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I have a db table that stores the following:

RuleID  objectProperty ComparisonOperator  TargetValue
1       age            'greater_than'             15
2       username       'equal'             'some_name'
3       tags           'hasAtLeastOne'     'some_tag some_tag2'

Now say I have a collection of these rules:

List<Rule> rules = db.GetRules();

Now I have an instance of a user also:

User user = db.GetUser(....);

How would I loop through these rules, and apply the logic and perform the comparisons etc?

if(user.age > 15)

if(user.username == "some_name")

Since the object's property like 'age' or 'user_name' is stored in the table, along with the comparison operater 'great_than' and 'equal', how could I possible do this?

C# is a statically typed language, so not sure how to go forward.

share|improve this question
up vote 250 down vote accepted

This snippet compiles the Rules into fast executable code (using Expression trees) and does not need any complicated switch statements:

(Edit : full working example with generic method)

public Func<User, bool> CompileRule(Rule r)
    var paramUser = Expression.Parameter(typeof(User));
    Expression expr = BuildExpr(r, paramUser);
    // build a lambda function User->bool and compile it
    return Expression.Lambda<Func<User, bool>>(expr, paramUser).Compile();

You can then write:

List<Rule> rules = new List<Rule> {
    new Rule ("Age", "GreaterThan", "20"),
    new Rule ( "Name", "Equal", "John"),
    new Rule ( "Tags", "Contains", "C#" )

// compile the rules once
var compiledRules = rules.Select(r => CompileRule(r)).ToList();

public bool MatchesAllRules(User user)
    return compiledRules.All(rule => rule(user));

Here is the implementation of BuildExpr:

Expression BuildExpr(Rule r, ParameterExpression param)
    var left = MemberExpression.Property(param, r.MemberName);
    var tProp = typeof(User).GetProperty(r.MemberName).PropertyType;
    ExpressionType tBinary;
    // is the operator a known .NET operator?
    if (ExpressionType.TryParse(r.Operator, out tBinary)) {
        var right = Expression.Constant(Convert.ChangeType(r.TargetValue, tProp));
        // use a binary operation, e.g. 'Equal' -> 'u.Age == 15'
        return Expression.MakeBinary(tBinary, left, right);
    } else {
        var method = tProp.GetMethod(r.Operator);
        var tParam = method.GetParameters()[0].ParameterType;
        var right = Expression.Constant(Convert.ChangeType(r.TargetValue, tParam));
        // use a method call, e.g. 'Contains' -> 'u.Tags.Contains(some_tag)'
        return Expression.Call(left, method, right);

Note that I used 'GreaterThan' instead of 'greater_than' etc. - this is because 'GreaterThan' is the .NET name for the operator, therefore we don't need any extra mapping.

If you really need custom names you can build a very simple dictionary and just translate all operators before compiling the rules:

var nameMap = new Dictionary<string, string> {
    { "greater_than", "GreaterThan" },
    { "hasAtLeastOne", "Contains" }

Note that the code uses the type User for simplicity. You can replace User with a generic type T to have a generic Rule compiler for any types of objects.

Also note: generating code on the fly was possible even before the Expression trees API was introduced, using Reflection.Emit. The method LambdaExpression.Compile() uses Reflection.Emit under the covers (you can see this using ILSpy).

share|improve this answer
very nice! Are you @john skeet? – Blankman Jul 5 '11 at 0:14
All the classes come from the namespace System.Linq.Expressions, and all are created using factory methods of the Expression class - type "Expression." in your IDE to access all of them. Read more about Expression trees here – Martin Konicek Jul 5 '11 at 9:27
@Martin where can I find a list of qualified .NET operator names? – Brian Graham Jul 10 '11 at 10:48
@Dark Slipstream You can find them here Not all of them are boolean expressions - use only the boolean ones (such as GreaterThan, NotEqual, etc.). – Martin Konicek Jul 10 '11 at 11:15
@Martin thanks! :D – Brian Graham Jul 10 '11 at 11:23

