Exemple #1
0
    def create_application(self):

        # Default key bindings.
        open_in_editor_bindings = load_open_in_editor_bindings()
        prompt_bindings = create_prompt_bindings()

        self.app = Application(
            layout=self.create_layout(),
            style=merge_styles([
                default_style(),
                DynamicStyle(lambda: self.style),
            ]),
            key_bindings=merge_key_bindings([
                merge_key_bindings([
                    ConditionalKeyBindings(
                        open_in_editor_bindings,
                        to_filter(self.enable_open_in_editor)
                        & has_focus(DEFAULT_BUFFER)), prompt_bindings
                ]),
                DynamicKeyBindings(lambda: self.extra_key_bindings),
            ]),
            editing_mode=self.editing_mode,
            reverse_vi_search_direction=True,
            on_render=self.on_render,
            input=self.input,
            output=self.output)

        self.app.mp = self
Exemple #2
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    def __init__(self,
                 host='127.0.0.1',
                 port=23,
                 interact=None,
                 encoding='utf-8',
                 style=None):
        assert isinstance(host, text_type)
        assert isinstance(port, int)
        assert callable(interact)
        assert isinstance(encoding, text_type)

        if style is None:
            style = default_style()
        assert isinstance(style, BaseStyle)

        self.host = host
        self.port = port
        self.interact = interact
        self.encoding = encoding
        self.style = style

        self.connections = set()
        self._listen_socket = None
Exemple #3
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def print(*values, **kwargs):
    """
    ::
        print(*values, sep=' ', end='\n', file=None, flush=False, style=None, output=None)

    Print text to stdout. This is supposed to be compatible with Python's print
    function, but supports printing of formatted text. You can pass a
    ``FormattedText``, ``HTML`` or ``ANSI`` object to print formatted text.

    * Print HTML as follows::

        print(HTML('<i>Some italic text</i> <ansired>This is red!</ansired>'))

        style = Style.from_dict({
            'hello': '#ff0066',
            'world': '#884444 italic',
        })
        print(HTML('<hello>Hello</hello> <world>world</world>!'), style=style)

    * Print a list of (style_str, text) tuples in the given style to the
      output.  E.g.::

        style = Style.from_dict({
            'hello': '#ff0066',
            'world': '#884444 italic',
        })
        fragments = FormattedText([
            ('class:hello', 'Hello'),
            ('class:world', 'World'),
        ])
        print(fragments, style=style)

    If you want to print a list of Pygments tokens, use
    ``prompt_toolkit.style.token_list_to_formatted_text`` to do the conversion.

    :param values: Any kind of printable object, or formatted string.
    :param sep: String inserted between values, default a space.
    :param end: String appended after the last value, default a newline.
    :param style: :class:`.Style` instance for the color scheme.
    """
    # Pop kwargs (Python 2 compatibility).
    sep = kwargs.pop('sep', ' ')
    end = kwargs.pop('end', '\n')
    file = kwargs.pop('file', None)
    flush = kwargs.pop('flush', False)
    style = kwargs.pop('style', None)
    output = kwargs.pop('output', None)
    assert not kwargs
    assert not (output and file)

    # Other defaults.
    if style is None:
        style = default_style()

    if output is None:
        if file:
            output = create_output(stdout=file)
        else:
            output = get_default_output()

    assert isinstance(style, BaseStyle)
    assert isinstance(output, Output)

    # Merges values.
    def to_text(val):
        if isinstance(val, list):
            return to_formatted_text('{0}'.format(val))
        return to_formatted_text(val, auto_convert=True)

    fragments = []
    for i, value in enumerate(values):
        fragments.extend(to_text(value))

        if sep and i != len(values) - 1:
            fragments.extend(to_text(sep))

    fragments.extend(to_text(end))

    # Print output.
    renderer_print_formatted_text(output, fragments, style)

    # Flush the output stream.
    if flush:
        output.flush()
Exemple #4
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    def __init__(
            self,
            layout=None,
            style=None,
            key_bindings=None,
            clipboard=None,
            full_screen=False,
            mouse_support=False,
            enable_page_navigation_bindings=False,
            paste_mode=False,
            editing_mode=EditingMode.EMACS,
            erase_when_done=False,
            reverse_vi_search_direction=False,
            min_redraw_interval=None,
            max_render_postpone_time=0,
            on_reset=None,
            on_render=None,
            on_invalidate=None,

