Skip to main content

Dynamic python configuration parser

Project description

levy

Latest version Python versions Code style: black actions

Yet Another Configuration Parser

This project is a lightweight take on configuration parsing with a twist.

So far, it only supports YAML files or reading configurations directly from a dict.

The interesting approach here is regarding handling multiple environments. Usually we need to pass different parameters depending on where we are (DEV, PROD, and any arbitrary environment name we might use). It is also common to have these specific parameters available as env variables, be it our infra or in a CI/CD process.

levy adds a jinja2 layer on top of our YAML files, so that not only we can load env variables on the fly, but helps us leverage templating syntax to keep our configurations centralized and DRY.

How to

Let's suppose we have the following configuration:

title: "Lévy the cat"
colors:
  - "black"
  - "white"
hobby:
  eating:
    what: "anything"
friends:
  {% set friends = [ "cartman", "lima" ] %}
  {% for friend in friends %}
  - name: ${ friend }
    type: "cat"
  {% endfor %}

We have a bit of everything:

  • Root configurations
  • Simple lists
  • Nested configurations
  • Dynamic jinja2 lists as nested configurations

We can create our Config object as

from levy.config import Config

cfg = Config.read_file("test.yaml")

As there is the jinja2 layer we might want to check what is the shape of the parsed values. We can do so with cfg._vars. In our case we'll get back something like:

{
'title': 'Lévy the cat',
'colors': ['black', 'white'],
'hobby': {
  'eating': {
    'what': 'anything'
    }
  },
'friends': [
  {'name': 'cartman', 'type': 'cat'},
  {'name': 'lima', 'type': 'cat'}
  ]
}

OBS: When reading from files and for debugging purposes, we can access the cfg._file var to check what file was parsed.

Accessing values

All the information has been set as attributes to the Config instance. We can retrieve the values as cfg.<name>, e.g.

cfg.title  # 'Lévy the cat'
cfg.colors  # ['black', 'white']

Note that so far those are just root values, as they come directly from the root configuration. Whenever we have a nested item, we are creating a Config attribute with the key as name:

print(cfg)  # Config(root)
print(cfg.hobby)  # Config(hobby)

If we need to retrieve nested values, as we are just nesting Config instances, we can keep chaining attribute calls:

cfg.hobby.eating.what  # 'anything'

Nested Config lists

The colors list has nothing fancy in it, as we have simple types. However, we want to parse nested configurations as Config, while being able to access them by name as attributes.

To fit this spot we have namedtuples. The list attribute becomes a namedtuple where the properties are the names of the nested items. name is set as the default identifier, but we can pass others as parameter,

print(cfg.friends.lima)  # Config(lima)
cfg.friends.lima.type  # 'cat'

And if we check the type...

isinstance(cfg.friends, tuple)  # True

If we encounter an error while defining the namedtuples structure, we will get a ListParseException. We should then check how are we defining the lists and our list_id.

OBS: Note that the list_id field should be a valid namedtuple key. This means that it cannot contain spaces or other not supported special characters.

Using defaults

It is common to fall back to default values when some parameter is not informed in our configuration.

We can __call__ our Config in order to be able to apply them.

cfg("not in there", default="default")  # 'default'
cfg("not in there", default=None)  # None

If no default is specified, the call will run the usual attribute retrieval. This is interesting for cases where we need to dynamically get some configuration that should be there:

cfg("not in there")  # AttributeError

Render custom functions

Environment Variables

With this templating approach on top of YAML, we can not only use default behaviors, but also define our own custom functionalities.

The one we have provided by default is reading environment variables at render time:

variable: ${ env('VARIABLE') }
default: ${ env('foo', default='bar') }

Where the function env is the key name given to a function defined to get env vars with an optional default. If the env variable is not found and no default is provided, we'll get a MissingEnvException.

Registering new functions

If we need to apply different functions when rendering the YAML, we can register them by name before instantiating the Config class.

