"""Provides keyboard and mouse editing procedures for text layout. Example usage:: from pyglet import window from pyglet.text import layout, caret my_window = window.Window(...) my_layout = layout.IncrementalTextLayout(...) my_caret = caret.Caret(my_layout) my_window.push_handlers(my_caret) .. versionadded:: 1.1 """ import re import time from pyglet import clock from pyglet import event from pyglet.window import key class Caret: """Visible text insertion marker for `pyglet.text.layout.IncrementalTextLayout`. The caret is drawn as a single vertical bar at the document `position` on a text layout object. If `mark` is not None, it gives the unmoving end of the current text selection. The visible text selection on the layout is updated along with `mark` and `position`. By default the layout's graphics batch is used, so the caret does not need to be drawn explicitly. Even if a different graphics batch is supplied, the caret will be correctly positioned and clipped within the layout. Updates to the document (and so the layout) are automatically propagated to the caret. The caret object can be pushed onto a window event handler stack with `Window.push_handlers`. The caret will respond correctly to keyboard, text, mouse and activation events, including double- and triple-clicks. If the text layout is being used alongside other graphical widgets, a GUI toolkit will be needed to delegate keyboard and mouse events to the appropriate widget. pyglet does not provide such a toolkit at this stage. """ _next_word_re = re.compile(r'(?<=\W)\w') _previous_word_re = re.compile(r'(?<=\W)\w+\W*$') _next_para_re = re.compile(r'\n', flags=re.DOTALL) _previous_para_re = re.compile(r'\n', flags=re.DOTALL) _position = 0 _active = True _visible = True _blink_visible = True _click_count = 0 _click_time = 0 #: Blink period, in seconds. PERIOD = 0.5 #: Pixels to scroll viewport per mouse scroll wheel movement. #: Defaults to 12pt at 96dpi. SCROLL_INCREMENT = 12 * 96 // 72 _mark = None def __init__(self, layout, batch=None, color=(0, 0, 0, 255)): """Create a caret for a layout. By default the layout's batch is used, so the caret does not need to be drawn explicitly. :Parameters: `layout` : `~pyglet.text.layout.TextLayout` Layout to control. `batch` : `~pyglet.graphics.Batch` Graphics batch to add vertices to. `color` : (int, int, int, int) An RGBA or RGB tuple with components in the range [0, 255]. RGB colors will be treated as having an opacity of 255. """ from pyglet import gl self._layout = layout batch = batch or layout.batch group = layout.foreground_decoration_group # Handle both 3 and 4 byte colors r, g, b, *a = color # The alpha value when not in a hidden blink state self._visible_alpha = a[0] if a else 255 colors = r, g, b, self._visible_alpha, r, g, b, self._visible_alpha self._list = group.program.vertex_list(2, gl.GL_LINES, batch, group, colors=('Bn', colors)) self._ideal_x = None self._ideal_line = None self._next_attributes = {} self.visible = True layout.push_handlers(self) def delete(self): """Remove the caret from its batch. Also disconnects the caret from further layout events. """ self._list.delete() self._layout.remove_handlers(self) def _blink(self, dt): if self.PERIOD: self._blink_visible = not self._blink_visible if self._visible and self._active and self._blink_visible: alpha = self._visible_alpha else: alpha = 0 # Only set the alpha rather than entire colors self._list.colors[3] = alpha self._list.colors[7] = alpha def _nudge(self): self.visible = True @property def visible(self): """Caret visibility. The caret may be hidden despite this property due to the periodic blinking or by `on_deactivate` if the event handler is attached to a window. :type: bool """ return self._visible @visible.setter def visible(self, visible): self._visible = visible clock.unschedule(self._blink) if visible and self._active and self.PERIOD: clock.schedule_interval(self._blink, self.PERIOD) self._blink_visible = False # flipped immediately by next blink self._blink(0) @property def color(self): """An RGBA tuple of the current caret color When blinking off, the alpha channel will be set to ``0``. The default caret color when visible is ``(0, 0, 0, 255)`` (opaque black). You may set the color to an RGBA or RGB color tuple. .. warning:: This setter can fail for a short time after layout / window init! Use ``__init__``'s ``color`` keyword argument instead if you run into this problem. Each color channel must be between 0 and 255, inclusive. If the color set to an RGB color, the previous alpha channel value will be used. :type: (int, int, int, int) """ return self._list.colors[:4] @color.setter def color(self, color): r, g, b, *_a = color # Preserve alpha when setting an RGB color a = _a[0] if _a else self._list.colors[3] self._list.colors[:] = r, g, b, a, r, g, b, a @property def position(self): """Position of caret within document.""" return self._position @position.setter def position(self, position): self._position = position self._next_attributes.clear() self._update() @property def mark(self): """Position of immovable end of text selection within document. An interactive text selection is determined by its immovable end (the caret's position when a mouse drag begins) and the caret's position, which