Exemple #1
0
    def __init__(self, size=(), clear_screen=True):
        if not size:
            #: Set in runtime to a method to retrieve the screen width, height.
            #: The class is **not** aware of terminal resizings while running, though.
            self.get_size = lambda: V2(os.get_terminal_size())
            try:
                size = self.get_size()
            except OSError as error:
                if error.errno == 25:
                    logger.error(
                        "This terminal type does not allow guessing screen size."
                        "Pass an explicit (cols, rows) size when instantiating {self.__class__}"
                    )
                raise
        else:
            self.get_size = lambda: V2(size)

        #: Namespace to configure drawing and printing color and other parameters.
        #: Currently, the attributes that are used from here are
        #: ``color``, ``background``, ``direction``, ``effects`` and ``char``.
        self.context = Context()

        #: Namespace for drawing methods, containing an instance of the :any:`Drawing` class
        self.draw = Drawing(self.set_at, self.reset_at, self.get_size,
                            self.context)
        self.width, self.height = self.size = size

        #: Namespace to allow high-resolution drawing using a :any:`HighRes` instance
        #: One should either use the public methods in HighRes or the methods on the
        #: :any:`Drawing` instance at ``Screen.high.draw`` to do 1/4 block pixel
        #: manipulation.
        self.high = HighRes(self)
        self.braille = HighRes(self,
                               block_class=BrailleChars,
                               block_width=2,
                               block_height=4)

        self.text = terminedia.text.Text(self)

        #: Namespace for low-level Terminal commands, an instance of :any:`JournalingScreenCommands`.
        #: This attribute can be used as a context manager to group
        #: various screen operations in a single block that is rendered at once.
        self.commands = JournalingScreenCommands()
        self.clear_screen = clear_screen
        self.data = FullShape.new((self.width, self.height))
        # Synchronize context for data and screen painting.
        self.data.context = self.context
Exemple #2
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 def _get_drawing(self):
     from terminedia.drawing import Drawing
     # The 'type(self).__setitem__` pattern ensures __setitem__ is called on the proxy,
     # not on the proxied object.
     return Drawing(
         set_fn=lambda pos: type(self).__setitem__(self, pos, self.context.
                                                   char),
         reset_fn=lambda pos: type(self).__setitem__(self, pos, EMPTY),
         size_fn=lambda: V2(self.width, self.height),
         context=self.context)
Exemple #3
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    def _get_drawing(self):
        from terminedia.drawing import Drawing

        # The 'type(self).__setitem__` pattern ensures __setitem__ is called on the proxy,
        # not on the proxied object.
        return Drawing(
            set_fn=lambda pos, pixel=None: type(self).__setitem__(
                self, pos, pixel if pixel else self.context.char),
            reset_fn=lambda pos: type(self).__setitem__(self, pos, EMPTY),
            size_fn=self.get_size,
            context=self.context,
        )
Exemple #4
0
class Screen:
    """Canvas class for terminal drawing.

    This is the main class to interact with the terminal on Terminedia
    library - methods and associated instances here
    should be used to do all screen rendering and drawing save for low-level work.

    Use this as a context manager inside which the screen is active;

    For drawing primitives using full-block chars, use the instance's
    :any:`Screen.draw`, which contains a :any:`Drawing` instance. Terminal context colors
    and other attributes can be set in a thread-safe way on the
    ``screen.context`` namespace.

    To draw and position characters using 1/4 character high resolution,
    use the attributes and methods available at :any:`Screen.high`.
    (High resolution drawing methods are available at ``screen.high.draw``)

    Besides the available methods and associated instances, screen contents
    can be set and read by using the Screen instance as a 2-dimensional mapping.
    For example, ``screen[10, 10] = "A"`` will set the character on that position.

    Args:
      - size (optional 2-sequence): Screen size in blocks. If not given, terminal size is queried automatically.
        This does not resize the actual terminal - a smaller area is available to the methods instead.
        If given size is larger than the actual terminal, mayhen ensues.
      - clear_screen (bool): Whether to clear the terminal and hide cursor when entering the screen. Defaults to True.

    """

    #: Instance contaning a mirror of the screen contents and attributes.
    #: All Screen drawing attributes are mirrored in it, but it can
    #: be updated independently and blitted to the terminal
    #: later by calling Screen.update.
    data: FullShape
    #: Lock to avoid ANSI sequence mangling if used in multi-threading
    lock = threading.Lock()

    #: Internal: tracks last used background attribute to avoid mangling and enable optimizations
    last_background = None
    #: Internal: tracks last used foreground attribute to avoid mangling and enable optimizations
    last_color = None
    #: Internal: tracks last used effects attribute to avoid mangling and enable optimizations
    last_effects = None

    def __init__(self, size=(), clear_screen=True, backend="ansi"):
        if not size:
            #: Set in runtime to a method to retrieve the screen width, height.
            #: The class is **not** aware of terminal resizings while running, though.
            self.get_size = lambda: V2(os.get_terminal_size())
            try:
                size = self.get_size()
            except OSError as error:
                if error.errno == 25:
                    logger.error(
                        "This terminal type does not allow guessing screen size."
                        "Pass an explicit (cols, rows) size when instantiating {self.__class__}"
                    )
                raise
        else:
            self.get_size = lambda: V2(size)

        #: Namespace to configure drawing and printing color and other parameters.
        #: Currently, the attributes that are used from here are
        #: ``color``, ``background``, ``direction``, ``effects`` and ``char``.
        self.context = Context()

        #: Namespace for drawing methods, containing an instance of the :any:`Drawing` class
        self.draw = Drawing(self.set_at, self.reset_at, self.get_size,
                            self.context)
        self.width, self.height = self.size = size

