I would like to parse string with a propositional formula in CNF to DIMACS, thus a nested int list in haskell. The format is suitable for the haskell picosat bindings that seem to be more performant then other options for SAT solving.

The problem is that my code that implemented this is too complicated and now I am looking for a possible bug that is not obvious to find.

(My approach was to use the haskell hatt package, change the package so it uses Strings instead of single characters for variables names, parse the expression with hatt and then convert the resulting expression to the DIMACS format.)

I want to parse a string that represents a propositional formula in CNF notation (see example below). The result shoud be a nested list of ints. Thus the result should be suitable for `solveAll`

that is part of the haskell picosat bindings.

Input:

```
-- "&" ... conjunction
-- "|" ... disjunction
-- "-" ... not operator
let myCNF = "GP & (-GP | Ma) & (-Ma | GP) & (-Ma | TestP) & (-Ma | Alg) & (-Ma | Src) & (-Ma | Hi) & (-Ma | Wg | X | Y) & -Z"
```

Result:

```
-- DIMACS format
-- every Variable (e.g., "GP") gets a number, say GP gets the int num 1
-- in case of not GP (i.e., "-GP") the int number representing the variable is negative, thus -1
-- Note: I hope I didn't do a type
let myresult = [[1], [-1, 2], [-2, 1], [-2, 3], [-2, 3], [-2, 5], [-2, 6], [-2, 7, 8, 9], [-10]]
let myvars = ["GP", "Ma", "TestP", "Alg", "Src", "Hi", "Wg", "X", "Y", "Z"]
-- or alternativly the variables are stored in an associative array
let varOtherWay = (1, GP), (2, Ma) (3, TestP), (4, Alg), (5, Src), (6, Hi), (7, Wg), (8, X), (9, Y), (10, Z)
```