--- layout: developer-doc title: Enso Libraries Packaging category: distribution tags: [packaging, distribution, layout] order: 2 --- # Enso Libraries Packaging Given the nature of Enso as an open-source programming language and platform, it is crucial that we provide users with an extensible package management system. This document describes the current state of our packaging efforts, as well as future directions and enhancements to it. - [Enso Package Structure](#enso-package-structure) - [The `src` Directory](#the-src-directory) - [The `polyglot` Directory](#the-polyglot-directory) - [The `package.yaml` File](#the-packageyaml-file) - [The `visualization` Directory](#the-visualization-directory) - [Build Reproducibility](#build-reproducibility) ## Enso Package Structure The general directory structure of an Enso package is as follows: ``` My_Package ├── package.yaml ├── polyglot │ ├── java │ │ └── jar.jar │ └── js │ └── library.js ├── src │ ├── Main.enso │ └── Sub_Module │ ├── Helper.enso │ └── Util.enso ├── visualization (optional) │ └── ... └── data (optional) ``` ### The `src` Directory The `src` directory contains all Enso sources, organized in a hierarchical structure. The structure of this directory dictates how particular modules are imported in all of Enso code. Note that all files and directories in this subtree must be named according to the Enso style for referent names (i.e. `Upper_Snake_Case`, see [the syntax specification](../syntax/naming.md#naming-constructs)). A file located at the path `My_Package/src/Sub_Module/Helper.enso` will be imported like so: ```ruby import My_Package.Sub_Module.Helper ``` Please note the following: - The name of the package appears as the first segment of the name. - The package name is not specified by the containing directory's name, but rather it is described in the `package.yaml` file. The exact transformation is as follows: 1. The name of the package becomes the first segment of the qualified module name. 2. Any subdirectories on the path from the `src` directory to the source file are appended as consecutive segments. 3. The name of the source file, with the `.enso` extension stripped, becomes the last segment. ### The `polyglot` Directory The `polyglot` directory contains per-language subdirectories containing files used by the supported polyglot languages. The contents of each subdirectory is specified on a per-language basis, in the [polyglot documentation](../polyglot/README.md). ### The `data` Directory The `data` directory contains any data files and resources that the user needs quick access to. Allows referring to resource files in a location-independent way, by using the `Enso_Project.data` method. ### The `package.yaml` File `package.yaml` describes certain package metadata, such as its name, authors and version. It also includes the list of extra dependencies of the package (dependencies that are not present in the resolver or need a version override). The following is an example of this manifest file. ```yaml license: MIT name: My_Package version: 1.0.1 enso-version: 0.2.0 authors: - name: John Doe email: john.doe@example.com maintainers: - name: Jane Doe email: jane.doe@example.com resolver: lts-1.2.0 extra-dependencies: - name: Base version: "1.2.0" - name: Http version: "4.5.3" ``` The following is the specification of the manifest fields. Fields marked as **Optional (required for publishing)** are completely optional during development - if not specified, their default values will be used. However, they must be specified before publishing the package. A package missing any of these fields cannot be published. #### license **Optional (required for publishing)** _String_: The short license name of this package. Defaults to `None`, meaning the package is not safe for use by third parties. #### enso-version **Optional (required for publishing)** _String_: Specifies the Enso version that should be used for this project. If not set or set to `default`, the default locally installed Enso version will be used. The version should not be `default` if the package is to be published. #### version **Optional (required for publishing)** _String_: The [semantic versioning](https://semver.org/) string, in the `major.minor.patch` format. If not set, it defaults to `dev` (which can be used for development, but is not a valid version for publishing). #### authors **Optional** _List of contacts_: The name(s) and contact info(s) of the author(s) of this library. A contact is of the form: ```yaml name: Contact Name email: email@example.com ``` Both `name` and `email` fields are optional, but at least one of them has to be present. #### maintainers **Optional** _List of contacts_: The name(s) and contact info(s) of the current maintainer(s) of this library, in the same format as `authors` above. #### resolver **Note** This field is not currently implemented. **Optional (required for publishing)** _String_: The resolver name, used to choose compiler version and basic libraries set. If not set, the system-default resolver will be used. > The actionables for this section are: > > - Extend the compiler version to handle version bounds. #### extra-dependencies **Note** This field is not currently implemented. **Optional** _List of Library objects_: The list of libraries this package requires to function properly and that are not included in the resolver. Defaults to an empty list. A library object is of the form: ```yaml name: version: ``` > The actionables for this section are: > > - Extend the library version field to handle version bounds. ### The `visualization` Directory As Enso is a visual language, a package may contain a specification of how data can be displayed in various tools, for example [Enso IDE](https://github.com/enso-org/ide). The Enso package structure may optionally contain a `visualization` directory which may contain visualization definitions. For more information on how visualization definitions should work with the Enso IDE, see [this example](https://enso.org/docs/developer/docs/ide/product/visualizations.html#custom-visualization-example). ## Build Reproducibility It is crucial for any good development environment to provide reproducible builds, such that it is impossible for it to go wrong by mismatching library versions. > The actionables for this section are: > > - Decide on the strategies of ensuring consistent library resolution. This may > include hashing the downloaded versions of libraries and publishing > stack-style resolvers for sets of libraries that are proven to work well > together.