optfn uses introspection to make a Python function available as a command line utility. It's syntactic sugar around optparse from the standard library.
optfn was built off of simonw's optfunc, however they are incompatible with one another - optfn adds support for varargs and python3, and removes class-based sub-commands.
Here's what the API looks like:
import optfn
def upper(filename, verbose=False):
"Usage: %prog <file> [--verbose] - output file content in uppercase"
s = open(filename).read()
if verbose:
print "Processing %s bytes..." % len(s)
print s.upper()
if __name__ == '__main__':
optfn.run(upper)
And here's the resulting command-line interface:
$ python demo.py --help
Usage: demo.py <file> [--verbose] - output file content in uppercase
Options:
-h, --help show this help message and exit
-v, --verbose
$ python demo.py README.md
OPTFN
...
$ python demo.py README.md -v
Processing 2049 bytes...
OPTFN
...
Non-keyword arguments are treated as required arguments - optfn.run will throw an error if they number of arguments provided on the command line doesn't match the number expected by the function (unless @notstrict is used, see below).
Keyword arguments with defaults are treated as options. At the moment, only string and boolean arguments are supported. Other types are planned.
Consider the following:
def geocode(s, api_key='', geocoder='google', list_geocoders=False):
's' is a required argument. api_key, geocoder and list_geocoders are all options, with defaults provided. Since list_geocoders has a boolean as its default it will be treated slightly differently (in optparse terms, it will store True if the flag is provided on the command line and False otherwise).
The command line options are derived from the parameter names like so:
Options:
-h, --help show this help message and exit
-l, --list-geocoders
-a API_KEY, --api-key=API_KEY
-g GEOCODER, --geocoder=GEOCODER
Note that the boolean --list-geocoders is a flag, not an option that sets a value.
The short option is derived from the first letter of the parameter. If that character is already in use, the second character will be used and so on.
The long option is the full name of the parameter with underscores converted to hyphens.
If you want complete control over the name of the options, simply name your parameter as follows:
def foo(q_custom_name=False):
This will result in a short option of -q and a long option of --custom-name.
Kwargs with the names 'stdin', 'stdout' or 'stderr' will be automatically passed the relevant Python objects, for example:
#!/usr/bin/env python
# upper.py
import optfn
def upper_stdin(stdin=None, stdout=None):
stdout.write(stdin.read().upper())
if __name__ == '__main__':
optfn.run(upper_stdin)
Does the following:
$ echo "Hello, world" | ./upper.py
HELLO, WORLD
Some command line applications feature subcommands, with the first argument to the application indicating which subcommand should be executed.
optfn supports this - you can pass an array of functions to optfn.run() and
the names of the functions will be used to select a subcommand based on the
first argument:
import optfn
def one(arg):
print "One: %s" % arg
def two(arg):
print "Two: %s" % arg
def three(arg):
print "Three: %s" % arg
if __name__ == '__main__':
optfn.run([one, two, three])
Usage looks like this:
$ ./subcommands_demo.py
Unknown command: try 'one', 'two' or 'three'
$ ./subcommands_demo.py one
one: Required 1 arguments, got 0
$ ./subcommands_demo.py two arg
Two: arg
This approach is limited in that help can be provided for an individual option but not for the application as a whole. If anyone knows how to get optparse to handle the subcommand pattern please let me know.
optfn also supports two decorators for extra functionality:
@optfn.notstrict
@optfn.arghelp('list_geocoders', 'list available geocoders and exit')
def geocode(s, api_key='', geocoder='google', list_geocoders=False):
# ...
@notstrict means "don't throw an error if one of the required positional arguments is missing" - in the above example we use this because we still want the list_geocoders argument to work even if a string has not been provided.
@arghelp('arg-name', 'help text') allows you to provide help on individual arguments, which will then be displayed when --help is called.