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Project description
Cappa
- Full documentation here.
- Comparison vs existing libraries..
- Annotation inference details
- "invoke" (click-like) details
Cappa is a declarative command line parsing library, taking much of its inspiration from the "Derive" API from the Clap written in Rust.
from dataclasses import dataclass
import cappa
from typing_extensions import Annotated
@dataclass
class Example:
positional_arg: str
boolean_flag: bool
single_option: Annotated[int | None, cappa.Arg(long=True)]
multiple_option: Annotated[list[str], cappa.Arg(short=True)]
args: Example = cappa.parse(Example)
Produces the following CLI:
meow.py --boolean-flag [--single-option single_option] -m
multiple_option [-h]
positional_arg
Positional Arguments:
positional_arg
Options:
--boolean-flag
--single-option single_option
-m multiple_option
Help:
-h, --help Show this message and exit
In this way, you can turn any dataclass-like object (with some additional annotations, depending on what you're looking for) into a CLI.
You'll note that cappa.parse
returns an instance of the class. This API should
feel very familiar to argparse
, except that you get the fully typed dataclass
instance back instead of a raw Namespace
.
Invoke
The "invoke" API is meant to feel more like the experience you get when using
click
or typer
. You can take the same dataclass, but register a function to
be called on successful parsing of the command.
from dataclasses import dataclass
import cappa
from typing_extensions import Annotated
def function(example: Example):
print(example)
@cappa.command(invoke=function)
class Example: # identical to original class
positional_arg: str
boolean_flag: bool
single_option: Annotated[int | None, cappa.Arg(long=True)]
multiple_option: Annotated[list[str], cappa.Arg(short=True)]
cappa.invoke(Example)
(Note the lack of the dataclass decorator. You can optionally omit or include it, and it will be automatically inferred).
Alternatively you can make your dataclass callable, as a shorthand for an explcit invoke function:
@dataclass
class Example:
... # identical to original class
def __call__(self):
print(self)
Note invoke=function
can either be a reference to some callable, or a string
module-reference to a function (which will get lazily imported and invoked).
With a single top-level command, the click-like API isn't particularly valuable by comparison. Click's command-centric API is primarily useful when composing a number of nested subcommands.
Subcommands
The useful aspect of click's functional composability is that you can define some number of subcommands functions under a parent command, whichever subcommand the function targets will be invoked.
import click
@click.group('example')
def example():
...
@example.command("print")
@click.option('--loudly', is_flag=True)
def print_cmd(loudly):
if loudly:
print("PRINTING!")
else:
print("printing!")
@example.command("fail")
@click.option('--code', type: int)
def fail_cmd(code):
raise click.Exit(code=code)
# Called like:
# /example.py print
# /example.py fail
Whereas with argparse, you'd have had to manually match and call the funcitons yourself. This API does all of the hard parts of deciding which function to call.
Similarly, you can achieve the same thing with cappa.
from __future__ import annotations
from dataclasses import dataclass
import cappa
@dataclass
class Example:
cmd: cappa.Subcommands[Print | Fail]
def print_cmd(print: Print):
if print.loudly:
print("PRINTING!")
else:
print("printing!")
@cappa.invoke(invoke=print_cmd)
class Print:
loudly: bool
@dataclass
class Fail:
code: int
def __call__(self): # again, __call__ is shorthand for the above explicit `invoke=` form.
raise cappa.Exit(code=code)
cappa.invoke(Example)
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