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I have a language I am making a parser for which contains function calls. A few function names are reserved and I would like to handle them differently in my grammer. In EBNF it would look like

FunctionCall ::= FunctionName '(' ')'
SpecialFunctionCall :: SpecialName '(' ')'

FunctionName ::= VariableName - SpecialFunctionName

SpecialFunctionName ::= "special_function_a" | "special_function_b"

My problem is in translating the exception operator from EBNF to flex.

FunctionName    {Letter}{LetterOrDigit}

Is a super set of SpecialFunctionName, which is a hard-coded string

SpecialFunctionName   "special_function_a" | "special_function_b"

Hence I get a warning from bison saying that SpecialFunction will never be matched. Should I merge the tokens and compare the strings in the parser, or is there a recommended way to resolve this ambiguity in in flex?

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2 Answers 2

up vote 3 down vote accepted

The normal way of dealing with this to have the lexical analyzer recognize the special names and return the correct token type (SpecialName) for the special names and a regular identifier token (apparently FunctionName) for the other tokens.

However, it normally requires an undue degree of prescience on the part of the lexical analyzer to say that a particular (non-reserved, non-special) word is a function name rather than a simple identifier (which could also be a simple variable - unless you've gone down the Perl route of using sigils to identify variables from functions).

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"it normally requires an undue degree of prescience", could you elaborate? –  Akusete Nov 14 '10 at 23:23
@Akusete: in many grammars, there is no lexical difference between an identifier used for a variable and an identifier used for a function (Perl is an exception with its sigils). So, for the lexical analyzer to determine that a particular name is a variable or function, it must have access to some non-lexical information (symbol table information). If all variables and functions must be declared/defined before use, then the necessary information may be available - and you've avoided the need for prescience. Languages like C are traditionally somewhat sloppy about this. [...continued...] –  Jonathan Leffler Nov 14 '10 at 23:31
@Akusete: the alternative is that the lexical analyzer looks ahead some number of tokens and determines from context that the name it is looking at must be a function name rather than an identifier - but you normally struggle to avoid imbuing that much knowledge of the grammar into the lexical analyzer. –  Jonathan Leffler Nov 14 '10 at 23:32
Thanks, I've managed to solve the ambiguity by having the lexer use the context of the previous token (In this language an operator must be preceded by a mutually exclusive set to variable names). –  Akusete Nov 14 '10 at 23:39

As long as you put the SpecialFunction rule FIRST in the lexer file:

{SpecialFunctionName}    { return SpecialName; }
{FunctionName}           { return FunctionName; }

any identifer that matches both patterns will trigger the first rule and thus return SpecialName instead of FunctionName.

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