Interlayer.Structure.Elementary.Alpha.Translation 0.1.0

Interlayer / Structure.Elementary / C#

This project contains interfaces to provide interoperability between different libraries that use simple data concept - everything may consist of nulls, booleans, numbers, strings, sequences and dictionary structures.

Rationale

This project serves three goals:

• Provide a way to convert output of different serializers and deserializers into common API. This would allow both seamless serializer / deserializer plugging, as well as ability to do mapping into another format without much hassle and creating entities that serve no purpose except this mapping.
• Provide a layer between serializers and mappers. Most serialization libraries do both - they not only encode and decode data in some arbitrary format, but also reconstruct objects and structures of specified type. They should not do both, instead, it would be enough to have just one mapper for all possible formats and number of serializers, so end user would not care about having ton of attributes and/or slightly different types for different serializers.
• Provide a unified interface for working with unstructured data. It's not always possible to use concrete type for data, but that doesn't mean there would be no operations taken over it. For example, structure passed to program is intended to be processed with JSONPatch operations, or a special gateway may replace patterns SCP-\d+ with ████-███-██████.

This project is not targeting to be compatible with every serialization, deserialization or mapping case. As for now, this project also doesn't put performance as top priority, thus it prefers to provide interfaces for complete data structures rather than primitives for async code or some other functionality which certainly isn't used in majority of applications. This may be addressed in future, but original goal will always be a priority.

Overview

Currently, this project occupies Interlayer.Structure.Elementary.Alpha namespace. During it's maturity it is expected to change to Interlayer.Structure.Elementary.Beta when API comes somewhere close to it's final form and just Interlayer.Structure.Elementary when it is considered fully stable.

As stated in beginning of this document, it is implied that six types are enough for basic data interpretation. Those types are:

• null (INullNode)
• boolean (IFlagNode)
• decimal (INumericNode)
• string (ITextNode)
• array (ISequenceNode)
• dictionary (IKeyValueNode)

All of them inherit from root interface INode, which is expected to be the only type most dependent APIs will accept (e.g. any code that translates such structure into instance of some type will accept INode and do internal branching by inspecting passed node).

INode requires to implement only one property: NodeKind Kind { get; } (which is called kind just to dismiss ambiguity with language types). NodeKind itself is just an enum which contains identifiers for six types mentioned above and a special Special kind, which is created to allow developers indicate that their implementation requires non-standard processing and libraries not aware of it would know about that.

There are two auxiliary assemblies, named Annotated and Translation, which also can serve as points of interoperability.

Interlayer.Structure.Elementary.Alpha.Annotated

Annotated adds support for node annotations, a key-value structure that may be used to describe node itself rather than it's value or enclosed nodes. This was added to support serialization formats with such additional data and named so to both resolve ambiguity with language attributes and particular implementation (XML).

Each node type in basic namespace has a corresponding IAnnotated...Node extending interface for use, so all annotated nodes should be treated without problems by libraries that are aware only of basic set of INodes (this, however, may cause context loss for such libraries).

In future this term (Annotated) may be changed, since many languages have an annotation type.

Interlayer.Structure.Elementary.Alpha.Translation

This assembly exposes interfaces that may be interesting for particular interoperability adapters implementation. It targets to standardize utilities that can be used to convert output of particular library X to INodes and vice versa.

Weird naming

It may look like this project is targeting specifically JSON, but it tries to be agnostic in terms of concrete usage, and in fact JSON has more limited support for numbers (since this project uses decimal instead of double). Because of that basic symbol names were chosen to minimize resemblance to specific technologies.

Extending

This whole project contains interfaces and enums only, thus developers may use any implementations they want, building any additional functionality. All processing interfaces usually allow to specify custom type derived from INode and such, so it should be possible to create a facility that not only accepts ICoolNode derived from INode, but also returns the same ICoolNode type. Such interfaces are usually followed by a non-generic sibling, e.g.

interface Sanitizer<N> where N : INode {
    N Sanitize(N node);
}

interface Sanitizer : Sanitizer<INode> {}

Those, however, should be used with caution, since if any library would depend on parameterless Sanitizer, it won't accept Sanitizer<N>, so those non-generic interfaces are created only to simplify development of end products, not intermediate libraries.

Licensing

We believe in code that everyone may use and afterwork nights spent on building things without asking anything back.

UPL-1.0 & MIT, use whatever suits you best.