# Converting numbers

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Converting between numerical types in Haskell must be done explicitly. This is unlike languages (such as C or Java) which automatically cast between numerical types in certain situations. | Converting between numerical types in Haskell must be done explicitly. This is unlike languages (such as C or Java) which automatically cast between numerical types in certain situations. | ||

− | == Converting from | + | == Converting from integers and between integer types == |

Integral types are ones which may only contain whole numbers and not fractions. <hask>Int</hask> (fixed-size machine integers) and <hask>Integer</hask> (arbitrary precision integers) are the two Integral types in the standard Haskell libraries. | Integral types are ones which may only contain whole numbers and not fractions. <hask>Int</hask> (fixed-size machine integers) and <hask>Integer</hask> (arbitrary precision integers) are the two Integral types in the standard Haskell libraries. | ||

− | The workhorse for converting Integral types is <hask>fromIntegral</hask>, which will convert any integral type into any numeric type (e.g. <hask>Rational</hask>, <hask>Double</hask>...): | + | The workhorse for converting Integral types is <hask>fromIntegral</hask>, which will convert any integral type into any numeric type (e.g. <hask>Rational</hask>, <hask>Double</hask>, <hask>Int16</hask> ...): |

<haskell> | <haskell> | ||

fromIntegral :: (Num b, Integral a) => a -> b | fromIntegral :: (Num b, Integral a) => a -> b | ||

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This is an inherently lossy transformation since integral types cannot express non-whole numbers. Depending on how you wish to convert, you might choose one of several methods. | This is an inherently lossy transformation since integral types cannot express non-whole numbers. Depending on how you wish to convert, you might choose one of several methods. | ||

− | * <hask>ceiling</hask> | + | * <hask>ceiling :: (RealFrac a, Integral b) => a -> b</hask> |

− | * <hask>floor</hask> | + | * <hask>floor :: (RealFrac a, Integral b) => a -> b</hask> |

− | * <hask>truncate</hask> | + | * <hask>truncate :: (RealFrac a, Integral b) => a -> b</hask> |

− | * <hask>round</hask> | + | * <hask>round :: (RealFrac a, Integral b) => a -> b</hask> |

+ | |||

+ | == Converting between float types == | ||

+ | |||

+ | Say, conversion from Float to Double and back. | ||

+ | |||

+ | * <hask>import GHC.Float</hask> | ||

+ | * <hask>:t float2Double</hask> | ||

+ | * <hask>float2Double :: Float -> Double</hask> | ||

+ | * <hask>:t double2Float</hask> | ||

+ | * <hask>double2Float :: Double -> Float</hask> | ||

== Automatic conversion == | == Automatic conversion == | ||

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Repeatedly people ask for automatic conversion between numbers. This is usually not a good idea; for more information, refer to the thoughts about a [[Generic number type]]. | Repeatedly people ask for automatic conversion between numbers. This is usually not a good idea; for more information, refer to the thoughts about a [[Generic number type]]. | ||

− | == | + | == Example == |

− | Hi, I am trying to write some | + | Hi, I am trying to write some functions that convert between two coordinate systems. The first coordinate system, which ill call coord1, starts in the upper left at (0, 0) and ends in the lower right at (500, 500). Coordinates in coord1 have type (Int, Int). The second coord system, which I'll call coord2, starts in the lower left at (0.0, 0.0) and ends in the upper right at (1.0, 1.0). Coords in coord2 have type (Float, Float). I was hoping someone could help me figure out how I can rewrite the two functions below so that the type checker will accept them. |

<haskell> | <haskell> | ||

coord1ToCoord2 :: (Int, Int) -> (Float, Float) | coord1ToCoord2 :: (Int, Int) -> (Float, Float) | ||

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coord2ToCoord1 (1.0, 1.0) -> (500, 0) | coord2ToCoord1 (1.0, 1.0) -> (500, 0) | ||

</haskell> | </haskell> | ||

− | + | One of the thing that confused me was that I expected 500 to be an Int, but in fact the literals are automatically converted to a correct Num instance. | |

