Argparse 教程
*************

作者:
   Tshepang Lekhonkhobe

这篇教程旨在作为 "argparse" 的入门介绍，此模块是 Python 标准库中推荐的
命令行解析模块。

注解: 还有另外两个模块可以完成同样的任务，它们的名字是 "getopt" (对
  应于 C 语言中的 "getopt()" 函数) 以及已弃用的 "optparse". 还要注意
  "argparse" 是基于 "optparse" 的，因此在用法上与其非常相似。


概念
====

让我们通过使用 **ls** 命令来展示我们将在本入门教程中探索的功能：

   $ ls
   cpython  devguide  prog.py  pypy  rm-unused-function.patch
   $ ls pypy
   ctypes_configure  demo  dotviewer  include  lib_pypy  lib-python ...
   $ ls -l
   total 20
   drwxr-xr-x 19 wena wena 4096 Feb 18 18:51 cpython
   drwxr-xr-x  4 wena wena 4096 Feb  8 12:04 devguide
   -rwxr-xr-x  1 wena wena  535 Feb 19 00:05 prog.py
   drwxr-xr-x 14 wena wena 4096 Feb  7 00:59 pypy
   -rw-r--r--  1 wena wena  741 Feb 18 01:01 rm-unused-function.patch
   $ ls --help
   Usage: ls [OPTION]... [FILE]...
   List information about the FILEs (the current directory by default).
   Sort entries alphabetically if none of -cftuvSUX nor --sort is specified.
   ...

我们可以从这四个命令中学到几个概念：

* **ls** 是一个即使在运行的时候没有提供任何选项，也非常有用的命令。
  在 默认情况下他会输出当前文件夹包含的文件和文件夹。

* 如果我们想要使用比它默认提供的更多功能，我们需要告诉该命令更多信息
  。 在这个例子里，我们想要查看一个不同的目录，"pypy"。我们所做的是指
  定所 谓的位置参数。之所以这样命名，是因为程序应该如何处理该参数值，
  完全取 决于它在命令行出现的位置。更能体现这个概念的命令如 **cp**，它
  最基本 的用法是 "cp SRC DEST"。第一个位置参数指的是*你想要复制的*，
  第二个位 置参数指的是*你想要复制到的位置*。

* 现在假设我们想要改变这个程序的行为。在我们的例子中，我们不仅仅只是
  输 出每个文件的文件名，还输出了更多信息。在这个例子中，"-l" 被称为可
  选 参数。

* 这是一段帮助文档的文字。它是非常有用的，因为当你遇到一个你从未使用
  过 的程序时，你可以通过阅读它的帮助文档来弄清楚它是如何运行的。


基础
====

让我们从一个非常简单的例子开始：

   import argparse
   parser = argparse.ArgumentParser()
   parser.parse_args()

以下是该代码的运行结果：

   $ python3 prog.py
   $ python3 prog.py --help
   usage: prog.py [-h]

   optional arguments:
     -h, --help  show this help message and exit
   $ python3 prog.py --verbose
   usage: prog.py [-h]
   prog.py: error: unrecognized arguments: --verbose
   $ python3 prog.py foo
   usage: prog.py [-h]
   prog.py: error: unrecognized arguments: foo

程序运行情况如下：

* 在没有任何选项的情况下运行脚本不会在标准输出显示任何内容。这没有什
  么 用处。

* 第二行代码开始展现出 "argparse" 模块的作用。我们几乎什么也没有做，
  但 已经得到一条很好的帮助信息。

* "--help``选项，也可缩写为"-h``，是唯一一个可以免费获得的选项（即不
  需 要指定该选项的内容）。指定任何内容会导致错误。即便如此，我们也能
  免费 得到一条有用的用法信息。


位置参数介绍
============

举个例子：

   import argparse
   parser = argparse.ArgumentParser()
   parser.add_argument("echo")
   args = parser.parse_args()
   print(args.echo)

运行此程序：

   $ python3 prog.py
   usage: prog.py [-h] echo
   prog.py: error: the following arguments are required: echo
   $ python3 prog.py --help
   usage: prog.py [-h] echo

   positional arguments:
     echo

   optional arguments:
     -h, --help  show this help message and exit
   $ python3 prog.py foo
   foo

程序运行情况如下：

* 我们添加了 "add_argument()" 方法，该方法用于指定程序能够接受哪些命
  令 行选项。在这个例子中，我将选项命名为``echo``，与它的功能相一致。

* 现在调用我们的程序必须要指定一个选项。

* The "parse_args()" method actually returns some data from the
  options specified, in this case, "echo".