Here is some code that compiles as is and does the job. Basically use two dictionaries, one containing a mapping from operator names to boolean functions, and another containing a map from the property names of the User type to PropertyInfos used to invoke the property getter (if public). You pass the User instance, and the three values from your table to the static Apply method.

class User
    public int Age { get; set; }
    public string UserName { get; set; }

class Operator
    private static Dictionary<string, Func<object, object, bool>> s_operators;
    private static Dictionary<string, PropertyInfo> s_properties;
    static Operator()
        s_operators = new Dictionary<string, Func<object, object, bool>>();
        s_operators["greater_than"] = new Func<object, object, bool>(s_opGreaterThan);
        s_operators["equal"] = new Func<object, object, bool>(s_opEqual);

        s_properties = typeof(User).GetProperties().ToDictionary(propInfo => propInfo.Name);

    public static bool Apply(User user, string op, string prop, object target)
        return s_operators[op](GetPropValue(user, prop), target);

    private static object GetPropValue(User user, string prop)
        PropertyInfo propInfo = s_properties[prop];
        return propInfo.GetGetMethod(false).Invoke(user, null);

    #region Operators

    static bool s_opGreaterThan(object o1, object o2)
        if (o1 == null || o2 == null || o1.GetType() != o2.GetType() || !(o1 is IComparable))
            return false;
        return (o1 as IComparable).CompareTo(o2) > 0;

    static bool s_opEqual(object o1, object o2)
        return o1 == o2;



    public static void Main(string[] args)
        User user = new User() { Age = 16, UserName = "John" };
        Console.WriteLine(Operator.Apply(user, "greater_than", "Age", 15));
        Console.WriteLine(Operator.Apply(user, "greater_than", "Age", 17));
        Console.WriteLine(Operator.Apply(user, "equal", "UserName", "John"));
        Console.WriteLine(Operator.Apply(user, "equal", "UserName", "Bob"));
share|improve this answer

If you only have a handful of properties and operators, the path of least of resistance is to just code up all the checks as special cases like this:

public bool ApplyRules(List<Rule> rules, User user)
    foreach (var rule in rules)
        IComparable value = null;
        object limit = null;
        if (rule.objectProperty == "age")
            value = user.age;
            limit = Convert.ToInt32(rule.TargetValue);
        else if (rule.objectProperty == "username")
            value = user.username;
            limit = rule.TargetValue;
            throw new InvalidOperationException("invalid property");

        int result = value.CompareTo(limit);

        if (rule.ComparisonOperator == "equal")
            if (!(result == 0)) return false;
        else if (rule.ComparisonOperator == "greater_than")
            if (!(result > 0)) return false;
            throw new InvalidOperationException("invalid operator");
    return true;

If you have a lot of properties, you may find a table-driven approach more palatable. In that case you would create a static Dictionary that maps property names to delegates matching, say, Func<User, object>.

If you don't know the names of the properties at compile time, or you want to avoid special-cases for each property and don't want to use the table approach, you can use reflection to get properties. For example:

var value = user.GetType().GetProperty("age").GetValue(user, null);

But since TargetValue is probably a string, you'll need to take care to do type conversion from the rules table if necessary.

share|improve this answer
what does value.CompareTo(limit) return? -1 0 or 1? Haven't seen that b4! – Blankman Jun 27 '11 at 3:40
@Blankman: Close: less than zero, zero or greater than zero. IComparable is used for comparing things. Here are the docs: IComparable.CompareTo Method. – Rick Sladkey Jun 27 '11 at 16:08
I don't understand why this answer has been up-voted. It violates many design principles: "Tell don't ask" => the rules should each be asked to return a result. "Open for extension / closed for modification" => any new rule means the ApplyRules method needs modification. Plus the code is difficult to understand at a glance. – Steve Dec 12 '14 at 14:14
Indeed, the path of least resistance is rarely the best path. Please see and upvote the excellent expression tree answer. – Rick Sladkey Jan 28 '15 at 5:57

Reflection is your most versatile answer. You have three columns of data, and they need to be treated in different ways:

  1. Your field name. Reflection is the way to get the value from a coded field name.

  2. Your comparison operator. There should be a limited number of these, so a case statement should handle them most easily. Especially as some of them ( has one or more of ) is slightly more complex.

