Dismiss
Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

# ANTLR Implicit Multiplication

I'm new to ANTLR, and I'm trying to expand upon the example of a simple calculator presented here. Specifically, I've tried adding some simple functions, negative numbers and so on, to familiarize myself with ANTLR. However, I've run into a bit of a problem trying to implement "implicit" multiplication (for example, 3cos(2)sin(2) would be interpreted as 3*cos(2)*sin(2)).

I've found a question on Stack Overflow with the same kind of problem (here). The general form of the solution to that problem looks like what I'd found on my own, so I'm not sure where my problem lies.

My grammar is below. Without the `| p2 = signExpr {\$value *= \$p2.value;}` line (the last line in the `multiplicationExpr`), everything seems to work fine according to my tests. When I add this line and run it through `antlr`, I receive the following errors:

``````error(211): calculator.g:24:3: [fatal] rule multiplicationExpr has non-LL(*) decision due to recursive rule invocations reachable from alts 3,4.  Resolve by left-factoring or using syntactic predicates or using backtrack=true option.
warning(200): calculator.g:24:3: Decision can match input such as "'-' FLOAT" using multiple alternatives: 3, 4
As a result, alternative(s) 4 were disabled for that input
``````

Enabling `backtrack` results in wrong calculations for some of my (normally working) test expressions. Further, the warning talks about alternatives 3 and 4 for `multiplicationExpr`, but I only have three alternatives in that block, which has me confused.

Would someone be able to point out the error in my grammar, given below?

``````grammar calculator;

eval    returns [double value]
: exp = additionExpr    {\$value = \$exp.value;}
;

:               m1 = multiplicationExpr {\$value = \$m1.value;}
( '+'   m2 = multiplicationExpr {\$value += \$m2.value;}
| '-'   m2 = multiplicationExpr {\$value -= \$m2.value;}
)*
;

multiplicationExpr      returns [double value]
:               p1 = signExpr   {\$value = \$p1.value;}
( '*'   p2 = signExpr   {\$value *= \$p2.value;}
| '/'   p2 = signExpr   {\$value /= \$p2.value;}
|       p2 = signExpr   {\$value *= \$p2.value;}
)*
;

signExpr        returns [double value]
:       (       '-' a = funcExpr        {\$value = -1*\$a.value;}
) | (   a = funcExpr            {\$value = \$a.value;}
)
;

funcExpr        returns [double value]
:       (       'cos' s = signExpr      {\$value = Math.cos(\$s.value);}
) | (   'sin' s = signExpr      {\$value = Math.sin(\$s.value);}
) | (   s = powExpr             {\$value = s;}
)
;

powExpr returns [double value]
:               s1 = atomExpr   {\$value = \$s1.value;}
( '^'   s2 = signExpr   {\$value = Math.pow(\$value, \$s2.value);}
)?
;

atomExpr        returns [double value]
:       f = FLOAT                       {\$value = Double.parseDouble(\$f.text);}
|       '(' exp = additionExpr ')'      {\$value = \$exp.value;}
;

FLOAT
:   ('0'..'9')+ ('.' ('0'..'9')*)? EXPONENT?
|   '.' ('0'..'9')+ EXPONENT?
;

WS  :   ( ' '
| '\t'
| '\r'
| '\n'
) {\$channel=HIDDEN;}
;

fragment
EXPONENT : ('e'|'E') ('+'|'-')? ('0'..'9')+ ;
``````
-
I'm not a v3 expert, but I could make it work with `( (signExpr signExpr)=> signExpr signExpr {\$value = \$p1.value * \$p2.value;}` in multiplicationExpr after line `: p1=...`, before `'*'`, and removing the last `| p2 ... ` line. – BernardK Dec 28 '12 at 11:41
I didn't quite understand how to put that into my grammar in that spot (generated the same kind of error), but I got things working by putting the same kind of thing, ` (signExpr funcExpr+) => p1=signExpr p2=funcExpr {\$value = \$p1.value * \$p2.value;}` at the beginning of `multiplicationExpr`. I also changed the second signExpr to funcExpr, since my grammar started interpreting some subtractions as multiplications (e.g `3-4` as `3implicitMultplication-4`. Anyway, thanks for pointing me towards a solution! – Tyler Dec 28 '12 at 15:07
Oops, my solution didn't handle several implicit products, and I've figured out your solution (with the same change to funcExpr above).. not sure why I wasn't getting it to work the first time. Thanks again! – Tyler Dec 28 '12 at 15:26
Right, it should have been `( (signExpr signExpr)=> p1 = signExpr p2 = signExpr {\$value = \$p1.value * \$p2.value;}`. Now the result is `result=-0.37840124765396416` instead of 0.0, given an input `3cos(2)sin(2)`. – BernardK Dec 28 '12 at 15:34