        #: Namespace to allow high-resolution drawing using a :any:`HighRes` instance
        #: One should either use the public methods in HighRes or the methods on the
        #: :any:`Drawing` instance at ``Screen.high.draw`` to do 1/4 block pixel
        #: manipulation.
        self.high = HighRes(self)
        self.braille = HighRes(self,
                               block_class=BrailleChars,
                               block_width=2,
                               block_height=4)
        self.square = HighRes(self,
                              block_class=HalfChars,
                              block_width=1,
                              block_height=2)
        self.sextant = HighRes(self,
                               block_class=SextantChars,
                               block_width=2,
                               block_height=3)

        self.text = terminedia.text.TextPlane(self)

        self.backend = backend = backend.upper()
        if backend == "ANSI":
            from terminedia.terminal import JournalingScreenCommands as CommandsClass
        elif backend == "HTML":
            from terminedia.html import JournalingHTMLCommands as CommandsClass
        else:
            raise ValueError(f"Unrecognized backend: {backend!r}.")

        #: Namespace for low-level rendering commands, an instance of :any:`JournalingCommandsMixin`.
        #: This attribute can be used as a context manager to group
        #: various output operations in a single block that is rendered at once.
        self.commands = CommandsClass()
        self.clear_screen = clear_screen
        self.data = FullShape.new((self.width, self.height))
        # Synchronize context for data and screen painting.
        self.data.context = self.context
        from terminedia import context
        self.root_context = context
        self._last_setitem = 0

    @LazyBindProperty(type=Context)
    def context(self):
        return Context()

    def __enter__(self):
        """Enters a fresh screen context"""
        if self.clear_screen:
            self.commands.toggle_buffer()
        self.clear(self.clear_screen)
        return self

    def __exit__(self, exc_type, exc_value, traceback):
        """Leaves the screen context and reset terminal colors."""
        if self.clear_screen:
            if self.commands.alternate_terminal_buffer:
                self.commands.toggle_buffer()
            else:
                #self.commands.clear()
                #self.commands.moveto((0, 0))
                pass
        self.commands.cursor_show()
        self.commands.reset_colors()

    def clear(self, wet_run=True):
        """Resets internal data, context parameters and clears the screen

        Args:
          - wet_run (bool): Whether to physically clear the screen or not

        Resets internal data and context parameters. The "self.data" and "self.color_data"
        structures are where the current character and attributes for each position are kept
        as characters actually just printed on the terminal can't be "read" back.
        Context foreground, background and direction are reset.

        In default operation, commands to clear the actual terminal and hide the cursor
        is also issued - the ``.clear_screen`` attribute controls that if ``.clear`` is being
        called as part of entering the screen context.

        """
        self.context.last_pos = V2(0, 0)
        self.__class__.last_color = None
        self.__class__.last_background = None
        with self.lock:
            if wet_run:
                self.commands.clear()
                self.data.clear()
            else:
                self.data.clear(transparent=True)
            self.data.dirty_set()
            self.commands.cursor_hide()

    def set_at(self, pos, pixel=None):
        """Sets pixel at given coordinate

        Args:
          - pos (2-sequence): pixel coordinate
          - pixel (Optional[Pixel]): sets the context values according to pixel attributes prior to printing

        To be used as a callback to ``.draw.set`` - but there are no drawbacks
        in being called directly.
        """
        if pixel:
            self[pos] = pixel
        else:
            self[pos] = self.context.char

    def reset_at(self, pos):
        """Resets pixel at given coordinate

        Args:
          - pos (2-sequence): pixel coordinate

        To be used as a callback to ``.draw.reset`` - but there are no drawbacks
        in being called directly.
        """

        self[pos] = EMPTY
        pos = V2(pos)
        if self[pos + (1, 0)] == CONTINUATION:
            self[pos + (1, 0)] = EMPTY

    def line_at(self, pos, length, sequence=FULL_BLOCK):
        """Renders a repeating character sequence of given length respecting the context.direction

        Args:
          - pos (2-sequence):  coordinates where to start drawing
          - length (int): length of character sequence to render
          - sequence (str): Text to render at position - defaults to full-block character

          Draws a vertical or horizontal line of characters, repeating the characteres
          of the sequence given, up to the specified length. Can be used to draw lines
          of aritrary characters or short words. The line directin is taken from the
          context's direction.
        """
        pos = V2(pos)
        if not sequence:
            return
        direction = V2(self.context.direction)
        for i, char in zip(range(length),
                           sequence * (ceil(length / len(sequence)))):
            self[pos.as_int] = char
            pos += direction

    @contextkwords(text_attrs=True)
    def print_at(self, pos, text, size=1):
        """Positions the cursor and prints a text sequence

        Args:
          - pos (2-sequence): screen coordinates, (0, 0) being the top-left corner.
          - text: Text to render at position
          - size: Text-size to print:
                1 or "normal": plain text
                2 or "braille": 8x8 font rendered using 2x4 Braille characters for subpixels
                3 or "sextant": 8x8 font rendered using 2x3  Vintage Charset characters for subpixels
                4 or "high": 8x8 font rendered using 2x2  Block characters for subpixels
                (4,8) or "square": 8x8 font rendered using 1x2  Half-Block characters for subpixels
                8 or "block": 8x8 font rendered using 1 Block characters as pixels


        Context's attributes are respected when printing
        """
        self.text[size].at(pos, text)

    @contextkwords
    def print(self, text, **kwargs):
        """Prints a text sequence following the last character printed

        Args:
          - text: Text to render at position

        Context's attributes are respected when printing
        """
        """Prints text picking at the last position that were printed to."""
        self.text[1].print(text)

    def __getitem__(self, pos):
        """Retrieves character data at pos

        Args:
          - pos (2-sequence): coordinate to retrieve data from.
        """
        return self.data[pos].value
        # if value[0] == CONTEXT_COLORS: value[0] = self.context.color
        # if value[1] == CONTEXT_COLORS: value[1] = self.context.background
        ## FIXME: 'CONTEXT_COLORS' may clash with a effects flag combination in the future.
        # if value[2] == CONTEXT_COLORS: value[2] = self.context.effects

    def __setitem__(self, pos, value):
        """Writes character data at pos

        Args:
          - pos (2-sequence): coordinate where to set character
          - value (length 1 string): Character to set.