moves interactively by mouse and keyboard input. This property is ``None`` when there is no selection. :type: int """ return self._mark @mark.setter def mark(self, mark): self._mark = mark self._update(line=self._ideal_line) if mark is None: self._layout.set_selection(0, 0) @property def line(self): """Index of line containing the caret's position. When set, `position` is modified to place the caret on requested line while maintaining the closest possible X offset. :rtype: int """ if self._ideal_line is not None: return self._ideal_line else: return self._layout.get_line_from_position(self._position) @line.setter def line(self, line): if self._ideal_x is None: self._ideal_x, _ = self._layout.get_point_from_position(self._position) self._position = self._layout.get_position_on_line(line, self._ideal_x) self._update(line=line, update_ideal_x=False) def get_style(self, attribute): """Get the document's named style at the caret's current position. If there is a text selection and the style varies over the selection, `pyglet.text.document.STYLE_INDETERMINATE` is returned. :Parameters: `attribute` : str Name of style attribute to retrieve. See `pyglet.text.document` for a list of recognised attribute names. :rtype: object """ if self._mark is None or self._mark == self._position: try: return self._next_attributes[attribute] except KeyError: return self._layout.document.get_style(attribute, self._position) start = min(self._position, self._mark) end = max(self._position, self._mark) return self._layout.document.get_style_range(attribute, start, end) def set_style(self, attributes): """Set the document style at the caret's current position. If there is a text selection the style is modified immediately. Otherwise, the next text that is entered before the position is modified will take on the given style. :Parameters: `attributes` : dict Dict mapping attribute names to style values. See `pyglet.text.document` for a list of recognised attribute names. """ if self._mark is None or self._mark == self._position: self._next_attributes.update(attributes) return start = min(self._position, self._mark) end = max(self._position, self._mark) self._layout.document.set_style(start, end, attributes) def _delete_selection(self): start = min(self._mark, self._position) end = max(self._mark, self._position) self._position = start self._mark = None self._layout.document.delete_text(start, end) self._layout.set_selection(0, 0) def move_to_point(self, x, y): """Move the caret close to the given window coordinate. The `mark` will be reset to ``None``. :Parameters: `x` : int X coordinate. `y` : int Y coordinate. """ line = self._layout.get_line_from_point(x, y) self._mark = None self._layout.set_selection(0, 0) self._position = self._layout.get_position_on_line(line, x) self._update(line=line) self._next_attributes.clear() def select_to_point(self, x, y): """Move the caret close to the given window coordinate while maintaining the `mark`. :Parameters: `x` : int X coordinate. `y` : int Y coordinate. """ line = self._layout.get_line_from_point(x, y) self._position = self._layout.get_position_on_line(line, x) self._update(line=line) self._next_attributes.clear() def select_word(self, x, y): """Select the word at the given window coordinate. :Parameters: `x` : int X coordinate. `y` : int Y coordinate. """ line = self._layout.get_line_from_point(x, y) p = self._layout.get_position_on_line(line, x) m1 = self._previous_word_re.search(self._layout.document.text, 0, p+1) if not m1: m1 = 0 else: m1 = m1.start() self.mark = m1 m2 = self._next_word_re.search(self._layout.document.text, p) if not m2: m2 = len(self._layout.document.text) else: m2 = m2.start() self._position = m2 self._update(line=line) self._next_attributes.clear() def select_paragraph(self, x, y): """Select the paragraph at the given window coordinate. :Parameters: `x` : int X coordinate. `y` : int Y coordinate. """ line = self._layout.get_line_from_point(x, y) p = self._layout.get_position_on_line(line, x) self.mark = self._layout.document.get_paragraph_start(p) self._position = self._layout.document.get_paragraph_end(p) self._update(line=line) self._next_attributes.clear() def _update(self, line=None, update_ideal_x=True): if line is None: line = self._layout.get_line_from_position(self._position) self._ideal_line = None else: self._ideal_line = line x, y = self._layout.get_point_from_position(self._position, line) z = self._layout.z if update_ideal_x: self._ideal_x = x x += self._layout.x y += self._layout.y + self._layout.height if self._mark is not None: self._layout.set_selection(min(self._position, self._mark), max(self._position, self._mark)) self._layout.ensure_line_visible(line) self._layout.ensure_x_visible(x) font = self._layout.document.get_font(max(0, self._position - 1)) self._list.position[:] = [x, y + font.descent, z, x, y + font.ascent, z] def on_translation_update(self): self._list.translation[:] = (-self._layout.view_x, -self._layout.view_y, 0) * 2 def on_layout_update(self): """Handler for the `IncrementalTextLayout.on_layout_update` event. """ if self.position > len(self._layout.document.text): self.position = len(self._layout.document.text) self._update() def on_text(self, text): """Handler for the `pyglet.window.Window.on_text` event. Caret keyboard handlers assume the layout always has keyboard focus. GUI toolkits should filter keyboard and text events by widget focus before invoking this handler. """ if self._mark is not None: self._delete_selection() text = text.replace('\r', '\n') pos = self._position self._position += len(text) self._layout.document.insert_text(pos, text, self._next_attributes) self._nudge() return event.EVENT_HANDLED def on_text_motion(self, motion, select=False): """Handler for the `pyglet.window.Window.on_text_motion` event. Caret keyboard handlers assume the layout always has keyboard focus. GUI toolkits should filter keyboard and text events by widget focus before invoking this handler. """ if motion == key.MOTION_BACKSPACE: if self.mark is not None: self._delete_selection() elif self._position > 0: self._position -= 1 self._layout.document.delete_text(self._position, self._position + 1) self._update() elif motion == key.MOTION_DELETE: if self.mark is not None: self._delete_selection() elif self._position < len(self._layout.document.text): self._layout.document.delete_text(self._position, self._position + 1) elif self._mark is not None and not select: self._mark = None self._layout.set_selection(0, 0) if motion == key.MOTION_LEFT: self.position = max(0, self.position - 1) elif motion == key.MOTION_RIGHT: self.position = min(len(self._layout.document.text), self.position + 1) elif motion == key.MOTION_UP: self.line = max(0, self.line - 1) elif motion == key.MOTION_DOWN: line = self.line if line < self._layout.get_line_count() - 1: self.line = line + 1 elif motion == key.MOTION_BEGINNING_OF_LINE: self.position = self._layout.get_position_from_line(self.line) elif motion == key.MOTION_END_OF_LINE: line = self.line if line < self._layout.get_line_count() - 1: self._position = self._layout.get_position_from_line(line + 1) - 1 self._update(line) else: self.position = len(self._layout.document.text) elif motion == key.MOTION_BEGINNING_OF_FILE: self.position = 0 elif motion == key.MOTION_END_OF_FILE: self.position = len(self._layout.document.text) elif motion == key.MOTION_NEXT_WORD: pos = self._position + 1 m = self._next_word_re.search(self._layout.document.text, pos) if not m: self.position = len(self._layout.document.text) else: self.position = m.start() elif motion == key.MOTION_PREVIOUS_WORD: pos = self._position m = self._previous_word_re.search(self._layout.document.text, 0, pos) if not m: self.position = 0 else: self.position = m.start() self._next_attributes.clear() self._nudge() return event.EVENT_HANDLED def on_text_motion_select(self, motion): """Handler for the `pyglet.window.Window.on_text_motion_select` event. Caret keyboard handlers assume the layout always has keyboard focus. GUI toolkits should filter keyboard and text events by widget focus before invoking this handler. """ if self.mark is None: self.mark = self.position self.on_text_motion(motion, True) return event.EVENT_HANDLED def on_mouse_scroll(self, x, y, scroll_x, scroll_y): """Handler for the `pyglet.window.Window.on_mouse_scroll` event. Mouse handlers do not check the bounds of the coordinates: GUI toolkits should filter events that do not intersect the layout before invoking this handler. The layout viewport is scrolled by `SCROLL_INCREMENT` pixels per "click". """ self._layout.view_x -= scroll_x * self.SCROLL_INCREMENT self._layout.view_y += scroll_y * self.SCROLL_INCREMENT return event.EVENT_HANDLED def on_mouse_press(self, x, y, button, modifiers): """Handler for the `pyglet.window.Window.on_mouse_press` event. Mouse handlers do not check the bounds of the coordinates: GUI toolkits should filter events that do not intersect the layout before invoking this handler. This handler keeps track of the number of mouse presses within a short span of time and uses this to reconstruct double- and triple-click events for selecting words and paragraphs. This technique is not suitable when a GUI toolkit is in use, as the active widget must also be tracked. Do not use this mouse handler if a GUI toolkit is being used. """ t = time.time() if t - self._click_time < 0.25: self._click_count += 1 else: self._click_count = 1 self._click_time = time.time() if self._click_count == 1: self.move_to_point(x, y) elif self._click_count == 2: self.select_word(x, y) elif self._click_count == 3: self.select_paragraph(x, y) self._click_count = 0 self._nudge() return event.EVENT_HANDLED def on_mouse_drag(self, x, y, dx, dy, buttons, modifiers): """Handler for the `pyglet.window.Window.on_mouse_drag` event. Mouse handlers do not check the bounds of the coordinates: GUI toolkits should filter events that do not intersect the layout before invoking this handler. """ if self.mark is None: self.mark = self.position self.select_to_point(x, y) self._nudge() return event.EVENT_HANDLED def on_activate(self): """Handler for the `pyglet.window.Window.on_activate` event. The caret is hidden when the window is not active. """ self._active = True self.visible = self._active return event.EVENT_HANDLED def on_deactivate(self): """Handler for the `pyglet.window.Window.on_deactivate` event. The caret is hidden when the window is not active. """ self._active = False self.visible = self._active return event.EVENT_HANDLED