Install-Package SoftCircuits.ExpressionEvaluator
ExpressionEvaluator is a .NET library that will evaluate a string expression. It supports custom functions and symbols. Expression operands can include integers, doubles and strings. And operators include +, -, *, /, % (modulus), ^ (power) and & (concatenation).
The library easily integrates with any .NET application. Custom functions and symbols are implemented using the EvaluateFunction and EvaluateSymbol events. These events are raised when ExpressionEvaluator encounters a function or symbol in the expression.
Use the Evaluate() method to evaluate a string expression and return the result.
ExpressionEvaluator eval = new ExpressionEvaluator();
Variable v;
v = eval.Evaluate("2 + 2"); // Returns 4 (Integer)
v = eval.Evaluate("2 + 3 * 5"); // Returns 17 (Integer)
v = eval.Evaluate("(2 + 3) * 5"); // Returns 25 (Integer)As you can see in the example above, the Evaluate() method returns a Variable. A Variable can hold an integer, double or string value. You can use the Type property to determine its current type, or just call the ToString() method to convert the value to a string. The Variable class includes methods to set its value, convert its value to another type and perform various operations. It also overloads many operators to make it easier to work with.
Expressions may also include string literals. Strings are any text enclosed in either double or single quotes. If the string contains two quotes together, they will be interpreted as a single quote character rather than the end of the string.
ExpressionEvaluator eval = new ExpressionEvaluator();
Variable v;
v = eval.Evaluate("\"2\" & \"2\""); // Returns 22 (String)
v = eval.Evaluate("'2' & '2'"); // Returns 22 (String)
v = eval.Evaluate("\"2\" + \"2\""); // Returns 4 (Integer)Note the concatenation operator (&). This operator converts both operands to a string (if needed) and then concatenates them.
This example evaluates an expression with symbols. The EvaluateSymbol event handler defines three symbols ("two", "three", and "five"), and sets the status to SymbolStatus.UndefinedSymbol if the event is raised for an unknown symbol. Setting the status to SymbolStatus.UndefinedSymbol causes an EvaluationException exception to be thrown.
public void Test()
{
ExpressionEvaluator eval = new ExpressionEvaluator();
eval.EvaluateSymbol += Eval_EvaluateSymbol;
Variable v;
v = eval.Evaluate("two + two"); // Returns 4 (Integer)
v = eval.Evaluate("two + three * five"); // Returns 17 (Integer)
v = eval.Evaluate("(two + three) * five"); // Returns 25 (Integer)
}
private void Eval_EvaluateSymbol(object sender, SymbolEventArgs e)
{
switch (e.Name.ToUpper())
{
case "TWO":
e.Result.SetValue(2);
break;
case "THREE":
e.Result.SetValue(3);
break;
case "FIVE":
e.Result.SetValue(5);
break;
default:
e.Status = SymbolStatus.UndefinedSymbol;
break;
}
}The next example defines two custom functions ("add" and "multiply"). The EvaluateFunction event handler sets the status to FunctionStatus.UndefinedFunction if the function name is not supported. In addition, it sets the status to FunctionStatus.WrongParameterCount if the number of arguments passed is not valid for the function. Setting the status to FunctionStatus.UndefinedFunction or FunctionStatus.WrongParameterCount causes an EvaluationException exception to be thrown.
void Test()
{
ExpressionEvaluator eval = new ExpressionEvaluator();
eval.EvaluateFunction += Eval_EvaluateFunction;
Variable v;
v = eval.Evaluate("add(2, 2)"); // Returns 4 (Integer)
v = eval.Evaluate("2 + multiply(3, 5)"); // Returns 17 (Integer)
v = eval.Evaluate("multiply(add(2, 3), 5)"); // Returns 25 (Integer)
}
private void Eval_EvaluateFunction(object sender, FunctionEventArgs e)
{
switch (e.Name.ToUpper())
{
case "ADD":
if (e.Parameters.Length == 2)
e.Result.SetValue(e.Parameters[0] + e.Parameters[1]);
else
e.Status = FunctionStatus.WrongParameterCount;
break;
case "MULTIPLY":
if (e.Parameters.Length == 2)
e.Result.SetValue(e.Parameters[0] * e.Parameters[1]);
else
e.Status = FunctionStatus.WrongParameterCount;
break;
default:
e.Status = FunctionStatus.UndefinedFunction;
break;
}
}As the example above demonstrates, expressions can include nested functions (functions that are passed the result of another function or expression).
This code was derived from the article A C# Expression Evaluator.