问题
P => Program K => Block
S => Single-command
C => Commands
E => Expression
B => Boolean-expr
I => Identifier
N > Numeral
P ::= K.
K ::= begin C end
C ::= C1 ; C2 | S
S ::= I := E | if (B) then S | if (B) then S1 else S2 | while (B) do S | repeat C until (B) | K | print E
E ::= − E | E1 + E2 | E1 − E2 | E1 E2 | E1 div E2 | E1 mod E2 | (E) | I | N
B ::= E1 = E2 | E1 > E2 | E1 < E2 | E1 != E2 | not B | B1 and B2 | B1 or B2 | (B)
I am supposed to remove ambiguities in E and B so that I can write a DCG parser in prolog.
回答1:
Prolog evaluates top down, then LL grammar techniques can be adapted. DCG are more powerful than LL(1), but left recursion must still be eliminated.
B
is easier to handle: left factor the production.
B ::= E Bx | not B | (B)
Bx ::= = E | > E | < E | != E | and B | or B
E is harder, because the miss mul
token introduces still more ambiguity. Tentatively
E ::= − E | (E) | I | N | El
El ::= Ex E | epsilon
Ex ::= + El | − El | div El | mod El
epsilon (empty production) in DCG can be written this way
epsilon --> [].
If you need to handle precedence and associativity (in both B and E) you will need more work. You can refer to this older answer for a working schema.
回答2:
@chac already gave you quite a good answer, showing you the usual way to resolve this.
Let me take another way to read your question: You are "supposed to remove ambiguities in E and B so that" you "can write a DCG parser in Prolog". That means, you need to remove ambiguity only that far that you can write a DCG parser in Prolog. There is good news: You do not need to remove any ambiguities at all to write a DCG parser! Here is how:
The source of ambiguity are productions like
C ::= C ; C
or the other operators + - juxtapositioning div mod and
Let me stick to a simplified grammar:
E ::= E + E | "1"
We could encode this as
e --> "1".
e --> e, "+", e.
Unfortunately, Prolog does not terminate for a query like
?- L = "1+1+1", phrase(e,L).
L = "1+1+1" ;
ERROR: Out of local stack
Actually, it terminates, but only because my computer's memory is finite...
Not even for:
?- L = "1", phrase(e,L).
L = "1" ;
ERROR: Out of local stack
Is this a problem of ambiguity? No! It is just a procedural problem of Prolog which cannot handle left-recursions directly. Here is a way to make Prolog handle it:
e([_|S],S) --> "1". e([_|S0],S) --> e(S0,S1), "+", e(S1,S). ?- L = "1+1+1", phrase(e(L,[]),L). L = "1+1+1" ; L = "1+1+1" ; false. ?- L = "1", phrase(e(L,[]),L). L = "1" ; false.
For the moment we have only defined a grammar, most of the times you are also interested to see the corresponding syntax tree:
e(integer(1), [_|S],S) --> "1". e(plus(L,R), [_|S0],S) --> e(L, S0,S1), "+", e(R, S1,S). ?- L = "1+1+1", phrase(e(Tree, L,[]),L). L = "1+1+1", Tree = plus(integer(1),plus(integer(1),integer(1))) ; L = "1+1+1", Tree = plus(plus(integer(1),integer(1)),integer(1)) ; false.
Now, we see that there is an ambiguity with plus
! Your original grammar both accepted it as (1+1)+1 and 1+(1+1) which itself is not a problem as long as the corresponding semantics guarantees that associativity is observed. Most of the time this is disambiguated to be left-associative, thus meaning (1+1)+1, but this is not the case for all infix operators.
来源:https://stackoverflow.com/questions/13131640/remove-ambiguity-in-abstract-syntax-in-other-to-write-dcg-parser-prolog