Pyrausta (also called pyrallis (ΟΟ ΟαλλίΟ), pyragones) is a mythological insect-sized dragon from Cyprus.
Pyrallis
is a simple library, derived from simple-parsing
and inspired by Hydra
, for automagically creating project configuration from a dataclass.
With pyrallis
your configuration is linked directly to your pre-defined dataclass
, allowing you to easily create different configuration structures, including nested ones, using an object-oriented design. The parsed arguments are used to initialize your dataclass
, giving you the typing hints and automatic code completion of a full dataclass
object.
There are several key features to pyrallis but at its core pyrallis simply allows defining an argument parser using a dataclass.
from dataclasses import dataclass
import pyrallis
@dataclass
class TrainConfig:
""" Training config for Machine Learning """
workers: int = 8 # The number of workers for training
exp_name: str = 'default_exp' # The experiment name
def main():
cfg = pyrallis.parse(config_class=TrainConfig)
print(f'Training {cfg.exp_name} with {cfg.workers} workers...')
The arguments can then be specified using command-line arguments, a yaml
configuration file, or both.
$ python train_model.py --config_path=some_config.yaml --exp_name=my_first_exp
Training my_first_exp with 42 workers...
Assuming the following configuration file
exp_name: my_yaml_exp
workers: 42
Building on that design pyrallis
offers some really enjoyable features including
- Builtin IDE support for autocompletion and linting thanks to the structured config. π€
- Joint reading from command-line and a config file, with support for specifying a default config file. π
- Support for builtin dataclass features, such as
__post_init__
and@property
π - Support for nesting and inheritance of dataclasses, nested arguments are automatically created! π²
- A magical
@pyrallis.wrap()
decorator for wrapping your main class πͺ - Easy extension to new types using
pyrallis.encode.register
andpyrallis.decode.register
π½ - Easy loading and saving of existing configurations using
pyrallis.dump
andpyrallis.load
πΎ - Magical
--help
creation from dataclasses, taking into account the comments as well! π - Support for multiple configuration formats (
yaml
,json
,toml
) usingpyrallis.set_config_type
βοΈ
The best way to understand the full pyrallis
API is through examples, let's get started!
Creation of an argparse configuration is really simple, just use pyrallis.parse
on your predefined dataclass.
from dataclasses import dataclass, field
import pyrallis
@dataclass
class TrainConfig:
""" Training config for Machine Learning """
# The number of workers for training
workers: int = field(default=8)
# The experiment name
exp_name: str = field(default='default_exp')
def main():
cfg = pyrallis.parse(config_class=TrainConfig)
print(f'Training {cfg.exp_name} with {cfg.workers} workers...')
if __name__ == '__main__':
main()
Not familiar with
dataclasses
? you should probably check the Python Tutorial and come back here.
The config can then be parsed directly from command-line
$ python train_model.py --exp_name=my_first_model
Training my_first_model with 8 workers...
Oh, and pyrallis
also generates an --help
string automatically using the comments in your dataclass πͺ
$ python train_model.py --help
usage: train_model.py [-h] [--config_path str] [--workers int] [--exp_name str]
optional arguments:
-h, --help show this help message and exit
--config_path str Path for a config file to parse with pyrallis (default:
None)
TrainConfig:
Training config for Machine Learning
--workers int The number of workers for training (default: 8)
--exp_name str The experiment name (default: default_exp)
Don't like the pyrallis.parse
syntax?
def main():
cfg = pyrallis.parse(config_class=TrainConfig)
print(f'Training {cfg.exp_name} with {cfg.workers} workers...')
One can equivalently use the pyrallis.wrap
syntax π
@pyrallis.wrap()
def main(cfg: TrainConfig):
# The decorator automagically uses the type hint to parsers arguments into TrainConfig
print(f'Training {cfg.exp_name} with {cfg.workers} workers...')
We will use this syntax for the rest of our tutorial.
