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Add letters function for PcGroupElem #4202

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e9a4ac4
Add syllable functions to pcgroup
jamesnohilly Oct 14, 2024
b910923
Add letters function for PcGroupElem
jamesnohilly Oct 17, 2024
d362f67
Add testset for PcGroup letters function
jamesnohilly Oct 17, 2024
27c24e7
Add support for SubPcGroupElem in letters
jamesnohilly Oct 17, 2024
89b8fe6
Cleanup code
jamesnohilly Oct 17, 2024
94cd03e
Rename pcgroup exponent_vector function
jamesnohilly Oct 18, 2024
416fd8b
Fix test cases for finite pcgroup
jamesnohilly Oct 30, 2024
c350414
Add check for syllables in canonical form
jamesnohilly Oct 31, 2024
b552be6
Add testset for canonical form check
jamesnohilly Oct 31, 2024
11bdb25
Refactor based on PR comments
jamesnohilly Nov 1, 2024
1b80584
Document pcgroup syllable function
jamesnohilly Nov 1, 2024
2d0bfb8
Improve letters and syllables documentation
jamesnohilly Nov 15, 2024
e7f4da0
Fix syllables doctest
jamesnohilly Nov 15, 2024
5cfffd0
Merge branch 'master' into jn/letters
jamesnohilly Nov 18, 2024
43532ba
Change documentation references
jamesnohilly Nov 20, 2024
a80667b
Add checks for PcpGroup
jamesnohilly Nov 25, 2024
30a5a62
Wrap used PcpGroup GAP functions
jamesnohilly Nov 25, 2024
2cd5cb9
Clean up docs examples
jamesnohilly Nov 25, 2024
5dd04b8
Clean and add tests for infinite PcGroups
jamesnohilly Nov 25, 2024
c07db31
Fix mistake in syllable test
jamesnohilly Nov 25, 2024
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105 changes: 104 additions & 1 deletion src/Groups/pcgroup.jl
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Original file line number Diff line number Diff line change
Expand Up @@ -415,7 +415,6 @@ function _GAP_collector_from_the_left(c::GAP_Collector)
return cGAP::GapObj
end


# Create the collector on the GAP side on demand
function underlying_gap_object(c::GAP_Collector)
if ! isdefined(c, :X)
Expand Down Expand Up @@ -473,6 +472,110 @@ function pc_group(c::GAP_Collector)
end
end

"""
letters(g::Union{PcGroupElem, SubPcGroupElem})

Return the letters of `g` as a list of integers, each entry corresponding to
a group generator.
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@fingolfin fingolfin Nov 13, 2024
edited by lgoettgens
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Note that we can also produce negative numbers: e.g. -3 means "inverse of 3rd generator". This should be explained, and perhaps an example added showing that. E.g. based on this:

julia> x = (gg[1]*gg[2]*gg[3])^-2
g1*g2^-2*g3^3

Perhaps also add something like this (and then mirror it in the other function)

See also [`syllables`](@ref).

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I have added a small example with some brief explanation to letters for this. However I am unsure if the example is good as I was not able to get elements with negative exponents and test.

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For that you need an infinite group. E.g.

julia> g = dihedral_group(PosInf())
Pc group of infinite order

julia> g[1]^-3 * g[2]^-3
g1*g2^-3

or

julia> g = abelian_group(PcGroup, [5, 0])
Pc group of infinite order

julia> g[1]^-3 * g[2]^-3
g1^2*g2^-3


This method can produce letters represented by negative numbers. A negative number
indicates the inverse of the generator at the corresponding positive index.

For example, as shown below, an output of -1 refers to the "inverse of the first generator".
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Suggested change
For example, as shown below, an output of -1 refers to the "inverse of the first generator".
For example, as shown below, an output of ´-1´ refers to the "inverse of the first generator".


See also [`syllables`](@ref).
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Suggested change
See also [`syllables`](@ref).
See also [`syllables(::Union{PcGroupElem, SubPcGroupElem})`](@ref).

otherwise this may link to any function called syllables, e.g. to syllables(::FPGroupElem) which is not what we want here


```jldoctest
julia> gg = small_group(6, 1)
Pc group of order 6

julia> x = gg([1 => ZZ(-3)])
f1^-3

julia> letters(x)
3-element Vector{Int64}:
-1
-1
-1
```

# Examples
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This heading should be above the first code block, not between two code blocks


```jldoctest
julia> gg = small_group(6, 1)
Pc group of order 6

julia> x = gg[1]^5*gg[2]^-4
f1*f2^2

julia> letters(x)
3-element Vector{Int64}:
1
2
2
```
"""
function letters(g::Union{PcGroupElem, SubPcGroupElem})
w = GAPWrap.UnderlyingElement(GapObj(g))
return Vector{Int}(GAPWrap.LetterRepAssocWord(w))
end

"""
syllables(g::Union{PcGroupElem, SubPcGroupElem})

