroupRings
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using PropertyT
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using PropertyT
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import SCS.SCSSolver
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using Groups
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Nemo.setpermstyle(:cycles)
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#=
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#=
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Note that the element
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Note that the element
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@ -1,4 +1,10 @@
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include("Orb_AutFN.jl")
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using ArgParse
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using SCS
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using Nemo
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using PropertyT
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using Groups
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###############################################################################
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###############################################################################
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#
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#
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@ -114,14 +120,14 @@ function main()
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info(logger, G)
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info(logger, G)
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info(logger, "Symmetric generating set of size $(length(S))")
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info(logger, "Symmetric generating set of size $(length(S))")
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info(logger, S)
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info(logger, S)
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AutS = WreathProduct(Nemo.FiniteField(2,1, "a")[1], PermutationGroup(N))
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AutS = WreathProduct(FiniteField(2,1, "a")[1], PermutationGroup(N))
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# AutS = PermutationGroup(N)
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# AutS = PermutationGroup(N)
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solver = SCS.SCSSolver(eps=tol, max_iters=iterations, verbose=true, linearsolver=SCS.Direct)
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solver = SCS.SCSSolver(eps=tol, max_iters=iterations, verbose=true, linearsolver=SCS.Direct)
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sett = Settings(dirname, N, G, S, AutS, radius, solver, upper_bound, tol)
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sett = Settings(dirname, N, G, S, AutS, radius, solver, upper_bound, tol)
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orbit_check_propertyT(logger, sett)
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PropertyT.check_property_T(sett)
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end
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end
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main()
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main()
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3
SL.jl
3
SL.jl
@ -1,10 +1,9 @@
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using ArgParse
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using ArgParse
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using Nemo
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using Nemo
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using GroupRings
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import SCS.SCSSolver
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using PropertyT
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using PropertyT
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import SCS.SCSSolver
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function E(i::Int, j::Int, M::Nemo.MatSpace)
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function E(i::Int, j::Int, M::Nemo.MatSpace)
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@assert i≠j
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@assert i≠j
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27
SL_orbit.jl
27
SL_orbit.jl
@ -1,4 +1,10 @@
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include("Orb_AutFN.jl")
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using ArgParse
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using SCS
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using Nemo
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using PropertyT
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using Groups
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###############################################################################
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###############################################################################
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#
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#
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@ -6,34 +12,33 @@ include("Orb_AutFN.jl")
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#
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#
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###############################################################################
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###############################################################################
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function matrix_emb(MM::Nemo.MatSpace, g::WreathProducts.WreathProductElem)
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function matrix_emb(MM::MatSpace, g::WreathProductElem)
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parent(g).P.n == MM.cols == MM.rows || throw("No natural embedding of $(parent(g)) in ")
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parent(g).P.n == MM.cols == MM.rows || throw("No natural embedding of $(parent(g)) in ")
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powers = [(elt == parent(elt)() ? 0: 1) for elt in g.n.elts]
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powers = [(elt == parent(elt)() ? 0: 1) for elt in g.n.elts]
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elt = diagm([(-1)^(elt == parent(elt)() ? 0: 1) for elt in g.n.elts])
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elt = diagm([(-1)^(elt == parent(elt)() ? 0: 1) for elt in g.n.elts])
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return MM(elt)*MM(Nemo.matrix_repr(g.p)')
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return MM(elt)*MM(Nemo.matrix_repr(g.p)')
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end
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end
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function (g::WreathProducts.WreathProductElem)(A::Nemo.MatElem)
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function (g::WreathProductElem)(A::MatElem)
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G = matrix_emb(parent(A), g)
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G = matrix_emb(parent(A), g)
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inv_G = matrix_emb(parent(A), inv(g))
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inv_G = matrix_emb(parent(A), inv(g))
