Copyright | (c) Edward Kmett 2010-2021 |
---|---|
License | BSD3 |
Maintainer | ekmett@gmail.com |
Stability | experimental |
Portability | GHC only |
Safe Haskell | Safe-Inferred |
Language | Haskell2010 |
Root finding using Halley's rational method (the second in the class of Householder methods). Assumes the function is three times continuously differentiable and converges cubically when progress can be made.
Synopsis
- findZero :: (TowerDouble -> TowerDouble) -> Double -> [Double]
- inverse :: (TowerDouble -> TowerDouble) -> Double -> Double -> [Double]
- fixedPoint :: (TowerDouble -> TowerDouble) -> Double -> [Double]
- extremum :: (On (Forward TowerDouble) -> On (Forward TowerDouble)) -> Double -> [Double]
Halley's Method (Tower AD)
findZero :: (TowerDouble -> TowerDouble) -> Double -> [Double] Source #
The findZero
function finds a zero of a scalar function using
Halley's method; its output is a stream of increasingly accurate
results. (Modulo the usual caveats.) If the stream becomes constant
("it converges"), no further elements are returned.
Examples:
>>>
take 10 $ findZero (\x->x^2-4) 1
[1.0,1.8571428571428572,1.9997967892704736,1.9999999999994755,2.0]
inverse :: (TowerDouble -> TowerDouble) -> Double -> Double -> [Double] Source #
The inverse
function inverts a scalar function using
Halley's method; its output is a stream of increasingly accurate
results. (Modulo the usual caveats.) If the stream becomes constant
("it converges"), no further elements are returned.
Note: the take 10 $ inverse sqrt 1 (sqrt 10)
example that works for Newton's method
fails with Halley's method because the preconditions do not hold!
fixedPoint :: (TowerDouble -> TowerDouble) -> Double -> [Double] Source #
The fixedPoint
function find a fixedpoint of a scalar
function using Halley's method; its output is a stream of
increasingly accurate results. (Modulo the usual caveats.)
If the stream becomes constant ("it converges"), no further elements are returned.
>>>
last $ take 10 $ fixedPoint cos 1
0.7390851332151607
extremum :: (On (Forward TowerDouble) -> On (Forward TowerDouble)) -> Double -> [Double] Source #
The extremum
function finds an extremum of a scalar
function using Halley's method; produces a stream of increasingly
accurate results. (Modulo the usual caveats.) If the stream becomes
constant ("it converges"), no further elements are returned.
>>>
take 10 $ extremum cos 1
[1.0,0.29616942658570555,4.59979519460002e-3,1.6220740159042513e-8,0.0]