Return the syllables of `g` as a list of pairs of integers, each entry corresponding to
a group generator and its exponent.
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# Examples
```jldoctest
julia> gg = small_group(6, 1)
Pc group of order 6

julia> x = gg[1]^5*gg[2]^-4
f1*f2^2

julia> s = syllables(x)
2-element Vector{Pair{Int64, ZZRingElem}}:
1 => 1
2 => 2

julia> gg(s)
f1*f2^2

julia> gg(s) == x
true
```
"""
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function syllables(g::Union{PcGroupElem, SubPcGroupElem})
l = GAPWrap.ExtRepOfObj(GapObj(g))
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For infinite groups, GAp uses a completely different internal representation. You'll need something like this:

  if GAP.Globals.IsPcpElement(GapObj(g))
     expvec = GAP.Globals.Exponents(GapObj(g))
     ... do something with it....
  else
    ... current code
  end

@assert iseven(length(l))
return Pair{Int, ZZRingElem}[l[i-1] => l[i] for i = 2:2:length(l)]
end

# Convert syllables in canonical form into exponent vector
function _exponent_vector(sylls::Vector{Pair{Int64, ZZRingElem}}, n)
res = zeros(ZZRingElem, n)
for pair in sylls
@assert res[pair.first] == 0 #just to make sure
res[pair.first] = pair.second
end
return res
end

# Convert syllables in canonical form into group element
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function (G::PcGroup)(sylls::Vector{Pair{Int64, ZZRingElem}}; check::Bool=true)
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Can you also add a similar constructor which takes an exponent vector, i.e., an inverse to letters?

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One needs to watch out for the semantic difference to the already existing function for FPGroups in

Oscar.jl/src/Groups/GAPGroups.jl

Line 2348 in 24711ee

function (G::FPGroup)(extrep::AbstractVector{T}) where T <: IntegerUnion
, which expects a flattened list of syllable pairs instead.

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ugh, OK. perhaps we should kill that (is it documented?) first then. In GAP it made some sense to use such a flat list to avoid memory, as there are no tuples in GAP, only lists. But in Julia there is no real benefit of this over a Vector{Pair{Int64, ZZRingElem}}.

But that is way beyond this PR. So let's leave out the constructor I mentioned.

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No, not documented, but used for serialization. I haven't looked into how it is used there, so maybe we can just adapt the deserialization function, in the worst case it needs an upgrade script.

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ugh, OK. perhaps we should kill that (is it documented?) first then.

maybe @ThomasBreuer can look into that?

# check if the syllables are in canonical form
if check
indices = map(p -> p.first, sylls)
@req allunique(indices) "given syllables have repeating generators"
@req issorted(indices) "given syllables must be in ascending order"
end

e = _exponent_vector(sylls, ngens(G))
pcgs = Oscar.GAPWrap.FamilyPcgs(GapObj(G))
x = Oscar.GAPWrap.PcElementByExponentsNC(pcgs, GapObj(e, true))
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Here you also need to check for if GAPWrap.IsPcGroup(GapObj(G)) and then do something different.

You'll need the function PcpElementByExponents or PcpElementByExponentsNC, see https://gap-packages.github.io/polycyclic/doc/chap4.html#X7882F0F57ABEB680

Also GAP.Globals.Collector(GapObj(G))

return Oscar.group_element(G, x)
end

# Create an Oscar collector from a GAP collector.

Expand Down
45 changes: 45 additions & 0 deletions test/Groups/pcgroup.jl
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Original file line number Diff line number Diff line change
Expand Up @@ -83,6 +83,51 @@ end
@test cgg !== c.X
end

@testset "generate letters from polycyclic group element" begin

# finite polycyclic groups
c = collector(2, Int);
set_relative_order!(c, 1, 2)
set_relative_order!(c, 2, 3)
set_power!(c, 1, [2 => 1])
gg = pc_group(c)
@test letters(gg[1]^5*gg[2]^-4) == [1, 2]
@test letters(gg[1]^5*gg[2]^4) == [1] # all positive exp
@test letters(gg[1]^-5*gg[2]^-7) == [1, 2, 2] # all negative exp
@test letters(gg[1]^2*gg[2]^3) == [2] # both identity elements

# finite polycyclic subgroup
gg = pc_group(symmetric_group(4))
G = derived_subgroup(gg)[1]
@test letters(G[1]^2) == [2, 2]
@test letters(G[1]^2*G[2]^3*G[3]^3) == [2, 2, 3, 4]
@test letters(G[1]^-2*G[2]^-3*G[3]^-3) == [2, 3, 4]
end

@testset "create polycyclic group element from syllables" begin

# finite polycyclic groups
c = collector(2, Int);
set_relative_order!(c, 1, 2)
set_relative_order!(c, 2, 3)
set_power!(c, 1, [2 => 1])
gg = pc_group(c)

element = gg[1]^5*gg[2]^-4
sylls = syllables(element)
@test sylls == [1 => ZZ(1), 2 => ZZ(1)] # check general usage
@test gg(sylls) == element # this will pass the check

sylls = [1 => ZZ(1), 2 => ZZ(2), 1 => ZZ(3)]
@test_throws ArgumentError gg(sylls) # repeating generators

sylls = [2 => ZZ(1), 1 => ZZ(2)]
@test_throws ArgumentError gg(sylls) # not in ascending order

sylls = [2 => ZZ(1), 1 => ZZ(2), 1 => ZZ(3)] # both conditions
@test_throws ArgumentError gg(sylls)
end

@testset "create collectors from polycyclic groups" begin
for i in rand(1:number_of_small_groups(96), 10)
g = small_group(96, i)
Expand Down
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