Basically, because `[10..1]`

is translated to `enumFromTo 10 1`

which itself has the semantics to create a list by taking all elements less-than `1`

which result from counting upward (with step-size `+1`

) from (including) `10`

.

Whereas `[10, 9..1]`

is translated to `enumFromToThen 10 9 1`

which explicitly states the counting step-size as `9-10`

, i.e. `-1`

(which is hard-coded to `+1`

for `enumFromTo`

)

A more accurate specification can be found in the Haskell Report (6.3.4 The Enum Class):

```
enumFrom :: a -> [a] -- [n..]
enumFromThen :: a -> a -> [a] -- [n,n'..]
enumFromTo :: a -> a -> [a] -- [n..m]
enumFromThenTo :: a -> a -> a -> [a] -- [n,n'..m]
```

For the types `Int`

and `Integer`

, the enumeration functions have the following meaning:

The sequence `enumFrom e1`

is the list `[e1,e1+1,e1+2,...]`

.

The sequence `enumFromThen e1 e2`

is the list `[e1,e1+i,e1+2i,...]`

, where the increment, i, is e2-e1. The increment may be zero or negative. If the increment is zero, all the list elements are the same.

The sequence `enumFromTo e1 e3`

is the list `[e1,e1+1,e1+2,...e3]`

. The list is empty if `e1 > e3`

.

The sequence `enumFromThenTo e1 e2 e3`

is the list `[e1,e1+i,e1+2i,...e3]`

, where the increment, `i`

, is `e2-e1`

. If the increment is positive or zero, the list terminates when the next element would be greater than `e3`

; the list is empty if `e1 > e3`

. If the increment is negative, the list terminates when the next element would be less than `e3`

; the list is empty if `e1 < e3`

.