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Asking for input (prompts)

This page is about building prompts. Pieces of code that we can embed in a program for asking the user for input. Even if you want to use prompt_toolkit for building full screen terminal applications, it is probably still a good idea to read this first, before heading to the :ref:`building full screen applications <full_screen_applications>` page.

In this page, we will cover autocompletion, syntax highlighting, key bindings, and so on.

Hello world

The following snippet is the most simple example, it uses the :func:`~prompt_toolkit.shortcuts.prompt` function to asks the user for input and returns the text. Just like (raw_)input.

from __future__ import unicode_literals
from prompt_toolkit import prompt

text = prompt('Give me some input: ')
print('You said: %s' % text)

../images/hello-world-prompt.png

What we get here is a simple prompt that supports the Emacs key bindings like readline, but further nothing special. However, :func:`~prompt_toolkit.shortcuts.prompt` has a lot of configuration options. In the following sections, we will discover all these parameters.

Note

prompt_toolkit expects unicode strings everywhere. If you are using Python 2, make sure that all strings which are passed to prompt_toolkit are unicode strings (and not bytes). Either use from __future__ import unicode_literals or explicitly put a small 'u' in front of every string.

The PromptSession object

Instead of calling the :func:`~prompt_toolkit.shortcuts.prompt` function, it's also possible to create a :class:`~prompt_toolkit.shortcuts.PromptSession` instance followed by calling its :meth:`~prompt_toolkit.shortcuts.PromptSession.prompt` method for every input call. This creates a kind of an input session.

from prompt_toolkit import PromptSession

# Create prompt object.
session = PromptSession()

# Do multiple input calls.
text1 = session.prompt()
text2 = session.prompt()

This has mainly two advantages:

Syntax highlighting

Adding syntax highlighting is as simple as adding a lexer. All of the Pygments lexers can be used after wrapping them in a :class:`~prompt_toolkit.lexers.PygmentsLexer`. It is also possible to create a custom lexer by implementing the :class:`~prompt_toolkit.lexers.Lexer` abstract base class.

from pygments.lexers.html import HtmlLexer
from prompt_toolkit.shortcuts import prompt
from prompt_toolkit.lexers import PygmentsLexer

text = prompt('Enter HTML: ', lexer=PygmentsLexer(HtmlLexer))
print('You said: %s' % text)

../images/html-input.png

The default Pygments colorscheme is included as part of the default style in prompt_toolkit. If you want to use another Pygments style along with the lexer, you can do the following:

from pygments.lexers.html import HtmlLexer
from pygments.styles import get_style_by_name
from prompt_toolkit.shortcuts import prompt
from prompt_toolkit.lexers import PygmentsLexer
from prompt_toolkit.styles.pygments import style_from_pygments_cls

style = style_from_pygments_cls(get_style_by_name('monokai'))
text = prompt('Enter HTML: ', lexer=PygmentsLexer(HtmlLexer), style=style,
              include_default_pygments_style=False)
print('You said: %s' % text)

We pass include_default_pygments_style=False, because otherwise, both styles will be merged, possibly giving slightly different colors in the outcome for cases where where our custom Pygments style doesn't specify a color.

Colors

The colors for syntax highlighting are defined by a :class:`~prompt_toolkit.styles.Style` instance. By default, a neutral built-in style is used, but any style instance can be passed to the :func:`~prompt_toolkit.shortcuts.prompt` function. A simple way to create a style, is by using the :meth:`~prompt_toolkit.styles.Style.from_dict` function:

from pygments.lexers.html import HtmlLexer
from prompt_toolkit.shortcuts import prompt
from prompt_toolkit.styles import Style
from prompt_toolkit.lexers import PygmentsLexer

our_style = Style.from_dict({
    'pygments.comment':   '#888888 bold',
    'pygments.keyword':   '#ff88ff bold',
})

text = prompt('Enter HTML: ', lexer=PygmentsLexer(HtmlLexer),
              style=our_style)

The style dictionary is very similar to the Pygments styles dictionary, with a few differences:

  • The roman, sans, mono and border options are ignored.
  • The style has a few additions: blink, noblink, reverse and noreverse.
  • Colors can be in the #ff0000 format, but they can be one of the built-in ANSI color names as well. In that case, they map directly to the 16 color palette of the terminal.