* The variable is some form of 'magic' that "argparse" performs for
  free (i.e. no need to specify which variable that value is stored
  in). You will also notice that its name matches the string argument
  given to the method, "echo".

Note however that, although the help display looks nice and all, it
currently is not as helpful as it can be. For example we see that we
got "echo" as a positional argument, but we don't know what it does,
other than by guessing or by reading the source code. So, let's make
it a bit more useful:

   import argparse
   parser = argparse.ArgumentParser()
   parser.add_argument("echo", help="echo the string you use here")
   args = parser.parse_args()
   print(args.echo)

And we get:

   $ python3 prog.py -h
   usage: prog.py [-h] echo

   positional arguments:
     echo        echo the string you use here

   optional arguments:
     -h, --help  show this help message and exit

Now, how about doing something even more useful:

   import argparse
   parser = argparse.ArgumentParser()
   parser.add_argument("square", help="display a square of a given number")
   args = parser.parse_args()
   print(args.square**2)

以下是该代码的运行结果：

   $ python3 prog.py 4
   Traceback (most recent call last):
     File "prog.py", line 5, in <module>
       print(args.square**2)
   TypeError: unsupported operand type(s) for ** or pow(): 'str' and 'int'

That didn't go so well. That's because "argparse" treats the options
we give it as strings, unless we tell it otherwise. So, let's tell
"argparse" to treat that input as an integer:

   import argparse
   parser = argparse.ArgumentParser()
   parser.add_argument("square", help="display a square of a given number",
                       type=int)
   args = parser.parse_args()
   print(args.square**2)

以下是该代码的运行结果：

   $ python3 prog.py 4
   16
   $ python3 prog.py four
   usage: prog.py [-h] square
   prog.py: error: argument square: invalid int value: 'four'

That went well. The program now even helpfully quits on bad illegal
input before proceeding.


Introducing Optional arguments
==============================

So far we have been playing with positional arguments. Let us have a
look on how to add optional ones:

   import argparse
   parser = argparse.ArgumentParser()
   parser.add_argument("--verbosity", help="increase output verbosity")
   args = parser.parse_args()
   if args.verbosity:
       print("verbosity turned on")

And the output:

   $ python3 prog.py --verbosity 1
   verbosity turned on
   $ python3 prog.py
   $ python3 prog.py --help
   usage: prog.py [-h] [--verbosity VERBOSITY]

   optional arguments:
     -h, --help            show this help message and exit
     --verbosity VERBOSITY
                           increase output verbosity
   $ python3 prog.py --verbosity
   usage: prog.py [-h] [--verbosity VERBOSITY]
   prog.py: error: argument --verbosity: expected one argument

程序运行情况如下：

* The program is written so as to display something when "--
  verbosity" is specified and display nothing when not.

* To show that the option is actually optional, there is no error
  when running the program without it. Note that by default, if an
  optional argument isn't used, the relevant variable, in this case
  "args.verbosity", is given "None" as a value, which is the reason it
  fails the truth test of the "if" statement.

* The help message is a bit different.

* When using the "--verbosity" option, one must also specify some
  value, any value.

The above example accepts arbitrary integer values for "--verbosity",
but for our simple program, only two values are actually useful,
"True" or "False". Let's modify the code accordingly:

   import argparse
   parser = argparse.ArgumentParser()
   parser.add_argument("--verbose", help="increase output verbosity",
                       action="store_true")
   args = parser.parse_args()
   if args.verbose:
       print("verbosity turned on")

And the output:

   $ python3 prog.py --verbose
   verbosity turned on
   $ python3 prog.py --verbose 1
   usage: prog.py [-h] [--verbose]
   prog.py: error: unrecognized arguments: 1
   $ python3 prog.py --help
   usage: prog.py [-h] [--verbose]

   optional arguments:
     -h, --help  show this help message and exit
     --verbose   increase output verbosity

程序运行情况如下：

* The option is now more of a flag than something that requires a
  value. We even changed the name of the option to match that idea.
  Note that we now specify a new keyword, "action", and give it the
  value ""store_true"". This means that, if the option is specified,
  assign the value "True" to "args.verbose". Not specifying it implies
  "False".

