# ------------------------------- # Difficult Rocket # Copyright © 2020-2023 by shenjackyuanjie 3695888@qq.com # All rights reserved # ------------------------------- # Huge thanks to pyglet developers from typing import Tuple, Optional from pyglet.gl import gl from pyglet.math import Mat4, Vec3 from pyglet.graphics import Group class Camera: """ >>> from pyglet.window import Window >>> window = Window() >>> camera = Camera(window) >>> @window.event >>> def on_draw(): >>> camera.begin() >>> window.clear() >>> camera.end() """ def __init__(self, window, zoom: Optional[float] = 1.0, dx: Optional[float] = 1.0, dy: Optional[float] = 1.0, min_zoom: Optional[float] = 1.0, max_zoom: Optional[float] = 1.0) -> None: self.window = window self.dx = dx self.dy = dy self.zoom = zoom self.min_zoom = min_zoom self.max_zoom = max_zoom self._stored_view = window.view @property def position(self) -> Tuple[float, float]: return self.dx, self.dy @position.setter def position(self, value: Tuple[float, float]): self.dx, self.dy = value @property def zoom_level(self) -> float: return self.zoom @zoom_level.setter def zoom_level(self, value: float) -> None: self.zoom = min(max(value, self.min_zoom), self.max_zoom) def begin(self) -> None: view = self.window.view self._stored_view = view x = self.window.width / self.zoom + (self.dx / self.zoom) y = self.window.height / self.zoom + (self.dy / self.zoom) view_matrix = view.translate((x * self.zoom, y * self.zoom, 0)) view_matrix = view_matrix.scale((self.zoom, self.zoom, 1)) self.window.view = view_matrix def end(self) -> None: self.window.view = self._stored_view def __enter__(self): self.begin() return self def __exit__(self, exc_type, exc_val, exc_tb): self.end() class CenterCamera(Camera): """ A camera that centers the view in the center of the window >>> from pyglet.window import Window >>> window = Window() >>> camera = CenterCamera(window) >>> @window.event >>> def on_draw(): >>> camera.begin() >>> window.clear() >>> camera.end() """ def begin(self) -> None: view = self.window.view self._stored_view = view x = self.window.width / 2.0 / self.zoom + (self.dx / self.zoom) y = self.window.height / 2.0 / self.zoom + (self.dy / self.zoom) view_matrix = view.translate((x * self.zoom, y * self.zoom, 0)) # print(f"camera translation {view_matrix}") view_matrix = view_matrix.scale((self.zoom, self.zoom, 1)) self.window.view = view_matrix def end(self) -> None: self.window.view = self._stored_view class GroupCamera(Group): """ A camera by group can be used by just added to your widget """ def __init__(self, window, order: int = 0, parent: Optional[Group] = None, view_x: Optional[int] = 0, view_y: Optional[int] = 0, zoom: Optional[float] = 1.0, ): super().__init__(order=order, parent=parent) self._window = window self._previous_view = None self._view_x = view_x self._view_y = view_y self._zoom = zoom self._zoom_x = self._zoom self._zoom_y = self._zoom @property def view_x(self) -> int: return self._view_x @view_x.setter def view_x(self, value: int): self._view_x = value @property def view_y(self) -> int: return self._view_y @view_y.setter def view_y(self, value: int): self._view_y = value @property def zoom(self) -> float: return self._zoom @zoom.setter def zoom(self, value: float): self._zoom = value def set_state(self): self._previous_view = self._window.view # print(self._previous_view) x = self._window.width / 2.0 / self._zoom_x + (self._view_x / self._zoom_x) y = self._window.height / 2.0 / self._zoom_y + (self._view_y / self._zoom_y) # view = Mat4.from_translation(Vec3(self._view_x * x, self._view_y * y, 0)) view = Mat4.from_translation(Vec3(self._view_x, self._view_y, 0)) # print(f"group translation {view}") if self._zoom == 1.0: self._window.view = view else: view = view.scale(Vec3(self._zoom, self._zoom, 1)) self._window.view = view def unset_state(self): self._window.view = self._previous_view