public void LiteralMathLoadFromFile()
{
// rule DTO
var car = new CarDTO
{
Make = "Ford",
Year = 2010,
Model = "Expedition",
AskingPrice = 10000.0000m,
SellingPrice = 9000.0000m,
AverageSellingPrice = 9500.000m,
FixedComission = 100
};
var math = new SimpleMathEngine();
var xd = new XmlDocument();
xd.Load(@"C:\development\RuleEngine\TinyTuleEngineUnitTest\SimpleMath\SimpleMath.xml");
math.LoadRulesFromElementList<CarDTO>(xd, "/mathexps/mathexp");
Func<CarDTO, double> check = math.GetRule<CarDTO>("literal").Compile();
var result = check(car);
}
public void ResonantFrequencyOfATankCircuit()
{
// circuitDTO
var circuit = new CircuitDTO
{
InductanceInHenries = .1000m, // 100 millihenries
CapacitanceInFarads = .00001m // 10 micro farads
};
var s = new DataContractSerializer(typeof(CircuitDTO));
var m = new MemoryStream();
s.WriteObject(m,circuit);
m.Position = 0;
var sr = new StreamReader(m);
var resulta = sr.ReadToEnd();
var math = new SimpleMathEngine();
var xd = new XmlDocument();
xd.Load(@"C:\development\RuleEngine\TinyTuleEngineUnitTest\SimpleMath\SimpleMath.xml");
math.LoadRulesFromElementList<CircuitDTO>(xd, "/mathexps/mathexp");
Func<CircuitDTO, double> resonantFrequencyOfATankCircuit = math.GetRule<CircuitDTO>("ResonantFrequencyOfATankCircuit").Compile();
var result = resonantFrequencyOfATankCircuit(circuit);
Assert.AreEqual(159.0,result);
}