  3. Your comparison value. If these are all straight values then this is easy, although you will have divide the multiple entries up. However, you could also use reflection if they are field names too.

I would take an approach more like:

    var value = user.GetType().GetProperty("age").GetValue(user, null);
    //Thank you Rick! Saves me remembering it;
        case "equals":
             return EqualComparison(value, rule.CompareTo)
        case "is_one_or_more_of"
             return IsInComparison(value, rule.CompareTo)

etc. etc.

It gives you flexibility for adding more options for comparison. It also means that you can code within the Comparison methods any type validation that you might want, and make them as complex as you want. There is also the option here for the CompareTo to be evaluated as a recursive call back to another line, or as a field value, which could be done like:

             return IsInComparison(value, EvaluateComparison(rule.CompareTo))

It all depends on the possibilities for the future....

share|improve this answer
And you can cache your reflected assemblies/objects which will make your code even more performant. – Mrchief Jul 1 '11 at 15:17

What about a data type orientated approach with an extention method:

public static class RoleExtension
    public static bool Match(this Role role, object obj )
        var property = obj.GetType().GetProperty(role.objectProperty);
        if (property.PropertyType == typeof(int))
            return ApplyIntOperation(role, (int)property.GetValue(obj, null));
        if (property.PropertyType == typeof(string))
            return ApplyStringOperation(role, (string)property.GetValue(obj, null));
        if (property.PropertyType.GetInterface("IEnumerable<string>",false) != null)
            return ApplyListOperation(role, (IEnumerable<string>)property.GetValue(obj, null));
        throw new InvalidOperationException("Unknown PropertyType");

    private static bool ApplyIntOperation(Role role, int value)
        var targetValue = Convert.ToInt32(role.TargetValue);
        switch (role.ComparisonOperator)
            case "greater_than":
                return value > targetValue;
            case "equal":
                return value == targetValue;
                throw new InvalidOperationException("Unknown ComparisonOperator");

    private static bool ApplyStringOperation(Role role, string value)
        throw new InvalidOperationException("Unknown ComparisonOperator");

    private static bool ApplyListOperation(Role role, IEnumerable<string> value)
        var targetValues = role.TargetValue.Split(' ');
        switch (role.ComparisonOperator)
            case "hasAtLeastOne":
                return value.Any(v => targetValues.Contains(v));
        throw new InvalidOperationException("Unknown ComparisonOperator");

Than you can evaulate like this:

var myResults = users.Where(u => roles.All(r => r.Match(u)));
share|improve this answer

Although the most obvious way to answer the "How to implement a rule engine? (in C#)" question is to execute a given set of rules in sequence, this is in general considered as a naïve implementation (does not mean it does not work :-)

It seems it's "good enough" in your case because your problem seems more to be "how to run a set of rules in sequence", and the lambda/expression tree (Martin's answer) is certainly the most elegant way in that matter if you are equiped with recent C# versions.

However for more advanced scenarios, here is a link to the Rete Algorithm that is in fact implemented in many commercial rule engine systems, and another link to NRuler, an implementation of that algorithm in C#.

share|improve this answer

I built a rule engine that takes a different approach than you outlined in your question, but I think you will find it to be much more flexible than your current approach.

