Your best choice is to test for the presence of various combinations after parse_args
and use parser.error
to issue an argparse
compatible error message. And write your own usage
line. And make sure the defaults clearly indicate whether an option has been parsed or not.
If you can change the -a
and -e
options to command names like cmda
or build
, you could use subparsers. In this case you might define a command_a
subparser that accepts -b, -c, and -d, and another command_e
subparser that has none of these. This is closes argparse
comes to 'required together' groups of arguments.
mutually exclusive groups
can define something with a usage like [-a -b -c]
, but that just means -b
cannot occur along with -a
and -c
. But there's nothing fancy about that mechanism. It just constructs a dictionary of such exclusions, and checks it each time it parses a new option. If there is a conflict it issues the error message and quits. It is not set up to handle fancy combinations, such as your (-e | agroup)
.
Custom actions can also check for the absence or presence of non-default values in the namespace
, much as you would after parsing. But doing so during parsing isn't any simpler. And it raises questions about order. Do you want to handle -b -c -a
the same way as -a -c -b
? Should -a
check for the presence of the others, or should -b
check that -a
has already been parsed? Who checks for the presence, or absence of -e
.
The are a number of other stack questions about argparse groups, exclusive and inclusive, but I think these are the essential issues.
(-a [-bcd] | -e)
then you should converta
,e
into commands e.g., using subparsers.