        This is mostly used internally by all other drawing and printing methods, although
        it can be used directly, by using Python's object-key notation with ``[ ]`` and assignment.
        All text or graphics that go to the terminal *are directed through this method*
        - it is a "single point" where all data is sent - and any user code that writes to
        the terminal with a Screen class should use this method.
        Valus set on Screen are imediately updated on the screen. To issue a command
        batch that should be updated at once, use the Screen.commands attribute as
        a context manager:  (`with sc.commands: ...code with lots of drawing calls ... `)

        If it is desired to  draw/write in an in-memory buffer in order
        to update everything at once, one can issue the drawing class to affect
        the Screen.data attribute instead of Screen directly. The Screen contents
        can be updated by calling Screen.update afterwards.  `Screen.data` is a
        terminedia.FullShape object with a .draw, .high and .text interfaces
        offering the same APIs available to Screen.

        """

        cls = self.__class__
        with self.lock:
            # Force underlying shape machinnery to apply context attributes and transformations:
            if value != _REPLAY:
                self.data[pos] = value
            pixel = self.data[pos]

            update_colors = (cls.last_color != pixel.foreground
                             or cls.last_background != pixel.background
                             or cls.last_effects != pixel.effects)

            if self.root_context.interactive_mode and time.time(
            ) - self._last_setitem > 0.1:
                update_colors = True
                self.commands.__class__.last_pos = None
                self._last_setitem = time.time()

            if update_colors:
                colors = pixel.foreground, pixel.background, pixel.effects
                self.commands.set_colors(*colors)
                cls.last_color = pixel.foreground
                cls.last_background = pixel.background
                cls.last_effects = pixel.effects
            if pixel.value not in (CONTINUATION, TRANSPARENT):
                self.commands.print_at(pos, pixel.value)
                self.context.last_pos = V2(pos)

    def blit(self, position, shape, **kwargs):
        with self.commands:
            self.draw.blit(position, shape, **kwargs)

    def update(self, pos1=None, pos2=None):

        rect = Rect(pos1, pos2)
        if rect.c2 == (0, 0) and pos2 is None:
            rect.c2 = (self.width, self.height)
        if hasattr(self.commands,
                   "fast_render") and self.root_context.fast_render:
            target = [
                rect
            ] if pos1 is not None or self.root_context.interactive_mode else self.data.dirty_rects
            self.commands.fast_render(self.data, target)
            self.data.dirty_clear()
        else:
            with self.commands:
                for y in range(rect.top, rect.bottom):
                    for x in range(rect.left, rect.right):
                        self[x, y] = _REPLAY
        tick_forward()
        if self.root_context.interactive_mode:
            # move cursor a couple lines from the bottom to avoid scrolling
            for i in range(3):
                self.commands.up()

    def __repr__(self):
        return "".join([
            "Screen [\n",
            f"size = {self.get_size()}\n",
            f"backend = {self.backend.__class__}",
            f"context = {self.context.__repr__() if self.context else ''}\n",
            "]",
        ])
Exemple #5
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    def __init__(self,
                 size=(),
                 clear_screen=True,
                 backend="ansi",
                 interactive=True):
        from terminedia import context as root_context

        self.interactive = interactive

        if not size:
            self.get_size = lambda: V2(os.get_terminal_size())
            try:
                size = self.get_size()
            except OSError as error:
                if error.errno == 25:
                    logger.error(
                        "This terminal type does not allow guessing screen size."
                        "Pass an explicit (cols, rows) size when instantiating {self.__class__}"
                    )
                raise
            self.dynamic_size = True
        else:
            self.get_size = lambda: V2(size)
            self.dynamic_size = False

        #: Namespace to configure drawing and printing color and other parameters.
        #: Currently, the attributes that are used from here are
        #: ``color``, ``background``, ``direction``, ``effects`` and ``char``.
        self.context = Context()

        width, height = size

        # Main data structure with image information:
        self.shape = self.data = FullShape.new(size)
        # Synchronize context for data and screen painting.
        self.data.context = self.context

        #: Namespace to allow high-resolution drawing using a :any:`HighRes` instance
        #: One should either use the public methods in HighRes or the methods on the
        #: :any:`Drawing` instance at ``Screen.high.draw`` to do 1/2, 1/4, 1/6 and 1/8 block pixel
        #: manipulation.
        self.high = HighRes(self)
        self.braille = HighRes(self,
                               block_class=BrailleChars,
                               block_width=2,
                               block_height=4)
        self.square = HighRes(self,
                              block_class=HalfChars,
                              block_width=1,
                              block_height=2)
        self.sextant = HighRes(self,
                               block_class=SextantChars,
                               block_width=2,
                               block_height=3)
        self.full = self

        self.text = terminedia.text.TextPlane(self)

        self.backend = backend = backend.upper()
        if backend == "ANSI":
            from terminedia.terminal import JournalingScreenCommands as CommandsClass
        elif backend == "HTML":
            from terminedia.html import JournalingHTMLCommands as CommandsClass
        else:
            raise ValueError(f"Unrecognized backend: {backend!r}.")

