-
Notifications
You must be signed in to change notification settings - Fork 558
Getting Started
RulesEngine is a library/NuGet package for abstracting rules and running the Rules Engine.
As with any library/package there are public interfaces with which we interact with that library/packages. There are a few public interfaces in this package as well. The interface which will be used to access this package is IRulesEngine, with four overloaded methods for executing rules. To understand the methods, we need to go through some of the models/schemas first.
The rules used in this system is mostly comprising of lambda expressions. Anything that can be defined in a lambda expression can be used as a rule in this library.
Rules schema is available in the schema file. The workflow rules are how we store the rules in the system. In our system, the name of the model typed in the library is WorkflowRules. An example json would be –
[
{
"WorkflowName": "Discount",
"Rules": [
{
"RuleName": "GiveDiscount10",
"SuccessEvent": "10",
"ErrorMessage": "One or more adjust rules failed.",
"ErrorType": "Error",
"RuleExpressionType": "LambdaExpression",
"Expression": "input1.country == \"india\" AND input1.loyalityFactor <= 2 AND input1.totalPurchasesToDate >= 5000 AND input2.totalOrders > 2 AND input3.noOfVisitsPerMonth > 2"
},
{
"RuleName": "GiveDiscount20",
"SuccessEvent": "20",
"ErrorMessage": "One or more adjust rules failed.",
"ErrorType": "Error",
"RuleExpressionType": "LambdaExpression",
"Expression": "input1.country == \"india\" AND input1.loyalityFactor == 3 AND input1.totalPurchasesToDate >= 10000 AND input2.totalOrders > 2 AND input3.noOfVisitsPerMonth > 2"
},
{
"RuleName": "GiveDiscount25",
"SuccessEvent": "25",
"ErrorMessage": "One or more adjust rules failed.",
"ErrorType": "Error",
"RuleExpressionType": "LambdaExpression",
"Expression": "input1.country != \"india\" AND input1.loyalityFactor >= 2 AND input1.totalPurchasesToDate >= 10000 AND input2.totalOrders > 2 AND input3.noOfVisitsPerMonth > 5"
},
{
"RuleName": "GiveDiscount30",
"SuccessEvent": "30",
"ErrorMessage": "One or more adjust rules failed.",
"ErrorType": "Error",
"RuleExpressionType": "LambdaExpression",
"Expression": "input1.loyalityFactor > 3 AND input1.totalPurchasesToDate >= 50000 AND input1.totalPurchasesToDate <= 100000 AND input2.totalOrders > 5 AND input3.noOfVisitsPerMonth > 15"
},
{
"RuleName": "GiveDiscount35",
"SuccessEvent": "35",
"ErrorMessage": "One or more adjust rules failed.",
"ErrorType": "Error",
"RuleExpressionType": "LambdaExpression",
"Expression": "input1.loyalityFactor > 3 AND input1.totalPurchasesToDate >= 100000 AND input2.totalOrders > 15 AND input3.noOfVisitsPerMonth > 25"
}
]
}
]
This workflow rules showcased in the above json is of a sample Use Case which is going to be used to explain the library. Demo App for the given use case is available at this location.
This model is a list of custom types. While, lambda expressions are quite powerful, there is a limit to what they can do because of the fact that the methods that a lambda expression can do are limited to System namespace of .Net framework.
To use more complex and custom classes and have some logics which are way too complex to be written into a lambda expression, these settings come into picture. If the user wants to create a custom method to run for the rule to be used, these settings help them.
Example –
You can create a public class called Utils and include a method in it which check contains in a list.
using System;
using System.Linq;
namespace RE.HelperFunctions
{
public static class Utils
{
public static bool CheckContains(string check, string valList)
{
if (String.IsNullOrEmpty(check) || String.IsNullOrEmpty(valList))
return false;
var list = valList.Split(',').ToList();
return list.Contains(check);
}
}
}
And this can be then used in lambda expression in a very simple manner like this –
"Expression": "Utils.CheckContains(input1.country, \"india,usa,canada,France\") == true"
To use the custom class when evaluating the rules:
- Register the class
- Then pass settings through rules engine
var reSettingsWithCustomTypes = new ReSettings { CustomTypes = new Type[] { typeof(Utils) } };
new RulesEngine.RulesEngine(workflowRules.ToArray(), null, reSettingsWithCustomTypes);
This is a model class for custom inputs which can be seen in the RuleParameter Class. This type is present to add another layer of customization to the rules.
For example, the rules present in the example mentioned in the Rules Schema section are using 3 different inputs for each run. The inputs are of different types as mentioned in the Use Case and is coming from different sources. Now, in rules we had to use input1, input2 and input3 to target data coming from the basic info, order info and telemetry info, respectively.
With RuleParameter class, we can give context specific names to the rules in the list of rules instead of input1, input2 and input3.