:ref:`Read more about styling <styling>`.

Using a Pygments style

All Pygments style classes can be used as well, when they are wrapped through :func:`~prompt_toolkit.styles.style_from_pygments_cls`.

Suppose we'd like to use a Pygments style, for instance pygments.styles.tango.TangoStyle, that is possible like this:

Creating a custom style could be done like this:

from prompt_toolkit.shortcuts import prompt
from prompt_toolkit.styles import style_from_pygments_cls, merge_styles
from prompt_toolkit.lexers import PygmentsLexer

from pygments.styles.tango import TangoStyle
from pygments.lexers.html import HtmlLexer

our_style = merge_styles([
    style_from_pygments_cls(TangoStyle),
    Style.from_dict({
        'pygments.comment': '#888888 bold',
        'pygments.keyword': '#ff88ff bold',
    })
])

text = prompt('Enter HTML: ', lexer=PygmentsLexer(HtmlLexer),
              style=our_style)

Coloring the prompt itself

It is possible to add some colors to the prompt itself. For this, we need to build some :ref:`formatted text <formatted_text>`. One way of doing this is by creating a list of style/text tuples. In the following example, we use class names to refer to the style.

from prompt_toolkit.shortcuts import prompt
from prompt_toolkit.styles import Style

style = Style.from_dict({
    # User input (default text).
    '':          '#ff0066',

    # Prompt.
    'username': '#884444',
    'at':       '#00aa00',
    'colon':    '#0000aa',
    'pound':    '#00aa00',
    'host':     '#00ffff bg:#444400',
    'path':     'ansicyan underline',
})

message = [
    ('class:username', 'john'),
    ('class:at',       '@'),
    ('class:host',     'localhost'),
    ('class:colon',    ':'),
    ('class:path',     '/user/john'),
    ('class:pound',    '# '),
]

text = prompt(message, style=style)

../images/colored-prompt.png

The message can be any kind of formatted text, as discussed :ref:`here <formatted_text>`. It can also be a callable that returns some formatted text.

By default, colors are taking from the 256 color palette. If you want to have 24bit true color, this is possible by adding the true_color=True option to the :func:`~prompt_toolkit.shortcuts.prompt.prompt` function.

text = prompt(message, style=style, true_color=True)

Autocompletion

Autocompletion can be added by passing a completer parameter. This should be an instance of the :class:`~prompt_toolkit.completion.Completer` abstract base class. :class:`~prompt_toolkit.completion.WordCompleter` is an example of a completer that implements that interface.

from prompt_toolkit import prompt
from prompt_toolkit.completion import WordCompleter

html_completer = WordCompleter(['<html>', '<body>', '<head>', '<title>'])
text = prompt('Enter HTML: ', completer=html_completer)
print('You said: %s' % text)

:class:`~prompt_toolkit.completion.WordCompleter` is a simple completer that completes the last word before the cursor with any of the given words.

../images/html-completion.png

Note

Note that in prompt_toolkit 2.0, the auto completion became synchronous. This means that if it takes a long time to compute the completions, that this will block the event loop and the input processing.

For heavy completion algorithms, it is recommended to wrap the completer in a :class:`~prompt_toolkit.completion.ThreadedCompleter` in order to run it in a background thread.

Nested completion

Sometimes you have a command line interface where the completion depends on the previous words from the input. Examples are the CLIs from routers and switches. A simple :class:`~prompt_toolkit.completion.WordCompleter` is not enough in that case. We want to to be able to define completions at multiple hierarchical levels. :class:`~prompt_toolkit.completion.NestedCompleter` solves this issue:

from prompt_toolkit import prompt
from prompt_toolkit.completion import NestedCompleter

completer = NestedCompleter.from_nested_dict({
    'show': {
        'version': None,
        'clock': None,
        'ip': {
            'interface': {'brief'}
        }
    },
    'exit': None,
})

text = prompt('# ', completer=completer)
print('You said: %s' % text)

Whenever there is a None value in the dictionary, it means that there is no further nested completion at that point. When all values of a dictionary would be None, it can also be replaced with a set.