        #: Namespace for low-level rendering commands, an instance of :any:`JournalingCommandsMixin`.
        #: This attribute can be used as a context manager to group
        #: various output operations in a single block that is rendered at once.
        self.commands = CommandsClass()
        self.clear_screen = clear_screen

        self.shape.isroot = True

        #: Namespace for drawing methods, containing an instance of the :any:`Drawing` class
        self.draw = Drawing(self.set_at, self.reset_at, self.get_at,
                            self.get_size, self.context)

        self.sprites = self.data.sprites
        self.root_context = root_context
        self._last_setitem = 0
        self._init_event_system()
Exemple #6
0
class Screen:
    """Canvas class for terminal drawing.

    This is the main class to interact with the terminal on Terminedia
    library - methods and associated instances here
    should be used to do all screen rendering and drawing save for low-level work.

    Use this as a context manager inside which the screen is active;

    For drawing primitives using full-block chars, use the instance's
    :any:`Screen.draw`, which contains a :any:`Drawing` instance. Terminal context colors
    and other attributes can be set in a thread-safe way on the
    ``screen.context`` namespace.

    To draw and position characters using 1/4 character high resolution,
    use the attributes and methods available at :any:`Screen.high`.
    (High resolution drawing methods are available at ``screen.high.draw``)

    Besides the available methods and associated instances, screen contents
    can be set and read by using the Screen instance as a 2-dimensional mapping.
    For example, ``screen[10, 10] = "A"`` will set the character on that position.

    Args:
      - size (optional 2-sequence): Screen size in blocks. If not given, terminal size is queried automatically.
        This does not resize the actual terminal - a smaller area is available to the methods instead.
        If given size is larger than the actual terminal, mayhen ensues.
      - clear_screen (bool): Whether to clear the terminal and hide cursor when entering the screen. Defaults to True.
      - interactive (bool): if False, do not create binding for events, or change keyboard and mouse behaviors (used by rendering to file).
            Default: True

    """

    #: Instance contaning a mirror of the screen contents and attributes.
    #: All Screen drawing attributes are mirrored in it, but it can
    #: be updated independently and blitted to the terminal
    #: later by calling Screen.update.
    data: FullShape
    #: Lock to avoid ANSI sequence mangling if used in multi-threading
    lock = threading.Lock()

    #: Internal: tracks last used background attribute to avoid mangling and enable optimizations
    last_background = None
    #: Internal: tracks last used foreground attribute to avoid mangling and enable optimizations
    last_color = None
    #: Internal: tracks last used effects attribute to avoid mangling and enable optimizations
    last_effects = None

    def __init__(self,
                 size=(),
                 clear_screen=True,
                 backend="ansi",
                 interactive=True):
        from terminedia import context as root_context

        self.interactive = interactive

        if not size:
            self.get_size = lambda: V2(os.get_terminal_size())
            try:
                size = self.get_size()
            except OSError as error:
                if error.errno == 25:
                    logger.error(
                        "This terminal type does not allow guessing screen size."
                        "Pass an explicit (cols, rows) size when instantiating {self.__class__}"
                    )
                raise
            self.dynamic_size = True
        else:
            self.get_size = lambda: V2(size)
            self.dynamic_size = False

        #: Namespace to configure drawing and printing color and other parameters.
        #: Currently, the attributes that are used from here are
        #: ``color``, ``background``, ``direction``, ``effects`` and ``char``.
        self.context = Context()

        width, height = size

        # Main data structure with image information:
        self.shape = self.data = FullShape.new(size)
        # Synchronize context for data and screen painting.
        self.data.context = self.context

        #: Namespace to allow high-resolution drawing using a :any:`HighRes` instance
        #: One should either use the public methods in HighRes or the methods on the
        #: :any:`Drawing` instance at ``Screen.high.draw`` to do 1/2, 1/4, 1/6 and 1/8 block pixel
        #: manipulation.
        self.high = HighRes(self)
        self.braille = HighRes(self,
                               block_class=BrailleChars,
                               block_width=2,
                               block_height=4)
        self.square = HighRes(self,
                              block_class=HalfChars,
                              block_width=1,
                              block_height=2)
        self.sextant = HighRes(self,
                               block_class=SextantChars,
                               block_width=2,
                               block_height=3)
        self.full = self

        self.text = terminedia.text.TextPlane(self)

        self.backend = backend = backend.upper()
        if backend == "ANSI":
            from terminedia.terminal import JournalingScreenCommands as CommandsClass
        elif backend == "HTML":
            from terminedia.html import JournalingHTMLCommands as CommandsClass
        else:
            raise ValueError(f"Unrecognized backend: {backend!r}.")

        #: Namespace for low-level rendering commands, an instance of :any:`JournalingCommandsMixin`.
        #: This attribute can be used as a context manager to group
        #: various output operations in a single block that is rendered at once.
        self.commands = CommandsClass()
        self.clear_screen = clear_screen

        self.shape.isroot = True

        #: Namespace for drawing methods, containing an instance of the :any:`Drawing` class
        self.draw = Drawing(self.set_at, self.reset_at, self.get_at,
                            self.get_size, self.context)

        self.sprites = self.data.sprites
        self.root_context = root_context
        self._last_setitem = 0
        self._init_event_system()

    @property
    def size(self):
        return self.shape.size

    @property
    def width(self):
        return self.shape.width

    @property
    def height(self):
        return self.shape.height

    def accelerate(self):
        """makes drawing less interactive, but faster

        Replaces the "self.draw" namespace to the one going through the
        associated shape (self.shape) - aftewrards
        self.update() have to be called in order to reflect any
        drawing on the terminal, but it gets faster as updates
        in large blocks.

