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宇宙模拟器
宇宙模拟器

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宇宙模拟器
宇宙模拟器
提交 f023a1a7 编写于 作者: 三月三net's avatar 三月三net
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Python超人-宇宙模拟器

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sim_lab/earth_moon_reality_bak.py 0 → 100644
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# -*- coding:utf-8 -*-
# title :模拟太阳系给天体真实时间和位置
# description :模拟太阳系给天体真实时间和位置
# author :Python超人
# date :2023-07-23
# link :https://gitcode.net/pythoncr/
# python_version :3.8
# ==============================================================================
import math
import numpy as np
from bodies import Sun, Mercury, Venus, Earth, Mars, Asteroids, Jupiter, Saturn, Uranus, Neptune, Moon
from common.celestial_data_service import get_body_posvel, recalc_moon_position, calc_solar_acceleration, \
set_solar_system_celestial_position, set_earth_rotation
from common.consts import SECONDS_PER_WEEK, SECONDS_PER_DAY, AU
from sim_scenes.func import ursina_run, camera_look_at, create_text_panel
from simulators.ursina.entities.body_timer import TimeData
from simulators.ursina.entities.entity_utils import clear_trails
from simulators.ursina.ui.control_ui import ControlUI
from simulators.ursina.ursina_config import UrsinaConfig
from simulators.ursina.ursina_event import UrsinaEvent
from ursina import camera, application
class SolarSystemRealitySim:
def __init__(self):
"""
@param debug_mode: 是否为调试模式
"""
self.clock_position_center = False
self.debug_mode = False
self.recalc_moon_pos = True
def create_bodies(self):
"""
创建太阳系的天体
@return:
"""
# 由于宇宙空间尺度非常大,如果按照实际的天体大小,则无法看到天体,因此需要对天体的尺寸进行放大
# 太阳缩放比例
# 地月缩放比例
# 为了更好的展示效果,需要对月球的位置重新计算(使得地月距离放大,月球相对地球方向不变),重新计算位置后,地球和月球可以放大1000倍以上
# if self.recalc_moon_pos: # 重新计算月球位置
# self.earth_size_scale = 10e3 if self.debug_mode else 1e3
# self.sun_size_scale = 0.04e2 if self.debug_mode else 0.4e2
# self.moon_size_scale = 2e3
# else:
# # 不重新计算,则地月的距离相对整个太阳系会非常近,因此,月球只放大了30倍
# self.earth_size_scale = 2.5e1
# self.moon_size_scale = 5e1
# self.sun_size_scale = 1e1
self.earth_size_scale = 1
self.moon_size_scale = 1
self.sun_size_scale = 1
self.sun = Sun(name="太阳", size_scale=self.sun_size_scale) # 太阳
self.earth = Earth(name="地球", # texture="earth_hd.jpg",
rotate_angle=3.44,
size_scale=self.earth_size_scale) # 地球
self.earth_camera = Earth(name="地球摄像机", texture="transparent.png",
rotate_angle=0,
rotation_speed=0,
show_trail=False,
size_scale=1) # 地球摄像机
self.earth_camera.camera_init_val = 0
self.moon = Moon(name="月球", size_scale=self.moon_size_scale,
rotation_speed=0.4065) # 月球
self.sun.show_trail = False
self.earth.trail_scale_factor = 0.2
self.moon.trail_scale_factor = 0.3
# 所有天体
self.bodies = [self.sun, self.earth, self.earth_camera, self.moon]
# def init_earth(self):
# """
# 初始化地球
# @return:
# """
# # 让地球显示自转轴线
# self.earth.rotate_axis_color = (255, 255, 50)
# # 如果为调试模式,则太阳光对地球无效,方便查看
# if self.debug_mode:
# self.earth.set_light_disable(True)
def show_clock(self, dt):
"""
显示时钟
@param dt: 时间 datetime
@return:
"""
if self.clock_position_center:
position, origin = (0, .25), (0, 0)
else:
# position, origin = (0.60, -0.465), (-0.5, 0.5)
position, origin = (-0.60, -0.465), (-0.5, 0.5)
ControlUI.current_ui.show_message(dt.strftime('%Y-%m-%d %H:%M:%S'),
position=position,
origin=origin,
font="verdana.ttf",
