(options)=

# Options

```{eval-rst}
.. currentmodule:: click
```

Adding options to commands can be accomplished with the {func}`option`
decorator. At runtime the decorator invokes the {class}`Option` class. Options
in Click are distinct from {ref}`positional arguments <arguments>`.

Useful and often used kwargs are:

- `default`: Passes a default.
- `help`: Sets help message.
- `nargs`: Sets the number of arguments.
- `required`: Makes option required.
- `type`: Sets {ref}`parameter type <parameter-types>`

```{contents}
:depth: 2
:local: true
```

## Option Decorator

The {func}`option()` decorator is usually passed two positional arguments: the
option name and the decorated function argument name.

```{eval-rst}
.. click:example::

    @click.command()
    @click.option('--string-to-echo', 'string_to_echo')
    def echo(string_to_echo):
        click.echo(string_to_echo)


.. click:run::

    invoke(echo, args=['--help'])
```

However, if the decorated function argument name is not passed in, then Click
will try to infer it. A simple way to name the option so that Click will infer
it correctly is by taking the function argument, adding two dashes to the front
and converting underscores to dashes.

```{eval-rst}
.. click:example::

    @click.command()
    @click.option('--string-to-echo')
    def echo(string_to_echo):
        click.echo(string_to_echo)

.. click:run::

    invoke(echo, args=['--string-to-echo', 'Hi!'])
```

More formally, Click will try to infer the decorated function argument name as
follows:

1. If a positional argument is a valid [Python identifier](https://docs.python.org/3/reference/lexical_analysis.html#identifiers) (and thus does not have dashes), it is chosen.
2. If multiple positional arguments are prefixed with `--`, the first one
  declared is chosen.
3. Otherwise, the first positional argument prefixed with `-` is chosen.

To get the argument name, the chosen positional argument is converted to lower
case, a leading `-` or `--` is removed if found, and any remaining `-`
characters are replaced with `_`.

```{eval-rst}
.. list-table:: Examples
    :widths: 15 15
    :header-rows: 1

    * - Decorator Arguments
      - Inferred Argument Name
    * - ``"-f", "--foo-bar"``
      - foo_bar
    * - ``"-x"``
      - x
    * - ``"-f", "--filename", "dest"``
      - dest
    * - ``"--CamelCase"``
      - camelcase
    * - ``"-f", "-fb"``
      - f
    * - ``"--f", "--foo-bar"``
      - f
    * - ``"---f"``
      - _f
```

## Basic Example

A simple {class}`click.Option` takes one option name. By default, it's assumed
that the decorated function argument is not required and the expected type is
`str`. If the decorated function takes a positional argument but the option is
not passed with the command, then `None` is passed.

```{eval-rst}
.. click:example::

    @click.command()
    @click.option('--text')
    def print_this(text):
        click.echo(text)


.. click:run::

    invoke(print_this, args=['--text=this'])

    invoke(print_this, args=[])


.. click:run::

    invoke(print_this, args=['--help'])

```

## Setting a Default

Instead of setting the `type`, you may set a default and Click will try to infer
the type.

```{eval-rst}
.. click:example::

    @click.command()
    @click.option('--n', default=1)
    def dots(n):
        click.echo('.' * n)

.. click:run::

    invoke(dots, args=['--help'])
```

## Multi Value Options

To make an option take multiple values, pass in `nargs`. Note you may pass in
any positive integer, but not -1. The values are passed to the decorated
function as a tuple.

```{eval-rst}
.. click:example::

    @click.command()
    @click.option('--pos', nargs=2, type=float)
    def findme(pos):
        a, b = pos
        click.echo(f"{a} / {b}")

.. click:run::

    invoke(findme, args=['--pos', '2.0', '3.0'])

```

(tuple-type)=

## Multi Value Options as Tuples

```{versionadded} 4.0
```

By setting `nargs` to a specific number, each item in
the resulting tuple is of the same type. Alternatively, you might want to use
different types for different indexes in
the tuple. For this you can directly specify a tuple as `type`:

```{eval-rst}
.. click:example::

    @click.command()
    @click.option('--item', type=(str, int))
    def putitem(item):
        name, id = item
        click.echo(f"name={name} id={id}")


And on the command line:

.. click:run::

    invoke(putitem, args=['--item', 'peter', '1338'])
```