Let's imagine the following YAML file:

variable: ${ my_func(1) }
foo: ${ bar('x') }

We then need to define the behavior of the functions my_func and bar.

from levy.config import Config
from levy.renderer import render_reg

@render_reg.add()  # By default, it registers the function name
def my_func(num: int):
    return num + 1

@render_reg.add('bar')  # Name can be overwritten if required
def upper(s: str):
    return s.upper()

cfg = Config.read_file("<file>")
cfg.variable  # 2
cfg.foo  # 'X'

Note how we registered my_func with the same name it appeared in the YAML. However, the name is completely arbitrary, and we can pass the function upper with the name bar.

With this approach one can add even further dynamism to the YAML config files.

To peek into the registry state, we can run:

render_reg.registry

Which in the example will show us

{'env': <function __main__.get_env(conf_str: str, default: Optional[str] = None) -> str>,
 'my_func': <function __main__.my_func(num: int)>,
 'bar': <function __main__.upper(s: str)>}

Schema Validation

At some point it might be interesting to make sure that the YAML we are reading follows some standards. That is why we have introduced the ability to pass a schema our file needs to follow.

This feature is supported by Pydantic, and not only helps us to validate the schema, but even updating the values we're reading with Optionals and defaults.

We can get this running as

from pydantic import BaseModel


class Friends(BaseModel):
    name: str
    type: str
    fur: str = "soft"

class Kitten(BaseModel):
    title: str
    age: Optional[int]
    colors: List[str]
    hobby: Dict[str, Dict[str, str]]
    friends: List[Friends]

cfg = Config.read_file("<file>", datatype=Kitten)

# We should have the data attribute now hosting the data class
assert cfg.data is not None

# We have optional values as None
assert cfg.age is None

# We have missing values with their default
assert cfg.friends.lima.fur == "soft"

Note how this adds even another layer of flexibility, as after reading the YAML we will have all the data we might require available to use.

Contributing

You can install the project requirements with make install. To run the tests, make install_test and make unit.

With make precommit_install you can install the pre-commit hooks.

To install the package from source, clone the repo, pip install flit and run flit install.

References

  • pyconfs as inspiration.
  • pydantic - implementing the validation and data filling.

Project details


Download files

Download the file for your platform. If you're not sure which to choose, learn more about installing packages.

Source Distribution

levy-0.5.1.tar.gz (13.4 kB view details)

Uploaded Source

Built Distribution

levy-0.5.1-py3-none-any.whl (8.0 kB view details)

Uploaded Python 3

File details

Details for the file levy-0.5.1.tar.gz.

File metadata

  • Download URL: levy-0.5.1.tar.gz
  • Upload date:
  • Size: 13.4 kB
  • Tags: Source
  • Uploaded using Trusted Publishing? No
  • Uploaded via: python-requests/2.26.0

File hashes

Hashes for levy-0.5.1.tar.gz
Algorithm Hash digest
SHA256 751bf1a1357b50aeeab28293f4ae42dfa7dc77b840a93284ae832fb069bc3322
MD5 228e5b0d3b37937a6d7d97fdc6054a43
BLAKE2b-256 11e5e9961aa45d6f5d5cc46f96fc94ee59ea565a25f362aa5adce2504c5a76f8

See more details on using hashes here.

File details

Details for the file levy-0.5.1-py3-none-any.whl.

File metadata

  • Download URL: levy-0.5.1-py3-none-any.whl
  • Upload date:
  • Size: 8.0 kB
  • Tags: Python 3
  • Uploaded using Trusted Publishing? No
  • Uploaded via: python-requests/2.26.0

File hashes

Hashes for levy-0.5.1-py3-none-any.whl
Algorithm Hash digest
SHA256 7c08b762410db89cfd3aaf83181ac7e33ea6314b823d6c442cb0316be79de247
MD5 8204ba036298d79566ebd2ef720155c3
BLAKE2b-256 f63ee76d7ec042ed5abfb6bb1f7cc1bdb26095d6507af48d5c576923fa77549e

See more details on using hashes here.

Supported by

AWS AWS Cloud computing and Security Sponsor Datadog Datadog Monitoring Fastly Fastly CDN Google Google Download Analytics Microsoft Microsoft PSF Sponsor Pingdom Pingdom Monitoring Sentry Sentry Error logging StatusPage StatusPage Status page