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-- root finding examples
import Numeric.GSL
import Numeric.LinearAlgebra
import Text.Printf(printf)
rosenbrock a b [x,y] = [ a*(1-x), b*(y-x^2) ]
test method = do
print method
let (s,p) = root method 1E-7 30 (rosenbrock 1 10) [-10,-5]
print s -- solution
disp p -- evolution of the algorithm
jacobian a b [x,y] = [ [-a , 0]
, [-2*b*x, b] ]
testJ method = do
print method
let (s,p) = rootJ method 1E-7 30 (rosenbrock 1 10) (jacobian 1 10) [-10,-5]
print s
disp p
disp = putStrLn . format " " (printf "%.3f")
main = do
test Hybrids
test Hybrid
test DNewton
test Broyden
mapM_ testJ [HybridsJ .. GNewton]
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