* It complains when you specify a value, in true spirit of what
  flags actually are.

* Notice the different help text.


简短的选项
----------

If you are familiar with command line usage, you will notice that I
haven't yet touched on the topic of short versions of the options.
It's quite simple:

   import argparse
   parser = argparse.ArgumentParser()
   parser.add_argument("-v", "--verbose", help="increase output verbosity",
                       action="store_true")
   args = parser.parse_args()
   if args.verbose:
       print("verbosity turned on")

And here goes:

   $ python3 prog.py -v
   verbosity turned on
   $ python3 prog.py --help
   usage: prog.py [-h] [-v]

   optional arguments:
     -h, --help     show this help message and exit
     -v, --verbose  increase output verbosity

Note that the new ability is also reflected in the help text.


Combining Positional and Optional arguments
===========================================

Our program keeps growing in complexity:

   import argparse
   parser = argparse.ArgumentParser()
   parser.add_argument("square", type=int,
                       help="display a square of a given number")
   parser.add_argument("-v", "--verbose", action="store_true",
                       help="increase output verbosity")
   args = parser.parse_args()
   answer = args.square**2
   if args.verbose:
       print("the square of {} equals {}".format(args.square, answer))
   else:
       print(answer)

And now the output:

   $ python3 prog.py
   usage: prog.py [-h] [-v] square
   prog.py: error: the following arguments are required: square
   $ python3 prog.py 4
   16
   $ python3 prog.py 4 --verbose
   the square of 4 equals 16
   $ python3 prog.py --verbose 4
   the square of 4 equals 16

* We've brought back a positional argument, hence the complaint.

* Note that the order does not matter.

How about we give this program of ours back the ability to have
multiple verbosity values, and actually get to use them:

   import argparse
   parser = argparse.ArgumentParser()
   parser.add_argument("square", type=int,
                       help="display a square of a given number")
   parser.add_argument("-v", "--verbosity", type=int,
                       help="increase output verbosity")
   args = parser.parse_args()
   answer = args.square**2
   if args.verbosity == 2:
       print("the square of {} equals {}".format(args.square, answer))
   elif args.verbosity == 1:
       print("{}^2 == {}".format(args.square, answer))
   else:
       print(answer)

And the output:

   $ python3 prog.py 4
   16
   $ python3 prog.py 4 -v
   usage: prog.py [-h] [-v VERBOSITY] square
   prog.py: error: argument -v/--verbosity: expected one argument
   $ python3 prog.py 4 -v 1
   4^2 == 16
   $ python3 prog.py 4 -v 2
   the square of 4 equals 16
   $ python3 prog.py 4 -v 3
   16

These all look good except the last one, which exposes a bug in our
program. Let's fix it by restricting the values the "--verbosity"
option can accept:

   import argparse
   parser = argparse.ArgumentParser()
   parser.add_argument("square", type=int,
                       help="display a square of a given number")
   parser.add_argument("-v", "--verbosity", type=int, choices=[0, 1, 2],
                       help="increase output verbosity")
   args = parser.parse_args()
   answer = args.square**2
   if args.verbosity == 2:
       print("the square of {} equals {}".format(args.square, answer))
   elif args.verbosity == 1:
       print("{}^2 == {}".format(args.square, answer))
   else:
       print(answer)

And the output:

   $ python3 prog.py 4 -v 3
   usage: prog.py [-h] [-v {0,1,2}] square
   prog.py: error: argument -v/--verbosity: invalid choice: 3 (choose from 0, 1, 2)
   $ python3 prog.py 4 -h
   usage: prog.py [-h] [-v {0,1,2}] square

   positional arguments:
     square                display a square of a given number

   optional arguments:
     -h, --help            show this help message and exit
     -v {0,1,2}, --verbosity {0,1,2}
                           increase output verbosity

Note that the change also reflects both in the error message as well
as the help string.