By using a tuple literal as the `type`, `nargs` gets automatically set to the
length of the tuple and the {class}`click.Tuple` type is automatically
used. The above example is thus equivalent to this:

```{eval-rst}
.. click:example::

    @click.command()
    @click.option('--item', nargs=2, type=click.Tuple([str, int]))
    def putitem(item):
        name, id = item
        click.echo(f"name={name} id={id}")
```

(multiple-options)=

## Multiple Options

The multiple options format allows options to take an arbitrary number of
arguments (which is called variadic). The arguments are passed to the decorated
function as a tuple. If set, `default` must be a list or tuple. Setting a string
as `default` will be interpreted as a list of characters.

```{eval-rst}
.. click:example::

    @click.command()
    @click.option('--message', '-m', multiple=True)
    def commit(message):
        click.echo(message)
        for m in message:
            click.echo(m)

.. click:run::

    invoke(commit, args=['-m', 'foo', '-m', 'bar', '-m', 'here'])
```

## Counting

To count the occurrence of an option, set `count=True`. If the option is not
passed on the command line, then the count is 0. Counting is commonly used for
verbosity.

```{eval-rst}
.. click:example::

    @click.command()
    @click.option('-v', '--verbose', count=True)
    def log(verbose):
        click.echo(f"Verbosity: {verbose}")

.. click:run::

    invoke(log, args=[])
    invoke(log, args=['-vvv'])
```

(option-boolean-flag)=

## Boolean

Boolean options (boolean flags) take the values `True` or `False`. The simplest
case sets the default value to `False` if the flag is not passed, and `True` if
it is.

```{eval-rst}
.. click:example::

    import sys

    @click.command()
    @click.option('--shout', is_flag=True)
    def info(shout):
        rv = sys.platform
        if shout:
            rv = rv.upper() + '!!!!111'
        click.echo(rv)


.. click:run::

    invoke(info)
    invoke(info, args=['--shout'])

```

To implement this more explicitly, declare `--{on-option}/--{off-option}`. Click
will automatically set `is_flag=True`.

```{eval-rst}
.. click:example::

    import sys

    @click.command()
    @click.option('--shout/--no-shout', default=False)
    def info(shout):
        rv = sys.platform
        if shout:
            rv = rv.upper() + '!!!!111'
        click.echo(rv)

.. click:run::

    invoke(info)
    invoke(info, args=['--shout'])
    invoke(info, args=['--no-shout'])
```

Use cases for this more explicit pattern include:

* The default can be dynamic so the user can explicitly specify the option with
  either on or off option, or pass in no option to use the dynamic default.
* Shell scripts sometimes want to be explicit even when it's the default
* Shell aliases can set a flag, then an invocation can add a negation of the
  flag

If a forward slash(`/`) is contained in your option name already, you can split
the parameters using `;`. In Windows `/` is commonly used as the prefix
character.

```{eval-rst}
.. click:example::

    @click.command()
    @click.option('/debug;/no-debug')
    def log(debug):
        click.echo(f"debug={debug}")
```

```{versionchanged} 6.0
```

If you want to define an alias for the second option only, then you will need to
use leading whitespace to disambiguate the format string.

```{eval-rst}
.. click:example::

    import sys

    @click.command()
    @click.option('--shout/--no-shout', ' /-N', default=False)
    def info(shout):
        rv = sys.platform
        if shout:
            rv = rv.upper() + '!!!!111'
        click.echo(rv)

.. click:run::

    invoke(info, args=['--help'])
```

## Flag Value

To have a flag pass a value to the decorated function set `flag_value`. This
automatically sets `is_flag=True`. To mark the flag as default, set
`default=True`. Setting flag values can be used to create patterns like this:

```{eval-rst}
.. click:example::

    import sys

    @click.command()
    @click.option('--upper', 'transformation', flag_value='upper', default=True)
    @click.option('--lower', 'transformation', flag_value='lower')
    def info(transformation):
        click.echo(getattr(sys.platform, transformation)())

.. click:run::

    invoke(info, args=['--help'])
    invoke(info, args=['--upper'])
    invoke(info, args=['--lower'])
    invoke(info)
```

### How `default` and `flag_value` interact

The `default` value is given to the underlying function
as-is. So if you set `default=None`, the function receives
`None`. Same for any other type.