        Also, the "native" `self.draw` is a bit rough when it commes
        to drawing off the screen limits.

        This is called automatically by the terminedia_main loop.

        There is no "de-acellarate" converse call, once an app is
        already using screen.update it makes little sense
        to togle back, but all one have to do if needed, is to
        replace the attribute by a new Draw instance as created
        inside `__init__`.

        """
        self.draw = self.shape.draw

    def _init_event_system(self):
        if not self.interactive:
            return
        self._event_subscriptions = []
        terminedia.events._register_sigwinch()
        self._event_subscriptions.extend([
            terminedia.events.Subscription(
                terminedia.events.EventTypes.TerminalSizeChange,
                self._size_change),
            terminedia.events.Subscription(
                terminedia.events.EventTypes.KeyPress,
                self._inkey_pressed_check),
        ])
        self._inkey_called_since_last_update = False

    def _inkey_pressed_check(self, event):
        # Used to mark whether `update` should call "inkey"
        # to ensure keyboard event dispatching.
        # This is needed because inkey consumes stdin data, and if
        # we call it unconditionally on Screen updade, we might suppress
        # key presses expected by applications using "terminedia.inkey" to check for
        # input instead of using the keyboard system

        self._inkey_called_since_last_update = True

    def _size_change(self, event):
        # handler - called automatically when the terminal is resized.
        if event.type != terminedia.events.EventTypes.TerminalSizeChange:
            return

        if not self.dynamic_size:
            # Screen size was hardcoded at screen instantiation.
            return

        self.data.resize(event.size)
        # That is it. Other parts of the app that should be aware of screen resizing,
        # should subscribe to the TerminalSizeChange event

    @LazyBindProperty(type=Context)
    def context(self):
        return Context()

    def __enter__(self):
        """Enters a fresh screen context"""
        if self.clear_screen:
            self.commands.toggle_buffer()
        self.clear(self.clear_screen)

        return self

    def __exit__(self, exc_type, exc_value, traceback):
        """Leaves the screen context and reset terminal colors."""
        if self.clear_screen:
            if self.commands.alternate_terminal_buffer:
                self.commands.toggle_buffer()
            else:
                #self.commands.clear()
                #self.commands.moveto((0, 0))
                pass
        self.commands.cursor_show()
        self.commands.reset_colors()

    def clear(self, wet_run=True):
        """Resets internal data, context parameters and clears the screen

        Args:
          - wet_run (bool): Whether to physically clear the screen or not

        Resets internal data and context parameters. The "self.data" and "self.color_data"
        structures are where the current character and attributes for each position are kept
        as characters actually just printed on the terminal can't be "read" back.
        Context foreground, background and direction are reset.

        In default operation, commands to clear the actual terminal and hide the cursor
        is also issued - the ``.clear_screen`` attribute controls that if ``.clear`` is being
        called as part of entering the screen context.

        """
        self.context.last_pos = V2(0, 0)
        self.__class__.last_color = None
        self.__class__.last_background = None
        with self.lock:
            if wet_run:
                self.commands.clear()
                self.data.clear()
            else:
                self.data.clear(transparent=True)
            self.data.dirty_set()
            self.commands.cursor_hide()

    def set_at(self, pos, pixel=None):
        """Sets pixel at given coordinate

        Args:
          - pos (2-sequence): pixel coordinate
          - pixel (Optional[Pixel]): sets the context values according to pixel attributes prior to printing

        To be used as a callback to ``.draw.set`` - but there are no drawbacks
        in being called directly.
        """
        if pixel:
            self[pos] = pixel
        else:
            self[pos] = self.context.char

    def get_at(self, pos):
        return self[pos]

    def get_raw(self, pos):
        return self.shape.get_raw(pos)

    def reset_at(self, pos):
        """Resets pixel at given coordinate

        Args:
          - pos (2-sequence): pixel coordinate

        To be used as a callback to ``.draw.reset`` - but there are no drawbacks
        in being called directly.
        """

        self[pos] = EMPTY
        pos = V2(pos)
        if self[pos + (1, 0)] == CONTINUATION:
            self[pos + (1, 0)] = EMPTY

    def line_at(self, pos, length, sequence=FULL_BLOCK):
        """Renders a repeating character sequence of given length respecting the context.direction

        This is an antique method from a time when there was no drawing API. Prefer
        screen.draw.line for mor control.
        Args:
          - pos (2-sequence):  coordinates where to start drawing
          - length (int): length of character sequence to render
          - sequence (str): Text to render at position - defaults to full-block character

          Draws a vertical or horizontal line of characters, repeating the characteres
          of the sequence given, up to the specified length. Can be used to draw lines
          of aritrary characters or short words. The line directin is taken from the
          context's direction.
        """
        pos = V2(pos)
        if not sequence:
            return
        direction = V2(self.context.direction)
        for i, char in zip(range(length),
                           sequence * (ceil(length / len(sequence)))):
            self[pos.as_int] = char
            pos += direction

    @contextkwords(text_attrs=True)
    def print_at(self, pos, text, size=1):
        """Positions the cursor and prints a text sequence