Now, let's use a different approach of playing with verbosity, which
is pretty common. It also matches the way the CPython executable
handles its own verbosity argument (check the output of "python
--help"):

   import argparse
   parser = argparse.ArgumentParser()
   parser.add_argument("square", type=int,
                       help="display the square of a given number")
   parser.add_argument("-v", "--verbosity", action="count",
                       help="increase output verbosity")
   args = parser.parse_args()
   answer = args.square**2
   if args.verbosity == 2:
       print("the square of {} equals {}".format(args.square, answer))
   elif args.verbosity == 1:
       print("{}^2 == {}".format(args.square, answer))
   else:
       print(answer)

We have introduced another action, "count", to count the number of
occurrences of a specific optional arguments:

   $ python3 prog.py 4
   16
   $ python3 prog.py 4 -v
   4^2 == 16
   $ python3 prog.py 4 -vv
   the square of 4 equals 16
   $ python3 prog.py 4 --verbosity --verbosity
   the square of 4 equals 16
   $ python3 prog.py 4 -v 1
   usage: prog.py [-h] [-v] square
   prog.py: error: unrecognized arguments: 1
   $ python3 prog.py 4 -h
   usage: prog.py [-h] [-v] square

   positional arguments:
     square           display a square of a given number

   optional arguments:
     -h, --help       show this help message and exit
     -v, --verbosity  increase output verbosity
   $ python3 prog.py 4 -vvv
   16

* Yes, it's now more of a flag (similar to "action="store_true"") in
  the previous version of our script. That should explain the
  complaint.

* It also behaves similar to "store_true" action.

* Now here's a demonstration of what the "count" action gives.
  You've probably seen this sort of usage before.

* And if you don't specify the "-v" flag, that flag is considered to
  have "None" value.

* As should be expected, specifying the long form of the flag, we
  should get the same output.

* Sadly, our help output isn't very informative on the new ability
  our script has acquired, but that can always be fixed by improving
  the documentation for our script (e.g. via the "help" keyword
  argument).

* That last output exposes a bug in our program.

Let's fix:

   import argparse
   parser = argparse.ArgumentParser()
   parser.add_argument("square", type=int,
                       help="display a square of a given number")
   parser.add_argument("-v", "--verbosity", action="count",
                       help="increase output verbosity")
   args = parser.parse_args()
   answer = args.square**2

   # bugfix: replace == with >=
   if args.verbosity >= 2:
       print("the square of {} equals {}".format(args.square, answer))
   elif args.verbosity >= 1:
       print("{}^2 == {}".format(args.square, answer))
   else:
       print(answer)

And this is what it gives:

   $ python3 prog.py 4 -vvv
   the square of 4 equals 16
   $ python3 prog.py 4 -vvvv
   the square of 4 equals 16
   $ python3 prog.py 4
   Traceback (most recent call last):
     File "prog.py", line 11, in <module>
       if args.verbosity >= 2:
   TypeError: '>=' not supported between instances of 'NoneType' and 'int'

* First output went well, and fixes the bug we had before. That is,
  we want any value >= 2 to be as verbose as possible.

* Third output not so good.

Let's fix that bug:

   import argparse
   parser = argparse.ArgumentParser()
   parser.add_argument("square", type=int,
                       help="display a square of a given number")
   parser.add_argument("-v", "--verbosity", action="count", default=0,
                       help="increase output verbosity")
   args = parser.parse_args()
   answer = args.square**2
   if args.verbosity >= 2:
       print("the square of {} equals {}".format(args.square, answer))
   elif args.verbosity >= 1:
       print("{}^2 == {}".format(args.square, answer))
   else:
       print(answer)

We've just introduced yet another keyword, "default". We've set it to
"0" in order to make it comparable to the other int values. Remember
that by default, if an optional argument isn't specified, it gets the
"None" value, and that cannot be compared to an int value (hence the
"TypeError" exception).

And:

   $ python3 prog.py 4
   16

You can go quite far just with what we've learned so far, and we have
only scratched the surface. The "argparse" module is very powerful,
and we'll explore a bit more of it before we end this tutorial.


Getting a little more advanced
==============================

What if we wanted to expand our tiny program to perform other powers,
not just squares:

   import argparse
   parser = argparse.ArgumentParser()
   parser.add_argument("x", type=int, help="the base")
   parser.add_argument("y", type=int, help="the exponent")
   parser.add_argument("-v", "--verbosity", action="count", default=0)
   args = parser.parse_args()
   answer = args.x**args.y
   if args.verbosity >= 2:
       print("{} to the power {} equals {}".format(args.x, args.y, answer))
   elif args.verbosity >= 1:
       print("{}^{} == {}".format(args.x, args.y, answer))
   else:
       print(answer)

Output:

   $ python3 prog.py
   usage: prog.py [-h] [-v] x y
   prog.py: error: the following arguments are required: x, y
   $ python3 prog.py -h
   usage: prog.py [-h] [-v] x y

   positional arguments:
     x                the base
     y                the exponent

   optional arguments:
     -h, --help       show this help message and exit
     -v, --verbosity
   $ python3 prog.py 4 2 -v
   4^2 == 16

Notice that so far we've been using verbosity level to *change* the
text that gets displayed. The following example instead uses verbosity
level to display *more* text instead:

   import argparse
   parser = argparse.ArgumentParser()
   parser.add_argument("x", type=int, help="the base")
   parser.add_argument("y", type=int, help="the exponent")
   parser.add_argument("-v", "--verbosity", action="count", default=0)
   args = parser.parse_args()
   answer = args.x**args.y
   if args.verbosity >= 2:
       print("Running '{}'".format(__file__))
   if args.verbosity >= 1:
       print("{}^{} == ".format(args.x, args.y), end="")
   print(answer)

Output:

   $ python3 prog.py 4 2
   16
   $ python3 prog.py 4 2 -v
   4^2 == 16
   $ python3 prog.py 4 2 -vv
   Running 'prog.py'
   4^2 == 16


Conflicting options
-------------------

So far, we have been working with two methods of an
"argparse.ArgumentParser" instance. Let's introduce a third one,
"add_mutually_exclusive_group()". It allows for us to specify options
that conflict with each other. Let's also change the rest of the
program so that the new functionality makes more sense: we'll
introduce the "--quiet" option, which will be the opposite of the "--
verbose" one:

   import argparse

   parser = argparse.ArgumentParser()
   group = parser.add_mutually_exclusive_group()
   group.add_argument("-v", "--verbose", action="store_true")
   group.add_argument("-q", "--quiet", action="store_true")
   parser.add_argument("x", type=int, help="the base")
   parser.add_argument("y", type=int, help="the exponent")
   args = parser.parse_args()
   answer = args.x**args.y

   if args.quiet:
       print(answer)
   elif args.verbose:
       print("{} to the power {} equals {}".format(args.x, args.y, answer))
   else:
       print("{}^{} == {}".format(args.x, args.y, answer))

Our program is now simpler, and we've lost some functionality for the
sake of demonstration. Anyways, here's the output:

   $ python3 prog.py 4 2
   4^2 == 16
   $ python3 prog.py 4 2 -q
   16
   $ python3 prog.py 4 2 -v
   4 to the power 2 equals 16
   $ python3 prog.py 4 2 -vq
   usage: prog.py [-h] [-v | -q] x y
   prog.py: error: argument -q/--quiet: not allowed with argument -v/--verbose
   $ python3 prog.py 4 2 -v --quiet
   usage: prog.py [-h] [-v | -q] x y
   prog.py: error: argument -q/--quiet: not allowed with argument -v/--verbose

That should be easy to follow. I've added that last output so you can
see the sort of flexibility you get, i.e. mixing long form options
with short form ones.

Before we conclude, you probably want to tell your users the main
purpose of your program, just in case they don't know:

   import argparse

   parser = argparse.ArgumentParser(description="calculate X to the power of Y")
   group = parser.add_mutually_exclusive_group()
   group.add_argument("-v", "--verbose", action="store_true")
   group.add_argument("-q", "--quiet", action="store_true")
   parser.add_argument("x", type=int, help="the base")
   parser.add_argument("y", type=int, help="the exponent")
   args = parser.parse_args()
   answer = args.x**args.y

   if args.quiet:
       print(answer)
   elif args.verbose:
       print("{} to the power {} equals {}".format(args.x, args.y, answer))
   else:
       print("{}^{} == {}".format(args.x, args.y, answer))

Note that slight difference in the usage text. Note the "[-v | -q]",
which tells us that we can either use "-v" or "-q", but not both at
the same time:

   $ python3 prog.py --help
   usage: prog.py [-h] [-v | -q] x y

   calculate X to the power of Y

   positional arguments:
     x              the base
     y              the exponent

   optional arguments:
     -h, --help     show this help message and exit
     -v, --verbose
     -q, --quiet


Conclusion
==========

The "argparse" module offers a lot more than shown here. Its docs are
quite detailed and thorough, and full of examples. Having gone through
this tutorial, you should easily digest them without feeling
overwhelmed.
