I do not have a good grip on monads in Haskell, and I cannot figure out how to solve this problem.

The following piece of code is covered in a do statement.

```
(...)
x <- runDB $ do
receipts <- selectList [] []
users <- selectList [] []
receiptUsers <- selectList [] []
return $ joinTables3 receiptUserUserId receiptUserReceiptId receiptUsers users receipts
let allUsers = runDB $ do
receipts <- selectList [] []
users <- selectList [] []
receiptUsers <- selectList [] []
return $ joinTables3 receiptUserUserId receiptUserReceiptId receiptUsers users receipts
let answer = functionUsingValue x --functionUsingValue allUsers
(...)
```

It not clear for every variable what it is here, but I hope this is not a problem for my issue.

My goal is to create a function which returns exactly the same value as is stored in x, but what I have now is not right, instead the function returns a monad. How could I achieve this?

Thanks in advance.

seriously, you need to tell us what monad this is you're working on. In general, it's not possible to just extract values from a monad in any other other than using the bind operation, i.e. "staying in the monad". "Exiting the monad" is only possible for spefic instances such as`State`

. — Another thing that would be nice is if you actually made use of the`do`

notation:`action >>= (\val -> ...)`

should be written`do { val <- action; ... }`

. – leftaroundabout Oct 30 '13 at 23:02`a`

that's "wrapped" in a monad`m`

like this:`m a`

then youwantto and in fact oftenmustcarry around that`m`

-context with your value. Haskell lets you pretend somewhat like`m a`

is just like`a`

and both`do`

notation and`(>>=)`

help to perpetuate that belief. Instead of trying to escape the monad, use`fmap`

,`join`

, and`(>>=)`

to sneak your functionsinto`m`

as well. – J. Abrahamson Oct 31 '13 at 0:20