if i have somthing like that:

`func (x1:x2:x3:xs) = xs`

then `x1,x2,x3`

must exist, yes?

they can't be `[]`

, but must(again, MUST) be with a value, yes?

also, the `xs`

can be `[]`

or `[a]`

or `[a,a,a]`

(etc'), yes?

(in `[a]`

i mean that it's a list with one number, and `[a,a,a]`

is list of three numbers).

also i have function that define isPrefixOf:

```
myIsPrefixOf :: (Eq a) => [a] -> [a] -> Bool
[] `myIsPrefixOf` [] = True
[] `myIsPrefixOf` (x:xs) = True
list `myIsPrefixOf` [] = False
(l:ls) `myIsPrefixOf` (x:xs) = if l == x then ls `myIsPrefixOf` xs
else False
```

if i remove the first pattern, that the function will look like this:

```
myIsPrefixOf :: (Eq a) => [a] -> [a] -> Bool
[] `myIsPrefixOf` (x:xs) = True
list `myIsPrefixOf` [] = False
(l:ls) `myIsPrefixOf` (x:xs) = if l == x then ls `myIsPrefixOf` xs
else False
```

and now i will write:

`[] `myIsPrefixOf` [] `

i will get: False(it should be True).

is it because that the first pattern has in his right side element: `(x:xs)`

, and because of that, `x`

MUST be with a value, therefore i pass through the first pattern, and get to the second pattern:

`list `myIsPrefixOf` [] = False`

which match, and return False.

am i right?

if i'm right, then the difference is that if i write `(x:xs)`

, `x`

MUST be a value and NOT `[]`

.

on the other hand, if i write `list`

, it can be match against `[]`

and `[a]`

and `[a,a,a]`

(etc'), and because of that, `list`

of the second pattern, will match to the the first `[]`

in my input, and therefore i'll get False ?

(as before, in `[a]`

i mean that it's a list with one number, and `[a,a,a]`

is list of three numbers).

also, to correct this situation, i need to replace:

`[] ``myIsPrefixOf`

(x:xs) = True

with that:
`[] `myIsPrefixOf` list = True`

and now the expressions:

```
[] `myIsPrefixOf` []
[] `myIsPrefixOf` [1,2,3]
```

will both match agains:

` [] `myIsPrefixOf` list = True`

hope i'm right on those things, and now for another question:

here is the fixed function from the start(after applying the changes)

```
myIsPrefixOf :: (Eq a) => [a] -> [a] -> Bool
[] `myIsPrefixOf` list = True
list `myIsPrefixOf` [] = False
(l:ls) `myIsPrefixOf` (x:xs) = if l == x then ls `myIsPrefixOf` xs
else False
```

now, if i remove the second pattern match, that the function will look like this:

```
myIsPrefixOf :: (Eq a) => [a] -> [a] -> Bool
[] `myIsPrefixOf` list = True
(l:ls) `myIsPrefixOf` (x:xs) = if l == x then ls `myIsPrefixOf` xs
else False
```

and call the function like that:

`[1,2] `myIsPrefixOf` [1]`

i get an error that said there is no exhaustive patterns in the function.

i want to see if i understand why it is happening.

the function pass through the first pattern and get to the second one:

```
(l:ls) `myIsPrefixOf` (x:xs) = if l == x then ls `myIsPrefixOf` xs
else False
```

so:

`[1,2] `myIsPrefixOf` [1]`

and:

`l == x`

.

they both `1`

, so i match again the second pattern:

`(2:[]) `myIsPrefixOf` ([]:[])`

now, `l == 2`

, but `x == []`

and because that, the expression: `l == x`

returns the no-exhaustive pattern...

is it because i'm trying to check for equality between a number and a list?

the equality parameter (==) should check only elements that are in the same type?

(i.e. : `'a' == 'b'`

or `1 == 3`

)

well, do i understand it all right? :-)

thanks a lot :-).

`(list 1 2 3)`

is really`(cons 1 (cons 2 (cons 3 nil)))`

; in ML,`[1,2,3]`

is really`1 :: 2 :: 3 :: nil`

; Haskell's list construction follows this functional tradition, and so`[1,2,3]`

is really`1 : 2 : 3 : []`

. – ephemient Jan 20 '10 at 17:09