        Args:
          - pos (2-sequence): screen coordinates, (0, 0) being the top-left corner.
          - text: Text to render at position
          - size: Text-size to print:
                1 or "normal": plain text
                2 or "braille": 8x8 font rendered using 2x4 Braille characters for subpixels
                3 or "sextant": 8x8 font rendered using 2x3  Vintage Charset characters for subpixels
                4 or "high": 8x8 font rendered using 2x2  Block characters for subpixels
                (4,8) or "square": 8x8 font rendered using 1x2  Half-Block characters for subpixels
                8 or "block": 8x8 font rendered using 1 Block characters as pixels


        Context's attributes are respected when printing
        """
        self.text[size].at(pos, text)

    @contextkwords
    def print(self, text, **kwargs):
        """Prints a text sequence following the last character printed

        Args:
          - text: Text to render at position

        Context's attributes are respected when printing
        """
        """Prints text picking at the last position that were printed to."""
        self.text[1].print(text)

    def at_parent(self, pos):
        """emulate high-resolution `at_parent` coordinate transform method: a NOP at full resolution"""
        return V2(pos)

    def __getitem__(self, pos):
        """Retrieves character data at pos

        Args:
          - pos (2-sequence): coordinate to retrieve data from.
        """
        return self.data[pos].value
        # if value[0] == CONTEXT_COLORS: value[0] = self.context.color
        # if value[1] == CONTEXT_COLORS: value[1] = self.context.background
        ## FIXME: 'CONTEXT_COLORS' may clash with a effects flag combination in the future.
        # if value[2] == CONTEXT_COLORS: value[2] = self.context.effects

    def __setitem__(self, pos, value):
        """Writes character data at pos

        Args:
          - pos (2-sequence): coordinate where to set character
          - value (length 1 string): Character to set.

        This is mostly used internally by all other drawing and printing methods, although
        it can be used directly, by using Python's object-key notation with ``[ ]`` and assignment.
        All text or graphics that go to the terminal *are directed through this method*
        - it is a "single point" where all data is sent - and any user code that writes to
        the terminal with a Screen class should use this method.
        Valus set on Screen are imediately updated on the screen. To issue a command
        batch that should be updated at once, use the Screen.commands attribute as
        a context manager:  (`with sc.commands: ...code with lots of drawing calls ... `)

        If it is desired to  draw/write in an in-memory buffer in order
        to update everything at once, one can issue the drawing class to affect
        the Screen.data attribute instead of Screen directly. The Screen contents
        can be updated by calling Screen.update afterwards.  `Screen.data` is a
        terminedia.FullShape object with a .draw, .high and .text interfaces
        offering the same APIs available to Screen.

        """

        if isinstance(value, str) and len(value) > 1:
            # Redirect strings through the text machinery.
            # it will separate each char in a cell, take care
            # of double chars, embedded attributes and so on
            self.text[1][pos] = value
            return

        cls = self.__class__
        with self.lock:
            # Force underlying shape machinnery to apply context attributes and transformations:
            if value != _REPLAY:
                self.data[pos] = value
            pixel = self.data[pos]

            update_colors = (cls.last_color != pixel.foreground
                             or cls.last_background != pixel.background
                             or cls.last_effects != pixel.effects)

            if self.root_context.interactive_mode and time.time(
            ) - self._last_setitem > 0.1:
                update_colors = True
                self.commands.__class__.last_pos = None
                self._last_setitem = time.time()

            if update_colors:
                colors = pixel.foreground, pixel.background, pixel.effects
                self.commands.set_colors(*colors)
                cls.last_color = pixel.foreground
                cls.last_background = pixel.background
                cls.last_effects = pixel.effects
            if pixel.value not in (CONTINUATION, TRANSPARENT):
                self.commands.print_at(pos, pixel.value)
                self.context.last_pos = V2(pos)

    def blit(self, position, shape, **kwargs):
        with self.commands:
            self.draw.blit(position, shape, **kwargs)

    def process_events(self):
        """Dispatches procss-wide events (like keyboard and mouse if enabled)

        This will be called automatically on "self.update" - it is
        set as a separate method because one could call this to get
        input events before proceeding with the actual display update.
        """
        terminedia.events.process()

    def update(self, pos1=None, pos2=None):
        """Main method to update the display

        An interactive application or animation should call this once
        per frame to have th display contents updated on the terminal.

        It can optionally update just a part of the output screen, if
        pos1 or pos2 are given.

        As of pre-0.4.0 development an app should manually provide
        its "mainloop" and call this on each frame. Later development
        will probably have an optional higher level loop
        that will automate calling here.

        Args:
            - pos1, pos2: Corners of a rectangle delimitting the area to be updated.
                (optionally, 'pos1' can be a Rect object)

        """
        tick_forward()

        if self.interactive and terminedia.input.keyboard.enabled and not self._inkey_called_since_last_update:
            # Ensure the dispatch of keypress events:
            terminedia.inkey(consume=False)

        self._inkey_called_since_last_update = False

        self.process_events()
        rect = Rect(pos1, pos2)
        if rect.c2 == (0, 0) and pos2 is None:
            rect.c2 = (self.width, self.height)
        if hasattr(self.commands,
                   "fast_render") and self.root_context.fast_render:
            target = [
                rect
            ] if pos1 is not None or self.root_context.interactive_mode else self.data.dirty_rects
            self.commands.fast_render(self.data, target)
            self.data.dirty_clear()
        else:
            with self.commands:
                for y in range(rect.top, rect.bottom):
                    for x in range(rect.left, rect.right):
                        self[x, y] = _REPLAY
        if self.root_context.interactive_mode:
            # move cursor a couple lines from the bottom to avoid scrolling
            for i in range(3):
                self.commands.up()

    def __del__(self):
        if not self.interactive:
            return
        for subscription in getattr(self, "_event_subscriptions", ()):
            subscription.kill()
        terminedia.events._unregister_sigwinch()

    def __repr__(self):
        return "".join([
            "Screen [\n",
            f"size = {self.get_size()}\n",
            f"backend = {self.backend.__class__}",
            f"context = {self.context.__repr__() if self.context else ''}\n",
            "]",
        ])
Exemple #7
0
class Screen:
    """Canvas class for terminal drawing.

