In that case you use a partially applied predicate function, like this

```
-- theFunction :: elementOfAList -> Int -> Bool -- "::" means, "is of type"
newList = filter (flip theFunction i) aList
```

because

```
flip theFunction i x = theFunction x i
```

by the definition of `flip`

, so `flip theFunction`

has the type `Int -> elementOfAList -> Bool`

:

```
flip :: (a -> b -> c ) -> b -> a -> c
theFunction :: a -> Int -> Bool
flip theFunction :: Int -> a -> Bool
flip theFunction (i :: Int) :: a -> Bool
```

where `i`

is some `Int`

value defined elsewhere. `a`

is a type variable, i.e. it can be any type, like the type of a list's elements (i.e. for a list `aList :: [a]`

each element has the same type, `a`

).

For example, with `theFunction x i = x < i`

you could call `filter (flip theFunction 5) aList`

, keeping in the resulting list all the elements of `aList`

that are smaller than 5. Normally this would just be written as `filter (< 5) aList`

, with *operator sections* (of which `(< 5)`

is one example, absolutely equivalent to the `flip theFunction 5`

).

The above *filtering* will use the same `Int`

value `i`

in calling `theFunction`

for every element `x`

of a list `aList`

. If you wanted to recalculate that `Int`

, it is done with another pattern (i.e., higher-order function),

```
mapAccumL :: (acc -> x -> (acc, y)) -> acc -> [x] -> (acc, [y])
```

Suppose you wanted to keep in a list of ints all the elements as they are being found by `theFunction`

. Then you could do it like

```
theFunction :: elementOfAList -> Int -> Bool
foo :: Int -> [Int] -> [Int]
foo i xs = concat (snd (mapAccumL g i xs)) -- normally written as
-- concat $ snd $ mapAccumL g i xs -- or
-- concat . snd $ mapAccumL g i xs -- or even
-- concat . snd . mapAccumL g i $ xs
where
g acc x -- g :: (acc -> x -> (acc, y)) according to mapAccumL's signature
| theFunction x acc = (x, [x]) -- include `x` in output, and update the acc
| otherwise = (acc, []) -- keep the accumulated value, and skip this `x`
```

Because both `x`

and `acc`

are used in the same role (the first element of the tuple) they both must be of same type.

how you would like to use this.`theFunction x i = x < i`

and then`filter (flip theFunction 5) aList`

, keeping in the resulting list all elements of`aList`

that are smaller than 5.`(==) <$> foldr1 (\x y -> bool (minBound :: Int) x (x <= y)) <*> head`

. Where`bool`

is a ternary operator from`Data.Bool.bool`

with type`a -> a -> Bool -> a`

.`[1,2,3,1]`

:`3 <= 2`

is false, so`minBound`

will be produced - why?? --- besides,`foldr1`

's implementation (both old and new) guarantees the reducing function to be called only with existing values. and`minimum`

already exists.`[minBound, 3, 1]`

your function will return ...`True`

. --- I read the question as more about the general use patterns. ---`ascending = and . (zipWith (<=) <*> drop 1)`

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