I've been working on a C-like grammar for my personal amusement. However, I've been running into shift/reduce conflicts, and I'm quite sure they could be resolved.
Right now my
expressions look like this, in a simplified form, stripped of actions:
%left '+' '-' %% expr : NUMBER | IDENTIFIER | expr '+' expr | expr '-' expr /* other operators like '*', '/', etc. */ | expr '(' expr ')' /* function call */ %%
However, this results in shift/reduce conflicts: the parser is unsure about how to treat parentheses. From what
-v tells me, it is unclear whether an expression like
expr '+' expr '(' should reduce
expr '+' expr into
expr or shift the parenthesis.
Obviously, I want the parenthesis to be shifted.
foo % bar(4) shouldn't end up being
(foo % bar)(4). However, I've had no success using the
%prec directive to that mean. Adding
%left FUNCALL and
%prec FUNCALL after the rule yields no change.
I know that the default path Bison's LARL parsers will go when encountering a shift/reduce will be to shift, and that I could just use
fix work around the problem. However, one conflict is generated for each expression, and would I ever need to change that list, I'll also need to change the
%expect declaration, which looks like a rather ugly solution to me. Besides, I'm sure one of you wise kids have a solution to that problem.
My goal is to have a rule similar to the one above, for which Bison will know that whenever it encounters the
'(' from the function call rule, it has shift the parenthesis, without a possible shift/reduce conflict. For the record, my use of the
%prec directive is the following, so if I'm just doing it wrong you can correct me. It does have the shift/reduce conflict.
%left '+' '-' %left FUNCALL %% expr : NUMBER | IDENTIFIER | expr '+' expr | expr '-' expr /* other operators like '*', '/', etc. */ | expr '(' expr ')' %prec FUNCALL /* function call */ %%