    This is the main class to interact with the terminal on Terminedia
    library - methods and associated instances here
    should be used to do all screen rendering and drawing save for low-level work.

    Use this as a context manager inside which the screen is active;

    For drawing primitives using full-block chars, use the instance's
    :any:`Screen.draw`, which contains a :any:`Drawing` instance. Terminal context colors
    and other attributes can be set in a thread-safe way on the
    ``screen.context`` namespace.

    To draw and position characters using 1/4 character high resolution,
    use the attributes and methods available at :any:`Screen.high`.
    (High resolution drawing methods are available at ``screen.high.draw``)

    Besides the available methods and associated instances, screen contents
    can be set and read by using the Screen instance as a 2-dimensional mapping.
    For example, ``screen[10, 10] = "A"`` will set the character on that position.

    Args:
      - size (optional 2-sequence): Screen size in blocks. If not given, terminal size is queried automatically.
        This does not resize the actual terminal - a smaller area is available to the methods instead.
        If given size is larger than the actual terminal, mayhen ensues.
      - clear_screen (bool): Whether to clear the terminal and hide cursor when entering the screen. Defaults to True.

    """

    #: Instance contaning a mirror of the screen contents and attributes.
    #: All Screen drawing attributes are mirrored in it, but it can
    #: be updated independently and blitted to the terminal
    #: later by calling Screen.update.
    data: FullShape
    #: Lock to avoid ANSI sequence mangling if used in multi-threading
    lock = threading.Lock()

    #: Internal: tracks last used background attribute to avoid mangling and enable optimizations
    last_background = None
    #: Internal: tracks last used foreground attribute to avoid mangling and enable optimizations
    last_color = None
    #: Internal: tracks last used effects attribute to avoid mangling and enable optimizations
    last_effects = None

    def __init__(self, size=(), clear_screen=True):
        if not size:
            #: Set in runtime to a method to retrieve the screen width, height.
            #: The class is **not** aware of terminal resizings while running, though.
            self.get_size = lambda: V2(os.get_terminal_size())
            try:
                size = self.get_size()
            except OSError as error:
                if error.errno == 25:
                    logger.error(
                        "This terminal type does not allow guessing screen size."
                        "Pass an explicit (cols, rows) size when instantiating {self.__class__}"
                    )
                raise
        else:
            self.get_size = lambda: V2(size)

        #: Namespace to configure drawing and printing color and other parameters.
        #: Currently, the attributes that are used from here are
        #: ``color``, ``background``, ``direction``, ``effects`` and ``char``.
        self.context = Context()

        #: Namespace for drawing methods, containing an instance of the :any:`Drawing` class
        self.draw = Drawing(self.set_at, self.reset_at, self.get_size,
                            self.context)
        self.width, self.height = self.size = size

        #: Namespace to allow high-resolution drawing using a :any:`HighRes` instance
        #: One should either use the public methods in HighRes or the methods on the
        #: :any:`Drawing` instance at ``Screen.high.draw`` to do 1/4 block pixel
        #: manipulation.
        self.high = HighRes(self)

        self.text = terminedia.text.Text(self)

        #: Namespace for low-level Terminal commands, an instance of :any:`JournalingScreenCommands`.
        #: This attribute can be used as a context manager to group
        #: various screen operations in a single block that is rendered at once.
        self.commands = JournalingScreenCommands()
        self.clear_screen = clear_screen
        self.data = FullShape.new((self.width, self.height))
        # Synchronize context for data and screen painting.
        self.data.context = self.context

    def __enter__(self):
        """Enters a fresh screen context"""
        self.clear(self.clear_screen)
        return self

    def __exit__(self, exc_type, exc_value, traceback):
        """Leaves the screen context and reset terminal colors."""
        if self.clear_screen:
            self.commands.clear()
            self.commands.moveto((0, 0))
        self.commands.cursor_show()
        self.commands.reset_colors()

    def clear(self, wet_run=True):
        """Resets internal data, context parameters and clears the screen

        Args:
          - wet_run (bool): Whether to physically clear the screen or not

        Resets internal data and context parameters. The "self.data" and "self.color_data"
        structures are where the current character and attributes for each position are kept
        as characters actually just printed on the terminal can't be "read" back.
        Context foreground, background and direction are reset.

        In default operation, commands to clear the actual terminal and hide the cursor
        is also issued - the ``.clear_screen`` attribute controls that if ``.clear`` is being
        called as part of entering the screen context.

