Move grouptheoretic stuff to AutFNs module

This commit is contained in:
kalmarek 2017-11-06 01:58:16 +01:00
parent 1bbeca08f4
commit 25fef54e7d
2 changed files with 99 additions and 119 deletions

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@ -1,62 +1,4 @@
using ArgParse using ArgParse
using SCS
# using Mosek
using Nemo
if VERSION >= v"0.6.0"
import Nemo.Generic.perm
end
addprocs(4)
using PropertyT
using Groups
###############################################################################
#
# Action of WreathProductElems on AutGroupElem
#
###############################################################################
function AutFG_emb(A::AutGroup, g::WreathProductElem)
isa(A.objectGroup, FreeGroup) || throw("Not an Aut(Fₙ)")
parent(g).P.n == length(A.objectGroup.gens) || throw("No natural embedding of $(parent(g)) into $A")
powers = [(elt == parent(elt)() ? 0: 1) for elt in g.n.elts]
elt = reduce(*, [A(Groups.flip_autsymbol(i))^pow for (i,pow) in enumerate(powers)])
Groups.r_multiply!(elt, [Groups.perm_autsymbol(g.p)])
return elt
end
function AutFG_emb(A::AutGroup, p::perm)
isa(A.objectGroup, FreeGroup) || throw("Not an Aut(Fₙ)")
parent(p).n == length(A.objectGroup.gens) || throw("No natural embedding of $(parent(g)) into $A")
return A(Groups.perm_autsymbol(p))
end
function (g::WreathProductElem)(a::AutGroupElem)
g = AutFG_emb(parent(a),g)
return g*a*g^-1
end
function (p::perm)(a::AutGroupElem)
g = AutFG_emb(parent(a),p)
return g*a*g^-1
end
###############################################################################
#
# Generating set
#
###############################################################################
function SAutFN_generating_set(N::Int)
SAutFN = AutGroup(FreeGroup(N), special=true)
S = gens(SAutFN);
S = [S; [inv(s) for s in S]]
return SAutFN, unique(S)
end
############################################################################### ###############################################################################
# #
@ -64,17 +6,6 @@ end
# #
############################################################################### ###############################################################################
function cpuinfo_physicalcores()
maxcore = -1
for line in eachline("/proc/cpuinfo")
if startswith(line, "core id")
maxcore = max(maxcore, parse(Int, split(line, ':')[2]))
end
end
maxcore < 0 && error("failure to read core ids from /proc/cpuinfo")
return maxcore + 1
end
function parse_commandline() function parse_commandline()
settings = ArgParseSettings() settings = ArgParseSettings()
@ -108,56 +39,31 @@ function parse_commandline()
return parse_args(settings) return parse_args(settings)
end end
############################################################################### parsed_args = parse_commandline()
#
# main
#
###############################################################################
function main() function cpuinfo_physicalcores()
parsed_args = parse_commandline() maxcore = -1
for line in eachline("/proc/cpuinfo")
if parsed_args["cpus"] nothing if startswith(line, "core id")
if parsed_args["cpus"] > cpuinfo_physicalcores() maxcore = max(maxcore, parse(Int, split(line, ':')[2]))
warn("Number of specified cores exceeds the physical core cound. Performance will suffer.") end
end end
BLAS.set_num_threads(parsed_args["cpus"]) maxcore < 0 && error("failure to read core ids from /proc/cpuinfo")
end return maxcore + 1
N = parsed_args["N"]
radius = parsed_args["radius"]
tol = parsed_args["tol"]
iterations = parsed_args["iterations"]
upper_bound = parsed_args["upper-bound"]
dirname = "oSAutF$(N)_r$radius"
isdir(dirname) || mkdir(dirname)
logger = PropertyT.setup_logging(joinpath(dirname, "$(upper_bound)"))
info(logger, "Group: $dirname")
info(logger, "Iterations: $iterations")
info(logger, "Precision: $tol")
info(logger, "Upper bound: $upper_bound")
info(logger, "Threads: $(Threads.nthreads())")
info(logger, "Workers: $(workers())")
G, S = SAutFN_generating_set(N)
info(logger, G)
info(logger, "Symmetric generating set of size $(length(S))")
info(logger, S)
AutS = WreathProduct(FiniteField(2,1, "a")[1], PermutationGroup(N))
# AutS = PermutationGroup(N)
solver = SCSSolver(eps=tol, max_iters=iterations, linearsolver=SCS.Direct)
# solver = Mosek.MosekSolver(
# MSK_DPAR_INTPNT_CO_TOL_REL_GAP=tol,
# MSK_IPAR_INTPNT_MAX_ITERATIONS=iterations,
# QUIET=false)
sett = Settings(dirname, N, G, S, AutS, radius, solver, upper_bound, tol)
PropertyT.check_property_T(sett)
end end
main() if parsed_args["cpus"] == nothing
N = cpuinfo_physicalcores()
parsed_args["cpus"] = N
info("Setting --cpus to $N")
elseif parsed_args["cpus"] > cpuinfo_physicalcores()
warn("Number of specified cores exceeds the physical core count. Performance may suffer.")
end
addprocs(parsed_args["cpus"])
BLAS.set_num_threads(parsed_args["cpus"])
include("SAutFNs.jl")
include("Orbit.jl")
main(SAutFNs, parsed_args)

74
SAutFNs.jl Normal file
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@ -0,0 +1,74 @@
module SAutFNs
using Nemo
using Groups
###############################################################################
#
# Generating set
#
###############################################################################
function generatingset(N::Int)
SAutFN = AutGroup(FreeGroup(N), special=true)
S = gens(SAutFN);
S = [S; [inv(s) for s in S]]
return SAutFN, unique(S)
end
function generatingset(parsed_args)
N = parsed_args["N"]
return generatingset(N)
end
###############################################################################
#
# Action of WreathProductElems on AutGroupElem
#
###############################################################################
function AutFG_emb(A::AutGroup, g::WreathProductElem)
isa(A.objectGroup, FreeGroup) || throw("Not an Aut(Fₙ)")
parent(g).P.n == length(A.objectGroup.gens) || throw("No natural embedding of $(parent(g)) into $A")
powers = [(elt == parent(elt)() ? 0: 1) for elt in g.n.elts]
elt = reduce(*, [A(Groups.flip_autsymbol(i))^pow for (i,pow) in enumerate(powers)])
Groups.r_multiply!(elt, [Groups.perm_autsymbol(g.p)])
return elt
end
function AutFG_emb(A::AutGroup, p::perm)
isa(A.objectGroup, FreeGroup) || throw("Not an Aut(Fₙ)")
parent(p).n == length(A.objectGroup.gens) || throw("No natural embedding of $(parent(g)) into $A")
return A(Groups.perm_autsymbol(p))
end
function (g::WreathProductElem)(a::AutGroupElem)
g = AutFG_emb(parent(a),g)
return g*a*g^-1
end
function (p::perm)(a::AutGroupElem)
g = AutFG_emb(parent(a),p)
return g*a*g^-1
end
function autS(parsed_args)
N = parsed_args["N"]
return WreathProduct(PermutationGroup(2), PermutationGroup(N))
# return WreathProduct(FiniteField(2,1, "a")[1], PermutationGroup(N))
end
###############################################################################
#
# Misc
#
###############################################################################
function groupname(parsed_args)
N = parsed_args["N"]
return "oSAutF$(N)", N
end
end # of module SAutFNs