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Mihai Bojin
Mihai Bojin

Posted on • Originally published at mihaibojin.com on

Aiming for object-oriented design elegance

πŸ”” This article was originally posted on my site, MihaiBojin.com. πŸ””


One of my goals for this project was to create a library that is elegant and easy to use while feeling Java idiomatic.

Let's talk SOLID. They're a set of five principles aimed at making object-oriented design implementations flexible and maintainable. I am designing a library that I hope will be a joy to use and will make developers want to adopt it, for which reason I interpreted these principles in the best possible form I could think of.

My initial thought was to offer a base Prop interface, abstracting away lower-level implementation details that are not relevant to users of this class.

However, I settled on using a few abstract classes, for several reasons, inspired by a few of the SOLID principles:

  • all Prop objects need a few common traits
  • a class should have a single responsibility; since I was building multiple themes, sticking them all into a single class didn't feel elegant
  • it should be easy to build on top of each layer
  • not all methods need to be exposed in the final public contract; unfortunately, Java interfaces do not support non-public methods

Let's break it down; here is the high-level end-result class design:

@FunctionalInterface
public interface Subscribable<T> {
  void subscribe(Consumer<T> onUpdate, Consumer<Throwable> onError);
}

public abstract class SubscribableProp<T> implements Subscribable<T> {
  /* Processes a value update event. */
  protected void onValueUpdate(@Nullable T value, long epoch) {}
  /* Processes an exception encountered during an update. */
  protected void onUpdateError(Throwable error, long epoch) {}
}

public abstract class Prop<T> extends SubscribableProp<T> implements Supplier<T> {
    /* Identifies the Prop */
    public abstract String key();

    /* Returns the Prop's value */
    public abstract T get();
}

public abstract class BoundableProp<T> extends Prop<T> {
  /* Allows the Registry to update a Prop's value */
  protected abstract boolean setValue(@Nullable String value);
}

public class Registry {
  /* Binds a Prop object to the Registry object, allowing it to process update events and set the Prop's value */
  public <T, PropT extends BoundableProp<T>> PropT bind(PropT prop) {}
}
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Subscribable denotes that a Prop can be subscribed to. The result of a prop update is either success or an error.

SubscribableProp is a partial implementation that hosts the logic necessary to process updates/errors and notify clients safely.

Prop is the absolute minimum public contract that a consumer/client should care about. It defines an identifier (key) and a way to get the prop's value.

Finally, BoundableProp encompasses all of the above and also includes a mechanism that allows the Registry to update prop values when the underlying sources are updated.

However, in practice, relying on a key and value alone, is not enough of a reason to adopt this library.

For that reason, the CustomProp class provides an almost complete implementation, par the corresponding Converter.decode() method, which requires a knowledge of the Prop's type.

public abstract class CustomProp<T> extends BoundableProp<T> implements Converter<T> {
    /* Identifies the Prop */
    public String key() {};
    /* Returns the Prop's value */
    public String get() {};
    /* Describes the prop */
    public String description() {};
    /* true, if the prop is required */
    public boolean isRequired() {};
    /* true, if the prop is a secret */
    public boolean isSecret() {};
}

@FunctionalInterface
public interface Converter<T> {
  /* Decodes a String into the desired type; must be implemented */
  T decode(@Nullable String value);

  /* Encodes the value into a String, defaulting to using Object.toString() */
  default String encode(@Nullable T value) {
    return value == null ? null : value.toString();
  }
}
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One way to extend CustomProp is to provide an implementation for Converter.decode, thus completing the class, e.g.:

public class LongProp extends CustomProp<Long> {
  public Long decode(String value) {
    Number number = safeParseNumber(value);
    try {
      return NumberFormat.getInstance().parse(value).longValue();
    } catch (ParseException e) {
      log.log(SEVERE, e);
      return null;
    }
  }    
}
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However, we can do a bit better. Since one can assume that most props will be of common Java datatypes, I have provided a series of default converters that can be composed into a final implementation. The above code can be rewritten as follows:

public class LongProp extends CustomProp<Long> implements LongConverter {  
}

public interface LongConverter extends Converter<Long> {
   @Override
   public Long decode(String value) {
    Number number = safeParseNumber(value);
    try {
      return NumberFormat.getInstance().parse(value).longValue();
    } catch (ParseException e) {
      log.log(SEVERE, e);
      return null;
    }
  }  
}
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How would we use this in production? Here's a small complete excerpt:

    Source source = new PropertyFile(PATH_TO_PROP_FILE);
    Registry registry = new RegistryBuilder(source).build();

    Prop prop = registry.bind(new LongProp("a.key"));

    prop.get(); // will return the value corresponding to a.key
    prop.subscribe(updatedValue -> {/* process updates */}, 
                   error -> {/* process any errors */});
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Hopefully, this article serves as a good high-level introduction to the contract one can expect from the props library.

In future series I'd like to explore the props library's API a bit more and show a few real-world examples of how it could be used to simplify application settings/property management in Java projects.

As always, any feedback is welcome; feel free to ping me on Twitter.

Thanks!


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