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I'm having trouble asking the right question (of stack overflow or google) to find design patterns that likely already exist. I do have a solution that works, but seems overly complex. I'm looking for help on where to look for answers, or good examples of a similar problem. Like for example a GUI that handles multiple expressions in a query.

Here's an attempt at explaining the issue:

Ultimately, the problem being solved is the handling of multiple expressions, and multiple logic operations, and doing so by reading expressions back from a db.

I define an expression as having a left side, an operator, and right side. Like you would see in an statement:


Multiple expressions could therefor look like:

((a==b) && (c==d))

Or even

(((a==b) && (c==d)) || (e==f))

I can store the left, operator and right in the database easy enough:

1                       'STATE' ==          'NH'
2                       'TYPE'  ==          'FUEL'
3       1       2               &&

Which would be read back as


Perfect. Except it gets really complicated quickly. Take for example:


which would require something crazy like

1                       ZIP         ==          84770
2                       DEALER      ==          NULL
3                       CAR_MODEL   ==          VW
4                       CAR_BRAND   ==          GTI
5                       STATE       ==          UT
6                       STATE       ==          NH
7       1       2                   &&
8       3       4                   &&
9       5       6                   ||
10      7       8                   &&
11      9       10                  &&

The problem get's worse with you want to map all this to a GUI.

Not sure if it is helpful to the question, but here is the output and code that handles the logic of multiple expressions:

$ javac Expression.java & java Expression
exp1: Expression [(A EQ A)]   evaluates to [true]
exp2: Expression [(C EQ D)]   evaluates to [false]
expOr (exp1 or exp2): Expression [((A EQ A) OR (C EQ D))]   evaluates to [true]
expAnd (exp1 and exp2): Expression [((A EQ A) AND (C EQ D))]   evaluates to [false]
complex (exp1 NEQ expAnd): Expression [((A EQ A) NEQ ((A EQ A) AND (C EQ D)))]   evaluates to [true]
n1: Expression [(5 EQ 5)]   evaluates to [true]
n2: Expression [(6 NEQ 5)]   evaluates to [true]
n3: Expression [(5 NEQ 5)]   evaluates to [false]
n4 (n1 EQ complex): Expression [((5 EQ 5) EQ ((A EQ A) NEQ ((A EQ A) AND (C EQ D))))]   evaluates to [true]

public class Expression
    enum Op {EQ,NEQ,OR,AND};
    Object left;
    Object right;
    Op op;

    public Expression(Object l,Op o,Object r)
        left = l;
        right = r;
        op = o;

    public void test()

    public void test(String msg)
        System.out.println(msg + ": Expression ["+toString()+"]   evaluates to ["+evaluate()+"]");

    public boolean evaluate()
        if(Op.EQ == op) return equals();
        if(Op.NEQ == op) return !equals();
        if(Op.OR == op) return or();
        if(Op.AND == op) return and();
        return false;

    //logical equals of expression with passed in expression
    public boolean equals(Object o)
        if(o instanceof Expression)
            Expression exp = (Expression)o;
            return evaluate() && exp.evaluate();
        return false;

    //compaire left and right for equality
    public boolean equals()
        return left.equals(right);

    //logical OR between left and right Expressions
    public boolean or()
        if(left instanceof Expression && right instanceof Expression)
            Expression expLeft = (Expression)left;
            Expression expRight = (Expression)right;
            return expLeft.evaluate() || expRight.evaluate();
        return false;

    //logical AND between left and right Expressions
    public boolean and()
        if(left instanceof Expression && right instanceof Expression)
            Expression expLeft = (Expression)left;
            Expression expRight = (Expression)right;
            return expLeft.evaluate() && expRight.evaluate();
        return false;

    public String toString()
        StringBuilder sb = new StringBuilder();
        sb.append("("+left.toString() + " " + op.toString() + " " + right.toString()+")");
        return sb.toString();

    public static void main(String[] args) throws Exception
        //compare some strings
        Expression exp1 = new Expression("A",Op.EQ,"A");

        Expression exp2 = new Expression("C",Op.EQ,"D");

        Expression expOr = new Expression(exp1,Op.OR,exp2);
        expOr.test("expOr (exp1 or exp2)");

        Expression expAnd = new Expression(exp1,Op.AND,exp2);
        expAnd.test("expAnd (exp1 and exp2)");

        Expression complex = new Expression(exp1,Op.NEQ,expAnd);
        complex.test("complex (exp1 NEQ expAnd)");

        //numeric comparisons
        Expression n1 = new Expression(5,Op.EQ,5);

        Expression n2 = new Expression(6,Op.NEQ,5);

        Expression n3 = new Expression(5,Op.NEQ,5);

        //numeric and strings
        Expression n4 = new Expression(n1,Op.EQ,complex);
        n4.test("n4 (n1 EQ complex)");
share|improve this question
You have discovered that relational databases were not designed to store nested data. Have you considered why you need all the sub expressions in a DB? –  tobyodavies Apr 17 '12 at 0:22
This doesn't look like the sort of data that is well modeled by a relational database -- I personally see no reason to normalize this data when it will obviously produce some real nasty queries for nested expressions. –  tjarratt Apr 17 '12 at 0:23

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