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I have a payment system in which payment can be made though GiftCoupon, ClubMembershipCard etc. One payment itself can have multiple payment components


I have a Payment class. It has payment components like GiftCouponPayment, ClubMembershipCardPayment, CashPayment and so on. Each component type satisfy a common interface IPaymentComponent. I have implemented it using the knowledge about the existing types.


1) How to implement this function in a abstract way – without knowing what all are the types that exist? That means it need to work for all types that implement IPaymentComponent interface.

2) If it is not possible to achieve it in LINQ to SQL, is it possible in Entity Framework?

3) Is it association / aggregation or composition when LINQ to SQL generate GiftCouponPayment entities inside Payment object?

Note: I am using LINQ to SQL as ORM. GiftCouponPayment and Payment are autogenerated classes and these objects are created by ORM. I have added more functionality to these classes by using partial classes.

Note: In database each PaymentComponent (E.g. GiftCouponPayment) has its own properties (e.g CouponValue,CardValue etc). Hence Table-Per-Hierarchy will not be good. We need separate tables. Is there a solution in that line?

Note: GiftCouponPayment already exist in the database prior to this payment. We need to identify the GiftCouponPayment object by using GiftCouponPaymentID provided by the customer. We just need to update the PaymentID column in this table.

A leaky abstraction refers to any implemented abstraction, intended to reduce (or hide) complexity, where the underlying details are not completely hidden

LINQ to SQL Diagram

enter image description here


  1. Entity Framework 4, inheriting vs extending?
  2. How to choose an Inheritance Strategy
  3. Fluent API Samples -


public interface IPaymentComponent
     int MyID { get; set; }
     int MyValue { get; set; }
     int GetEffectiveValue();

public partial class GiftCouponPayment : IPaymentComponent
    public int MyID
            return this.GiftCouponPaymentID; 
            this.GiftCouponPaymentID = value; 

    public int MyValue
            return this.CouponValue; 
            this.CouponValue = value; 

    public int GetEffectiveValue()
        if (this.CouponNumber < 2000)
            return 0;
        return this.CouponValue;

public partial class Payment
    public List<IPaymentComponent> AllPaymentComponents()
        List<IPaymentComponent> allPayComps = new List<IPaymentComponent>();

        List<GiftCouponPayment> giftCouponPaymentList = new List<GiftCouponPayment>();
        List<CashPayment> cashPaymentList = new List<CashPayment>();

        foreach (GiftCouponPayment g in this.GiftCouponPayments)

        foreach (CashPayment c in this.CashPayments)

        return allPayComps;

share|improve this question
up vote 1 down vote accepted

I think you might want to step back from the design for a moment. What I've heard is this:

A payment consists of one or more components, and each component can be one of a variety of types

What it sounds like you need is a Payment table, then a PaymentComponent table with a foreign key relation back to the Payment table. You can then implement inheritance on the PaymentComponent table for your various forms of payment.

share|improve this answer
Thanks, but the problem is - in database each PaymentComponent (E.g. GiftCouponPayment) has its own properties (e.g CouponValue,CardValue etc). Hence Table-Per-Hierarchy will not be good. We need separate tables. Is there a solution in that line? – Lijo Jul 13 '12 at 14:05
This would be in that line. You'd have tables like PaymentComponentGiftCoupon or PaymentComponentCash, etc., which you would set up as inheriting from PaymentComponent (which you'd mark as abstract) in EF. You could then store common properties such as Amount in the PaymentComponent table. – Adam Robinson Jul 13 '12 at 17:12
Thank you. Could you please manage to find some time for elaborating the answer with code and database diagram. I see high chance of accepting it as answer. – Lijo Jul 14 '12 at 5:53

You can try to use an abstraction layer or a data acces layer that will be generic of type T. Or at least make the methods generic.

share|improve this answer
I think, when we introduce a new layer it will reduce the productivity. I used ORM for increasing the productivity. Do you think any other solutions? – Lijo Jul 13 '12 at 12:00
It does not take much depending on the number of tables, (10 tables about 1-2 hours) and it will offer the advantage that you separate the data acces so in the future it will be easier to to replace it if needed. – Freeman Jul 13 '12 at 12:03

You basically have a few of issues here:

  1. How to model the payment types

    Lets assume we want to go at this the classic OOP way:

    You need a base class, Payment (or PaymentBase) which is abstract and various class which inherit from it e.g. PaymentInCash, PaymentWithCreditCard and etc.

    An alternative could be adding PaymentDetails to Payment and creating a hierarchy of PaymentDetails, if you choose to do this, the replace Payment with PaymentDetails in all the following points.

    For payments with multiple methods, you could either:

    a. Have a collection of PaymentDetails under a Payment
    b. Create a type called AggregatePayment which has a list of Payments.

  2. How to map the payment types to tables

    Both TPT and TPH are valid here...

    For TPT use one table for Payment and one table for each kind of payment.
    All the inheriting type's tables PK's should be an FK to the base type's table.
    If you have multiple levels of hierarchy, you can use either TPT or TPH on the second (or any other) level if you are using EF.

    For TPH use one table with a discriminator column (e.g. PaymentType), and mark each column that is not shared between all entities in the hierarchy as nullable. Do not use the same column for different properties in different entities. In EF, map each entity to the same table with the condition PaymentType = (number goes here) and (column name(s) that should not be null) is not null.

    My recommendation is, if you have many narrow types (few properties each) go with TPH, if you have a few wide types go with TPT.

  3. Which design pattern / code technique to use for payment algorithm

    You have more options here:

    a. Use partial classes and put an abstract ProcessPayment() method on the base class and override in the inheriting classes.

    b. Use a base PaymentProcessor class and a specific PaymentProcessor per payment type e.g. PaymentInCashProcessor. In this method you can use reflection to load the correct PaymentProcessor type by either storing a dictionay or better yet, using generics:

abstract class PaymentProcessor

abstract class PaymentProcessor<TPayment> : PaymentProcessor
    where TPayment : class, Payment

class PaymentInCashProcessor : PaymentProcessor<PaymentInCash>

// Use reflection to find types that inherits from PaymentProcessor<PaymentInCash>
// create an instance of the type you found
// then cast the instance to PaymentProcessor<PaymentInCash> to use

share|improve this answer

If you design your EF model you can use the abstract property on a base class called payment. And let inherit all your payment types that class:

Entity Framework model

Payment will have all common properties, and every specific type can have their own properties.

If you have this kind of model you can just query for payments.

This returns all objects that inherit of the payment type:

var allPayments = objectContext.Payments;
share|improve this answer
Thanks. However, I don't quite like this approach. PaymentComponent (E.g. GifitCouponPayment) is not a Payment. So making inheritance is not proper. Please read… also – Lijo Jul 13 '12 at 13:52
Then make an abstract class PaymentComponent instead of Payment. And put a property in the payment of type payment component. – Preben Huybrechts Jul 13 '12 at 13:55
In database each PaymentComponent (E.g. GiftCouponPayment) has its own properties (e.g CouponValue,CardValue etc). Hence Table-Per-Hierarchy will not be good. We need separate tables. Is there a solution in that line? – Lijo Jul 13 '12 at 14:09

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