# Declaration vs. expression style

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which are both supported by Haskell mainly because several language designers preferred these different styles. | which are both supported by Haskell mainly because several language designers preferred these different styles. | ||

− | In the '''declaration style''' you formulate an algorithm in terms of several equations that shall be satisfied. | + | In the '''declaration style''' you formulate an algorithm in terms of several equations that shall be satisfied.<br> |

In the '''expression style''' you compose big expressions from small expressions. | In the '''expression style''' you compose big expressions from small expressions. | ||

Line 41: | Line 41: | ||

There are characteristic elements of both styles. | There are characteristic elements of both styles. | ||

− | {| | + | {| cellpadding="4" cellspacing="0" border="3" style="color:blue" |

− | | | + | ! style="color:black" colspan="2"|Declaration style |

− | |- | + | ! style="color:black" colspan="2"|Expression-style |

− | | <hask>where</hask> clause | | + | |- style="color:black" |

− | |- | + | | colspan="2"| <hask>where</hask> clause |

+ | | colspan="2"| <hask>let</hask> expression | ||

+ | |- style="color:black" | ||

| Function arguments on left hand side: || <hask>f x = x*x</hask> || [[Lambda abstraction]]: || <hask>f = \x -> x*x</hask> | | Function arguments on left hand side: || <hask>f x = x*x</hask> || [[Lambda abstraction]]: || <hask>f = \x -> x*x</hask> | ||

− | |- | + | |- style="color:black" |

| [[Pattern matching]] in function definitions: || <hask>f [] = 0</hask> || <hask>case</hask> expression: || <hask>f xs = case xs of [] -> 0</hask> | | [[Pattern matching]] in function definitions: || <hask>f [] = 0</hask> || <hask>case</hask> expression: || <hask>f xs = case xs of [] -> 0</hask> | ||

− | |- | + | |- style="color:black" |

| [[Guard]]s on function definitions: || <hask>f [x] | x>0 = 'a'</hask> || <hask>if</hask> expression: || <hask>f [x] = if x>0 then 'a' else ...</hask> | | [[Guard]]s on function definitions: || <hask>f [x] | x>0 = 'a'</hask> || <hask>if</hask> expression: || <hask>f [x] = if x>0 then 'a' else ...</hask> | ||

|} | |} | ||

== See also == | == See also == | ||

− | + | * [[Let vs. Where]] | |

− | * | + | * [[History of Haskell]] (in section 4.4) |

[[Category:Style]] | [[Category:Style]] | ||

[[Category:Syntax]] | [[Category:Syntax]] |

## Latest revision as of 00:41, 23 August 2008

There are two main styles of writing functional programs, which are both supported by Haskell mainly because several language designers preferred these different styles.

In the **declaration style** you formulate an algorithm in terms of several equations that shall be satisfied.

In the **expression style** you compose big expressions from small expressions.

## Contents |

## [edit] 1 Comparison

As illustration for the two styles, Simon Peyton Jones give two implementations of the Prelude functionfilter

filter :: (a -> Bool) -> [a] -> [a]

### [edit] 1.1 Declaration style

filter p [] = [] filter p (x:xs) | p x = x : rest | otherwise = rest where rest = filter p xs

### [edit] 1.2 Expression style

filter = \p -> \ xs -> case xs of [] -> [] (x:xs) -> let rest = filter p xs in if p x then x : rest else rest

## [edit] 2 Syntactic elements

There are characteristic elements of both styles.

Declaration style | Expression-style | ||
---|---|---|---|

where |
let | ||

Function arguments on left hand side: | f x = x*x |
Lambda abstraction: | f = \x -> x*x |

Pattern matching in function definitions: | f [] = 0 |
case |
f xs = case xs of [] -> 0 |

Guards on function definitions: | f [x] | x>0 = 'a' |
if |
f [x] = if x>0 then 'a' else ... |

## [edit] 3 See also

- Let vs. Where
- History of Haskell (in section 4.4)