Your current approach seems to be focused on a single entity, "User", and your persistent rules identify "propertyname", "operator" and "value". My pattern, instead stores the C# code for a predicate (Func<T, bool>) in an "Expression" column in my database. In the current design, using code generation I am querying the "rules" from my database and compiling an assembly with "Rule" types, each with a "Test" method. Here is the signature for the interface that is implemented each Rule:

public interface IDataRule<TEntity> 
    /// <summary>
    /// Evaluates the validity of a rule given an instance of an entity
    /// </summary>
    /// <param name="entity">Entity to evaluate</param>
    /// <returns>result of the evaluation</returns>
    bool Test(TEntity entity);
    /// <summary>
    /// The unique indentifier for a rule.
    /// </summary>
     int RuleId { get; set; }
    /// <summary>
    /// Common name of the rule, not unique
    /// </summary>
     string RuleName { get; set; }
    /// <summary>
    /// Indicates the message used to notify the user if the rule fails
    /// </summary>
     string ValidationMessage { get; set; }   
     /// <summary>
     /// indicator of whether the rule is enabled or not
     /// </summary>
     bool IsEnabled { get; set; }
    /// <summary>
    /// Represents the order in which a rule should be executed relative to other rules
    /// </summary>
     int SortOrder { get; set; }

The "Expression" is compiled as the body of the "Test" method when the application first executes. As you can see the other columns in the table are also surfaced as first-class properties on the rule so that a developer has flexibility to create an experience for how the user gets notified of failure or success.

Generating an in-memory assembly is a 1-time occurrence during your application and you get a performance gain by not having to use reflection when evaluating your rules. Your expressions are checked at runtime as the assembly will not generate correctly if a property name is misspelled, etc.

The mechanics of creating an in-memory assembly are as follows:

  • Load your rules from the DB
  • iterate over the rules and for-each, using a StringBuilder and some string concatenation write the Text representing a class that inherits from IDataRule
  • compile using CodeDOM -- more info

This is actually quite simple because for the majority this code is property implementations and value initialization in the constructor. Besides that, the only other code is the Expression.
NOTE: there is a limitation that your expression must be .NET 2.0 (no lambdas or other C# 3.0 features) due to a limitation in CodeDOM.

Here is some sample code for that.

sb.AppendLine(string.Format("\tpublic class {0} : SomeCompany.ComponentModel.IDataRule<{1}>", className, typeName));
            sb.AppendLine("\t\tprivate int _ruleId = -1;");
            sb.AppendLine("\t\tprivate string _ruleName = \"\";");
            sb.AppendLine("\t\tprivate string _ruleType = \"\";");
            sb.AppendLine("\t\tprivate string _validationMessage = \"\";");
            /// ... 
            sb.AppendLine("\t\tprivate bool _isenabled= false;");
            // constructor
            sb.AppendLine(string.Format("\t\tpublic {0}()", className));
            sb.AppendLine(string.Format("\t\t\tRuleId = {0};", ruleId));
            sb.AppendLine(string.Format("\t\t\tRuleName = \"{0}\";", ruleName.TrimEnd()));
            sb.AppendLine(string.Format("\t\t\tRuleType = \"{0}\";", ruleType.TrimEnd()));                
            sb.AppendLine(string.Format("\t\t\tValidationMessage = \"{0}\";", validationMessage.TrimEnd()));
            // ...
            sb.AppendLine(string.Format("\t\t\tSortOrder = {0};", sortOrder));                

            // properties
            sb.AppendLine("\t\tpublic int RuleId { get { return _ruleId; } set { _ruleId = value; } }");
            sb.AppendLine("\t\tpublic string RuleName { get { return _ruleName; } set { _ruleName = value; } }");
            sb.AppendLine("\t\tpublic string RuleType { get { return _ruleType; } set { _ruleType = value; } }");

            /// ... more properties -- omitted

            sb.AppendLine(string.Format("\t\tpublic bool Test({0} entity) ", typeName));
            // #############################################################
            // NOTE: This is where the expression from the DB Column becomes
            // the body of the Test Method, such as: return "entity.Prop1 < 5"
            // #############################################################
            sb.AppendLine(string.Format("\t\t\treturn {0};", expressionText.TrimEnd()));
            sb.AppendLine("\t\t}");  // close method
            sb.AppendLine("\t}"); // close Class

Beyond this I did make a class I called "DataRuleCollection", which implemented ICollection>. This enabled me to create a "TestAll" capability and an indexer for executing a specific rule by name. Here are the implementations for those two methods.

