Metadata-Version: 2.1 Name: pop-config Version: 6.11 Summary: UNKNOWN Home-page: https://www.saltstack.com Author: Thomas S Hatch Author-email: thatch45@gmail.com License: UNKNOWN Platform: UNKNOWN Classifier: Operating System :: OS Independent Classifier: Programming Language :: Python Classifier: Programming Language :: Python :: 3.6 Classifier: Programming Language :: Python :: 3.7 Classifier: Programming Language :: Python :: 3.8 Classifier: Development Status :: 5 - Production/Stable Requires-Python: >=3.6 Description-Content-Type: text/x-rst Requires-Dist: pop Requires-Dist: dict-toolbox Requires-Dist: aiologger[aiofiles] ========== Pop Config ========== Pop-config is the official tool to allow for creating and app-merging configuration options for `pop` projects. Plugin Oriented Programming presents a means to merge multiple applications together dynamically. This capabilities requires that the startup of these applications needs to be managed from within the programming paradigm. Since this is the case `pop-config` becomes a critical and hard requirement of `pop`. Pop-config is not just about being able to work with `pop` projects to facilitate app-merging, it has also been designed to make the startup of an application much simpler, and to make the expensive boiler plate of startup and configuration as transparent as possible. When making `pop` projects the idea is that projects are developed in very small chunks and are then dynamically merged together. So the creation of these mergeable apps needs to be quick and easy! Pop-config also solves a problem with configuration of applications, when making a new application, if you want robust configuration loading, you need to be able to take options from the command line, environment variables, and configuration files. Pop-config does all of this for you, and loads them in the correct order, all behind the scenes, making your life easier. Understanding the conf.py ========================= Pop relies on a configuration file to manage how to merge apps, and also how to manage and merge configuration data. The data in this file is presented in 4 Python dictionaries and defines every aspect of configuration loading. The 4 dictionaries are called *CONFIG*, *CLI_CONFIG*, *SUBCOMMANDS* and *DYNE*. Each dictionary serves a specific purpose. Between them you can define how the cli arguments are presented, all configuration defaults, documentation, etc. The CONFIG Dictionary ===================== The bulk of the configuration will be present in the *CONFIG* dictionary. all of your configuration options are defined here. Most entries in the *CONFIG* dictionary will be very simple and just expose the most basic values: .. code-block:: python CONFIG = { "name": { "default": "frank", "help": "Enter the name to use", }, } This simple example presents the documentation for the configuration value and what the default value should be. Vertically app-merged projects can add config items to their parent dynes like so: .. code-block:: python CONFIG = { "new_item": { "type": int, "default": 1, "dyne": "idem", }, } Many more options can be used, but they will be covered in the reference document. The CLI_CONFIG Dictionary ========================= Adding a configuration value does not make it appear on the command line. Each application can be extended to include command line options. Lets extend our earlier example to expose the "name" option as a command line argument: .. code-block:: python CLI_CONFIG = { "name": {}, } CONFIG = { "name": { "default": "frank", "help": "Enter the name to use", }, } That's it! The "name" option is now available on the command line and can be used as `--name bob`. But what if we want it to be a positional argument? Simple! Just add the positional option to the *CLI_CONFIG*: .. code-block:: python CLI_CONFIG = { "name": { "positional": True, }, } CONFIG = { "name": { "default": "frank", "help": "Enter the name to use", }, } You can inherit cli args from another project. Say, for example that you want to implement the `--output` flag exactly the same way `rend` does, you can source it like this: .. code-block:: python CLI_CONFIG = { "output": { "source": "rend", }, } Many more options exist that allow you to control every aspect of the user's command line experience. The SUBCOMMANDS Dictionary ========================== Sometimes it is desirable to have subcommands. Subcommands allow your CLI to work in a way similar to the git cli, where you have multiple routines that all can be called from a single command. Lets add a few more things to our example so that we can have subcommands. .. code-block:: python CLI_CONFIG = { "name": { "subcommands": ["test", "apply"], }, "weight": {}, "power": { "subcommands": ["apply"], }, } CONFIG = { "name": { "default": "frank", "help": "Enter the name to use", }, "weight": { "default": "150", "help": "Enter how heavy it should be", }, "power": { "default": "100", "help": "Enter how powerful it should be", }, } SUBCOMMANDS = { "test": { "help": "Used to test", "desc": "When running in test mode, things will be tested", }, "apply": { "help": "Used to apply", "desc": "When running in apply mode, things will be applied", }, } In this example we see that the option `name` will be available under the subcommands `test` and `apply`. The option `power` will be available only under the subcommand `apply` and the option `weight` is globally available. The DYNE Dictionary =================== The *DYNE* dictionary allows you to control what dynamic names your app is presenting to other `pop` projects. This name gets used not only inside of `pop-config` but also inside of `pop` to determine what plugin subsystems this application merges with. The *DYNE* system allows for your cli to be extended by third party code, enabling configuration options to be made available to your application via external code. The *DYNE* system is very powerful. But since it is not critical to getting started with `pop-config` it will be covered in more depth in another document.