# “evaluate” function

Here an extract of the evaluate documentation: (cf. http://hackage.haskell.org/packages/archive/base/4.5.0.0/doc/html/Control-Exception-Base.html#v:evaluate)

``````evaluate x
``````

is not the same as

``````return \$! x
``````

A correct definition is

``````evaluate x = (return \$! x) >>= return
``````

I don't understand the semantic difference between this two definitions... Is there someone who can help me? Thanks in advance!

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Doesn't this actually violate the monad laws? – leftaroundabout Mar 4 '12 at 12:32
@leftaroundabout No, it doesn't. Both behave exactly the same if run, but if you `seq` the expressions, `return \$! x` has a `seq` outermost, while `(return \$! x) >>= return` has a `(>>=)` outermost. – Daniel Fischer Mar 4 '12 at 14:18
@leftaroundabout: No, because ⊥ is ignored for the purposes of laws. Standard monads like `Reader` behave the same way. (I don't buy Daniel Fischer's argument (which I've heard before from others), because "behave exactly the same if run" isn't really a well-defined concept.) – ehird Mar 4 '12 at 15:57
@DanielFischer I am not sure whether your statement is correct. ``seq`` has lower precedence than `>>=` - how can `>>=` be outermost? – mucaho Jun 10 '15 at 22:03
@mucaho I was speaking of the two expressions that would become the argument of `seq`. In `seq (return \$! x)`, the `return \$! x` has a `seq` [from `\$!`] outermost, while in `seq ((return \$! x) >>= return)`, the `(return \$! x) >>= return` has a `>>=` outermost. – Daniel Fischer Jun 11 '15 at 4:31

Quick ref:

The type of `evaluate` is:

``````evaluate :: a -> IO a
``````

`seq` has the type `a -> b -> b`. It firstly evaluates the first argument, then returns the second argument.

Evaluate follows these three rules:

``````evaluate x `seq` y    ==>  y
evaluate x `catch` f  ==>  (return \$! x) `catch` f
evaluate x >>= f      ==>  (return \$! x) >>= f
``````

The difference between the `return \$! x` and `(return \$! x) >>= return` becomes apparent with this expression:

``````evaluate undefined `seq` 42
``````

By the first rule, that must evaluate to 42.

With the `return \$! x` definition, the above expression would cause an undefined exception. This has the value ⊥, which doesn't equal 42.

With the `(return \$! x) >>= return` definition, it does equal 42.

Basically, the `return \$! x` form is strict when the IO value is calculated. The other form is only strict when the IO value is run and the value used (using `>>=`).

See this mailing list thread for more details.

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Why is `(return \$! undefined) >>= return` different from `return \$! undefined`? My guess is the former introduces one additional layer of indirection which prevents `undefined` from being evaluated in `((return \$! undefined) >>= return) `seq` 42`. – mucaho Jun 10 '15 at 22:05