Generalized versions of `oneOf`

, `noneOf`

, and `anyChar`

can be built out of a generalized `satisfy`

, easily enough:

```
oneOfT :: (Eq t, Show t, Stream s m t) => [t] -> ParsecT s u m t
oneOfT ts = satisfyT (`elem` ts)
noneOfT :: (Eq t, Show t, Stream s m t) => [t] -> ParsecT s u m t
noneOfT ts = satisfyT (not . (`elem` ts))
anyT :: (Show t, Stream s m t) => ParsecT s u m t
anyT = satisfyT (const True)
satisfyT :: (Show t, Stream s m t) => (t -> Bool) -> ParsecT s u m t
satisfyT p = tokenPrim showTok nextPos testTok
where
showTok t = show t
testTok t = if p t then Just t else Nothing
nextPos p t s = -- however you update position for your token stream
```

It might seem that the generalization of these seems missing, but you'll notice that these generalizations here make certain assumptions about the type `t`

that may not be true for someone's token type. It is assumed to be an instance of `Show`

and `Eq`

, yet I can imagine token types for which they are displayed some other way than `show`

, and that membership in a class of tokens might be achieved via some method other than `==`

and `elem`

.

Lastly, once your token type is no longer a `Char`

, how you choose to represent position, and thus updated it, is highly dependent on your representation of tokens and streams.

Hence, I can see why a more generalized form doesn't exist.