Portability | requires multi-parameter type classes |
---|---|

Stability | provisional |

Maintainer | numericprelude@henning-thielemann.de |

Safe Haskell | None |

Polynomials with negative and positive exponents.

- data T a = Cons {}
- const :: a -> T a
- (!) :: C a => T a -> Int -> a
- fromCoeffs :: [a] -> T a
- fromShiftCoeffs :: Int -> [a] -> T a
- fromPolynomial :: T a -> T a
- fromPowerSeries :: T a -> T a
- bounds :: T a -> (Int, Int)
- shift :: Int -> T a -> T a
- translate :: Int -> T a -> T a
- appPrec :: Int
- add :: C a => T a -> T a -> T a
- series :: C a => [T a] -> T a
- addShiftedMany :: C a => [Int] -> [[a]] -> [a]
- addShifted :: C a => Int -> [a] -> [a] -> [a]
- negate :: C a => T a -> T a
- sub :: C a => T a -> T a -> T a
- mul :: C a => T a -> T a -> T a
- div :: (C a, C a) => T a -> T a -> T a
- divExample :: T Rational
- equivalent :: (Eq a, C a) => T a -> T a -> Bool
- identical :: Eq a => T a -> T a -> Bool
- isAbsolute :: C a => T a -> Bool
- alternate :: C a => T a -> T a
- reverse :: T a -> T a
- adjoint :: C a => T (T a) -> T (T a)

# Documentation

Polynomial including negative exponents

# Basic Operations

fromCoeffs :: [a] -> T aSource

fromShiftCoeffs :: Int -> [a] -> T aSource

fromPolynomial :: T a -> T aSource

fromPowerSeries :: T a -> T aSource

translate :: Int -> T a -> T aSource

Deprecated: In order to avoid confusion with Polynomial.translate, use `shift`

instead

# Show

# Additive

addShiftedMany :: C a => [Int] -> [[a]] -> [a]Source

Add lists of numbers respecting a relative shift between the starts of the lists. The shifts must be non-negative. The list of relative shifts is one element shorter than the list of summands. Infinitely many summands are permitted, provided that runs of zero shifts are all finite.

We could add the lists either with `foldl`

or with `foldr`

,
`foldl`

would be straightforward, but more time consuming (quadratic time)
whereas foldr is not so obvious but needs only linear time.

(stars denote the coefficients,
frames denote what is contained in the interim results)
`foldl`

sums this way:

| | | ******************************* | | +-------------------------------- | | ************************ | +---------------------------------- | ************ +------------------------------------

I.e. `foldl`

would use much time find the time differences
by successive subtraction 1.

`foldr`

mixes this way:

+-------------------------------- | ******************************* | +------------------------- | | ************************ | | +------------- | | | ************

addShifted :: C a => Int -> [a] -> [a] -> [a]Source

# Module

# Ring

# Field.C

# Comparisons

equivalent :: (Eq a, C a) => T a -> T a -> BoolSource

Two polynomials may be stored differently.
This function checks whether two values of type `LaurentPolynomial`

actually represent the same polynomial.

isAbsolute :: C a => T a -> BoolSource

Check whether a Laurent polynomial has only the absolute term, that is, it represents the constant polynomial.