            # I/O.
            input=None,
            output=None):

        paste_mode = to_filter(paste_mode)
        mouse_support = to_filter(mouse_support)
        reverse_vi_search_direction = to_filter(reverse_vi_search_direction)
        enable_page_navigation_bindings = to_filter(
            enable_page_navigation_bindings)

        assert layout is None or isinstance(layout, Layout)
        assert key_bindings is None or isinstance(key_bindings,
                                                  KeyBindingsBase)
        assert clipboard is None or isinstance(clipboard, Clipboard)
        assert isinstance(full_screen, bool)
        assert isinstance(editing_mode, six.string_types)
        assert style is None or isinstance(style, BaseStyle)
        assert isinstance(erase_when_done, bool)
        assert min_redraw_interval is None or isinstance(
            min_redraw_interval, (float, int))
        assert max_render_postpone_time is None or isinstance(
            max_render_postpone_time, (float, int))

        assert on_reset is None or callable(on_reset)
        assert on_render is None or callable(on_render)
        assert on_invalidate is None or callable(on_invalidate)

        assert output is None or isinstance(output, Output)
        assert input is None or isinstance(input, Input)

        self.style = style

        if layout is None:
            layout = create_dummy_layout()

        # Key bindings.
        self.key_bindings = key_bindings
        self._default_bindings = load_key_bindings()
        self._page_navigation_bindings = load_page_navigation_bindings()

        self.layout = layout
        self.clipboard = clipboard or InMemoryClipboard()
        self.full_screen = full_screen
        self.mouse_support = mouse_support

        self.paste_mode = paste_mode
        self.editing_mode = editing_mode
        self.erase_when_done = erase_when_done
        self.reverse_vi_search_direction = reverse_vi_search_direction
        self.enable_page_navigation_bindings = enable_page_navigation_bindings
        self.min_redraw_interval = min_redraw_interval
        self.max_render_postpone_time = max_render_postpone_time

        # Events.
        self.on_invalidate = Event(self, on_invalidate)
        self.on_render = Event(self, on_render)
        self.on_reset = Event(self, on_reset)

        # I/O.
        self.output = output or get_default_output()
        self.input = input or get_default_input()

        # List of 'extra' functions to execute before a Application.run.
        self.pre_run_callables = []

        self._is_running = False
        self.future = None

        #: Quoted insert. This flag is set if we go into quoted insert mode.
        self.quoted_insert = False

        #: Vi state. (For Vi key bindings.)
        self.vi_state = ViState()

        #: When to flush the input (For flushing escape keys.) This is important
        #: on terminals that use vt100 input. We can't distinguish the escape
        #: key from for instance the left-arrow key, if we don't know what follows
        #: after "\x1b". This little timer will consider "\x1b" to be escape if
        #: nothing did follow in this time span.
        #: This seems to work like the `ttimeoutlen` option in Vim.
        self.input_timeout = .5

        #: The `Renderer` instance.
        # Make sure that the same stdout is used, when a custom renderer has been passed.
        self._merged_style = merge_styles([
            default_style(),
            DynamicStyle(lambda: self.style),
        ])

        self.renderer = Renderer(
            self._merged_style,
            self.output,
            full_screen=full_screen,
            mouse_support=mouse_support,
            cpr_not_supported_callback=self.cpr_not_supported_callback)

        #: Render counter. This one is increased every time the UI is rendered.
        #: It can be used as a key for caching certain information during one
        #: rendering.
        self.render_counter = 0

        # Invalidate flag. When 'True', a repaint has been scheduled.
        self._invalidated = False
        self._invalidate_events = [
        ]  # Collection of 'invalidate' Event objects.
        self._last_redraw_time = 0  # Unix timestamp of last redraw. Used when
        # `min_redraw_interval` is given.

