Как всегда первая возможность - написать парсер таких выражений самостоятельно. Для этого может подойти Алгоритм сортировочной станции. Он особенно хорошо описан в английской статье, советую именно её и читать.
Если же хочется чего-то попроще, то есть вариант использовать Microsoft Script Control Library, например так:
MSScriptControl.ScriptControl sc = new MSScriptControl.ScriptControl();
sc.Language = "VBScript";
string expression = "1 + 2 * 7";
object result = sc.Eval(expression);
MessageBox.Show(result.ToString());
На просторах интернета также нашел вот такой код, который содержит все простейшие операции и может быть легко расширен до нужных вам sqrt, pow и прочих. Вот какой он:
public Operand ExpressionTree
{
get;
private set;
}
private Stack<Operands.Operand> stack = new Stack<InfixParser.Operands.Operand>();
private Queue<Operands.Operand> outputQueue = new Queue<InfixParser.Operands.Operand>();
private void ParseFormulaString()
{
//Dijkstra's Shunting Yard Algorithm
Regex re = new Regex(@"([\+\-\*\(\)\^\/\ ])");
List<String> tokenList = re.Split(formulaString).Select(t => t.Trim()).Where(t => t != "").ToList();
for (int tokenNumber = 0; tokenNumber < tokenList.Count(); ++tokenNumber)
{
String token = tokenList[tokenNumber];
TokenClass tokenClass = GetTokenClass(token);
switch (tokenClass)
{
case TokenClass.Value:
outputQueue.Enqueue(new Value(token));
break;
case TokenClass.Function:
stack.Push(new Function(token, 1));
break;
case TokenClass.Operator:
if (token == "-" && (stack.Count == 0 || tokenList[tokenNumber - 1] == "("))
{
//Push unary operator 'Negative' to stack
stack.Push(new Negative());
break;
}
if (stack.Count > 0)
{
String stackTopToken = stack.Peek().Token;
if (GetTokenClass(stackTopToken) == TokenClass.Operator)
{
Associativity tokenAssociativity = GetOperatorAssociativity(token);
int tokenPrecedence = GetOperatorPrecedence(token);
int stackTopPrecedence = GetOperatorPrecedence(stackTopToken);
if (tokenAssociativity == Associativity.Left && tokenPrecedence <= stackTopPrecedence ||
tokenAssociativity == Associativity.Right && tokenPrecedence < stackTopPrecedence)
{
outputQueue.Enqueue(stack.Pop());
}
}
}
stack.Push(new BinaryOperator(token, Operator.OperatorNotation.Infix));
break;
case TokenClass.LeftParen:
stack.Push(new LeftParenthesis());
break;
case TokenClass.RightParen:
while (!(stack.Peek() is LeftParenthesis))
{
outputQueue.Enqueue(stack.Pop());
}
stack.Pop();
if (stack.Count > 0 && stack.Peek() is Function)
{
outputQueue.Enqueue(stack.Pop());
}
break;
}
if (tokenClass == TokenClass.Value || tokenClass == TokenClass.RightParen)
{
if (tokenNumber < tokenList.Count() - 1)
{
String nextToken = tokenList[tokenNumber + 1];
TokenClass nextTokenClass = GetTokenClass(nextToken);
if (nextTokenClass != TokenClass.Operator && nextTokenClass != TokenClass.RightParen)
{
tokenList.Insert(tokenNumber + 1, "*");
}
}
}
}
while (stack.Count > 0)
{
Operand operand = stack.Pop();
if (operand is LeftParenthesis || operand is RightParenthesis)
{
throw new ArgumentException("Mismatched parentheses");
}
outputQueue.Enqueue(operand);
}
String foo = String.Join(",", outputQueue.Select(t => t.Token).ToArray());
String bar = String.Join("", tokenList.ToArray());
Stack<Operand> expressionStack = new Stack<Operand>();
while (outputQueue.Count > 0)
{
Operand operand = outputQueue.Dequeue();
if (operand is Value)
{
expressionStack.Push(operand);
}
else
{
if (operand is BinaryOperator)
{
BinaryOperator op = (BinaryOperator)operand;
Operand rightOperand = expressionStack.Pop();
Operand leftOperand = expressionStack.Pop();
op.LeftOperand = leftOperand;
op.RightOperand = rightOperand;
}
else if (operand is UnaryOperator)
{
((UnaryOperator)operand).Operand = expressionStack.Pop();
}
else if (operand is Function)
{
Function function = (Function)operand;
for (int argNum = 0; argNum < function.NumArguments; ++argNum)
{
function.Arguments.Add(expressionStack.Pop());
}
}
expressionStack.Push(operand);
}
}
if (expressionStack.Count != 1)
{
throw new ArgumentException("Invalid formula");
}
ExpressionTree = expressionStack.Pop();
}
private TokenClass GetTokenClass(String token)
{
double tempValue;
if (double.TryParse(token, out tempValue) ||
token.Equals("R", StringComparison.CurrentCultureIgnoreCase) ||
token.Equals("S", StringComparison.CurrentCultureIgnoreCase))
{
return TokenClass.Value;
}
else if (token.Equals("sqrt", StringComparison.CurrentCultureIgnoreCase))
{
return TokenClass.Function;
}
else if (token == "(")
{
return TokenClass.LeftParen;
}
else if (token == ")")
{
return TokenClass.RightParen;
}
else if (binaryInfixOperators.Contains(token))
{
return TokenClass.Operator;
}
else
{
throw new ArgumentException("Invalid token");
}
}
private Associativity GetOperatorAssociativity(String token)
{
if (token == "^")
return Associativity.Right;
else
return Associativity.Left;
}
private int GetOperatorPrecedence(String token)
{
if (token == "+" || token == "-")
{
return 1;
}
else if (token == "*" || token == "/")
{
return 2;
}
else if (token == "^")
{
return 3;
}
else
{
throw new ArgumentException("Invalid token");
}
}