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# DepthVector differs from PositionNonZero in that it also works on
# inhomogeneous lists
DepthVector := function( vec )
local k;
k := PositionProperty(vec, k -> not IsZero(k));
if k = fail then return Length(vec) + 1; fi;
return k;
end;
BindGlobal( "Swapped", function( J, k, j, d )
local t;
t := J[k];
J[k] := J[j];
J[j] := t;
J[k] := J[k][d]^-1 * J[k];
return J;
end );
BindGlobal( "MyMinimum", function( list )
local d, i;
d := list[1];
for i in [2..Length(list)] do
if AbsInt(list[i]) < AbsInt(d) then
d := list[i];
elif AbsInt(list[i])=AbsInt(d) and d < 0 and list[i] > 0 then
d := list[i];
fi;
od;
return d;
end );
BindGlobal( "Pivot", function(J, d, k, units)
local v, m, j, l;
# cut out relevant part
v := J{[k..Length(J)]}[d];
m := Unique(Filtered(v, x -> x <> 0*x));
# check for ints
l := Filtered(m, IsInt);
if Length(l) > 0 then
l := MyMinimum(l);
j := Position(v,l);
return Swapped(J, k, j+k-1, d);
fi;
# then check for w
l := Filtered(m, x -> IsLiePUnit(units, x));
if Length(l) > 0 then
l := l[1];
j := Position(v,l);
return Swapped(J, k, j+k-1, d);
fi;
# finally print a statement
Print("need invertible in ", v,"\n");
return Random(m);
end );
BindGlobal( "MyBaseMat@", function(J, units)
local k, d, i, l, m;
if Length(J) = 0 then return J; fi;
J := StructuralCopy(J);
l := Length(J);
m := Length(J[1]);
k := 0;
repeat
# get positions
k := k+1;
if k > Length(J) then return J; fi;
d := Minimum(List(J{[k..l]}, DepthVector));
if d = m+1 then return J{[1..k-1]}; fi;
# move pivot
J := Pivot(J, d, k, units);
if not IsList(J) then return J; fi;
# clear out
for i in [1..Length(J)] do
if i <> k and J[i][d] <> 0*J[i][d] then
J[i] := J[i] - J[i][d]*J[k];
fi;
od;
until false;
end );
BindGlobal( "FactorSpace@", function( d, sub )
return IdentityMat(d){Difference([1..d], List(sub, DepthVector))};
end );
[ Dauer der Verarbeitung: 0.39 Sekunden
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