A custom completer

For more complex examples, it makes sense to create a custom completer. For instance:

from prompt_toolkit import prompt
from prompt_toolkit.completion import Completer, Completion

class MyCustomCompleter(Completer):
    def get_completions(self, document, complete_event):
        yield Completion('completion', start_position=0)

text = prompt('> ', completer=MyCustomCompleter())

A :class:`~prompt_toolkit.completion.Completer` class has to implement a generator named :meth:`~prompt_toolkit.completion.Completer.get_completions` that takes a :class:`~prompt_toolkit.document.Document` and yields the current :class:`~prompt_toolkit.completion.Completion` instances. Each completion contains a portion of text, and a position.

The position is used for fixing text before the cursor. Pressing the tab key could for instance turn parts of the input from lowercase to uppercase. This makes sense for a case insensitive completer. Or in case of a fuzzy completion, it could fix typos. When start_position is something negative, this amount of characters will be deleted and replaced.

Styling individual completions

Each completion can provide a custom style, which is used when it is rendered in the completion menu or toolbar. This is possible by passing a style to each :class:`~prompt_toolkit.completion.Completion` instance.

from prompt_toolkit.completion import Completer, Completion

class MyCustomCompleter(Completer):
    def get_completions(self, document, complete_event):
        # Display this completion, black on yellow.
        yield Completion('completion1', start_position=0,
                         style='bg:ansiyellow fg:ansiblack')

        # Underline completion.
        yield Completion('completion2', start_position=0,
                         style='underline')

        # Specify class name, which will be looked up in the style sheet.
        yield Completion('completion3', start_position=0,
                         style='class:special-completion')

The "colorful-prompts.py" example uses completion styling:

../images/colorful-completions.png

Finally, it is possible to pass :ref:`formatted text <formatted_text>` for the display attribute of a :class:`~prompt_toolkit.completion.Completion`. This provides all the freedom you need to display the text in any possible way. It can also be combined with the style attribute. For instance:

from prompt_toolkit.completion import Completer, Completion
from prompt_toolkit.formatted_text import HTML

class MyCustomCompleter(Completer):
    def get_completions(self, document, complete_event):
        yield Completion(
            'completion1', start_position=0,
            display=HTML('<b>completion</b><ansired>1</ansired>'),
            style='bg:ansiyellow')

Fuzzy completion

If one possible completions is "django_migrations", a fuzzy completer would allow you to get this by typing "djm" only, a subset of characters for this string.

Prompt_toolkit ships with a :class:`~prompt_toolkit.completion.FuzzyCompleter` and :class:`~prompt_toolkit.completion.FuzzyWordCompleter` class. These provide the means for doing this kind of "fuzzy completion". The first one can take any completer instance and wrap it so that it becomes a fuzzy completer. The second one behaves like a :class:`~prompt_toolkit.completion.WordCompleter` wrapped into a :class:`~prompt_toolkit.completion.FuzzyCompleter`.

Complete while typing

Autcompletions can be generated automatically while typing or when the user presses the tab key. This can be configured with the complete_while_typing option:

text = prompt('Enter HTML: ', completer=my_completer,
              complete_while_typing=True)

Notice that this setting is incompatible with the enable_history_search option. The reason for this is that the up and down key bindings would conflict otherwise. So, make sure to disable history search for this.

Asynchronous completion

When generating the completions takes a lot of time, it's better to do this in a background thread. This is possible by wrapping the completer in a :class:`~prompt_toolkit.completion.ThreadedCompleter`, but also by passing the complete_in_thread=True argument.

text = prompt('> ', completer=MyCustomCompleter(), complete_in_thread=True)

Input validation

A prompt can have a validator attached. This is some code that will check whether the given input is acceptable and it will only return it if that's the case. Otherwise it will show an error message and move the cursor to a given position.

A validator should implements the :class:`~prompt_toolkit.validation.Validator` abstract base class. This requires only one method, named validate that takes a :class:`~prompt_toolkit.document.Document` as input and raises :class:`~prompt_toolkit.validation.ValidationError` when the validation fails.

from prompt_toolkit.validation import Validator, ValidationError
from prompt_toolkit import prompt

class NumberValidator(Validator):
    def validate(self, document):
        text = document.text

        if text and not text.isdigit():
            i = 0

            # Get index of fist non numeric character.
            # We want to move the cursor here.
            for i, c in enumerate(text):
                if not c.isdigit():
                    break

            raise ValidationError(message='This input contains non-numeric characters',
                                  cursor_position=i)

number = int(prompt('Give a number: ', validator=NumberValidator()))
print('You said: %i' % number)

../images/number-validator.png

By default, the input is only validated when the user presses the enter key, but prompt_toolkit can also validate in real-time while typing:

prompt('Give a number: ', validator=NumberValidator(),
       validate_while_typing=True)

If the input validation contains some heavy CPU intensive code, but you don't want to block the event loop, then it's recommended to wrap the validator class in a :class:`~prompt_toolkit.validation.ThreadedValidator`.