close_time=-1)
def set_bodies_position(self, time_data: TimeData):
"""
设置天体的位置(包含速度和加速度的信息)
@param time_data:
@return:
"""
t = self.start_time + time_data.total_days
set_solar_system_celestial_position(self.bodies, t, self.recalc_moon_pos)
def on_ready(self):
"""
事件绑定后,模拟器运行前会触发
@return:
"""
# 运行前触发
self.text_panel = create_text_panel()
self.text_panel.text = "太阳缩放:1.0\n地球缩放:1.0\n月球缩放:1.0"
# camera.rotation_z = -20
# if self.debug_mode:
# camera.fov = 30 # 调试时,拉近摄像机距离
# camera.fov = 40
camera.clip_plane_near = 10
# camera.clip_plane_far = 1000000
camera.parent = self.earth_camera.planet
# camera.update = self.camera_update
# 需要按照时间和日期来控制地球的自转,所以删除控制地球自转的属性
delattr(self.earth.planet, "rotation_speed")
delattr(self.earth.planet, "rotspeed")
# 以下配置可以快速查看4年的轨迹
UrsinaConfig.trail_length = 2800
# UrsinaConfig.trail_type = 'line'
UrsinaConfig.trail_factor = 3
UrsinaConfig.trail_thickness_factor = 10
# 设置后,可以调整鼠标键盘的控制速度
application.time_scale = 2
#
# def camera_update(self):
# camera.x = -50 # 100
# # camera.z = -10
# camera.y = 20
# camera.z = -10
# # 摄像机看向地球
# camera_look_at(self.earth)
def body_show(self, body):
body.planet.enabled = True
body.show_trail = True
def body_hide(self, body):
body.planet.enabled = False
body.show_trail = False
# clear_trails(body.planet)
def body_scale(self, body, value):
body.planet.init_scale *= value
if hasattr(body.planet.main_entity, "trail_scale"):
body.planet.main_entity.trail_scale *= value
def set_camera_pos(self, time_data: TimeData):
if time_data.total_days > 120:
self.earth_camera.camera_init_val += 300000
elif time_data.total_days > 90:
self.earth_camera.camera_init_val += 60000
elif time_data.total_days > 90:
self.earth_camera.camera_init_val += 20000
elif time_data.total_days > 30:
self.earth_camera.camera_init_val += 18000
elif time_data.total_days > 10:
self.earth_camera.camera_init_val += 4000
elif time_data.total_days > 2:
self.earth_camera.camera_init_val += 500
# if UrsinaConfig.trail_factor < 50:
# self.body_scale(1.002)
if time_data.total_days < 5:
self.earth.show_trail = False
self.moon.show_trail = False
if 30 > time_data.total_days > 5:
self.earth.show_trail = True
self.moon.show_trail = True
self.body_scale(self.moon, 1.0025)
self.body_scale(self.earth, 1.002)
elif 60 > time_data.total_days > 30:
# self.body_hide(self.moon)
self.body_scale(self.moon, 1.002)
self.body_scale(self.earth, 1.002)
self.body_scale(self.sun, 1.002)
elif 150 > time_data.total_days > 60:
self.earth.planet.init_scale = 0.01
self.earth.planet.main_entity.trail_scale = 0.03
# self.body_scale(self.earth, 0.02)
# self.body_hide(self.earth)
# self.earth.planet.init_scale = 0.01
# self.body_show(self.moon)
# self.body_scale(1.0015)
# self.sun_scale(1.0015)
# else:
# self.body_scale(1.002)
# self.sun_scale(1.0005)
print("%s,%s" % (round(self.moon.planet.body_scale, 1), time_data.total_days))
# camera.x = -300 # 100
# camera.z = 200
# camera.y += self.earth_camera.camera_init_val * UrsinaConfig.SCALE_FACTOR
# camera.x = -80 # 100
# camera.z = -10
dis_au = round(camera.y / UrsinaConfig.SCALE_FACTOR / AU, 2)
if dis_au < 400:
if self.earth_camera.camera_init_val > 0:
camera.y += self.earth_camera.camera_init_val * UrsinaConfig.SCALE_FACTOR
else:
camera.y = 80
self.text_panel.text = "太阳大小缩放:%.1f\n地球大小缩放:%.1f\n月球大小缩放:%.1f\n摄像机距地球:%.2f天文单位" % \
(self.sun.planet.body_scale,
self.earth.planet.body_scale,
