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Background:

I am trying to implement a variant of the Shunting-Yard Algorithm, but instead of outputting the expression in RPN notation, I'd like it to update itself as tokens are pushed in so that results can be displayed in real time (as if you were pressing buttons on a calculator and needed to update the display after each button).

Here is the Shunting-Yard class...

public class ShuntingYard
{
   private Stack<double> _operands;
   private Stack<Operation> _operations;

   public ShuntingYard()
   {
      this._operands = new Stack<double>();
      this._operations = new Stack<double>();
   }
}

And the Operation class would be something like...

public abstract class Operation
{
   public abstract void Evaluate(Stack<double> operands, Stack<Operation> operations);
}

The Evaluate() function updates the stacks accordingly, and the "current value" would be _operands.Peek()

Here are some of the "Operations" I have so far:

public class NullaryOperation : Operation { }
E.g. Pi, e, etc.
Just pushes constant onto _operands

public class UnaryOperation : Operation { }
E.g. SquareRoot, Sine, Cosine, etc.
Pops one number off of _operands, evaluates, and pushes result to _operands

public class BinaryOperation : Operation { }
E.g. +, -, *, /, etc.
Checks precedence, evaluates if needed, pushes result to _operands


Here is the problem:
I need the ability to push open-parentheses ( and closed-parentheses ) onto the _operations stack as part of the algorithm. Moreover, when I add a closed-parenthesis, I need to keep popping operands/operations until I encounter an open-parenthesis.

I want to avoid checks like this (checking object types):

while (operations.Peek().GetType() != typeof(OpenParen)) { ... }

I want to avoid adding a method like this in Operation:

public abstract bool IsOpenParen();

I could do something like this...

public abstract class Operation 
{
   public enum OperationType { Nullary, Unary, Binary, OpenParen, CloseParen };
   public abstract OperationType GetOperationType() { };

   public abstract void Evaluate(Stack<double> operands, Stack<Operation> operations);
}

But requiring all subtypes to specify their type as an enum seems like a bad design.


How should I model this in such a way that I can track and handle parentheses as they are pushed in?

On a side note: Thinking about parentheses as "Operations" doesn't seem to make much sense to me. However, the algorithm on Wikipedia treats them this way, and I can't think of any other way to keep track of their position relative to other "real" operations.

Thank you.

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1  
Any reason why you don't want to special-case handling parens in your design when you clearly need to special-case handling them in your application? I mean, I'm sure you could come up with some sort of abstract concept so it's not a special case anymore, but this sounds like overengineering unless you know there are more constructs you need to handle in a similar fashion. –  millimoose Mar 13 '13 at 13:57
    
Parenthesis are unnecessary in Polish notation, whether Forward or Reverse; they are only required in infix notation. –  Pieter Geerkens Mar 13 '13 at 13:58
1  
@PieterGeerkens The Shunting-Yard algorithm parses an infix notation expression. RPN is only one of its possible outputs. –  millimoose Mar 13 '13 at 13:58
6  
Sounds like what you want is for every opening parenthesis to start its own ShuntingYard object. When you get the closing parenthesis, you can finish parsing that sequence and return to the prior sequence. –  StarPilot Mar 13 '13 at 13:59
2  
Peek is a non-trivial operation, if I understand correctly what you mean. Suppose the user enters 3*4+5, which is 17. What do you display when they type *? Then when they type 6, you have to undo the addition to get 5 back, in order to multiply it with 6; and then redo the addition to get 42. In general, you might need to be prepared to unwind as much of the stack as you have precedence levels. There's a relatively simple solution to this problem using immutable datastructures, but its harder with c# mutable stacks. –  rici Mar 13 '13 at 15:19

1 Answer 1

public class Operand {
    private ShuntingYard sy;
    private double d;
    public Operand(double v) {
        d=v;
        sy=null;
    }
    public Operand() {
        d=NaN(); // I'm inept at C#, this should mean "d" is unused
        sy=new ShuntingYard();
    }
}
public class ShuntingYard {
    private Stack<Operand> _operands;
    private Stack<Operation> _operations;

   public ShuntingYard()
   {
      this._operands = new Stack<Operand>();
      this._operations = new Stack<Operation>();
   }
}

StarPilot gives a correct advice, putting another ShuntingYard into the stack, but the correct way is to put a ShuntingYard as an operand, not as an operation. Now, once a nested ShuntingYard appears, all subsequent operands and operations are passed to it. A preparation should be made in order for a ShuntingYard to receive a closing parenthesis operation, a top-level one should throw an error, and the inner ones should evaluate themselves and replace containing Operand with the result of its evaluation.

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