To be precise, the type of [42, 4, 2] is going to be

```
Num a => [a]
```

This is because an integer literal in Haskell is treated as having an implicit "fromIntegral" in front of it, so the real expression is [fromIntegral 42, fromIntegral 4, fromIntegral 2].

"fromIntegral" is part of the Num class, and has the type

```
fromIntegral :: (Integral a, Num b) => a -> b
```

This says that it converts an instance of some Integral type (i.e. Int or Integer) into an arbitrary other numeric type (Int, Float, Double, Complex ...). This is why you can say something like "43.2 + 1" without getting a type error.

"length [True]" is going to have type Int, because "length" has type "[a] -> Int", and the argument (a list of Bool) is provided.

"filter even" is a little bit more complicated. Start with the type of "filter":

```
filter :: (a -> Bool) -> [a] -> [a]
```

The first parameter (the bit in brackets) is itself a function that takes a list item and returns a Bool. Remember that the "->" operator in Haskell types is right associative, so if you put in the implied brackets you see that the type is:

```
filter :: (a -> Bool) -> ([a] -> [a])
```

In other words if you give it the first argument, you get back a new function that expects the second argument. In this case the first argument is:

```
even :: (Integral a) => a -> Bool
```

This introduces a slight wrinkle: "even" requires its argument to be an Integral type (i.e. Int or Integer, as above), so this constraint has to be propagated to the result. If it were not then you could write this:

```
filter even "foo"
```

Hence the answer is:

```
filter even :: (Integral a) => [a] -> [a]
```

You can see that the Integral constraint comes from the type of "even", while the rest of the type comes from "filter".