diff --git a/sim_scenes/solar_system/solar_system_habitable_zone.py b/sim_scenes/solar_system/solar_system_habitable_zone.py index 3382186538d15e0748244568faf0f18a37266eb2..09337016c2148233b1acefd49ca2cdd28579ed3b 100644 --- a/sim_scenes/solar_system/solar_system_habitable_zone.py +++ b/sim_scenes/solar_system/solar_system_habitable_zone.py @@ -6,29 +6,76 @@ # link :https://gitcode.net/pythoncr/ # python_version :3.8 # ============================================================================== -from bodies import Sun, Mercury, Venus, Earth, Moon, Mars, Jupiter, Saturn, Uranus, Neptune, Pluto, HabitableZone, Asteroids +from bodies import Sun, Mercury, Venus, Earth, Moon, Mars, Jupiter, Saturn, Uranus, Neptune, Pluto, HabitableZone, \ + Asteroids from common.consts import SECONDS_PER_WEEK, SECONDS_PER_DAY, SECONDS_PER_YEAR, AU from sim_scenes.func import mayavi_run, ursina_run +from simulators.ursina.entities.body_timer import TimeData +from simulators.ursina.ursina_config import UrsinaConfig +from simulators.ursina.ursina_event import UrsinaEvent +from ursina import Vec3 +import numpy as np if __name__ == '__main__': # 目前认为 太阳系 的宜居带范围是从距离太阳0.95个天文单位 (约1.42亿千米)到 2.4个天文单位(约3.59亿千米)的范围为宜居带, # 其宽度约为2.17亿千米, 按照这个标准,太阳系的宜居带中只有三个大型天体,分别是地球、 月球 以及火星(1.52天文单位)。 - sun = Sun(name="太阳", size_scale=0.5e2) # 太阳放大 80 倍,距离保持不变 + sun = Sun(name="太阳", size_scale=0.5e2) # 太阳放大 80 倍,距离保持不变 + earth = Earth(name="地球", size_scale=1.5e3) # 地球放大 1500 倍,距离保持不变 + moon_d = 10000000 + moon = Moon(name="月球", size_scale=1e2, + init_position=[moon_d, 0, 0], + init_velocity=[0, 0, 0], + distance_scale=0.2, + gravity_only_for_earth=True + ) bodies = [ sun, - Venus(name="金星", size_scale=1.5e3), # 金星放大 4000 倍,距离保持不变 - Earth(name="地球", size_scale=1.5e3), # 地球放大 4000 倍,距离保持不变 - Moon(name="月球", size_scale=2e3), # 地球放大 4000 倍,距离保持不变 - Mars(name="火星", size_scale=2e3), # 火星放大 4000 倍,距离保持不变 + Venus(name="金星", size_scale=1.5e3), # 金星放大 1500 倍,距离保持不变 + earth, moon, + # Moon(name="月球", size_scale=2e3, + # # init_position=[0, 0, 363104 + 1.12 * AU], + # # init_velocity=[-(29.79 + 1.03), 0, 0] + # init_position=[15000000, 0, AU], + # init_velocity=[-32.79, 0, 2.03], gravity_only_for_earth=True + # ), # 月球放大 2000 倍,距离保持不变 + Mars(name="火星", size_scale=2e3), # 火星放大 2000 倍,距离保持不变 Asteroids(name="小行星群", size_scale=3.2e2, - parent=sun), # 小行星群模拟(仅 ursina 模拟器支持) + parent=sun), # 小行星群模拟(仅 ursina 模拟器支持) HabitableZone(name="宜居带", size_scale=1e2, - parent=sun), # 小行星群模拟(仅 ursina 模拟器支持) - Jupiter(name="木星", size_scale=2e2), # 木星放大 800 倍,距离保持不变 + parent=sun), # 宜居带模拟(仅 ursina 模拟器支持) + Jupiter(name="木星", size_scale=2e2), # 木星放大 200 倍,距离保持不变 ] + + def on_ready(): + # 月球就会跟着地球自转而转 + moon.planet.parent = earth.planet + + + def on_timer_changed(time_data: TimeData): + # print(moon.planet.position) + # moon.planet.rotation = -Vec3(earth.planet.rotation_x, # - earth.planet.ring_rotation_x, + # earth.planet.rotation_y, + # earth.planet.rotation_z) + # 为了不让月球随着地球的周期旋转,则需要获取地球的旋转角度 + angle = earth.planet.rotation_y + # TODO:根据旋转的角度对月球的位置进行计算,保证月球公转和地球自转的关系 365天=12月 + # angle = np.array(angle * np.pi) + # + # px = moon_d * UrsinaConfig.SCALE_FACTOR * np.cos(angle) + # pz = moon_d * UrsinaConfig.SCALE_FACTOR * np.sin(angle) + # moon.planet.world_position = Vec3(0,0,0) + + + # 订阅事件后,上面2个函数功能才会起作用 + # 运行前会触发 on_ready + UrsinaEvent.on_ready_subscription(on_ready) + # 运行中,每时每刻都会触发 on_timer_changed + UrsinaEvent.on_timer_changed_subscription(on_timer_changed) + # 使用 ursina 查看的运行效果 # 常用快捷键: P:运行和暂停 O:重新开始 I:显示天体轨迹 # position = 左-右+、上+下-、前+后- - ursina_run(bodies, 1, position=(0, 2 * AU, -11 * AU), + ursina_run(bodies, SECONDS_PER_DAY, position=(0, 2 * AU, -11 * AU), + show_timer=True, bg_music="sounds/interstellar.mp3") diff --git a/textures/green_alpha_1.png b/textures/green_alpha_1.png new file mode 100644 index 0000000000000000000000000000000000000000..2a064f93fae150722c0057191ff9aa0acb04c14b Binary files /dev/null and b/textures/green_alpha_1.png differ