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Newton-Raphson implementation
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@ -1,4 +1,7 @@
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{-# LANGUAGE ScopedTypeVariables #-}
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{-# LANGUAGE DuplicateRecordFields #-}
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{-# LANGUAGE ScopedTypeVariables #-}
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{-# OPTIONS_GHC -Wno-name-shadowing #-}
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module Math.Roots where
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@ -274,3 +277,120 @@ derivative p = do
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go ( i + 1 )
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go 0
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pure p'
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--------------------------------------------------------------------------------
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data NewtonRaphson
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= NewtonRaphson
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{ f :: Double -> (# Double, Double #)
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, maxIters :: Word
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, min_x, max_x :: Double
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, digits :: Int }
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-- Newton–Raphson implementation taken from Boost C++ library:
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-- https://github.com/boostorg/math/blob/0dc6a70caa6bbec2b6ae25eede36c430f0ccae13/include/boost/math/tools/roots.hpp#L217
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newtonRaphson :: NewtonRaphson
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-> Double
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-> Maybe Double
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newtonRaphson ( NewtonRaphson { f, maxIters, min_x, max_x, digits } ) x0 =
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go $
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NewtonRaphsonState
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{ f_x_prev = 0
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, x = x0
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, δ = maxDouble, δ1 = maxDouble
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, iters = 0
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, min_x, max_x
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, min_f_x = 0, max_f_x = 0 }
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where
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factor = encodeFloat 1 ( 1 - digits )
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go ( NewtonRaphsonState { f_x_prev, x, δ = δ1, δ1 = δ2, iters, min_x, max_x, min_f_x, max_f_x } )
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= case f x of
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(# f_x, f'_x #)
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| f_x == 0
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-> Just x
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| δ <-
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if | f'_x == 0
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-> handleZeroDerivative f_x_prev x f_x δ1 min_x max_x
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| otherwise
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-> f_x / f'_x
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, (# δ, δ1 #) <-
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if | abs ( δ * δ ) > abs δ2
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, let shift = if δ > 0 then 0.5 * ( x - min_x ) else 0.5 * ( x - max_x )
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, δ <- if x /= 0 && ( abs shift > abs x )
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then signum δ * abs x * 1.1
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else shift
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-> (# δ, 3 * δ #)
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| otherwise
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-> (# δ, δ1 #)
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, let new_x = x - δ
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, (# δ, new_x #) <-
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if | new_x <= min_x
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, δ <- 0.5 * ( x - min_x )
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-> (# δ, x - δ #)
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| new_x >= max_x
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, δ <- 0.5 * ( x - max_x )
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-> (# δ, x - δ #)
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| otherwise
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-> (# δ, new_x #)
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-> if
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| abs δ <= abs ( new_x * factor )
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|| new_x == min_x || new_x == max_x
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-> Just x
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| iters >= maxIters
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-> Nothing
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| (# min_x, max_x, min_f_x, max_f_x #) <-
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if δ > 0
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then (# min_x, x, min_f_x, f_x #)
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else (# x, max_x, f_x, max_f_x #)
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-> if min_f_x * max_f_x > 0
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then Nothing
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else
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go $ NewtonRaphsonState
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{ f_x_prev = f_x, x = new_x
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, δ, δ1
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, iters = iters + 1
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, min_x, max_x
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, min_f_x, max_f_x
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}
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handleZeroDerivative :: Double
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-> Double -> Double
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-> Double
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-> Double -> Double
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-> Double
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handleZeroDerivative f_x_prev x f_x δ min_x max_x
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-- Handle zero derivative on first iteration.
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| f_x_prev == 0
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, x_prev <- if x <= 0.5 * ( min_x + max_x ) then max_x else min_x
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, (# f_x_prev, _ #) <- f x_prev
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, δ <- x_prev - x
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= finish f_x_prev δ
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| otherwise
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= finish f_x_prev δ
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where
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finish f_x_prev δ
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| signum f_x_prev * signum f_x < 0
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= if δ < 0 then 0.5 * ( x - min_x ) else 0.5 * ( x - max_x )
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| otherwise
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= if δ < 0 then 0.5 * ( x - max_x ) else 0.5 * ( x - min_x )
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-- | Loop state for the 'newtonRaphson' function.
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data NewtonRaphsonState =
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NewtonRaphsonState
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{ f_x_prev :: !Double
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, x :: !Double
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, δ, δ1 :: !Double
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, iters :: !Word
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, min_x, max_x :: !Double
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, min_f_x, max_f_x :: !Double }
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maxDouble :: Double
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maxDouble = encodeFloat m n
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where
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b = floatRadix ( 0 :: Double )
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e = floatDigits ( 0 :: Double )
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(_, e') = floatRange ( 0 :: Double )
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m = b ^ e - 1
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n = e' - e
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