# Difference between revisions of "Talk:Blow your mind"

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− | ==Could these be on their own page?== |
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− | Hi Johannes - Great stuff on your page. Have you thought about making it an actual page in the WIKI? You could then add <pre>[[Category:Idioms]]</pre> and more people would find it. [[User:BrettGiles|BrettGiles]] 16:19, 1 March 2006 (UTC) |
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==Name?== |
==Name?== |
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Is there a better name for this page? —[[User:Ashley Y|Ashley Y]] 00:55, 2 March 2006 (UTC) |
Is there a better name for this page? —[[User:Ashley Y|Ashley Y]] 00:55, 2 March 2006 (UTC) |
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− | i completely agree, the name pretty much sucks. but what i really wanted, was to compile a collection of "idioms" that would enlarge the readers perception of what is possible in Haskell and how to go about it. so, i'll have to find a name that reflects this plan. —--[[User:JohannesAhlmann| |
+ | i completely agree, the name pretty much sucks. but what i really wanted, was to compile a collection of "idioms" that would enlarge the readers perception of what is possible in Haskell and how to go about it. so, i'll have to find a name that reflects this plan. —--[[User:JohannesAhlmann|J. Ahlmann]] 14:13, 2 March 2006 (UTC) |

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+ | == List / String Operations == |
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+ | |||

+ | Should this: |
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+ | |||

+ | transpose . unfoldr (\a -> toMaybe (null a) (splitAt 2 a)) |
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+ | |||

+ | be this instead: |
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+ | |||

+ | transpose . unfoldr (\a -> toMaybe (not $ null a) (splitAt 2 a)) |
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+ | |||

+ | == Polynomial signum and abs == |
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+ | |||

+ | A sensible option for signum and abs for polynomials (with coefficients from a field) would be |
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− | == Elegance before pyrotechnics == |
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+ | * signum -> the leading coefficient |
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+ | * abs -> the monic polynomial obtained by dividing by the leading coefficient |
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− | The polynomial algorithms are indeed mind-blowing, like the excess of Mardi Gras. They smuggle in subscripts, which (blessedly) Haskell usually banishes, disguised in a pyrotechnic display of abstraction, replication, concatenation, composition and enumeration. |
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+ | As with the abs and signum functions for Integer and for Data.Complex (when restricted to a subring whose intersection with the real numbers is just the integers), the result of this signum is then a unit (ie, a value x for which there exists a y such that xy = 1), and we have |
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− | Gilles Kahn invented a much more docile and beautiful way to do these things with true Haskell elegance long before Haskell: |
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+ | * signum a * abs a = a |
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+ | * abs 1 = signum 1 = 1 |
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+ | * abs (any unit) = 1 |
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+ | * abs a * abs b = abs (a * b) |
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− | instance Num a => [a] where |
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+ | == Polynomial negate == |
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− | fs + [] = fs |
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− | [] + gs = gs |
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− | (f:fs) + (g:gs) = f+g : fs+gs |
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− | (f:fs) * (g:gs) = f*g : [f]*gs + fs*(g:gs) |
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+ | Why not: |
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− | _ * _ = [] |
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− | Unlike the mind-blowing version, this code works on infinite series as well as polynomials. —[[User:dougm:Doug McIlroy]] 20 December 2006 |
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+ | <haskell>negate = map negate</haskell> |

## Latest revision as of 12:55, 29 May 2013

## Name?

Is there a better name for this page? —Ashley Y 00:55, 2 March 2006 (UTC)

i completely agree, the name pretty much sucks. but what i really wanted, was to compile a collection of "idioms" that would enlarge the readers perception of what is possible in Haskell and how to go about it. so, i'll have to find a name that reflects this plan. —--J. Ahlmann 14:13, 2 March 2006 (UTC)

## List / String Operations

Should this:

transpose . unfoldr (\a -> toMaybe (null a) (splitAt 2 a))

be this instead:

transpose . unfoldr (\a -> toMaybe (not $ null a) (splitAt 2 a))

## Polynomial signum and abs

A sensible option for signum and abs for polynomials (with coefficients from a field) would be

- signum -> the leading coefficient
- abs -> the monic polynomial obtained by dividing by the leading coefficient

As with the abs and signum functions for Integer and for Data.Complex (when restricted to a subring whose intersection with the real numbers is just the integers), the result of this signum is then a unit (ie, a value x for which there exists a y such that xy = 1), and we have

- signum a * abs a = a
- abs 1 = signum 1 = 1
- abs (any unit) = 1
- abs a * abs b = abs (a * b)

## Polynomial negate

Why not:

```
negate = map negate
```