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return G*A*inv_G
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return G*A*inv_G
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end
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end
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function (p::Nemo.perm)(A::Nemo.MatElem)
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function (p::perm)(A::MatElem)
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length(p.d) == A.r == A.c || throw("Can't act via $p on matrix of size ($(A.r), $(A.c))")
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length(p.d) == A.r == A.c || throw("Can't act via $p on matrix of size ($(A.r), $(A.c))")
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R = parent(A)
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R = parent(A)
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inv_p = inv(p)
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inv_p = inv(p)
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return R(Nemo.matrix_repr(p))*A*R(Nemo.matrix_repr(inv_p))
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return R(Nemo.matrix_repr(p))*A*R(Nemo.matrix_repr(inv_p))
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end
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end
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###############################################################################
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###############################################################################
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#
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#
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# Generating set
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# Generating set
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#
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#
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###############################################################################
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###############################################################################
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function E(i::Int, j::Int, M::Nemo.MatSpace)
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function E(i::Int, j::Int, M::MatSpace)
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@assert i≠j
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@assert i≠j
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m = one(M)
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m = one(M)
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m[i,j] = m[1,1]
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m[i,j] = m[1,1]
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@ -50,7 +55,7 @@ end
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function SL_generatingset(n::Int)
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function SL_generatingset(n::Int)
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indexing = [(i,j) for i in 1:n for j in 1:n if i≠j]
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indexing = [(i,j) for i in 1:n for j in 1:n if i≠j]
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G = Nemo.MatrixSpace(Nemo.ZZ, n, n)
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G = MatrixSpace(ZZ, n, n)
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S = [E(i,j,G) for (i,j) in indexing]
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S = [E(i,j,G) for (i,j) in indexing]
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S = vcat(S, [transpose(x) for x in S])
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S = vcat(S, [transpose(x) for x in S])
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S = vcat(S, [inv(x) for x in S])
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S = vcat(S, [inv(x) for x in S])
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@ -61,8 +66,8 @@ function SL_generatingset(n::Int, p::Int)
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p == 0 && return SL_generatingset(n)
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p == 0 && return SL_generatingset(n)
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(p > 1 && n > 1) || throw("Both n and p should be positive integers!")
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(p > 1 && n > 1) || throw("Both n and p should be positive integers!")
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info("Size(SL($n,$p)) = $(SLsize(n,p))")
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info("Size(SL($n,$p)) = $(SLsize(n,p))")
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F = Nemo.ResidueRing(Nemo.ZZ, p)
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F = ResidueRing(ZZ, p)
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G = Nemo.MatrixSpace(F, n, n)
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G = MatrixSpace(F, n, n)
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indexing = [(i,j) for i in 1:n for j in 1:n if i≠j]
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indexing = [(i,j) for i in 1:n for j in 1:n if i≠j]
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S = [E(i, j, G) for (i,j) in indexing]
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S = [E(i, j, G) for (i,j) in indexing]
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S = vcat(S, [transpose(x) for x in S])
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S = vcat(S, [transpose(x) for x in S])
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@ -150,14 +155,14 @@ function main()
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info(logger, G)
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info(logger, G)
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info(logger, "Symmetric generating set of size $(length(S))")
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info(logger, "Symmetric generating set of size $(length(S))")
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info(logger, S)
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info(logger, S)
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AutS = WreathProduct(Nemo.FiniteField(2,1, "a")[1], PermutationGroup(N))
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AutS = WreathProduct(FiniteField(2,1, "a")[1], PermutationGroup(N))
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# AutS = PermutationGroup(N)
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# AutS = PermutationGroup(N)
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solver = SCS.SCSSolver(eps=tol, max_iters=iterations, verbose=true, linearsolver=SCS.Direct)
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solver = SCS.SCSSolver(eps=tol, max_iters=iterations, verbose=true, linearsolver=SCS.Direct)
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sett = Settings(dirname, N, G, S, AutS, radius, solver, upper_bound, tol)
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sett = Settings(dirname, N, G, S, AutS, radius, solver, upper_bound, tol)
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orbit_check_propertyT(logger, sett)
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PropertyT.check_property_T(sett)
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end
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end
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main()
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main()
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