Safe Haskell | None |
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Numeric values combined with abstract Physical Units

- data T i a = Cons (T i) a
- quantity :: (Ord i, Enum i, C a) => [Int] -> a -> T i a
- fromScalarSingle :: a -> T i a
- isScalar :: T i a -> Bool
- lift :: (a -> b) -> T i a -> T i b
- lift2 :: Eq i => String -> (a -> b -> c) -> T i a -> T i b -> T i c
- lift2Maybe :: Eq i => (a -> b -> c) -> T i a -> T i b -> Maybe (T i c)
- lift2Gen :: Eq i => String -> (a -> b -> c) -> T i a -> T i b -> c
- errorUnitMismatch :: String -> a
- addMaybe :: (Eq i, C a) => T i a -> T i a -> Maybe (T i a)
- subMaybe :: (Eq i, C a) => T i a -> T i a -> Maybe (T i a)
- scale :: (Ord i, C a) => a -> T i a -> T i a
- ratPow :: C a => T Int -> T i a -> T i a
- ratPowMaybe :: C a => T Int -> T i a -> Maybe (T i a)
- fromRatio :: (C b, C a) => T a -> b

# Documentation

A Physics.Quantity.Value.T combines a numeric value with a physical unit.

(Ord i, C a v) => C a (T i v) | |

(Ord i, C a v) => C a (T i v) | |

C a v => C a (T i v) | |

Monad (T i) | |

Functor (T i) | |

Ord i => C (T i) | |

(Eq i, Eq a) => Eq (T i a) | |

(Ord i, Ord a) => Ord (T i a) | |

(Ord i, Enum i, Show a) => Show (T i a) | |

(Ord i, C a) => C (T i a) | |

C v => C (T a v) | |

(Ord i, C a) => C (T i a) | |

(Ord i, C a) => C (T i a) | |

(Ord i, C a) => C (T i a) | |

(Ord i, C a) => C (T i a) | |

(Ord i, C a) => C (T i a) |

quantity :: (Ord i, Enum i, C a) => [Int] -> a -> T i aSource

Construct a physical value from a numeric value and the full vector representation of a unit.

fromScalarSingle :: a -> T i aSource

lift :: (a -> b) -> T i a -> T i bSource

apply a function to the numeric value while preserving the unit

errorUnitMismatch :: String -> aSource

addMaybe :: (Eq i, C a) => T i a -> T i a -> Maybe (T i a)Source

Add two values if the units match, otherwise return Nothing