But there is a special case for **non-boolean** flags: if a
flag has a non-boolean `flag_value` (like a string or a
class), then `default=True` is interpreted as *the flag
should be activated by default*. The function receives the
`flag_value`, not the Python `True`.

Which means, in the example above, this option:

```python
@click.option('--upper', 'transformation', flag_value='upper', default=True)
```

is equivalent to:

```python
@click.option('--upper', 'transformation', flag_value='upper', default='upper')
```

Because the two are equivalent, it is recommended to always
use the second form and set `default` to the actual value
you want. This makes code more explicit and predictable.

This special case does **not** apply to boolean flags (where
`flag_value` is `True` or `False`). For boolean flags,
`default=True` is the literal Python value `True`.

The tables below show the value received by the function for
each combination of `default`, `flag_value`, and whether
the flag was passed on the command line.

#### Boolean flags (`is_flag=True`, boolean `flag_value`)

These are flags where `flag_value` is `True` or `False`.
The `default` value is always passed through literally
without any special substitution.

| `default` | `flag_value` | Not passed | `--flag` passed |
|-----------|--------------|------------|-----------------|
| *(unset)* | *(unset)*    | `False`    | `True`          |
| `True`    | *(unset)*    | `True`     | `True`          |
| `False`   | *(unset)*    | `False`    | `True`          |
| `None`    | *(unset)*    | `None`     | `True`          |
| `True`    | `True`       | `True`     | `True`          |
| `True`    | `False`      | `True`     | `False`         |
| `False`   | `True`       | `False`    | `True`          |
| `False`   | `False`      | `False`    | `False`         |
| `None`    | `True`       | `None`     | `True`          |
| `None`    | `False`      | `None`     | `False`         |

````{tip}
For a negative flag that defaults to off, prefer the
explicit pair form `--with-xyz/--without-xyz` over the
single-flag `flag_value=False, default=True`:

```python
@click.option('--with-xyz/--without-xyz', 'enable_xyz', default=True)
```
````

#### Boolean flag pairs (`--flag/--no-flag`)

These use secondary option names to provide both an on and
off switch. The `default` value is always literal.

| `default` | Not passed | `--flag` | `--no-flag` |
|-----------|------------|----------|-------------|
| *(unset)* | `False`    | `True`   | `False`     |
| `True`    | `True`     | `True`   | `False`     |
| `False`   | `False`    | `True`   | `False`     |
| `None`    | `None`     | `True`   | `False`     |

#### Non-boolean feature switches (`flag_value` is a string, class, etc.)

For these flags, `default=True` is a **special case**: it
means "activate this flag by default" and resolves to the
`flag_value`. All other `default` values are passed through
literally.

| `default`  | `flag_value` | Not passed  | `--flag` passed |
|------------|--------------|-------------|-----------------|
| *(unset)*  | `"upper"`    | `None`      | `"upper"`       |
| `True`     | `"upper"`    | `"upper"`¹  | `"upper"`       |
| `"lower"`  | `"upper"`    | `"lower"`   | `"upper"`       |
| `None`     | `"upper"`    | `None`      | `"upper"`       |

```{hint}
¹: `default=True` is substituted with `flag_value`.
```

#### Feature switch groups (multiple flags sharing one variable)

When multiple `flag_value` options target the same parameter
name, `default=True` on one of them marks it as the default
choice.

| Definition                                             | Not passed | `--upper` | `--lower` |
|--------------------------------------------------------|------------|-----------|-----------|
| `--upper` with `flag_value='upper'`, `default=True`    | `"upper"`  | `"upper"` | `"lower"` |
| `--upper` with `flag_value='upper'`, `default='upper'` | `"upper"`  | `"upper"` | `"lower"` |
| Both without `default`                                 | `None`     | `"upper"` | `"lower"` |

## Values from Environment Variables

To pass in a value from a specific environment variable use `envvar`.

```{eval-rst}
.. click:example::

    @click.command()
    @click.option('--username', envvar='USERNAME')
    def greet(username):
       click.echo(f"Hello {username}!")

.. click:run::

    invoke(greet, env={'USERNAME': 'john'})
```

If a list is passed to `envvar`, the first environment variable found is picked.

```{eval-rst}
.. click:example::

    @click.command()
    @click.option('--username', envvar=['ALT_USERNAME', 'USERNAME'])
    def greet(username):
       click.echo(f"Hello {username}!")

.. click:run::

    invoke(greet, env={'ALT_USERNAME': 'Bill', 'USERNAME': 'john'})

```

Variable names are:
 - [Case-insensitive on Windows but not on other platforms](https://github.com/python/cpython/blob/aa9eb5f757ceff461e6e996f12c89e5d9b583b01/Lib/os.py#L777-L789).
 - Not stripped of whitespace and should match the exact name provided to the
   `envvar` argument.

