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Rules Engine

Build Status

As a software system grows in complexity and usage, it can become burdensome if every change to the logic/behavior of the system also requires you to write and deploy new code. The goal of this business rules engine is to provide a simple interface allowing anyone to capture new rules and logic defining the behavior of a system, and a way to then process those rules on the backend.

You might, for example, find this is a useful way for analysts to define marketing logic around when certain customers or items are eligible for a discount or to automate emails after users enter a certain state or go through a particular sequence of events.

Usage

1. Define Your set of variables

Variables represent values in your system, usually the value of some particular object. You create rules by setting threshold conditions such that when a variable is computed that triggers the condition some action is taken.

You define all the available variables for a certain kind of object in your code, and then later dynamically set the conditions and thresholds for those.

For example:

class ProductVariables(BaseVariables):

    def __init__(self, product):
        self.product = product

    @numeric_rule_variable
    def current_inventory(self):
        return self.product.current_inventory

    @numeric_rule_variable(label='Days until expiration')
    def expiration_days(self)
        last_order = self.product.orders[-1]
        return (last_order.expiration_date - datetime.date.today()).days

    @string_rule_variable()
    def current_month(self):
        return datetime.datetime.now().strftime("%B")

    @select_rule_variable(options=Products.top_holiday_items())
    def goes_well_with(self):
        return products.related_products

2. Define your set of actions

These are the actions that are available to be taken when a condition is triggered.

For example:

class ProductActions(BaseActions):

    def __init__(self, product):
        self.product = product

    @rule_action(params={"sale_percentage": FIELD_NUMERIC})
    def put_on_sale(self, sale_percentage):
        self.product.price = (1.0 - sale_percentage) * self.product.price
        self.product.save()

    @rule_action(params={"number_to_order": FIELD_NUMERIC})
    def order_more(self, number_to_order):
        ProductOrder.objects.create(product_id=self.product.id,
                                    quantity=number_to_order)

If you need a select field for an action parameter, another -more verbose- syntax is available:

class ProductActions(BaseActions):

    def __init__(self, product):
        self.product = product

    @rule_action(params=[{'fieldType': FIELD_SELECT,
                          'name': 'stock_state',
                          'label': 'Stock state',
                          'options': [
                            {'label': 'Available', 'name': 'available'},
                            {'label': 'Last items', 'name': 'last_items'},
                            {'label': 'Out of stock', 'name': 'out_of_stock'}
                        ]}])
    def change_stock_state(self, stock_state):
        self.product.stock_state = stock_state
        self.product.save()

3. Build the rules

A rule is just a JSON object that gets interpreted by the business-rules engine.

Note that the JSON is expected to be auto-generated by a UI, which makes it simple for anyone to set and tweak business rules without knowing anything about the code. The javascript library used for generating these on the web can be found here.

An example of the resulting python lists/dicts is:

rules = [
# expiration_days < 5 AND current_inventory > 20
{ "conditions": { "all": [
      { "name": "expiration_days",
        "operator": "less_than",
        "value": 5,
      },
      { "name": "current_inventory",
        "operator": "greater_than",
        "value": 20,
      },
  ]},
  "actions": [
      { "name": "put_on_sale",
        "params": {"sale_percentage": 0.25},
      },
  ],
},

# current_inventory < 5 OR (current_month = "December" AND current_inventory < 20)
{ "conditions": { "any": [
      { "name": "current_inventory",
        "operator": "less_than",
        "value": 5,
      },
    ]},
      { "all": [
        {  "name": "current_month",
          "operator": "equal_to",
          "value": "December",
        },
        { "name": "current_inventory",
          "operator": "less_than",
          "value": 20,
        }
      ]},
  },
  "actions": [
    { "name": "order_more",
      "params":{"number_to_order": 40},
    },
  ],
}]

Run your rules

from business_rules import run_all

rules = _some_function_to_receive_from_client()

for product in Products.objects.all():
    run_all(rule_list=rules,
            defined_variables=ProductVariables(product),
            defined_actions=ProductActions(product),
            stop_on_first_trigger=True
           )

Get value returned by action

 from business_rules import get_value

 rules = _some_function_to_receive_from_client()

 product = Products.objects.first()
 get_value(rule_list=rules,
         defined_variables=ProductVariables(product),
         defined_actions=ProductActions(product),
        )

In business_rules.actions you can find ReturnNumericActions and ReturnTextActions.

API

Variable Types and Decorators:

The type represents the type of the value that will be returned for the variable and is necessary since there are different available comparison operators for different types, and the front-end that's generating the rules needs to know which operators are available.

All decorators can optionally take a label:

  • label - A human-readable label to show on the frontend. By default we just split the variable name on underscores and capitalize the words.

The available types and decorators are:

numeric - an integer, float, or python Decimal.

@numeric_rule_variable operators:

  • equal_to
  • greater_than
  • less_than
  • greater_than_or_equal_to
  • less_than_or_equal_to

Note: to compare floating point equality we just check that the difference is less than some small epsilon

string - a python bytestring or unicode string.

@string_rule_variable operators:

  • equal_to
  • not_equal_to
  • starts_with
  • ends_with
  • contains
  • matches_regex
  • non_empty

boolean - a True or False value.

@boolean_rule_variable operators:

  • is_true
  • is_false

select - a set of values, where the threshold will be a single item.

@select_rule_variable operators:

  • contains
  • does_not_contain

select_multiple - a set of values, where the threshold will be a set of items.

@select_multiple_rule_variable operators:

  • contains_all
  • is_contained_by
  • shares_at_least_one_element_with
  • shares_exactly_one_element_with
  • shares_no_elements_with

datatime - a datetime value operations, parser based on dateutil.parser.parse

@datatime_rule_variable operators:

  • equal_to
  • not_equal_to
  • greater_than
  • less_than
  • greater_equal_than
  • less_equal_than

string_list - a List[string] value operations in a single string

@string_list_rule_variable operators:

  • contains_all
  • contains_at_least_one_element

numeric_list - a List[string] value operations in a single number

@numeric_list_rule_variable operators:

  • contains_all
  • contains_at_least_one_element

Returning data to your client

Contributing

Open up a pull request, making sure to add tests for any new functionality. To set up the dev environment (assuming you're using virtualenvwrapper):

$ mkvirtualenv business-rules
$ pip install -r dev-requirements.txt
$ nosetests

Getting into the virtual environment

$ virtualenv business-rules
. business-rules/bin/activate
pip install -r dev-requirements.txt
pip install -e .