How can I simplify an expression using basic arithmetic?
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I'm not sure what you mean, but if you have an expression datatype you can define a recursive evalfunction. In this case eval means simplify. For example,
It gets really interesting once you add variables to the language, but this is the most basic form of an expressionevaluator. 


You can use the technique described here: http://augustss.blogspot.com/2007/04/overloadinghaskellnumberspart2.html . Make your type be of the necassary typeclasses (Num, Fractional, Floating) so that , +, * and so on works for your type. Then if the expression tree is finally built, you can operate on it to see what you can simplify. 


module Expr where  Variables are named by strings, assumed to be identifiers. type Variable = String  Representation of expressions. data Expr = Const Integer  Var Variable  Plus Expr Expr  Minus Expr Expr  Mult Expr Expr deriving (Eq, Show) Simplifications such as 0*e=e*0=0 and 1*e=e*1=0+e=e+0=e0=e and simplifying constant subexpressions, e.g. Plus (Const 1) (Const 2) would become Const 3. I would not expect variables (or variables and constants) to be concatenated: Var "st" is a distinct variable from Var "s". they need to be written like the following simplify (Plus (Var'x') (Const 0)) = Var"x" 