For flag options, there are two concepts to consider: the activation of the flag
driven by the environment variable, and the value of the flag if it is
activated.

The values read from environment variables are always strings and will require
extra processing. We need to transform these strings into boolean values that
will determine if the flag is activated or not.

Here are the rules used to parse environment variable values for flag options:
   - `true`, `1`, `yes`, `on`, `t`, `y` are interpreted as activating the flag
   - `false`, `0`, `no`, `off`, `f`, `n` are interpreted as deactivating the
     flag
   - The presence of the environment variable without value is interpreted as
     deactivating the flag
   - Empty strings are interpreted as deactivating the flag
   - Values are case-insensitive, so the `True`, `TRUE`, `tRuE` strings are all
     interpreted as activating the flag
   - Values are stripped of leading and trailing whitespace before being
     interpreted, so the `" True "` string is transformed to `"true"` and thus
     activates the flag
   - If the flag option has a `flag_value` argument, passing that value in the
     environment variable will activate the flag, in addition to all the cases
     described above
   - Any other value is interpreted as deactivating the flag

```{caution}
For boolean flags with a pair of values, the only recognized environment variable is the one provided to the `envvar` argument.

So an option defined as `--flag\--no-flag`, with a `envvar="FLAG"` parameter, there is no magical `NO_FLAG=<anything>` variable that is recognized. Only the `FLAG=<anything>` environment variable is recognized.
```

If the flag is activated, its value is set to `flag_value`. Otherwise, the value
defaults to `None`.

## Multiple Options from Environment Values

As options can accept multiple values, pulling in such values from
environment variables (which are strings) is a bit more complex. Click handles
this by deferring customization of the behavior to the `type`. For both
`multiple` and `nargs` with values other than
`1`, Click will invoke the {meth}`ParamType.split_envvar_value` method to
perform the splitting.

The default implementation for all types is to split on whitespace. The
exceptions to this rule are the {class}`File` and {class}`Path` types
which both split according to the operating system's path splitting rules.
On Unix systems like Linux and OS X, the splitting happens on
every colon (`:`), and for Windows, splitting on every semicolon (`;`).

```{eval-rst}
.. click:example::

    @click.command()
    @click.option('paths', '--path', envvar='PATHS', multiple=True,
                  type=click.Path())
    def perform(paths):
        for path in paths:
            click.echo(path)

    if __name__ == '__main__':
        perform()

.. click:run::

    import os
    invoke(perform, env={"PATHS": f"./foo/bar{os.path.pathsep}./test"})
```

## Other Prefix Characters

Click can deal with prefix characters besides `-` for options, including `/` and
`+`, as well as others. Note that alternative prefix characters are generally
used very sparingly if at all within POSIX.

```{eval-rst}
.. click:example::

    @click.command()
    @click.option('+w/-w')
    def chmod(w):
        click.echo(f"writable={w}")

.. click:run::

    invoke(chmod, args=['+w'])
    invoke(chmod, args=['-w'])
```

There are special considerations for using `/` as prefix character. See
{ref}`option-boolean-flag` for more.

(optional-value)=

## Optional Value

Providing the value to an option can be made optional, in which case
providing only the option's flag without a value will either show a
prompt or use its `flag_value`.

Setting `is_flag=False, flag_value=value` tells Click that the option
can still be passed a value, but if only the flag is given, the
value will be `flag_value`.

```{eval-rst}
.. click:example::

    @click.command()
    @click.option("--name", is_flag=False, flag_value="Flag", default="Default")
    def hello(name):
        click.echo(f"Hello, {name}!")

.. click:run::

    invoke(hello, args=[])
    invoke(hello, args=["--name", "Value"])
    invoke(hello, args=["--name"])
```
