I'll take a stab, though TH can be hard to debug without seeing more code.

Let's take a look at some sample code:

**foo.hs:**

```
{-# Language TemplateHaskell #-}
baz x = let f y = x + y
in [| f |]
bez x = let f y = x + y
in [| \y -> f y |]
boz x = [| \y -> x + y |]
g x y = x + y
byz x = [| g x |]
```

Now we can fire this up in GHCi (I'm on version 7.0.2, which is what ships with the current Haskell Platform):

```
$ ghci foo.hs -XTemplateHaskell
*Main> :m +Language.Haskell.TH
*Main Language.Haskell.TH> runQ (baz 2)
<interactive>:1:7:
No instance for (Language.Haskell.TH.Syntax.Lift (a0 -> a0))
arising from a use of `baz'
Possible fix:
add an instance declaration for
(Language.Haskell.TH.Syntax.Lift (a0 -> a0))
In the first argument of `runQ', namely `(baz 2)'
In the expression: runQ (baz 2)
In an equation for `it': it = runQ (baz 2)
*Main Language.Haskell.TH> runQ (bez 2)
<interactive>:1:7:
No instance for (Language.Haskell.TH.Syntax.Lift (a0 -> a0))
arising from a use of `bez'
Possible fix:
add an instance declaration for
(Language.Haskell.TH.Syntax.Lift (a0 -> a0))
In the first argument of `runQ', namely `(bez 2)'
In the expression: runQ (bez 2)
In an equation for `it': it = runQ (bez 2)
*Main Language.Haskell.TH> runQ (boz 2)
LamE [VarP y_0] (InfixE (Just (LitE (IntegerL 2))) (VarE GHC.Num.+) (Just (VarE y_0)))
*Main Language.Haskell.TH> runQ (byz 2)
AppE (VarE Main.g) (LitE (IntegerL 2))
```

What I've done here is attempted to use `runQ`

to see what the TH splice looks like for each of my functions in the sample code. It fails on `baz`

and `bez`

, but works for `boz`

and `byz`

.

Looking at the TH for `boz`

and `byz`

, we can see how functions are lifted: `boz`

is basically just referring to `+`

by name (in `VarE GHC.Num.+`

), while `byz`

is just referring to `g`

by name (in `VarE Main.g`

).

For `baz`

and `bez`

, this option isn't on the table: both of those functions are attempting to splice `f`

, which is locally bound; hence, reference to `VarE f`

wouldn't make sense outside of `baz`

and `bez`

.

So what's a developer to do? In short, instead of trying `[| f |]`

, you need to write the expression for `f`

in the lift directly, in terms of identifiers that will be bound where the splice occurs.

On a side note, it is very easy to write `Lift`

instances for algebraic data types, since you can always lift globally-defined functions. Here's one for `Maybe`

:

```
instance Lift a => Lift (Maybe a) where
lift Nothing = [| Nothing |]
lift (Just a) = [| Just a |]
```

`lift :: (String -> [Content]) -> Q Exp`

, i.e., translate your function into an expression.