self.moon.planet.body_scale,
dis_au)
# UrsinaConfig.trail_factor = 3 * math.sqrt(camera.y / 250)
pass
def on_timer_changed(self, time_data: TimeData):
"""
事件绑定后,时时刻刻都会触发
@param time_data:
@return:
"""
dt = time_data.get_datetime(str(self.start_time))
# 设置天体的位置(包含速度和加速度的信息)
self.set_bodies_position(time_data)
# 保证地球的自转和北京时间同步
set_earth_rotation(self.earth, dt)
# 调整摄像机的位置
self.set_camera_pos(time_data)
# 摄像机看向地球
camera_look_at(self.sun)
# 显示时钟
self.show_clock(dt)
def bind_events(self):
# 运行中,每时每刻都会触发 on_timer_changed
UrsinaEvent.on_timer_changed_subscription(self.on_timer_changed)
# 运行前会触发 on_ready
UrsinaEvent.on_ready_subscription(self.on_ready)
def run(self,
debug_mode=False,
start_time=None,
recalc_moon_pos=True,
clock_position_center=False):
"""
模拟运行
@param debug_mode: 是否调试模式
@param start_time: 运行的开始时间
@param show_asteroids: 是否显示小行星带
@param show_earth_clouds: 地球是否显示云层(图片效果,不是真实的云层)
@param recalc_moon_pos: 为了更好的展示效果,需要对月球的位置重新计算(使得地月距离放大,月球相对地球方向不变)
@param clock_position_center: 时钟是否显示在中间
@return:
"""
self.recalc_moon_pos = recalc_moon_pos
self.debug_mode = debug_mode
self.clock_position_center = clock_position_center
# 创建太阳系天体
self.create_bodies()
# 绑定事件
self.bind_events()
from astropy.time import Time
from datetime import datetime
# 开始时间为空,则默认为当前时间
if start_time is None:
self.start_time = Time.now() # 获取默认开始时间为当前时间
elif isinstance(start_time, str):
self.start_time = Time(datetime.strptime(start_time + '+0800', '%Y-%m-%d %H:%M:%S%z'),
format='datetime')
dt = SECONDS_PER_DAY # 1秒=1天
# dt = 1 # 1秒=1秒
# 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(self.bodies, dt,
position=(0, 0, 0),
# position=(0, 0.2 * AU, -3 * AU),
gravity_works=False, # 关闭万有引力的计算
show_grid=False,
show_trail=True,
# cosmic_bg='',
show_camera_info=False,
timer_enabled=True)
if __name__ == '__main__':
# 以下展示的效果为太阳系真实的时间和位置
sim = SolarSystemRealitySim()
sim.run(
# debug_mode=True, # 是否调试模式
# start_time='2023-01-01 02:20:00', # 指定运行的开始时间,不指定为当前时间
recalc_moon_pos=False, # 为了更好的展示效果,需要对月球的位置重新计算(使得地月距离放大,月球相对地球方向不变)
# clock_position_center=True # 时钟是否显示在中间
)
sim_scenes/solar_system/earth_moon_reality.py
浏览文件 @ f023a1a7
......@@ -123,14 +123,13 @@ class SolarSystemRealitySim:
self.text_panel = create_text_panel()
self.text_panel.text = "太阳缩放:1.0\n地球缩放:1.0\n月球缩放:1.0"
# camera.rotation_z = -20
# if self.debug_mode:
# camera.fov = 30 # 调试时,拉近摄像机距离
# camera.fov = 40
camera.clip_plane_near = 10
# camera.clip_plane_far = 1000000
camera.parent = self.earth_camera.planet
# camera.update = self.camera_update
# if self.sky_texture is not None:
# from simulators.ursina.entities.sphere_sky import SphereSky
# SphereSky(texture=self.sky_texture).scale = 10000
camera.clip_plane_near = 0.1
camera.clip_plane_far = 100000
camera.fov = 1.0000000001
# 需要按照时间和日期来控制地球的自转,所以删除控制地球自转的属性
delattr(self.earth.planet, "rotation_speed")
......@@ -154,86 +153,25 @@ class SolarSystemRealitySim:
# # 摄像机看向地球
# camera_look_at(self.earth)
def body_show(self, body):
body.planet.enabled = True
body.show_trail = True
def body_hide(self, body):
body.planet.enabled = False
body.show_trail = False
# clear_trails(body.planet)
# def body_show(self, body):
# body.planet.enabled = True
# body.show_trail = True
#
# def body_hide(self, body):
# body.planet.enabled = False
# body.show_trail = False
# # clear_trails(body.planet)
def body_scale(self, body, value):
body.planet.init_scale *= value
