InstallMethod(\=, [IsRecogNode,IsRecogNode], IsIdenticalObj);
#utility function to check that parents and kernels are working.
SanityCheck:= function(ri)
local nri, i, bool;
nri:= StructuralCopy(ri);
i:= 0;
bool:= true;
while HasKernelRecogNode(nri) and not KernelRecogNode(nri) = fail do
if not ParentRecogNode(ImageRecogNode(nri)) = nri then
Print("image error at level", i, "\n");
bool:= false;
fi;
if not ParentRecogNode(KernelRecogNode(nri)) = nri then
Print("error: at level", i, "\n");
bool:= false;
fi;
nri:= KernelRecogNode(nri);
i:= i+1;
od;
if not ParentRecogNode(ImageRecogNode(nri)) = nri then
Print("image error at level", i, "\n");
fi;
return bool;
end;
DirectProductOfMatrixGroup := function(G,H)
local gens,g,h,dG,dH,M,i,j;
gens := [];
dG:=DimensionOfMatrixGroup(G);
dH:=DimensionOfMatrixGroup(H);
for g in GeneratorsOfGroup(G) do
M:=One(MatrixAlgebra(FieldOfMatrixGroup(G),dG+dH));
M:=MutableCopyMat(M);
for i in [1..dG] do
for j in [1..dG] do
M[i][j]:=g[i][j];
od;
od;
Add(gens,M);
od;
for h in GeneratorsOfGroup(H) do
M:=One(MatrixAlgebra(FieldOfMatrixGroup(G),dG+dH));
M:=MutableCopyMat(M);
for i in [1..dH] do
for j in [1..dH] do
M[dG+i][dG+j]:=h[i][j];
od;
od;
Add(gens,M);
od;
return GroupWithGenerators(gens);
end;
TensorProductOfMatrixGroup := function(G,H)
local gens,g,h;
gens := [];
for g in GeneratorsOfGroup(G) do
for h in GeneratorsOfGroup(H) do
Add(gens,KroneckerProduct(g,h));
od;
od;
return GroupWithGenerators(gens);
end;
RandomConjugate := function(G)
# returns a random conjugate of G
local d,F,t;
d := DimensionOfMatrixGroup(G);
F := FieldOfMatrixGroup(G);
t := PseudoRandom(GL(d,F));
return G^t;
end;
MyActionOnSubspace := function(B,g)
## Given a basis B of a subspace of the natural vector space for G ## return the action of g on B
local im;
im := List(B,x->Coefficients(B,x*g));
return im;
end;
DiGroup := function(grp)
#produces grp.2 acting as two diagonal blocks with outer aut interchaging them.
local gens,d,g,M,i,j;
gens := [];
d:=DimensionOfMatrixGroup(grp);
#write each generator as two identical diagonal blocks on twice the dimension.
for g in GeneratorsOfGroup(grp) do
M:=One(MatrixAlgebra(FieldOfMatrixGroup(grp),2*d));
M:=MutableCopyMat(M);
for i in [1..d] do
for j in [1..d] do
M[i][j]:=g[i][j];
M[d+i][d+j]:=g[i][j];
od;
od;
Add(gens,M);
od;
#add outer involution.
M:=Zero(MatrixAlgebra(FieldOfMatrixGroup(grp),2*d));
M:=MutableCopyMat(M);
for i in [1..d] do
M[i+d][i]:=One(FieldOfMatrixGroup(grp));
M[i][d+i]:=-One(FieldOfMatrixGroup(grp));
od;
Add(gens,M);
return GroupWithGenerators(gens);
end;
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