I played a bit with the BNF Converter and tried to re-engineer parts of the *Mathematica* language. My BNF had already about 150 lines and worked OK, until I noticed a very basic bug. Brackets `[]`

in *Mathematica* are used for two different things

`expr[arg]`

to call a function`list[[spec]]`

to access elements of an expression, e.g. a`List`

Let's assume I want to create the parser for a language which consists only of identifiers, function calls, element access and sequence of expressions as arguments. These forms would be valid

```
f[]
f[a]
f[a,b,c]
f[[a]]
f[[a,b]]
f[a,f[b]]
f[[a,f[x]]]
```

A direct, but obviously wrong input-file for BNFC could look like

```
entrypoints Expr ;
TSymbol. Expr1 ::= Ident ;
FunctionCall. Expr ::= Expr "[" [Sequence] "]" ;
Part. Expr ::= Expr "[[" [Sequence] "]]" ;
coercions Expr 1 ;
separator Sequence "," ;
SequenceExpr. Sequence ::= Expr ;
```

This BNF does not work for the last two examples of the first code-block.

The problem seems to be located in the created `Yylex`

lexer file, which matches `]`

and `]]`

separately. This is wrong, because as can be seen in the last to examples, whether or not it's a closing `]`

or `]]`

depends on the context. So either you have to create a stack of braces to ensure the right matching or you leave that to the parser.

Can someone enlighten me whether it's possible to realize this with BNFC?

(Btw, other hints would be gratefully taken too)

`[[`

as two copies of`[`

in Mathematica, rather these are two different left-bracket-like things. Indeed, if you use the notebook interface and enter`esc-[-[-esc`

Mathematica will obligingly use an individual glyph for the doubled-bracket thing. Personally I think you should not use`[[`

but replace it with some other symbol. – High Performance Mark Jan 10 '13 at 10:01`f[g[x]]`

correctly. If I want to use BNFC to create (at least) an incomplete Mathematica parser, I have to find a solution for this; Whether or not it was bad design by Wolfram. – halirutan Jan 10 '13 at 10:46