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Orchid has a novel and very powerful way of managing options that makes it easier for both developers and users. For developers, you can spend less time focusing on finding options, and also not be stuck with Stringly-typed options. For users, options are self-documenting, so you know you have access to all possible options and have insight into their default values, even if the documentation isn't up-to-date.

The core for Orchid's options processing is all implemented in JavaEden/Common, with Orchid and plugins contributing extensions that make it all easier to work with the specifics of Orchid options.

In a nutshell, the options-processing works like the following (each section is covered in more detail in other pages):

  1. Run through all fields in a class and its parent classes and find the ones annotated with @Option.
  2. Gather additional data from all the Archetypes of a given class (Archetypes are declared as annotations on the class)
  3. Merge Archetypal data with the data that is passed directly to the Extractor.
  4. For each field:
    1. Get the option name, which is either a String named in the @Option annotation, or the field name itself.
    2. Find the corresponding data in the full, merged data.
    3. Find an OptionExtractor that can handle the type of data that the field holds
    4. Pass the data to this OptionExtractor, which returns an instance that can be assigned to the field. If this value comes back as empty, get the default value from the OptionExtractor, which is often defined as a custom annotation on that field.
    5. Assign the value received from the OptionExtractor to the field. This can be set through a Bean-style setter method, or by directly assigning the field.

The way options are found and assigned gives us several guarantees that make it very easy for developers to reason about and use options:

  1. An option is always assigned each Extraction. As some classes (such as singletons) have options extracted into them multiple times in a single Orchid run (typically once per build cycle), this guarantees that options are always reset and nothing leaks from one extraction to the next.
  2. Options are type-safe, and converted the the type of the field automatically, regardless of their format in the actual declared options. For example, an integer field will always give a sensible Integer value: if the declared value is actually an int, it will be used as-is. If it is a String, the string will be parsed to an int. Likewise, doubles, booleans, Java 8 Local Date, Time, and DateTimes, and many others are supported by default.
  3. Supporting new option types is as simple as creating a new OptionExtractor, and it then works everywhere. You no longer have to bloat your code with the same type-coercion logic everywhere.
  4. An option looks up its data within its declared options, not the other way around. So we can safely set additional properties for custom use outside of the Options processing, and we can also have multiple Options pull from the same source data. There is no restriction on having unique option names when the names are set as Strings in the @Option annotation.
  5. Orchid knows all there is to bw known about every possible option, and is able to auto-generate documentation for all these options. Orchid is privy to each option's result type and default value, and descriptions can be attached to each option as well via the @Description annotation. This also means that the auto-generated documentation is available during Orchid's runtime, so we tailor the documentation to only those classes that are relevant to your specific build, and bring it all to you rather than forcing you to go find it yourself.