        """
        # self.data.context = self.context
        self.context.last_pos = V2(0, 0)
        self.__class__.last_color = None
        self.__class__.last_background = None
        # To use when we allow custom chars along with blocks:
        # self.char_data = " " * self.width * self.height
        with self.lock:
            if wet_run:
                self.commands.clear()
            self.commands.cursor_hide()

    def set_at(self, pos, pixel=None):
        """Sets pixel at given coordinate

        Args:
          - pos (2-sequence): pixel coordinate
          - pixel (Optional[Pixel]): sets the context values according to pixel attributes prior to printing

        To be used as a callback to ``.draw.set`` - but there are no drawbacks
        in being called directly.
        """
        if pixel is not None:
            cap = pixel.capabilities
            char = pixel.value if issubclass(cap.value_type,
                                             str) else self.context.char
            if issubclass(cap.value_type, bool) and not pixel.value:
                char = BlockChars.EMPTY  # Plain old space
            for attr in ("foreground", "background", "effects"):
                if getattr(cap, "has_" + attr):
                    value = getattr(pixel, attr)
                    if value == CONTEXT_COLORS:
                        if attr == "foreground":
                            value = self.context.color_stack[-1]
                        elif attr == "background":
                            value = self.context.background_stack[-1]

                    setattr(self.context,
                            attr if attr != "foreground" else "color", value)
        else:
            char = self.context.char

        self[pos] = char

    def reset_at(self, pos):
        """Resets pixel at given coordinate

        Args:
          - pos (2-sequence): pixel coordinate

        To be used as a callback to ``.draw.reset`` - but there are no drawbacks
        in being called directly.
        """

        self[pos] = " "
        pos = V2(pos)
        if self[pos + (1, 0)] == CONTINUATION:
            self[pos + (1, 0)] = " "

    def line_at(self, pos, length, sequence=BlockChars.FULL_BLOCK):
        """Renders a repeating character sequence of given length respecting the context.direction

        Args:
          - pos (2-sequence):  coordinates where to start drawing
          - length (int): length of character sequence to render
          - sequence (str): Text to render at position - defaults to full-block character

          Draws a vertical or horizontal line of characters, repeating the characteres
          of the sequence given, up to the specified length. Can be used to draw lines
          of aritrary characters or short words. The line directin is taken from the
          context's direction.
        """
        pos = V2(pos)
        if not sequence:
            return
        direction = V2(self.context.direction)
        for i, char in zip(range(length),
                           sequence * (ceil(length / len(sequence)))):
            self[pos.as_int] = char
            pos += direction

    def print_at(self, pos, text, **kwargs):
        """Positions the cursor and prints a text sequence

        Args:
          - pos (2-sequence): screen coordinates, (0, 0) being the top-left corner.
          - text: Text to render at position
          - **kwargs: Arguments to be applied to context prior to printing

        Context's attributes are respected when printing
        """
        with self.context(**kwargs):
            self.text[1].at(pos, text)
            last_pos = self.text[1].get_ctx("last_pos")
        self.text[1].set_ctx("last_pos", last_pos)

    def print(self, text, **kwargs):
        """Prints a text sequence following the last character printed

        Args:
          - text: Text to render at position
          - **kwargs: Arguments to be applied to context prior to printing

        Context's attributes are respected when printing
        """
        """Prints text picking at the last position that were printed to."""
        with self.context(**kwargs):
            self.text[1].print(text)
            last_pos = self.text[1].get_ctx("last_pos")
        self.text[1].set_ctx("last_pos", last_pos)

    def __getitem__(self, pos):
        """Retrieves character data at pos

        Args:
          - pos (2-sequence): coordinate to retrieve data from.
        """
        return self.data[pos].value
        #if value[0] == CONTEXT_COLORS: value[0] = self.context.color
        #if value[1] == CONTEXT_COLORS: value[1] = self.context.background
        ## FIXME: 'CONTEXT_COLORS' may clash with a effects flag combination in the future.
        #if value[2] == CONTEXT_COLORS: value[2] = self.context.effects

    def __setitem__(self, pos, value):
        """Writes character data at pos

        Args:
          - pos (2-sequence): coordinate where to set character
          - value (length 1 string): Character to set.

        This is mostly used internally by all other drawing and printing methods, although
        it can be used directly, by using Python's object-key notation with ``[ ]`` and assignment.
        All text or graphics that go to the terminal *are directed through this method*
        - it is a "single point" where all data is sent - and any user code that writes to
        the terminal with a Screen class should use this method.
        Valus set on Screen are imediately updated on the screen. To issue a command
        batch that should be updated at once, use the Screen.commands attribute as
        a context manager:  (`with sc.commands: ...code with lots of drawing calls ... `)

        If it is desired to  draw/write in an in-memory buffer in order
        to update everything at once, one can issue the drawing class to affect
        the Screen.data attribute instead of Screen directly. The Screen contents
        can be updated by calling Screen.update afterwards.  `Screen.data` is a
        terminedia.FullShape object with a .draw, .high and .text interfaces
        offering the same APIs available to Screen.

        """

        cls = self.__class__
        with self.lock:
            # Force underlying shape machinnery to apply context attributes and transformations:
            if value != _REPLAY:
                self.data[pos] = value
            pixel = self.data[pos]

            update_colors = (cls.last_color != pixel.foreground
                             or cls.last_background != pixel.background
                             or cls.last_effects != pixel.effects)
            if update_colors:
                colors = pixel.foreground, pixel.background, pixel.effects
                self.commands.set_colors(*colors)
                cls.last_color = pixel.foreground
                cls.last_background = pixel.background
                cls.last_effects = pixel.effects
            if pixel.value != CONTINUATION:
                self.commands.print_at(pos, pixel.value)
                self.context.last_pos = V2(pos)

    def blit(self, position, shape, **kwargs):
        with self.commands:
            self.draw.blit(position, shape, **kwargs)

    def update(self, pos1=None, pos2=None):
        rect = Rect(pos1, pos2)
        if rect.c2 == (0, 0):
            rect.c2 = (self.width, self.height)
        with self.commands:
            for y in range(rect.top, rect.bottom):
                for x in range(rect.left, rect.right):
                    self[x, y] = _REPLAY