LemonJS/example/rules.y

main ::= expr(A) . {
     _result.root_node = A
}

main ::= literal(A) . {
     _result.root_node = A
}

integer_literal(A) ::= INTEGER_LITERAL(B) . {
    A = new tokens.integer_literal({
        children: [
            new tokens.LEXEME({
                type: B.lexeme,
                value: B.value,
                start: B.start,
                end: B.end
            })
        ]
    });
}

literal(A) ::= integer_literal(B) . {
    A = B;
}

float_literal(A) ::= FLOAT_LITERAL(B) . {
    A = new tokens.float_literal({
        children: [
            new tokens.LEXEME({
                type: B.lexeme,
                value: B.value,
                start: B.start,
                end: B.end
            })
        ]
    })
}

literal(A) ::= float_literal(B) . {
    A = B;
}

bool_literal(A) ::= BOOL_LITERAL(B) . {
    A = new tokens.bool_literal({
        children: [
            new tokens.LEXEME({
                type: B.lexeme,
                value: B.value,
                start: B.start,
                end: B.end
            })
        ]
    })
}

literal(A) ::= bool_literal(B) . {
    A = B;
}

string_literal(A) ::= STRING_LITERAL(B) . {
    A = new tokens.string_literal({
        children: [
            new tokens.LEXEME({
                type: B.lexeme,
                value: B.value,
                start: B.start,
                end: B.end
            })
        ]
    });
}

literal(A) ::= string_literal(B) . {
    A = B;
}

id(A) ::= string_literal(B) . {
    A = new tokens.id({
        children: [B]
    });
}

id(A) ::= ID(B) . {
    A = new tokens.id({
        children: [
            new tokens.LEXEME({
                type: B.lexeme,
                value: B.value,
                start: B.start,
                end: B.end
            })
        ]
    });
}

and(A) ::= expr(B) AND(C) expr(D) . {
    A = new tokens.and({
        lexpr: B,
        op: new tokens.LEXEME({
            type: C.lexeme,
            value: C.value,
            start: C.start,
            end: C.end
        }),
        rexpr: D
    })
}

or(A) ::= expr(B) OR(C) expr(D) . {
    A = new tokens.or({
        lexpr: B,
        op: new tokens.LEXEME({
            type: C.lexeme,
            value: C.value,
            start: C.start,
            end: C.end
        }),
        rexpr: D
    })
}

not(A) ::= NOT(C) expr(D) . {
    A = new tokens.not({
        op: new tokens.LEXEME({
            type: C.lexeme,
            value: C.value,
            start: C.start,
            end: C.end
        }),
        rexpr: D
    })
}

eq(A) ::= id(B) EQ(C) literal(D) . {
    A = new tokens.eq({
        id: B,
        op: new tokens.LEXEME({
            type: C.lexeme,
            value: C.value,
            start: C.start,
            end: C.end
        }),
        literal: D
    });
}

neq(A) ::= id(B) NEQ(C) literal(D) . {
    A = new tokens.neq({
        id: B,
        op: new tokens.LEXEME({
            type: C.lexeme,
            value: C.value,
            start: C.start,
            end: C.end
        }),
        literal: D
    });
}

gt(A) ::= id(B) GT(C) literal(D) . {
    A = new tokens.gt({
        id: B,
        op: new tokens.LEXEME({
            type: C.lexeme,
            value: C.value,
            start: C.start,
            end: C.end
        }),
        literal: D
    });
}

gte(A) ::= id(B) GTE(C) literal(D) . {
    A = new tokens.gte({
        id: B,
        op: new tokens.LEXEME({
            type: C.lexeme,
            value: C.value,
            start: C.start,
            end: C.end
        }),
        literal: D
    });
}

lt(A) ::= id(B) LT(C) literal(D) . {
    A = new tokens.lt({
        id: B,
        op: new tokens.LEXEME({
            type: C.lexeme,
            value: C.value,
            start: C.start,
            end: C.end
        }),
        literal: D
    });
}

lte(A) ::= id(B) LTE(C) literal(D) . {
    A = new tokens.lte({
        id: B,
        op: new tokens.LEXEME({
            type: C.lexeme,
            value: C.value,
            start: C.start,
            end: C.end
        }),
        literal: D
    });
}

like(A) ::= id(B) LIKE(C) literal(D) . {
    A = new tokens.like({
        id: B,
        op: new tokens.LEXEME({
            type: C.lexeme,
            value: C.value,
            start: C.start,
            end: C.end
        }),
        literal: D
    });
}

nlike(A) ::= id(B) NLIKE(C) literal(D) . {
    A = new tokens.nlike({
        id: B,
        op: new tokens.LEXEME({
            type: C.lexeme,
            value: C.value,
            start: C.start,
            end: C.end
        }),
        literal: D
    });
}

