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I am reading an article about "monadic laws". The first law the article mentions is:

m map f ≡ m flatMap {x => unit(f(x))}

For Scala Option it means:

option map f ≡ option flatMap {x => Option(f(x))}

Now I wonder what the law point is. Why is the law important ? What if Scala Option does not obey this law ?

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up vote 7 down vote accepted

If it does not obey the monad laws it's not a monad. That's actually why the unit of Option is Some.apply and not Option.apply. Just look at this case:

scala> val f = (x: Int) => null

scala> (option map f) == (option flatMap {x => Option(f(x))})
res4: Boolean = false

The particular law here just says, that map is basically a composition of flatMap and unit

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Thank you ! I still wonder why it's important that Option will be a monad. What's wrong with non-monadic Option? –  Michael Nov 21 '13 at 16:09
    
It just means that it has a certain behaviour. For example being a monad is a pre-requisite for usage in a for-comprehension. However scala does not enforce the laws. That is why Try - which is not a monad - can still be used in for-comprehensions. –  drexin Nov 21 '13 at 16:14
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@Michael There are a whole bunch of useful computations that involve monads in general rather than a specific monad, such as Option. These computations rely on the monad laws for their correctness. If you made Option operate slightly differently such that it wasn't a monad, then you've still got your (variant of) Option. But you wouldn't get all the extra generic monad functionality (such as the ability to write for-comprehensions) wouldn't apply. –  Ben Nov 22 '13 at 6:55
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Much of the point of monads in programming is code reuse; there are many families of useful operations that can be defined on a huge variety of different types that turn out to be just special cases of the same generic operation once you recognise that the huge variety of different types are all instances of monads. As such (in programming communities where the use of monads is common) many of these operations are already written for you before you even sit down to begin writing your program. –  Ben Nov 22 '13 at 7:00
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It would be cool to see the following example: Let A[T] defines flatMap(f:T=>A[T]):A[T] = {...}. Let the flatMap violates certain monadic law. Let's write for-comprehension with A[T] now. While Scala does allow such for-comprehension it is broken in this and that. –  Michael Nov 22 '13 at 7:46
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