local rat = require('Module:Rational')
local p = {}
-- Complex number functions (1st element = real and 2nd element = imaginary)
local function cadd(a, b)
return {(a[1] + b[1]), (a[2] + b[2])}
end
local function csub(a, b)
return {(a[1] - b[1]), (a[2] - b[2])}
end
local function cmul(a, b)
return {(a[1] * b[1] - a[2] * b[2]), (a[1] * b[2] + a[2] * b[1])}
end
local function cdiv(a, b)
return {(a[1] * b[1] + a[2] * b[2])/(b[1]*b[1] + b[2]*b[2]), (a[2] * b[1] - a[1] * b[2])/(b[1]*b[1] + b[2]*b[2])}
end
local function matadd(a, b)
local result = {}
for i = 1, #a do
result[i] = {}
for j = 1, #(b[1]) do
result[i][j] = cadd(a[i][j], b[i][j])
end
end
return result
end
local function matsub(a, b)
local result = {}
for i = 1, #a do
result[i] = {}
for j = 1, #(b[1]) do
result[i][j] = csub(a[i][j], b[i][j])
end
end
return result
end
local function matmul(a, b)
local result = {}
for i = 1, #a do
result[i] = {}
for j = 1, #(b[1]) do
result[i][j] = {0, 0}
for k = 1, #(a[1]) do
result[i][j] = cadd(result[i][j], cmul(a[i][k], b[k][j]))
end
end
end
return result
end
local function scalarmatmul(a, b)
local result = {}
for i = 1, #a do
result[i] = {}
for j = 1, #(a[1]) do
result[i][j] = cmul(a[i][j], b)
end
end
return result
end
function p.matinv(a)
dbl_identity = {}
for i = 1, #a do
dbl_identity[i] = {}
for j = 1, #a do
if i == j then
dbl_identity[i][j] = {2, 0}
else
dbl_identity[i][j] = {0, 0}
end
end
end
xn = scalarmatmul(a, {0.0001, 0})
for i = 1, 30 do
xn = matmul(xn, matsub(dbl_identity, matmul(a, xn)))
end
return xn
end
return p
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