Rules Engine has a param (like ‘var’ in c#) feature support now, it makes authoring and troubleshooting of issues very easy. Now you can breakdown your bigger statements into smaller logical expressions as parameters within a rule definition.
Below is an example of a complex rule which can be authored easily using logical intermediate parameters and can be used to write the final rule expression to return a binary value. Sample rule requirement here is to provide access to a user only when user has completed some mandatory trainings or the user is accessing the site it from a secure domain.
{
"name": "allow_access_if_all_mandatory_trainings_are_done_or_access_isSecure",
"errorMessage": "Please complete all your training(s) to get access to this content or access it from a secure domain/location.",
"errorType": "Error",
"localParams": [
{
"name": "completedSecurityTrainings",
"expression": "MasterSecurityComplainceTrainings.Where(Status.Equals(\"Completed\", StringComparison.InvariantCultureIgnoreCase))"
},
{
"name": "completedProjectTrainings",
"expression": "MasterProjectComplainceTrainings.Where(Status.Equals(\"Completed\", StringComparison.InvariantCultureIgnoreCase))"
},
{
"name": "isRequestAccessSecured",
"expression": "UserRequestDetails.Location.Country == \"India\" ? ((UserRequestDetails.Location.City == \"Bangalore\" && UserRequestDetails.Domain=\"xxxx\")? true : false):false"
}
],
"expression": "(completedSecurityTrainings.Any() && completedProjectTrainings.Any()) || isRequestAccessSecured "
}
This model is the output of the Rules Engine. Once the execution of the Rules Engine is completed and the Engine has gone through all the rules, a list of this type is returned. What this model include is –
This is the rule that is currently being referred. It is of a custom model type and has information of that rule which ran on the input.
This is a Boolean value showcasing whether the given rule passed or not.
In the case, the rule has child rules, this variable gets initialized else it is null. This is a nested list of RuleResultTree type to showcase the response of the children rules.
This is the input that was being checked upon while the rules were being verified on this object. In case of multiple inputs, it takes up the first input.
IRulesEngine is the main interface which is used to handle all the executions. This interface has four overloaded methods to execute rules –
List<RuleResultTree> ExecuteRule(string workflowName, IEnumerable<dynamic> input, object[] otherInputs);
List<RuleResultTree> ExecuteRule(string workflowName, object[] inputs);
List<RuleResultTree> ExecuteRule(string workflowName, object input);
List<RuleResultTree> ExecuteRule(string workflowName, RuleParameter[] ruleParams);
One Rules Engine can take in multiple workflows and the workflows can be distributed based on the logic dictated by the system you are building.
In the first definition –
- workflowName is the name of the workflow you want to take up.
- input is a list of dynamic inputs which is being entered.
- otherInputs is an array of other auxiliary inputs which complement the inputs based on the rules present.
In the second definition –
- workflowName is the name of the workflow you want to take up.
- input is an array of dynamic inputs which is being entered.
In the third definition –
- workflowName is the name of the workflow you want to take up.
- input is a single dynamic input which is being entered.
In the fourth definition –
- workflowName is the name of the workflow you want to take up.
- ruleParams is an array of RuleParameters as explained in RuleParameter.
To initiate the Rules Engine instance to be used for executing rules, the workflow rules need to be injected into the library. The two different definitions of constructors are –
public RulesEngine(string[] jsonConfig,ReSettings reSettings = null)
public RulesEngine(WorkflowRules[] workflowRules, ReSettings reSettings = null)
Here,
- jsonConfig is the list of serialized json strings following the schema mentioned in Rules Schema.
- reSettings is list of custom types as mention in ReSettings.
- workflowRules is a list of objects of type WorkflowRules which is mentioned in the Rules Schema.
For the rules to make sense, there are always success and failure scenarios. This library gives the user an inbuilt scenario where in success and failure scenario an event can be created.
In case of success, there could be one or more than one rules which passed based on the given input(s). The success event will be triggered and will be run based on the first rule which was true and give you the success event which was initialized as SuccessEvent in the RulesSchema section.
Example –
List<RuleResultTree> resultList = bre.ExecuteRule("Discount", inputs);
resultList.OnSuccess((eventName) =>
{
discountOffered = $"Discount offered is {eventName} % over MRP.";
});
In case, none of the rules succeeded the failure event gets triggered.
Example –
List<RuleResultTree> resultList = bre.ExecuteRule("Discount", inputs);
resultList.OnFail(() =>
{
discountOffered = "The user is not eligible for any discount.";
});
- To install this library, please download the latest version of NuGet Package from nuget.org and refer it into your project.
- Initiate the instance of Rules Engine as mentioned in Initiating the Rules Engine.
- Once done, the rules can be executed using any of the overloaded methods as explained in IRulesEngine section. It returns the list of RuleResultTree which can be used in any way the user wants to.
- The success or failure events can be defined as explained in the Success/Failure section.
- Based on the rules and input the success or failure event can be triggered.