# Represent algebraic expressions in an OOP language like C#

I am trying to represent algebra expressions such as polynomials and non-polynomials in C#. At the moment I have the following classes

``````class Variable {
public char Var {get; set;}
public int Exponent {get; set;}
...
}

class Term {
public IList<Variable> {get; set;}
public int CoEfficient {get; set;}
...
}

class Expression {
public IList<Term> {get; set;}
...
}
``````

This allows me to represent simple polynomials such as x^2+3x-8 but I want to be able to represent such expressions as (x+3)(x-2) and 3x(y+2). I have been trying to find out the terminology for this and I think the first is an expression '(x+3)(x-2)' containing two expressions 'x+3' and 'x-2' each containing two terms 'x', '3' and 'x', '-2'. The second is an expression '3x(y+2)' containing an expression 'y+2' multiplied by the term '3x' I was thinking that instead of a list of Terms in the Expression class it was a list of objects which are base classes of both Expression and Term and using recursion of some sort

How could I go about representing this in my classes?

I also want to be able to represent fractions and other non-polynomials

How would this fit into the picture?

-
`x` and `3` are also expressions. See also peterjuhasz.net/Articles/Details/extending-c-sharp-with-algebra and en.wikipedia.org/wiki/Binary_expression_tree – Robert Harvey Mar 3 '14 at 20:16

Having a base class for expressions lets you build expressions out of other expressions.

``````public abstract class BaseExpression
{
}

public class VariableExpression : BaseExpression
{
public string Var {get; set;}
public int Exponent {get; set;}
}

public class ConstExpression : BaseExpression
{
public object Val {get; set;}
}

public class BinExpression : BaseExpression
{
public BaseExpression Left { get; set; }
public BaseExpression Right { get; set; }
public string Operator { get; set; }
}
``````

For example `x(y-1)` would be

``````var xy_1 = new BinExpression()
{
Left  = new VariableExpression() { Var = "x" },
Right = new BinExpression()
{
Left     = new VariableExpression() { Var = "y" },
Right    = new ConstExpression() { Val = "1" },
Operator = "-"
},
Operator = "*"
}
``````
-
So your saying to scrap trying to abstract along the lines of the mathematical terms and go with a ast pattern which makes sense since I want to parse these terms from a string anyway. – John ClearZ Mar 3 '14 at 21:32
Yeah, that representation has many benefits, including the ability to easily implement parsing, recursive algorithms, validation, etc. – Wiktor Zychla Mar 3 '14 at 22:05