Validator from a callable

Instead of implementing the :class:`~prompt_toolkit.validation.Validator` abstract base class, it is also possible to start from a simple function and use the :meth:`~prompt_toolkit.validation.Validator.from_callable` classmethod. This is easier and sufficient for probably 90% of the validators. It looks as follows:

from prompt_toolkit.validation import Validator
from prompt_toolkit import prompt

def is_number(text):
    return text.isdigit()

validator = Validator.from_callable(
    is_number,
    error_message='This input contains non-numeric characters',
    move_cursor_to_end=True)

number = int(prompt('Give a number: ', validator=validator))
print('You said: %i' % number)

We define a function that takes a string, and tells whether it's valid input or not by returning a boolean. :meth:`~prompt_toolkit.validation.Validator.from_callable` turns that into a :class:`~prompt_toolkit.validation.Validator` instance. Notice that setting the cursor position is not possible this way.

History

A :class:`~prompt_toolkit.history.History` object keeps track of all the previously entered strings, so that the up-arrow can reveal previously entered items.

The recommended way is to use a :class:`~prompt_toolkit.shortcuts.PromptSession`, which uses an :class:`~prompt_toolkit.history.InMemoryHistory` for the entire session by default. The following example has a history out of the box:

from prompt_toolkit import PromptSession

session = PromptSession()

while True:
    session.prompt()

To persist a history to disk, use a :class:`~prompt_toolkit.history.FileHistory` instead of the default :class:`~prompt_toolkit.history.InMemoryHistory`. This history object can be passed either to a :class:`~prompt_toolkit.shortcuts.PromptSession` or to the :meth:`~prompt_toolkit.shortcuts.prompt` function. For instance:

from prompt_toolkit import PromptSession
from prompt_toolkit.history import FileHistory

session = PromptSession(history=FileHistory('~/.myhistory'))

while True:
    session.prompt()

Auto suggestion

Auto suggestion is a way to propose some input completions to the user like the fish shell.

Usually, the input is compared to the history and when there is another entry starting with the given text, the completion will be shown as gray text behind the current input. Pressing the right arrow or c-e will insert this suggestion, alt-f will insert the first word of the suggestion.

Note

When suggestions are based on the history, don't forget to share one :class:`~prompt_toolkit.history.History` object between consecutive :func:`~prompt_toolkit.shortcuts.prompt` calls. Using a :class:`~prompt_toolkit.shortcuts.PromptSession` does this for you.

Example:

from prompt_toolkit import PromptSession
from prompt_toolkit.history import InMemoryHistory
from prompt_toolkit.auto_suggest import AutoSuggestFromHistory

session = PromptSession()

while True:
    text = session.prompt('> ', auto_suggest=AutoSuggestFromHistory())
    print('You said: %s' % text)

../images/auto-suggestion.png

A suggestion does not have to come from the history. Any implementation of the :class:`~prompt_toolkit.auto_suggest.AutoSuggest` abstract base class can be passed as an argument.

Adding a bottom toolbar

Adding a bottom toolbar is as easy as passing a bottom_toolbar argument to :func:`~prompt_toolkit.shortcuts.prompt`. This argument be either plain text, :ref:`formatted text <formatted_text>` or a callable that returns plain or formatted text.

When a function is given, it will be called every time the prompt is rendered, so the bottom toolbar can be used to display dynamic information.