        #: The `InputProcessor` instance.
        self.key_processor = KeyProcessor(_CombinedRegistry(self))

        # If `run_in_terminal` was called. This will point to a `Future` what will be
        # set at the point whene the previous run finishes.
        self._running_in_terminal = False
        self._running_in_terminal_f = None

        # Trigger initialize callback.
        self.reset()
Exemple #5
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    def _create_application(self, editing_mode, erase_when_done):
        def dyncond(attr_name):
            """
            Dynamically take this setting from this 'Prompt' class.
            `attr_name` represents an attribute name of this class. Its value
            can either be a boolean or a `Filter`.

            This returns something that can be used as either a `Filter`
            or `Filter`.
            """
            @Condition
            def dynamic():
                value = getattr(self, attr_name)
                return to_filter(value)()

            return dynamic

        # Create functions that will dynamically split the prompt. (If we have
        # a multiline prompt.)
        has_before_fragments, get_prompt_text_1, get_prompt_text_2 = \
            _split_multiline_prompt(self._get_prompt)

        # Create buffers list.
        def accept(buff):
            """ Accept the content of the default buffer. This is called when
            the validation succeeds. """
            self.app.set_return_value(buff.document.text)

            # Reset content before running again.
            self.app.pre_run_callables.append(buff.reset)

        default_buffer = Buffer(
            name=DEFAULT_BUFFER,
            # Make sure that complete_while_typing is disabled when
            # enable_history_search is enabled. (First convert to Filter,
            # to avoid doing bitwise operations on bool objects.)
            complete_while_typing=Condition(
                lambda: _true(self.complete_while_typing) and not _true(
                    self.enable_history_search) and not self.complete_style ==
                CompleteStyle.READLINE_LIKE),
            validate_while_typing=dyncond('validate_while_typing'),
            enable_history_search=dyncond('enable_history_search'),
            validator=DynamicValidator(lambda: self.validator),
            completer=DynamicCompleter(lambda: self.completer),
            history=DynamicHistory(lambda: self.history),
            auto_suggest=DynamicAutoSuggest(lambda: self.auto_suggest),
            accept_handler=accept,
            get_tempfile_suffix=lambda: self.tempfile_suffix)

        search_buffer = Buffer(name=SEARCH_BUFFER)

        # Create processors list.
        input_processor = merge_processors([
            ConditionalProcessor(
                # By default, only highlight search when the search
                # input has the focus. (Note that this doesn't mean
                # there is no search: the Vi 'n' binding for instance
                # still allows to jump to the next match in
                # navigation mode.)
                HighlightSearchProcessor(preview_search=True),
                has_focus(search_buffer)),
            HighlightSelectionProcessor(),
            ConditionalProcessor(AppendAutoSuggestion(),
                                 has_focus(default_buffer) & ~is_done),
            ConditionalProcessor(PasswordProcessor(), dyncond('is_password')),
            DisplayMultipleCursors(),

            # Users can insert processors here.
            DynamicProcessor(lambda: self.extra_input_processor),

            # For single line mode, show the prompt before the input.
            ConditionalProcessor(
                merge_processors([
                    BeforeInput(get_prompt_text_2),
                    ShowArg(),
                ]), ~dyncond('multiline'))
        ])

        # Create bottom toolbars.
        bottom_toolbar = ConditionalContainer(
            Window(FormattedTextControl(lambda: self.bottom_toolbar,
                                        style='class:bottom-toolbar.text'),
                   style='class:bottom-toolbar',
                   height=Dimension.exact(1)),
            filter=~is_done & renderer_height_is_known
            & Condition(lambda: self.bottom_toolbar is not None))

        search_toolbar = SearchToolbar(search_buffer)
        search_buffer_control = BufferControl(buffer=search_buffer,
                                              input_processor=merge_processors(
                                                  [
                                                      ReverseSearchProcessor(),
                                                      ShowArg(),
                                                  ]))

        system_toolbar = SystemToolbar()

        def get_search_buffer_control():
            " Return the UIControl to be focussed when searching start. "
            if _true(self.multiline):
                return search_toolbar.control
            else:
                return search_buffer_control

        default_buffer_control = BufferControl(
            buffer=default_buffer,
            get_search_buffer_control=get_search_buffer_control,
            input_processor=input_processor,
            lexer=DynamicLexer(lambda: self.lexer),
            preview_search=True)

        default_buffer_window = Window(
            default_buffer_control,
            height=self._get_default_buffer_control_height,
            left_margins=[
                # In multiline mode, use the window margin to display
                # the prompt and continuation fragments.
                ConditionalMargin(
                    PromptMargin(get_prompt_text_2, self._get_continuation),
                    filter=dyncond('multiline'),
                )
            ],
            wrap_lines=dyncond('wrap_lines'))

