When writing Parsec code, it is useful to first write out the grammar that you want to parse in BNF form first, because parsers written in Parsec end up very much looking like the grammar.
Let's try that:
line ::= garbage '#' field ',' field ',' field '%' garbage
In the above production, we assume a production named
garbage, whose actual definition will depend on what text you actually want dropped. Likewise, we assume a production named
field. Now let's write this production out as parsec code:
line = do
field1 <- field
field2 <- field
field3 <- field
return (field1, field2, field3)
This code reads exactly like the BNF. The essential difference is that the results of some of the subproductions are named, so that we can return a value built from these results (in this case a tuple).
Now i don't know what your notion of garbage is, but for the sake of example let's assume that you mean any whitespace. Then you could define
garbage as follows:
garbage = many space
(or, alternatively, it so happens that parsec already has a combinator for parsing zero or more spaces called
spaces). If the garbage could be anything except the
# delimiter character, then you could say
garbage = many (noneOf "#")
This line will munch all input up to and excluding the first '#'. Either way, whatever value
garbage produces as a result, since you are not binding a name to the value it will be thrown away.