# Simplify algebraic expression [duplicate]

Possible Duplicate:
Strategies for simplifying math expressions

I have a mathematical expression parser which builds a tree to represent the expression. Say ,for example, I input 2+y+3+y, the internal representation of this would be:

Now, we, as humans, can immediately see that 2+y+3+y = 2y + 5. The tricky part for the computer that I see, is that if I would be standing on the left +, I would have no idea that I have another addition to the right in the other branch - this doesn't matter when evaluating but when simplifying i don't see how this can be done nicely.

This is how the classes fit together:

I have tried to google this, but have found nothing that could help me here. Just some general waypoint, or an url or something at all would be appreciated

EDIT: Note that for the example i have only included addition. The parser supports expressions like : 1+2*(3^4-4/5*(1+2))

## marked as duplicate by BlueRaja - Danny Pflughoeft, L.B, dtb, Steve Guidi, PerceptionMay 10 '12 at 4:04

• Could you make + have more than 2 children? I believe symbolic math languages like Mathematica would store your example as a list [2,y,3,y] with a head of Plus, which would then get simplified automatically using some rules. – JohnPS May 9 '12 at 20:31
• Is that really how your parse tree gets built? I bet it isn't. – Novak May 9 '12 at 20:32
• @Novak you're probably right. I would guess the left branch just consists of the constant 2. – ErikTJ May 9 '12 at 20:37
• Have you seen stackoverflow.com/questions/7540227/…? – ie. May 9 '12 at 20:51
• I guess I'm also uncertain as to why you want to do this: Is it intended to be a compiler optimization to get the compiled code to run faster? Is it part of a symbolic package meant to display information to humans? Something else> – Novak May 10 '12 at 0:26

Since the set of expressions that can be expressed with your class structure is quite limited, you can simply count how often each variable occurs and sum all the constants.

var nodes = tree.Flatten();

var variables = nodes
.OfType<Variable>()
.GroupBy(x => x.Name)
.Select(g => new Multiplication(
new Variable(g.Key), new Constant(g.Count())));

var constants = nodes
.OfType<Constant>()
.Sum(x => x.Value);