When using a dataclass we can add additional functionality using existing dataclass
features, such as the post_init
mechanism or @properties
π
from dataclasses import dataclass, field
from pathlib import Path
from typing import Optional
import pyrallis
@dataclass
class TrainConfig:
""" Training config for Machine Learning """
# The number of workers for training
workers: int = field(default=8)
# The number of workers for evaluation
eval_workers: Optional[int] = field(default=None)
# The experiment name
exp_name: str = field(default='default_exp')
# The experiment root folder path
exp_root: Path = field(default=Path('/share/experiments'))
def __post_init__(self):
# A builtin method of dataclasses, used for post-processing our configuration.
self.eval_workers = self.eval_workers or self.workers
@property
def exp_dir(self) -> Path:
# Properties are great for arguments that can be derived from existing ones
return self.exp_root / self.exp_name
@pyrallis.wrap()
def main(cfg: TrainConfig):
print(f'Training {cfg.exp_name}...')
print(f'\tUsing {cfg.workers} workers and {cfg.eval_workers} evaluation workers')
print(f'\tSaving to {cfg.exp_dir}')
$ python -m train_model.py --exp_name=my_second_exp --workers=42
Training my_second_exp...
Using 42 workers and 42 evaluation workers
Saving to /share/experiments/my_second_exp
Notice that in all examples we use the explicit
dataclass.field
syntax. This isn't a requirement ofpyrallis
but rather a style choice. As some of your arguments will probably requiredataclass.field
(mutable types for example) we find it cleaner to always use the same notation.
Sometimes configs get too complex for a flat hierarchy π, luckily pyrallis
supports nested dataclasses π₯
@dataclass
class ComputeConfig:
""" Config for training resources """
# The number of workers for training
workers: int = field(default=8)
# The number of workers for evaluation
eval_workers: Optional[int] = field(default=None)
def __post_init__(self):
# A builtin method of dataclasses, used for post-processing our configuration.
self.eval_workers = self.eval_workers or self.workers
@dataclass
class LogConfig:
""" Config for logging arguments """
# The experiment name
exp_name: str = field(default='default_exp')
# The experiment root folder path
exp_root: Path = field(default=Path('/share/experiments'))
@property
def exp_dir(self) -> Path:
# Properties are great for arguments that can be derived from existing ones
return self.exp_root / self.exp_name
# TrainConfig will be our main configuration class.
# Notice that default_factory is the standard way to initialize a class argument in dataclasses
@dataclass
class TrainConfig:
log: LogConfig = field(default_factory=LogConfig)
compute: ComputeConfig = field(default_factory=ComputeConfig)
@pyrallis.wrap()
def main(cfg: TrainConfig):
print(f'Training {cfg.log.exp_name}...')
print(f'\tUsing {cfg.compute.workers} workers and {cfg.compute.eval_workers} evaluation workers')
print(f'\tSaving to {cfg.log.exp_dir}')
The argument parse will be updated accordingly
$ python train_model.py --log.exp_name=my_third_exp --compute.eval_workers=2
Training my_third_exp...
Using 8 workers and 2 evaluation workers
Saving to /share/experiments/my_third_exp
As your config get longer you will probably want to start working with configuration files. Pyrallis supports encoding a dataclass configuration into a yaml
file πΎ
The command pyrallis.dump(cfg, open('run_config.yaml','w'))
will result in the following yaml
file
compute:
eval_workers: 2
workers: 8
log:
exp_name: my_third_exp
exp_root: /share/experiments
pyrallis.dump
extendsyaml.dump
and uses the same syntax.
Configuration files can also be loaded back into a dataclass, and can even be used together with the command-line arguments.
cfg = pyrallis.parse(config_class=TrainConfig,
config_path='/share/configs/config.yaml')
# or the decorator synrax
@pyrallis.wrap(config_path='/share/configs/config.yaml')
# or with the CONFIG argument
python my_script.py --log.exp_name=readme_exp --config_path=/share/configs/config.yaml
# Or if you just want to load from a .yaml without cmd parsing
cfg = pyrallis.load(TrainConfig, '/share/configs/config.yaml')
Command-line arguments have a higher priority and will override the configuration file
Finally, one can easily extend the serialization to support new types π₯
# For decoding from cmd/yaml
pyrallis.decode.register(np.ndarray,np.asarray)
# For encoding to yaml
pyrallis.encode.register(np.ndarray, lambda x: x.tolist())
# Or with the wrapper version instead
@pyrallis.encode.register
def encode_array(arr : np.ndarray) -> str:
return arr.tolist()
XKCD 927 - Standards
The builtin argparse
has many great features but is somewhat outdated π΄ with one its greatest weakness being the lack of typing. This has led to the development of many great libraries tackling different weaknesses of argparse
(shout out for all the great projects out there! You rock! π€).