    /// <summary>
    /// Indexer which enables accessing rules in the collection by name
    /// </summary>
    /// <param name="ruleName">a rule name</param>
    /// <returns>an instance of a data rule or null if the rule was not found.</returns>
    public IDataRule<TEntity, bool> this[string ruleName]
        get { return Contains(ruleName) ? list[ruleName] : null; }
    // in this case the implementation of the Rules Collection is: 
    // DataRulesCollection<IDataRule<User>> and that generic flows through to the rule.
    // there are also some supporting concepts here not otherwise outlined, such as a "FailedRules" IList
    public bool TestAllRules(User target) 
        var result = true;

        foreach (var rule in rules.Where(x => x.IsEnabled)) 

            result = rule.Test(target);
            if (!result)


        return (rules.FailedRules.Count == 0);

MORE CODE: There was a request for the code related to the Code Generation. I encapsulated the functionality in a class called 'RulesAssemblyGenerator' which I have included below.

namespace Xxx.Services.Utils
        public static class RulesAssemblyGenerator
            static List<string> EntityTypesLoaded = new List<string>();

            public static void Execute(string typeName, string scriptCode)
                if (EntityTypesLoaded.Contains(typeName)) { return; } 
                // only allow the assembly to load once per entityType per execution session
                Compile(new CSharpCodeProvider(), scriptCode);
            private static void Compile(CodeDom.CodeDomProvider provider, string source)
                var param = new CodeDom.CompilerParameters()
                    GenerateExecutable = false,
                    IncludeDebugInformation = false,
                    GenerateInMemory = true
                var path = System.Reflection.Assembly.GetExecutingAssembly().Location;
                var root_Dir = System.IO.Path.Combine(System.AppDomain.CurrentDomain.BaseDirectory, "Bin");
                // Note: This dependencies list are included as assembly reference and they should list out all dependencies
                // That you may reference in your Rules or that your entity depends on.
                // some assembly names were changed... clearly.
                var dependencies = new string[] { "yyyyyy.dll", "xxxxxx.dll", "NHibernate.dll", "ABC.Helper.Rules.dll" };
                foreach (var dependency in dependencies)
                    var assemblypath = System.IO.Path.Combine(root_Dir, dependency);
                // reference .NET basics for C# 2.0 and C#3.0
                param.ReferencedAssemblies.Add(@"C:\Program Files\Reference Assemblies\Microsoft\Framework\v3.5\System.Core.dll");
                var compileResults = provider.CompileAssemblyFromSource(param, source);
                var output = compileResults.Output;
                if (compileResults.Errors.Count != 0)
                    CodeDom.CompilerErrorCollection es = compileResults.Errors;
                    var edList = new List<DataRuleLoadExceptionDetails>();
                    foreach (CodeDom.CompilerError s in es)
                        edList.Add(new DataRuleLoadExceptionDetails() { Message = s.ErrorText, LineNumber = s.Line });
                    var rde = new RuleDefinitionException(source, edList.ToArray());
                    throw rde;

If there are any other questions or comments or requests for further code samples, let me know.

share|improve this answer
You are right that the engine can be made more generic and the CodeDOM API is definitely also an option. Maybe instead of the "sb.AppendLine" code which is not very clear, you could show how exactly you invoke the CodeDOM? – Martin Konicek Jul 5 '11 at 19:48
good point. give me a sec. – Glenn Ferrie Jul 5 '11 at 19:55

How about using the workflow rules engine?

You can execute Windows Workflow Rules without Workflow see Guy Burstein's Blog:

and to programatically create your rules, see Stephen Kaufman's WebLog

share|improve this answer

Martin's answer was quite good. I actually made a rules engine that has the same idea as his. And I was surprised that it's almost the same. I've included some of his code to somewhat improve it. Although I've made it to handle more complex rules.

You can look at Yare.NET

Or download it in Nuget

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