expr(A) ::= and(B) . {
    A = B;
}

expr(A) ::= or(B) . {
    A = B;
}

expr(A) ::= not(B) . {
    A = B;
}

expr(A) ::= eq(B) . {
    A = B;
}

expr(A) ::= neq(B) . {
    A = B;
}

expr(A) ::= gt(B) . {
    A = B;
}

expr(A) ::= gte(B) . {
    A = B;
}

expr(A) ::= lt(B) . {
    A = B;
}

expr(A) ::= lte(B) . {
    A = B;
}

expr(A) ::= like(B) . {
    A = B;
}

expr(A) ::= nlike(B) . {
    A = B;
}

expr(A) ::= LCB(B) expr(C) RCB(D) . {
    A = new tokens.sub_expr({
        LCB: new tokens.LEXEME({
            type: B.lexeme,
            value: B.value,
            start: B.start,
            end: B.end
        }),
        expr: C,
        RCB: new tokens.LEXEME({
            type: D.lexeme,
            value: D.value,
            start: D.start,
            end: D.end
        })
    });
}

address_literal_content(A) ::= string_literal(B) . {
    A = new tokens.address_literal_content({
        children: [B]
    });
}

address_literal_content(A) ::= address_literal_content(B) COMMA string_literal(C) . {
    B.add(C);
    A = B;
}

address_literal_content_or_empty(A) ::= address_literal_content(B) . {
    A = B;
}

address_literal_content_or_empty(A) ::= . {
    A = new tokens.address_literal_content({
        children: []
    });
}

address_literal(A) ::= ADDRESS(B) LSB(C) address_literal_content_or_empty(D) RSB(E) . {
    A = new tokens.address_literal({
        children: D.children,
        keyword: new tokens.LEXEME({
            type: B.lexeme,
            value: B.value,
            start: B.start,
            end: B.end
        }),
        LSB: new tokens.LEXEME({
            type: C.lexeme,
            value: C.value,
            start: C.start,
            end: C.end
        }),
        RSB: new tokens.LEXEME({
            type: E.lexeme,
            value: E.value,
            start: E.start,
            end: E.end
        })
    });
}

literal(A) ::= address_literal(B) . {
    A = B;
}

oid_literal_content(A) ::= id(B) . {
    A = new tokens.oid_literal_content({
        children: [B]
    });
}

oid_literal_content(A) ::= oid_literal_content(B) DOT id(C) . {
    B.add(C);
    A = B;
}

oid_literal_content_or_empty(A) ::= oid_literal_content(B) . {
    A = B;
}

oid_literal_content_or_empty(A) ::= . {
    A = new tokens.oid_literal_content({
        children: []
    });
}

oid_literal(A) ::= OID(B) LSB(C) oid_literal_content_or_empty(D) RSB(E) . {
    A = new tokens.oid_literal({
        children: D.children,
        keyword: new tokens.LEXEME({
            type: B.lexeme,
            value: B.value,
            start: B.start,
            end: B.end
        }),
        LSB: new tokens.LEXEME({
            type: C.lexeme,
            value: C.value,
            start: C.start,
            end: C.end
        }),
        RSB: new tokens.LEXEME({
            type: E.lexeme,
            value: E.value,
            start: E.start,
            end: E.end
        })
    });
}

literal(A) ::= oid_literal(B) . {
    A = B;
}

time_diff_literal(A) ::= TIMEDIFF(KWD) LSB(B) integer_literal(DAYS) integer_literal(HH) COLON integer_literal(MM) COLON integer_literal(SS) integer_literal(MS) RSB(C) . {
    A = new tokens.time_diff_literal({
        keyword: new tokens.LEXEME({
            type: KWD.lexeme,
            value: KWD.value,
            start: KWD.start,
            end: KWD.end
        }),
        LSB: new tokens.LEXEME({
            type: B.lexeme,
            value: B.value,
            start: B.start,
            end: B.end
        }),
        RSB: new tokens.LEXEME({
            type: C.lexeme,
            value: C.value,
            start: C.start,
            end: C.end
        }),
        days: DAYS,
        hours: HH,
        minutes: MM,
        seconds: SS,
        microseconds: MS,
    });
}

literal(A) ::= time_diff_literal(B) . {
    A = B;
}

time_literal(A) ::= TIME(KWD) LSB(B) integer_literal(DAY) SLASH integer_literal(MONTH) SLASH integer_literal(YEAR) integer_literal(HH) COLON integer_literal(MM) COLON integer_literal(SS) integer_literal(MS) RSB(C) . {
    A = new tokens.time_literal({
        keyword: new tokens.LEXEME({
            type: KWD.lexeme,
            value: KWD.value,
            start: KWD.start,
            end: KWD.end
        }),
        LSB: new tokens.LEXEME({
            type: B.lexeme,
            value: B.value,
            start: B.start,
            end: B.end
        }),
        RSB: new tokens.LEXEME({
            type: C.lexeme,
            value: C.value,
            start: C.start,
            end: C.end
        }),
        day: DAY,
        month: MONTH,
        year: YEAR,
        hours: HH,
        minutes: MM,
        seconds: SS,
        microseconds: MS,
    });
}

literal(A) ::= time_literal(B) . {
    A = B;
}