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@ -10,23 +10,35 @@ tags:
## Intent ## Intent
Separate the interface definition and implementation in different packages. This allows the client to be completely unaware of the implementation.
Separate the interface definition and implementation in different packages. This allows the client
to be completely unaware of the implementation.
## Explanation ## Explanation
Real world example Real world example
> An Invoice generator may be created with ability to use different Tax calculators that may be added in the invoice depending upon type of purchase, region etc. > An Invoice generator may be created with ability to use different Tax calculators that may be
> added in the invoice depending upon type of purchase, region etc.
In plain words In plain words
> Separated interface pattern encourages to keep the implementations of an interface decoupled from the client and its definition, so the client is not dependent on the implementation. > Separated interface pattern encourages to keep the implementations of an interface decoupled from
> the client and its definition, so the client is not dependent on the implementation.
A client code may abstract some specific functionality to an interface, and define the definition of the interface as an SPI ([Service Programming Interface](https://en.wikipedia.org/wiki/Service_provider_interface) is an API intended and open to be implemented or extended by a third party). Another package may implement this interface definition with a concrete logic, which will be injected into the client code at runtime (with a third class, injecting the implementation in the client) or at compile time (using Plugin pattern with some configurable file). A client code may abstract some specific functionality to an interface, and define the definition of
the interface as an SPI ([Service Programming Interface](https://en.wikipedia.org/wiki/Service_provider_interface)
is an API intended and open to be implemented or extended by a third party). Another package may
implement this interface definition with a concrete logic, which will be injected into the client
code at runtime (with a third class, injecting the implementation in the client) or at compile time
(using Plugin pattern with some configurable file).
**Programmatic Example** **Programmatic Example**
**Client** An Invoice generator class accepts the cost of the product and calculates the total amount payable inclusive of tax **Client**
`InvoiceGenerator` class accepts the cost of the product and calculates the total
amount payable inclusive of tax.
```java ```java
public class InvoiceGenerator { public class InvoiceGenerator {
@ -46,21 +58,23 @@ public class InvoiceGenerator {
} }
``` ```
The tax calculation logic is delegated to the ```TaxCalculator``` interface
The tax calculation logic is delegated to the `TaxCalculator` interface.
```java ```java
public interface TaxCalculator { public interface TaxCalculator {
double calculate(double amount); double calculate(double amount);
} }
``` ```
**Implementation package** **Implementation package**
In another package (which the client is completely unaware of) there exist multiple implementations of the ```TaxCalculator``` interface
```ForeignTaxCalculator``` which levies 60% tax for international products. In another package (which the client is completely unaware of) there exist multiple implementations
of the `TaxCalculator` interface. `ForeignTaxCalculator` is one of them which levies 60% tax
for international products.
```java ```java
public class ForeignTaxCalculator implements TaxCalculator { public class ForeignTaxCalculator implements TaxCalculator {
@ -74,7 +88,8 @@ public class ForeignTaxCalculator implements TaxCalculator {
} }
``` ```
```DomesticTaxCalculator``` which levies 20% tax for international products. Another is `DomesticTaxCalculator` which levies 20% tax for international products.
```java ```java
public class DomesticTaxCalculator implements TaxCalculator { public class DomesticTaxCalculator implements TaxCalculator {
@ -88,7 +103,8 @@ public class DomesticTaxCalculator implements TaxCalculator {
} }
``` ```
These both implementations are instantiated and injected in the client class by the ```App.java``` class These both implementations are instantiated and injected in the client class by the ```App.java```
class.
```java ```java
var internationalProductInvoice = new InvoiceGenerator(PRODUCT_COST, new ForeignTaxCalculator()); var internationalProductInvoice = new InvoiceGenerator(PRODUCT_COST, new ForeignTaxCalculator());
@ -101,9 +117,11 @@ These both implementations are instantiated and injected in the client class by
``` ```
## Class diagram ## Class diagram
![alt text](./etc/class_diagram.png "Separated Interface") ![alt text](./etc/class_diagram.png "Separated Interface")
## Applicability ## Applicability
Use the Separated interface pattern when Use the Separated interface pattern when
* You are developing a framework package, and your framework needs to call some application code through interfaces. * You are developing a framework package, and your framework needs to call some application code through interfaces.
@ -117,3 +135,4 @@ Use the Separated interface pattern when
## Credits ## Credits
* [Martin Fowler](https://www.martinfowler.com/eaaCatalog/separatedInterface.html) * [Martin Fowler](https://www.martinfowler.com/eaaCatalog/separatedInterface.html)
* [Patterns of Enterprise Application Architecture](https://www.amazon.com/gp/product/0321127420/ref=as_li_qf_asin_il_tl?ie=UTF8&tag=javadesignpat-20&creative=9325&linkCode=as2&creativeASIN=0321127420&linkId=e08dfb7f2cf6153542ef1b5a00b10abc)