Engine prototype #13

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glen merged 133 commits from engine-proto into main 2024-10-21 03:18:48 +00:00
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@ -1,23 +1,56 @@
using LinearAlgebra using LinearAlgebra
using AbstractAlgebra using AbstractAlgebra
F, (a, b, c) = rational_function_field(Generic.Rationals{BigInt}(), ["a", "b", "c"]) function printgood(msg)
M = matrix_space(F, 5, 5) printstyled("", color = :green)
println(" ", msg)
end
function printbad(msg)
printstyled("", color = :red)
println(" ", msg)
end
F, gens = rational_function_field(Generic.Rationals{BigInt}(), ["a₁", "a₂", "b₁", "b₂", "c₁", "c₂"])
a = gens[1:2]
b = gens[3:4]
c = gens[5:6]
# three mutually tangent spheres which are all perpendicular to the x, y plane # three mutually tangent spheres which are all perpendicular to the x, y plane
gram = M(F.([ gram = [
-1 0 0 0 0; -1 1 1;
0 -1 a b c; 1 -1 1;
0 a -1 1 1; 1 1 -1
0 b 1 -1 1; ]
0 c 1 1 -1;
eig = eigen(gram)
n_pos = count(eig.values .> 0.5)
n_neg = count(eig.values .< -0.5)
if n_pos + n_neg == size(gram, 1)
printgood("Non-degenerate subspace")
else
printbad("Degenerate subspace")
end
sig_rem = Int64[ones(2-n_pos); -ones(3-n_neg)]
unk = hcat(a, b, c)
M = matrix_space(F, 5, 5)
big_gram = M(F.([
diagm(sig_rem) unk;
transpose(unk) gram
])) ]))
r, p, L, U = lu(gram) r, p, L, U = lu(big_gram)
solution = transpose(p * L) if isone(p)
mform = U * inv(transpose(L)) printgood("Found a solution")
else
printbad("Didn't find a solution")
end
solution = transpose(L)
mform = U * inv(solution)
concrete = [evaluate(entry, [0, 1, -3//4]) for entry in solution] vals = [0, 0, 0, 1, 0, -3//4]
solution_ex = [evaluate(entry, vals) for entry in solution]
mform_ex = [evaluate(entry, vals) for entry in mform]
std_basis = [ std_basis = [
0 0 0 1 1; 0 0 0 1 1;
@ -27,4 +60,18 @@ std_basis = [
0 0 1 0 0 0 0 1 0 0
] ]
std_solution = M(F.(std_basis)) * solution std_solution = M(F.(std_basis)) * solution
std_concrete = std_basis * concrete std_solution_ex = std_basis * solution_ex
println("Minkowski form:")
display(mform_ex)
big_gram_recovered = transpose(solution_ex) * mform_ex * solution_ex
valid = all(iszero.(
[evaluate(entry, vals) for entry in big_gram] - big_gram_recovered
))
if valid
printgood("Recovered Gram matrix:")
else
printbad("Didn't recover Gram matrix. Instead, got:")
end
display(big_gram_recovered)