body.planet.init_scale = 6 * value * 1e-9
if hasattr(body.planet.main_entity, "trail_scale"):
body.planet.main_entity.trail_scale *= value
body.planet.main_entity.trail_scale = value * 1e-9
def set_camera_pos(self, time_data: TimeData):
if time_data.total_days > 120:
self.earth_camera.camera_init_val += 300000
elif time_data.total_days > 90:
self.earth_camera.camera_init_val += 60000
elif time_data.total_days > 90:
self.earth_camera.camera_init_val += 20000
elif time_data.total_days > 30:
self.earth_camera.camera_init_val += 18000
elif time_data.total_days > 10:
self.earth_camera.camera_init_val += 4000
elif time_data.total_days > 2:
self.earth_camera.camera_init_val += 500
# if UrsinaConfig.trail_factor < 50:
# self.body_scale(1.002)
if time_data.total_days < 5:
self.earth.show_trail = False
self.moon.show_trail = False
if 30 > time_data.total_days > 5:
self.earth.show_trail = True
self.moon.show_trail = True
self.body_scale(self.moon, 1.0025)
self.body_scale(self.earth, 1.002)
elif 60 > time_data.total_days > 30:
# self.body_hide(self.moon)
self.body_scale(self.moon, 1.002)
self.body_scale(self.earth, 1.002)
self.body_scale(self.sun, 1.002)
elif 150 > time_data.total_days > 60:
self.earth.planet.init_scale = 0.01
self.earth.planet.main_entity.trail_scale = 0.03
# self.body_scale(self.earth, 0.02)
# self.body_hide(self.earth)
# self.earth.planet.init_scale = 0.01
# self.body_show(self.moon)
# self.body_scale(1.0015)
# self.sun_scale(1.0015)
# else:
# self.body_scale(1.002)
# self.sun_scale(1.0005)
print("%s,%s" % (round(self.moon.planet.body_scale, 1), time_data.total_days))
# camera.x = -300 # 100
# camera.z = 200
# camera.y += self.earth_camera.camera_init_val * UrsinaConfig.SCALE_FACTOR
# camera.x = -80 # 100
# camera.z = -10
dis_au = round(camera.y / UrsinaConfig.SCALE_FACTOR / AU, 2)
if dis_au < 400:
if self.earth_camera.camera_init_val > 0:
camera.y += self.earth_camera.camera_init_val * UrsinaConfig.SCALE_FACTOR
else:
camera.y = 80
self.text_panel.text = "太阳大小缩放:%.1f\n地球大小缩放:%.1f\n月球大小缩放:%.1f\n摄像机距地球:%.2f天文单位" % \
(self.sun.planet.body_scale,
self.earth.planet.body_scale,
self.moon.planet.body_scale,
dis_au)
# UrsinaConfig.trail_factor = 3 * math.sqrt(camera.y / 250)
pass
d = camera.world_z / -74 * 1e6
self.body_scale(self.earth, d)
self.body_scale(self.moon, d)
self.body_scale(self.sun, d)
def on_timer_changed(self, time_data: TimeData):
"""
......@@ -249,7 +187,7 @@ class SolarSystemRealitySim:
# 调整摄像机的位置
self.set_camera_pos(time_data)
# 摄像机看向地球
camera_look_at(self.sun)
camera_look_at(self.earth)
# 显示时钟
self.show_clock(dt)
......@@ -291,19 +229,26 @@ class SolarSystemRealitySim:
self.start_time = Time(datetime.strptime(start_time + '+0800', '%Y-%m-%d %H:%M:%S%z'),
format='datetime')
# from common.image_utils import find_texture
# self.sky_texture = find_texture("bg_pan.jpg", None)
# if self.sky_texture is None:
# cosmic_bg = None
# else:
# cosmic_bg = ''
dt = SECONDS_PER_DAY # 1秒=1天
# dt = 1 # 1秒=1秒
# 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(self.bodies, dt,
position=(0, 0, 0),
# position=(0, 0.2 * AU, -3 * AU),
# position=(0, 0, 0),
position=(0, 0, -AU),
gravity_works=False, # 关闭万有引力的计算
show_grid=False,
show_trail=True,
# cosmic_bg='',
show_camera_info=False,
cosmic_bg='',
# show_camera_info=False,
timer_enabled=True)
......
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