        @Condition
        def multi_column_complete_style():
            return self.complete_style == CompleteStyle.MULTI_COLUMN

        # Build the layout.
        layout = HSplit([
            # The main input, with completion menus floating on top of it.
            FloatContainer(
                HSplit([
                    ConditionalContainer(
                        Window(FormattedTextControl(get_prompt_text_1),
                               dont_extend_height=True),
                        Condition(has_before_fragments)),
                    ConditionalContainer(
                        default_buffer_window,
                        Condition(lambda: get_app().layout.current_control !=
                                  search_buffer_control),
                    ),
                    ConditionalContainer(
                        Window(search_buffer_control),
                        Condition(lambda: get_app().layout.current_control ==
                                  search_buffer_control),
                    ),
                ]),
                [
                    # Completion menus.
                    Float(xcursor=True,
                          ycursor=True,
                          content=CompletionsMenu(
                              max_height=16,
                              scroll_offset=1,
                              extra_filter=has_focus(default_buffer)
                              & ~multi_column_complete_style)),
                    Float(xcursor=True,
                          ycursor=True,
                          content=MultiColumnCompletionsMenu(
                              show_meta=True,
                              extra_filter=has_focus(default_buffer)
                              & multi_column_complete_style)),
                    # The right prompt.
                    Float(right=0,
                          top=0,
                          hide_when_covering_content=True,
                          content=_RPrompt(lambda: self.rprompt)),
                ]),
            ValidationToolbar(),
            ConditionalContainer(system_toolbar,
                                 dyncond('enable_system_prompt') & ~is_done),

            # In multiline mode, we use two toolbars for 'arg' and 'search'.
            ConditionalContainer(
                Window(FormattedTextControl(self._get_arg_text), height=1),
                dyncond('multiline') & has_arg),
            ConditionalContainer(search_toolbar, dyncond('multiline')),
            bottom_toolbar,
        ])

        # Default key bindings.
        auto_suggest_bindings = load_auto_suggest_bindings()
        open_in_editor_bindings = load_open_in_editor_bindings()
        prompt_bindings = self._create_prompt_bindings()

        # Create application
        application = Application(
            layout=Layout(layout, default_buffer_window),
            style=merge_styles([
                default_style(),
                DynamicStyle(lambda: self.style),
            ]),
            clipboard=DynamicClipboard(lambda: self.clipboard),
            key_bindings=merge_key_bindings([
                merge_key_bindings([
                    auto_suggest_bindings,
                    ConditionalKeyBindings(
                        open_in_editor_bindings,
                        dyncond('enable_open_in_editor')
                        & has_focus(DEFAULT_BUFFER)), prompt_bindings
                ]),
                ConditionalKeyBindings(
                    system_toolbar.get_global_key_bindings(),
                    dyncond('enable_system_prompt')),
                DynamicKeyBindings(lambda: self.extra_key_bindings),
            ]),
            mouse_support=dyncond('mouse_support'),
            editing_mode=editing_mode,
            erase_when_done=erase_when_done,
            reverse_vi_search_direction=True,

            # I/O.
            input=self.input,
            output=self.output)

        # During render time, make sure that we focus the right search control
        # (if we are searching). - This could be useful if people make the
        # 'multiline' property dynamic.
        '''
        def on_render(app):
            multiline = _true(self.multiline)
            current_control = app.layout.current_control

            if multiline:
                if current_control == search_buffer_control:
                    app.layout.current_control = search_toolbar.control
                    app.invalidate()
            else:
                if current_control == search_toolbar.control:
                    app.layout.current_control = search_buffer_control
                    app.invalidate()

        app.on_render += on_render
        '''

        return application, default_buffer, default_buffer_control