− | + | The solution here was to use fromIntegral and round : | |

<haskell> | <haskell> | ||

− | + | coord1ToCoord2 :: (Int, Int) -> (Float, Float) | |

− | + | coord1ToCoord2 (x, y) = (fromIntegral x/500, (500 - fromIntegral y)/500) | |

− | + | ||

− | + | coord2ToCoord1 :: (Float, Float) -> (Int, Int) | |

− | + | coord2ToCoord1 (x, y) = (round (500 * x), round (500 - 500 * y)) | |

− | + | ||

− | + | ||

− | + | ||

− | + | ||

</haskell> | </haskell> | ||

− | |||

[[Category:Mathematics]] | [[Category:Mathematics]] | ||

[[Category:FAQ]] | [[Category:FAQ]] | ||

[[Category:Idioms]] | [[Category:Idioms]] |

## Revision as of 02:54, 4 July 2011

Converting between numerical types in Haskell must be done explicitly. This is unlike languages (such as C or Java) which automatically cast between numerical types in certain situations.

## Contents |

## 1 Converting from integers and between integer types

Integral types are ones which may only contain whole numbers and not fractions.fromIntegral :: (Num b, Integral a) => a -> b

## 2 Converting to Rational

To convert something to atoRational :: (Real a) => a -> Rational

## 3 Converting to Integral

This is an inherently lossy transformation since integral types cannot express non-whole numbers. Depending on how you wish to convert, you might choose one of several methods.

- ceiling :: (RealFrac a, Integral b) => a -> b
- floor :: (RealFrac a, Integral b) => a -> b
- truncate :: (RealFrac a, Integral b) => a -> b
- round :: (RealFrac a, Integral b) => a -> b

## 4 Converting between float types

Say, conversion from Float to Double and back.

- import GHC.Float
- :t float2Double
- float2Double :: Float -> Double
- :t double2Float
- double2Float :: Double -> Float

## 5 Automatic conversion

Repeatedly people ask for automatic conversion between numbers. This is usually not a good idea; for more information, refer to the thoughts about a Generic number type.

## 6 Example

Hi, I am trying to write some functions that convert between two coordinate systems. The first coordinate system, which ill call coord1, starts in the upper left at (0, 0) and ends in the lower right at (500, 500). Coordinates in coord1 have type (Int, Int). The second coord system, which I'll call coord2, starts in the lower left at (0.0, 0.0) and ends in the upper right at (1.0, 1.0). Coords in coord2 have type (Float, Float). I was hoping someone could help me figure out how I can rewrite the two functions below so that the type checker will accept them.

coord1ToCoord2 :: (Int, Int) -> (Float, Float) coord1ToCoord2 (x, y) = (x/500, (500-y)/500) coord2ToCoord1 :: (Float, Float) -> (Int, Int) coord2ToCoord1 (x, y) = (500/(1/x), 500 - 500/(1/y))

examples of what i want. i think i have the logic right :)

coord1ToCoord2 (0, 0) -> (0.0, 1.0) coord1ToCoord2 (250, 250) -> (0.5, 0.5) coord1ToCoord2 (350, 350) -> (0.7, 0.3) coord1ToCoord2 (500, 500) -> (1.0, 0.0) coord2ToCoord1 (0.0, 0.0) -> (0, 500) coord2ToCoord1 (0.5, 0.5) -> (250, 250) coord2ToCoord1 (0.7, 0.7) -> (350, 150) coord2ToCoord1 (1.0, 1.0) -> (500, 0)

One of the thing that confused me was that I expected 500 to be an Int, but in fact the literals are automatically converted to a correct Num instance.

The solution here was to use fromIntegral and round :

coord1ToCoord2 :: (Int, Int) -> (Float, Float) coord1ToCoord2 (x, y) = (fromIntegral x/500, (500 - fromIntegral y)/500) coord2ToCoord1 :: (Float, Float) -> (Int, Int) coord2ToCoord1 (x, y) = (round (500 * x), round (500 - 500 * y))