New year, new version :-)

As you are new to ANTLR, and now have seen some ambiguity problems with v3, you will surely appreciate the power of v4. Following is a solution (I'm new to v4) keeping the computation at the expression level, but showing how simple it is to describe expressions with ANTLR4.

``````grammar Calculator;

progr : eval+ EOF ;

eval
:   mult ';' {System.out.println(\$eval.text + " -> " + \$mult.value);}
;

mult    returns [double value]
:   e1 = expr                  {\$value = \$e1.value;}
|   e1 = expr e2 = mult        {\$value = \$e1.value * \$e2.value;}
;

expr    returns [double value]
:   e1 = expr '^'<assoc=right> e2 = expr   {\$value = Math.pow(\$e1.value, \$e2.value);}
|   '-' e1 = expr              {\$value = -1 * \$e1.value;}
|   e1 = expr '*' e2 = expr    {\$value = \$e1.value * \$e2.value;}
|   e1 = expr '/' e2 = expr    {\$value = \$e1.value / \$e2.value;}
|   e1 = expr '+' e2 = expr    {\$value = \$e1.value + \$e2.value;}
|   e1 = expr '-' e2 = expr    {\$value = \$e1.value - \$e2.value;}
|   'cos' s = expr             {\$value = 2; System.out.println("cos" + \$s.text + "=2");} // {\$value = Math.cos(\$s.value);}
|   'sin' s = expr             {\$value = 5; System.out.println("sin" + \$s.text + "=5");} // {\$value = Math.sin(\$s.value);}
|   FLOAT                      {\$value = Double.parseDouble(\$FLOAT.text); System.out.println("FLOAT=" + \$FLOAT.text);}
|   '(' FLOAT ')'              {\$value = \$expr.value;} // just for demo, to avoid printing FLOAT parameters
|   '(' e1 = expr ')'          {\$value = \$e1.value; System.out.println("expr(" + \$e1.text + ")=" + \$e1.value);}
;

FLOAT
:   DIGIT+ ( '.' DIGIT* )? EXPONENT?
|   '.' DIGIT+ EXPONENT?
;

WS  :   [ \t\r\n] -> channel(HIDDEN)
;

fragment DIGIT    : [0-9] ;
fragment EXPONENT : [Ee] ( '+' | '-' )? DIGIT+ ;
``````

File input.txt :

``````3cos(2)sin(6);
4cos(2)cos(8)sin(6);
sin(1)sin(6);
sin(1)sin(6)cos(8)10sin(8);
sin(1)5cos(6)3;
2^8;
3*-12;
55/sin(0);
55/(2 + 3);
``````

