RBS Rule Engine
This package is for executing complex rules to manage various service flows in RBS ecosystem
Install
npm i --save @rettersoft/rbs-rule-engine
You can also clone this repository and make use of it yourself.
git clone https://github.com/rettersoft/rbs-rule-engine.git
cd rbs-rule-engine
npm i
npm test
Configuration
- debug (boolean) : An on/off switch for writing informative logs or exceptions into console.
Also, you can control debug switch by setting process.env.ENGINE_MODE to debug.
While running tests, debug switch will be enabled by default.
If you want to disable it, you should overwrite it via options parameter in the constructor.
Usage
import { RuleEngine } from '@rettersoft/rbs-rule-engine'
const ruleSets = { rules: [], all: false }
const engine = new RuleEngine(ruleSets, { debug: true })
engine.execute(input)
Models
Point {
lat: number
lng: number
}
Circle {
center: Point
radius: number
}
Condition {
[operator: string]: any
}
RuleSet {
rules: Array<{ [key: string]: Condition }>
all?: boolean
}
MultiSelection {
values: any[]
all?: boolean
}
DateTimeVal {
format: string
operator?: string,
timezone?: number,
value?: string | number,
}
Supported Operations
Existence
You can check whether an attribute exists or not. You should use EX operator to accomplish that.
const engine = new RuleEngine({
rules: [
{
output: { result: 'R1' },
rules: [
{ param1: { EX: true }, param2: { EX: false } }
]
}
]
})
engine.execute({ param1: 'val1', param3: 'val3' })
Alphanumeric
You can compare an attribute and a value alphanumerically.
You can use GT (greater than), GTE (greater than or equal), LT (less than), LTE (less than or equal) operators to accomplish that.
Attributes and values can be a string or a number.
const engine = new RuleEngine({
rules: [
{
output: { result: 'R1' },
rules: [
{ param1: { GTE: 1, LT: 5 } },
]
}
]
})
engine.execute({ param1: 1, param3: 3 })
Equality
Checking equality between an attribute and a value is possible in a few ways.
You can use EQ (equal), NE (not equal), LK (like), NL (not like) operators to accomplish that.
The difference between EQ and LK is simple. EQ means "===" but LK means "==".
const engine = new RuleEngine({
rules: [
{
output: { result: 'R1' },
rules: [
{ param1: { EQ: 'val1', NE: 'val2' } },
{ param2: { LK: 'val1', NL: 'val2' } }
]
}
]
})
engine.execute({ param1: 'val1', param2: 'val2' })
Contains
You can check whether an attribute contains a value (completely or partially).
You can use IN (contains), NIN (not contains) operators to accomplish that.
Attributes can be a string or an array while values can be string, array or MultiSelection instance.
A MultiSelection instance has array values and a boolean flag to manage if rule should match all the values or single one.
const engine = new RuleEngine({
rules: [
{
output: { result: 'R1' },
rules: [
{ param1: { IN: ['val1'], NIN: ['val2'] } },
]
}
]
})
engine.execute({ param1: 'val1', param3: 'val3' })
Date / Time
You can check date/time based attributes even if your operation requires a sub form of a valid date / time object.
You can use DT operator to accomplish that.
As you can see in models section, DateTimeVal type has 4 attributes such as timezone, format, operator and value.
- If timezone parameter provided, timezone differences would be added after converting both sides to valid Date objects.
- You can use operator attribute to select how to compare formatted values.
- If you don't want to work with CURRENT_TIME, you can provide a constant value in milliseconds.
Instead of constant value, you can use a reference to an input attribute to work with a dynamic variable.
- Please see date-fns' format method to use format attribute correctly.
const engine = new RuleEngine({
rules: [
{
output: { result: 'R1' },
rules: [
{
timestamp: {
DT: { format: 'T', operator: 'LT', timezone: 3 }
},
}
]
}
]
})
engine.execute({ timestamp: Date.now() - (2 * 86400 * 1000) })
In An Area (Near, Within, etc.)
You can check a point attribute is inside a pre-defined area.
You can use GIN (geo in), NGN (not geo in) operators to accomplish that.
It is possible to define an area by two different ways. The obvious one is that creating a polygon.
Second way is defining a circle with center point and radius in meters.
const engine = new RuleEngine({
rules: [
{
output: { result: 'R1' },
rules: [
{
param1: { GIN: [point1, point2, point3, point1] },
param2: { center: point1, radius: 5000 }
}
]
}
]
})
engine.execute({ param1: point1, param2: 'val2' })
Examples
Zone Locator by Address
import { RuleEngine } from '@rettersoft/rbs-rule-engine'
const ruleSets = {
rules: [
{
output: {
zoneId: 'ISTANBUL',
},
rules: [
{
city: {
EQ: 'ISTANBUL',
},
district: {
NIN: ['TUZLA'],
},
},
],
all: true,
},
{
output: {
zoneId: 'ANADOLU',
},
rules: [
{
city: {
NE: 'ISTANBUL',
}
},
{
city: {
EQ: 'ISTANBUL',
},
district: {
EQ: 'TUZLA',
},
}
],
}
]
}
const address = { city: 'ISTANBUL', district: 'ATASEHIR' }
const engine = new RuleEngine(ruleSets)
engine.execute(address)
Zone Locator by Coordinate
import { RuleEngine } from '@rettersoft/rbs-rule-engine'
const ruleSets = {
rules: [
{
output: {
zoneId: 'ISTANBUL-CORE',
},
rules: [
{
location: {
GIN: [
{ lat: 40.94217808034843, lng: 28.787304804806414 },
{ lat: 41.28567804289259, lng: 28.932873652462664 },
{ lat: 41.22373282132952, lng: 29.37644665050954 },
{ lat: 40.77703439554959, lng: 29.13200084972829 }
]
},
},
],
all: true,
},
{
output: {
zoneId: 'ISTANBUL-BOSPHORUS',
},
rules: [
{
location: {
GIN: { center: { lat: 41, lng: 29 }, radius: 15000 }
},
},
],
all: true,
}
]
}
const address = { location: { lat: 41, lng: 29 } }
const engine = new RuleEngine(ruleSets)
engine.execute(address)
Billing Configuration
import { RuleEngine } from '@rettersoft/rbs-rule-engine'
const ruleSets = {
rules: [
{
output: {
macroMerchantId: 'MM1',
installment: 6,
},
rules: [
{
paymentMethod: { IN: ['mastercard', 'visa'] },
total: { GTE: 150 },
rank: { EQ: 'elite' },
}
],
},
{
output: {
macroMerchantId: 'MM1',
installment: 1,
},
rules: [
{
paymentMethod: { IN: ['mastercard', 'visa'] },
total: { LT: 100 },
}
],
},
{
output: {
macroMerchantId: 'MM1',
installment: 2,
},
rules: [
{
paymentMethod: { EQ: 'mastercard' },
total: { GTE: 100 },
}
],
},
{
output: {
macroMerchantId: 'MM1',
installment: 3,
},
rules: [
{
paymentMethod: { EQ: 'visa' },
total: { GTE: 100 },
}
],
}
],
all: true
}
const payment = { paymentMethod: 'visa', total: 230, rank: 'elite' }
const engine = new RuleEngine(ruleSets)
engine.execute(payment)