The toolbar is always erased when the prompt returns. Here we have an example of a callable that returns an :class:`~prompt_toolkit.formatted_text.HTML` object. By default, the toolbar has the reversed style, which is why we are setting the background instead of the foreground.

from prompt_toolkit import prompt
from prompt_toolkit.formatted_text import HTML

def bottom_toolbar():
    return HTML('This is a <b><style bg="ansired">Toolbar</style></b>!')

text = prompt('> ', bottom_toolbar=bottom_toolbar)
print('You said: %s' % text)

../images/bottom-toolbar.png

Similar, we could use a list of style/text tuples.

from prompt_toolkit import prompt
from prompt_toolkit.styles import Style

def bottom_toolbar():
    return [('class:bottom-toolbar', ' This is a toolbar. ')]

style = Style.from_dict({
    'bottom-toolbar': '#ffffff bg:#333333',
})

text = prompt('> ', bottom_toolbar=bottom_toolbar, style=style)
print('You said: %s' % text)

The default class name is bottom-toolbar and that will also be used to fill the background of the toolbar.

Adding a right prompt

The :func:`~prompt_toolkit.shortcuts.prompt` function has out of the box support for right prompts as well. People familiar to ZSH could recognise this as the RPROMPT option.

So, similar to adding a bottom toolbar, we can pass an rprompt argument. This can be either plain text, :ref:`formatted text <formatted_text>` or a callable which returns either.

from prompt_toolkit import prompt
from prompt_toolkit.styles import Style

example_style = Style.from_dict({
    'rprompt': 'bg:#ff0066 #ffffff',
})

def get_rprompt():
    return '<rprompt>'

answer = prompt('> ', rprompt=get_rprompt, style=example_style)

../images/rprompt.png

The get_rprompt function can return any kind of formatted text such as :class:`~prompt_toolkit.formatted_text.HTML`. it is also possible to pass text directly to the rprompt argument of the :func:`~prompt_toolkit.shortcuts.prompt` function. It does not have to be a callable.

Vi input mode

Prompt-toolkit supports both Emacs and Vi key bindings, similar to Readline. The :func:`~prompt_toolkit.shortcuts.prompt` function will use Emacs bindings by default. This is done because on most operating systems, also the Bash shell uses Emacs bindings by default, and that is more intuitive. If however, Vi binding are required, just pass vi_mode=True.

from prompt_toolkit import prompt

prompt('> ', vi_mode=True)

Adding custom key bindings

By default, every prompt already has a set of key bindings which implements the usual Vi or Emacs behaviour. We can extend this by passing another :class:`~prompt_toolkit.key_binding.KeyBindings` instance to the key_bindings argument of the :func:`~prompt_toolkit.shortcuts.prompt` function or the :class:`~prompt_toolkit.shortcuts.PromptSession` class.

An example of a prompt that prints 'hello world' when Control-T is pressed.

from prompt_toolkit import prompt
from prompt_toolkit.application import run_in_terminal
from prompt_toolkit.key_binding import KeyBindings

bindings = KeyBindings()

@bindings.add('c-t')
def _(event):
    " Say 'hello' when `c-t` is pressed. "
    def print_hello():
        print('hello world')
    run_in_terminal(print_hello)

@bindings.add('c-x')
def _(event):
    " Exit when `c-x` is pressed. "
    event.app.exit()

text = prompt('> ', key_bindings=bindings)
print('You said: %s' % text)

Note that we use :meth:`~prompt_toolkit.application.run_in_terminal` for the first key binding. This ensures that the output of the print-statement and the prompt don't mix up. If the key bindings doesn't print anything, then it can be handled directly without nesting functions.

Enable key bindings according to a condition

Often, some key bindings can be enabled or disabled according to a certain condition. For instance, the Emacs and Vi bindings will never be active at the same time, but it is possible to switch between Emacs and Vi bindings at run time.

In order to enable a key binding according to a certain condition, we have to pass it a :class:`~prompt_toolkit.filters.Filter`, usually a :class:`~prompt_toolkit.filters.Condition` instance. (:ref:`Read more about filters <filters>`.)

from prompt_toolkit import prompt
from prompt_toolkit.filters import Condition
from prompt_toolkit.key_binding import KeyBindings

bindings = KeyBindings()

@Condition
def is_active():
    " Only activate key binding on the second half of each minute. "
    return datetime.datetime.now().second > 30

@bindings.add('c-t', filter=is_active)
def _(event):
    # ...
    pass

prompt('> ', key_bindings=bindings)

Dynamically switch between Emacs and Vi mode

The :class:`~prompt_toolkit.application.Application` has an editing_mode attribute. We can change the key bindings by changing this attribute from EditingMode.VI to EditingMode.EMACS.

