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oe-business-rule

Introduction

This oe-cloud module implements the business rule functionality. The most common way to represent a rule is via decision tables. We additionally allow rules to be represented hierarchially via a concept called decision graphs, decision services and decision tree. All are accessed through different APIs.

This module extensively makes use of js-feel business rule engine.

Traditionally decision tables are written in excel files, and uploaded to the DecisionTable model. The rule is given a name and invoked though the DecisionTable.exec remote method or its corresponding HTTP api endpoint.

When you are working with decision graphs on the other hand, you compose your ruleset composing of various decision elements (rules) and expose decisions you are interested in via a concept called decision services. Hence a decision service will always work in the context of a decision graph. But, you require a full-fledged designer to compose decision graphs. This lets you visualize the relationships. This is another oe-cloud module on its own. Alternatively, you can work with excel files for representing decision graphs and services, however, they will not give you the visual experience required, and, it becomes tedious to understand the relationship between various decision elements. However, decision graphs and services provide for a powerful and complex rule representations.

There is a way to execute a chain of decision rules via a concept called decision tree. Decision Tree uses the tree representation to solve the problem in which each node is either a decision table or decision gate. Based on the branch conditions, rules are executed. This can be invoked through DecisionTree.exec remote method.

How are rules actually implemented?

We currently make use of js-feel javascript DMN based rule engine to execute decisions.

We have somewhat adopted the DMN v1.1 specification for the implementation. DMN stands for Decision Model and Notation. The specification touches upon various topics, namely

  1. What constitutes a rule or decision...i.e. the various components in a decision or a rule
  2. FEEL - an expression language which can be used to represent some calculation or simple logic-based branching in a decision
  3. An xml document model which serves to as a means to exchange rules within say an orgamization

We have implemented (1) and (2) somewhat. For (3) we have a custom JSON document model which represents rules. This document only captures the decision elements, but they have no idea about inputs nodes, since they are entirely omitted in our implementation. Further, they don't capture the information about relationships. Thankfully you wouldn't work with this document directly. You would rely on a designer to generate this document for you. And it is easier that way.

Ideally this engine has to work standalone. The document that we feed into this engine should contain the rule in "full". This means, we should have the data (or payload) and the rule or decisions encoded in the document. The FEEL engine works nice this way. It doesn't have to search for variables as it is doing now to resolve its value. This makes the rule engine self-sufficient and "pure". In other words, the rule engine does not affect or reach out to an external system, in any capacity.

Our implemetation differs in the sense, we pass in a document representing the rules. And also, a payload. Separately. It is evident in the APIs signatures. In this document, we have felt that Input decision nodes are not necessary, since the payload somehow provides for that role in one such document. You may find many departures from the DMN specifications, but most of them were not in vain.

That said, we do have a few cool features you would want in a rule engine that works in an enterprise:

Notable Features

  1. Working with relational data within rules
  2. Support for external functions in rules
  3. Support for model validations in oe-cloud
  4. Support for standalone execution of rules - for use in business workflow or elsewhere.

Getting started

0. Prerequisites

This module is depedent on oe-model-composite module. Hence make sure this module is added in your application's app-list.json file.

1. Decision Tables

Refer to this document to know more about decision tables

To insert a decision table, we post JSON as follows to the DecisionTable model.

{
    "name":"<RuleName>",
    "document": {
        "documentName" : "<the_excel_file_having_the_decision_table>",
        "documentData" : "<base64_encoded_data_of_excel_file>"
    }
}

Note: If done via HTTP, we do a POST to /api/DecisionTables/

To execute this rule, we call the DecisionTable.exec remote method or make a POST to /api/DecisionTables/exec with the payload and the name of the rule

Example

2. Decision Graphs and Services

Example

3. Decision Tree

To insert a decision tree, we post JSON as follows to the DecisionTree model.

[
  {
    "name": "<TreeName>",
    "nodes": "<Array_of_objects_comprising_of_DecisionTables_and_DecisionGates>",
    "connections": "<Array_of_objects_showing_connections_between_different_nodes>"
  }
]

Note: If done via HTTP, we do a POST to /api/DecisionTrees/

To execute this, we call the DecisionTree.exec remote method or make a POST to /api/DecisionTrees/exec with the payload and the name of the tree.

Example

Post below data to /api/DecisionTrees/

[
  {
    "name": "TestTree",
    "nodes": [
      {
        "id": "n-rkljn4byr",
        "name": "UserLocation",
        "nodeType": "DECISION_TABLE",
        "x": 574,
        "y": 8,
        "data": {},
        "skipFeel": true
      },
      {
        "id": "n-fub5yhz6f",
        "name": "Decision Gate 2",
        "nodeType": "DECISION_GATE",
        "x": 574,
        "y": 168,
        "data": {},
        "skipFeel": true
      },
      {
        "id": "n-rze21y6nh",
        "name": "eligibility_USA",
        "nodeType": "DECISION_TABLE",
        "x": 327,
        "y": 425,
        "data": {},
        "skipFeel": true
      },
      {
        "id": "n-rbnxnuxst",
        "name": "eligibility_FR",
        "nodeType": "DECISION_TABLE",
        "x": 856,
        "y": 432,
        "data": {},
        "skipFeel": true
      }
    ],
    "connections": [
      {
        "from": "n-rkljn4byr",
        "to": "n-fub5yhz6f",
        "id": "c-1ghbvmu02",
        "condition": ""
      },
      {
        "from": "n-fub5yhz6f",
        "to": "n-rze21y6nh",
        "id": "c-ebty0cye",
        "condition": "location === \"US\""
      },
      {
        "from": "n-fub5yhz6f",
        "to": "n-rbnxnuxst",
        "id": "c-appxa5hi2u",
        "condition": "location == \"FR\""
      }
    ]
  }
]

Graphical representation of above posted model

decision-tree-graphical-representation

To execute this, we call the DecisionTree.exec remote method or make a POST to /api/DecisionTrees/exec with the payload and the name of the tree.

Below data can be used as payload to execute the decision tree and TestTree can be used as a name for the above posted data.

{
	"userName":"user1",
	"amount": 3000,
	"type":"PERSONAL_LOAN",
	"experience" : 5 ,
	"monthlyIncome":1000
}

Towards standardization

Most of the work we have done above, while not fully standards compliant, have worked for us. But we do want to move towards and industry standard. However, it is quite difficult to do this in a corporate environment where doing such work distracts us from our main company vision. Ideally we would want people from all walks of life (sales, engineering, support, etc) read the specification and deliberate on how things are to be implemented and used within an organization. I guess today, we are at a stage where we should approach the standards body (OMG) with our suggestions and questions.

Getting started

This module will give you the models and necessary http endpoints to execute business rules independently. Running this feature independently gives the capability of doing other things like validations or making decision which can be used in other systems or programs.

To use this module in a standalone fashion, you need to

dependency

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