Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm devising a very simple grammar, where I use the unary minus operand. However, I get a shift/reduce conflict. In the Bison manual, and everywhere else I look, it says that I should define a new token and give it higher precedence than the binary minus operand, and then use "%prec TOKEN" in the rule.

I've done that, but I still get the warning. Why?

I'm using bison (GNU Bison) 2.4.1. The grammar is shown below:

#include <string>
extern "C" int yylex(void);

%union {
    std::string token;

%token <token> T_IDENTIFIER T_NUMBER

%right T_EQUAL
%left T_MUL T_DIV
%left UNARY

%start program


program : statements expr

statements : '\n'
           | statements line

line : assignment
     | expr

assignment : T_IDENTIFIER T_EQUAL expr

expr : T_NUMBER
     | expr T_PLUS expr
     | expr T_MINUS expr
     | expr T_MUL expr
     | expr T_DIV expr
     | T_MINUS expr   %prec UNARY
     | T_LPAREN expr T_RPAREN
share|improve this question

2 Answers 2

up vote 6 down vote accepted

%prec doesn't do as much as you might hope here. It tells the compiler that in a situation where you have - a * b you want to parse this as (- a) * b instead of - (a * b). In other words, here it will prefer the UNARY rule over the T_MUL rule. In either case, you can be certain that the UNARY rule will get applied eventually, and it is only a question of the order in which the input gets reduced to the unary argument.

In your grammar, things are very much different. Any sequence of line non-terminals will make up a sequence, and there is nothing to say that a line non-terminal must end at an end-of-line. In fact, any expression can be a line. So here are basically two ways to parse a - b: either as a single line with a binary minus, or as two “lines”, the second starting with a unary minus. There is nothing to decide which of these rules will apply, so the rule-based precedence won't work here yet.

Your solution is correcting your line splitting, by requiring every line to actually end with or be followed by an end-of-line symbol.

If you really want the behaviour your grammar indicates with respect to line endings, you'd need two separate non-terminals for expressions which can and which cannot start with a T_MINUS. You'd have to propagate this up the tree: the first line may start with a unary minus, but subsequent ones must not. Inside a parenthesis, starting with a minus would be all right again.

share|improve this answer
I forgot about this question because it "fixed" itself once I had added the actions. Although it shouldn't have mattered, it now worked and I didn't care much more about it. However, looking back at my grammar, I realize that I must have submitted an out-of-date version or something because a line should end with a semicolon. I believe that I must have added those at some point when I added the actions, thus resolving the conflict. Thanks for pointing this out. –  gablin Jul 22 '12 at 18:48

The expr rule is ok (without the %prec UNARY). Your shift/reduce conflict comes from the rule:

statements : '\n'
           | statements line

The rule does not what you think. For example you can write:

a + b c + d

I think that is not supposed to be valid input.

But also the program rule is not very sane:

program : statements expr

The rules should be something like:

program: lines;

lines: line | lines line;

line: statement "\n" | "\n";

statement: assignment | expr;
share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.