Execution :

``````\$ echo \$CLASSPATH
.:/usr/local/lib/antlr-4.0b3-complete.jar
\$ alias
alias antlr4='java -jar /usr/local/lib/antlr-4.0b3-complete.jar'
alias grun='java org.antlr.v4.runtime.misc.TestRig'
\$ antlr4 Calculator.g4
\$ javac Calculator*.java
\$ grun Calculator progr input.txt
FLOAT=3
cos(2)=2
sin(6)=5
3cos(2)sin(6); -> 30.0
FLOAT=4
cos(2)=2
cos(8)=2
sin(6)=5
4cos(2)cos(8)sin(6); -> 80.0
sin(1)=5
sin(6)=5
sin(1)sin(6); -> 25.0
sin(1)=5
sin(6)=5
cos(8)=2
FLOAT=10
sin(8)=5
sin(1)sin(6)cos(8)10sin(8); -> 2500.0
sin(1)=5
FLOAT=5
cos(6)=2
FLOAT=3
sin(1)5cos(6)3; -> 150.0
FLOAT=2
FLOAT=8
2^8; -> 256.0
FLOAT=3
FLOAT=12
3*-12; -> -36.0
FLOAT=55
sin(0)=5
55/sin(0); -> 11.0
FLOAT=55
FLOAT=2
FLOAT=3
expr(2 + 3)=5.0
55/(2 + 3); -> 11.0
``````

Notes :
1) I have given fixed values to cos and sin to be able to easily verify the computations.
2) Run with -diagnostics and you'll see ambiguity messages :

``````\$ grun Calculator progr -diagnostics input.txt
FLOAT=3
line 1:6 reportAttemptingFullContext d=2, input='(2)'
line 1:6 reportAmbiguity d=2: ambigAlts={5, 6}, input='(2)'
``````

This is because I have added the line :

``````    |   '(' FLOAT ')'              {\$value = \$expr.value;} // just for demo
``````

to print nicely (avoid printing parameters to cos/sin). This is ambiguous with `'(' e1 = expr ')'`. Remove it and the messages disappear.
3) To see how ANTLR4 tokenizes (-tokens) and parses (-trace) :

``````grun Calculator progr -tokens -diagnostics -trace input.txt
``````

4) site : http://antlr4.org
5) book : http://pragprog.com/book/tpantlr2/the-definitive-antlr-4-reference
6) install 4.0b3 on OS X : http://forums.pragprog.com/forums/206/topics/11231
7) SO filter : http://stackoverflow.com/questions/tagged/antlr4

-
Very interesting. Thanks for the detailed example! – Tyler Jan 4 '13 at 0:40

With BernardK's solution massaged into my previous grammar, here is the new `multiplicationExpr` that gets everything working for me:

``````multiplicationExpr      returns [double value]
:
p1 = signExpr   {\$value = \$p1.value;}
( (signExpr funcExpr*) => p2 = funcExpr {\$value *= \$p2.value;}
| '*'   p2 = signExpr   {\$value *= \$p2.value;}
| '/'   p2 = signExpr   {\$value /= \$p2.value;}
)*
;
``````

After a bit more playing around, something close to what I originally had works as well:

``````multiplicationExpr      returns [double value]
:               p1 = signExpr   {\$value = \$p1.value;}
(       p2 = funcExpr   {\$value *= \$p2.value;}
| '*'   p2 = signExpr   {\$value *= \$p2.value;}
| '/'   p2 = signExpr   {\$value /= \$p2.value;}
)*
;
``````

Thank you again, Bernard.

-
I was too in a hurry in my first comment. What I meant was capturing two consecutive functions with a syntactic predicate to disambiguate. At least it runs, the result is now -1.1352037429618924. But is it correct ? I'm still searching ... – BernardK Dec 28 '12 at 19:19
Well, it turns out that I could have used `( p2 = funcExpr {\$value *= \$p2.value;}` all along, which is what I started with, replacing `signExpr` with `funcExpr`. Having the `signExpr` is what was causing errors (and it makes sense that a signed expression can't be the second part of an implicit multiplication. Then there is no syntactic predicate required in this case. – Tyler Dec 28 '12 at 19:28
Congratulations ! So simple. – BernardK Dec 28 '12 at 21:48