from prompt_toolkit import prompt
from prompt_toolkit.application.current import get_app
from prompt_toolkit.enums import EditingMode
from prompt_toolkit.key_binding import KeyBindings

def run():
    # Create a set of key bindings.
    bindings = KeyBindings()

    # Add an additional key binding for toggling this flag.
    @bindings.add('f4')
    def _(event):
        " Toggle between Emacs and Vi mode. "
        app = event.app

        if app.editing_mode == EditingMode.VI:
            app.editing_mode = EditingMode.EMACS
        else:
            app.editing_mode = EditingMode.VI

    # Add a toolbar at the bottom to display the current input mode.
    def bottom_toolbar():
        " Display the current input mode. "
        text = 'Vi' if get_app().editing_mode == EditingMode.VI else 'Emacs'
        return [
            ('class:toolbar', ' [F4] %s ' % text)
        ]

    prompt('> ', key_bindings=bindings, bottom_toolbar=bottom_toolbar)

run()

:ref:`Read more about key bindings ...<key_bindings>`

Using control-space for completion

An popular short cut that people sometimes use it to use control-space for opening the autocompletion menu instead of the tab key. This can be done with the following key binding.

kb = KeyBindings()

@kb.add('c-space')
def _(event):
    " Initialize autocompletion, or select the next completion. "
    buff = event.app.current_buffer
    if buff.complete_state:
        buff.complete_next()
    else:
        buff.start_completion(select_first=False)

Other prompt options

Multiline input

Reading multiline input is as easy as passing the multiline=True parameter.

from prompt_toolkit import prompt

prompt('> ', multiline=True)

A side effect of this is that the enter key will now insert a newline instead of accepting and returning the input. The user will now have to press Meta+Enter in order to accept the input. (Or Escape followed by Enter.)

It is possible to specify a continuation prompt. This works by passing a prompt_continuation callable to :func:`~prompt_toolkit.shortcuts.prompt`. This function is supposed to return :ref:`formatted text <formatted_text>`, or a list of (style, text) tuples. The width of the returned text should not exceed the given width. (The width of the prompt margin is defined by the prompt.)

from prompt_toolkit import prompt

def prompt_continuation(width, line_number, is_soft_wrap):
    return '.' * width
    # Or: return [('', '.' * width)]

prompt('multiline input> ', multiline=True,
       prompt_continuation=prompt_continuation)

../images/multiline-input.png

Passing a default

A default value can be given:

from prompt_toolkit import prompt
import getpass

prompt('What is your name: ', default='%s' % getpass.getuser())

Mouse support

There is limited mouse support for positioning the cursor, for scrolling (in case of large multiline inputs) and for clicking in the autocompletion menu.

Enabling can be done by passing the mouse_support=True option.

from prompt_toolkit import prompt
import getpass

prompt('What is your name: ', mouse_support=True)

Line wrapping

Line wrapping is enabled by default. This is what most people are used to and this is what GNU Readline does. When it is disabled, the input string will scroll horizontally.

from prompt_toolkit import prompt
import getpass

prompt('What is your name: ', wrap_lines=False)

Password input

When the is_password=True flag has been given, the input is replaced by asterisks (* characters).

from prompt_toolkit import prompt
import getpass

prompt('Enter password: ', is_password=True)

Prompt in an asyncio application

Note

New in prompt_toolkit 3.0. (In prompt_toolkit 2.0 this was possible using a work-around).

For asyncio applications, it's very important to never block the eventloop. However, :func:`~prompt_toolkit.shortcuts.prompt` is blocking, and calling this would freeze the whole application. Asyncio actually won't even allow us to run that function within a coroutine.

The answer is to call :meth:`~prompt_toolkit.shortcuts.PromptSession.prompt_async` instead of :meth:`~prompt_toolkit.shortcuts.PromptSession.prompt`. The async variation returns a coroutines and is awaitable.

from prompt_toolkit import PromptSession
from prompt_toolkit.patch_stdout import patch_stdout

async def my_coroutine():
    session = PromptSession()
    while True:
        with patch_stdout():
            result = await session.prompt_async('Say something: ')
        print('You said: %s' % result)

The :func:`~prompt_toolkit.patch_stdout.patch_stdout` context manager is optional, but it's recommended, because other coroutines could print to stdout. This ensures that other output won't destroy the prompt.

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