In our case, we were looking for a library that would support the vanilla dataclass
without requiring dedicated classes, and would have a loading interface from both command-line and files. The closest candidates were hydra
and simple-parsing
, but they weren't exactly what we were looking for. Below are the pros and cons from our perspective:
A framework for elegantly configuring complex applications from Facebook Research.
- Supports complex configuration from multiple files and allows for overriding them from command-line.
- Does not support non-standard types, does not play nicely with
datclass.__post_init__
and requires aConfigStore
registration.
A framework for simple, elegant and typed Argument Parsing by Fabrice Normandin
- Strong integration with
argparse
, support for nested configurations together with standard arguments. - No support for joint loading from command-line and files, dataclasses are still wrapped by a Namespace, requires dedicated classes for serialization.
We decided to create a simple hybrid of the two approaches, building from SimpleParsing
with some hydra
features in mind. The result, pyrallis
, is a simple library that that is relatively low on features, but hopefully excels at what it does.
If pyrallis
isn't what you're looking for we strongly advise you to give hydra
and simpleParsing
a try (where other interesting option include click
, ext_argpase
, jsonargparse
, datargs
and tap
). If you do β€οΈ pyrallis
then welcome aboard! We're gonna have a great journey together! π²
Dataclasses are great (really!) but using mutable fields can sometimes be confusing. For example, say we try to code the following dataclass
@dataclass
class OptimConfig:
worker_inds: List[int] = []
# Or the more explicit version
worker_inds: List[int] = field(default=[])
As []
is mutable we would actually initialize every instance of this dataclass with the same list instance, and thus is not allowed. Instead dataclasses
would direct you the default_factory function, which calls a factory function for generating the field in every new instance of your dataclass.
worker_inds: List[int] = field(default_factory=list)
Now, this works great for empty collections, but what would be the alternative for
worker_inds: List[int] = field(default=[1,2,3])
Well, you would have to create a dedicated factory function that regenerates the object, for example
worker_inds: List[int] = field(default_factory=lambda : [1,2,3])
Kind of annoying and could be confusing for a new guest reading your code π Now, while this isn't really related to parsing/configuration we decided it could be nice to offer a sugar-syntax for such cases as part of pyrallis
from pyrallis import field
worker_inds: List[int] = field(default=[1,2,3], is_mutable=True)
The pyrallis.field
behaves like the regular dataclasses.field
with an additional is_mutable
flag. When toggled, the default_factory
is created automatically, offering the same functionally with a more reader-friendly syntax.
For parsing files we opted for yaml
as our format of choice, following hydra
, due to its concise format.
Now, let us assume we have the following .yaml
file which yaml
successfully handles:
compute:
worker_inds: [0,2,3]
Intuitively we would also want users to be able to use the same syntax
python my_app.py --compute.worker_inds=[0,2,3]
However, the more standard syntax for an argparse application would be
python my_app.py --compute.worker_inds 0 2 3
We decided to use the same syntax as in the yaml
files to avoid confusion when loading from multiple sources.
Not a yaml
fan? pyrallis
also supports json
and toml
formats using pyrallis.set_config_type('json')
or with pyrallis.config_type('json'):
- Fix error with default Dict and List
Underlying error: No decoding function for type ~KT, consider using pyrallis.decode.register
- Refine the
--help
command
For example the
options
argument is confusing there
- Add a test to
omit_defaults
Thanks goes to these wonderful people (emoji key):
Ido Weiss π¨ π€ |
Yair Feldman π¨ π€ |
This project follows the all-contributors specification. Contributions of any kind welcome!