150行Python代码模拟太阳系行星运转

150行Python代码模拟太阳系行星运转

首页模拟经营太阳系行星2完整版更新时间:2024-05-05

今天我们用Python来模拟一下太阳系行星运动轨迹玩玩~

先上成品图(运行效果含音乐的呦)

想要实现这样的效果并不难

准备材料

首先我们需要准备这样一些材料

宇宙背景图

背景透明的行星图

编写代码

代码分块详解

导入需要的模块

import pygame import sys import math from pygame.locals import *

定义窗口大小、标题名称、字体设置、创建时钟

size = width, height = 1206, 780 screen = pygame.display.set_mode(size) pygame.display.set_caption("太阳系行星运转示意图") myfont = pygame.font.Font(None,60) clock = pygame.time.Clock()

宇宙背景初始化

background = pygame.image.load(r" 这里填背景图片本地路径 ") screen.blit(background, (0, 0))

右侧文字及星球显示

textImage = myfont.render("Solar System", True, (255, 255, 0)) # 太阳系 screen.blit(textImage, (100, 100)) my_font = pygame.font.SysFont("arial", 15) text_surface = my_font.render("Sun", True, (255, 0, 0), (0, 0, 0)) # 太阳 screen.blit(text_surface, (1020, 30)) sun = pygame.image.load(r"F:\solar-system\image\sun_bg.png") screen.blit(pygame.transform.scale(sun, (27, 27)), (1090, 25)) my_font = pygame.font.SysFont("arial", 15) text_surface = my_font.render("Mercury", True, (255, 0, 0), (0, 0, 0)) # 水星 screen.blit(text_surface, (1020, 70)) my_font = pygame.font.SysFont("arial", 15) Mercury = pygame.image.load(r"F:\solar-system\image\mercury_bg.png") screen.blit(pygame.transform.scale(Mercury, (27, 27)), (1090, 65)) text_surface = my_font.render("Venus", True, (255, 0, 0), (0, 0, 0)) # 金星 screen.blit(text_surface, (1020, 110)) my_font = pygame.font.SysFont("arial", 15) spark = pygame.image.load(r"F:\solar-system\image\spark_bg.png") screen.blit(pygame.transform.scale(spark, (27, 27)), (1090, 105)) text_surface = my_font.render("Earth", True, (255, 0, 0), (0, 0, 0)) # 地球 screen.blit(text_surface, (1020, 150)) my_font = pygame.font.SysFont("arial", 15) earth = pygame.image.load(r"F:\solar-system\image\earth_min_bg.png") screen.blit(pygame.transform.scale(earth, (27, 27)), (1090, 145)) text_surface = my_font.render("Moon", True, (255, 0, 0), (0, 0, 0)) # 月球 screen.blit(text_surface, (1020, 190)) my_font = pygame.font.SysFont("arial", 15) moon = pygame.image.load(r"F:\solar-system\image\mercury_bg.png") screen.blit(pygame.transform.scale(moon, (27, 27)), (1090, 185)) text_surface = my_font.render("Mars", True, (255, 0, 0), (0, 0, 0)) # 火星 screen.blit(text_surface, (1020, 230)) Mars = pygame.image.load(r"F:\solar-system\image\venus_bg.png") screen.blit(pygame.transform.scale(Mars, (27, 27)), (1090, 225)) my_font = pygame.font.SysFont("arial", 15) text_surface = my_font.render("Jupiter", True, (255, 0, 0), (0, 0, 0)) # 木星 screen.blit(text_surface, (1020, 270)) Jupiter = pygame.image.load(r"F:\solar-system\image\jupiter_min_bg.png") screen.blit(pygame.transform.scale(Jupiter, (27, 27)), (1090, 265)) my_font = pygame.font.SysFont("arial", 15) text_surface = my_font.render("Saturn", True, (255, 0, 0), (0, 0, 0)) # 土星 screen.blit(text_surface, (1020, 300)) Saturn = pygame.image.load(r"F:\solar-system\image\saturn_bg.png") screen.blit(pygame.transform.scale(Saturn, (30, 30)), (1090, 305)) my_font = pygame.font.SysFont("arial", 15) text_surface = my_font.render("Uranus", True, (255, 0, 0), (0, 0, 0)) # 天王星 screen.blit(text_surface, (1020, 340)) Uranus = pygame.image.load(r"F:\solar-system\image\uranus_bg.png") screen.blit(pygame.transform.scale(Uranus, (27, 27)), (1090, 345)) my_font = pygame.font.SysFont("arial", 15) text_surface = my_font.render("Neptune", True, (255, 0, 0), (0, 0, 0)) # 海王星 screen.blit(text_surface, (1020, 380)) Neptune = pygame.image.load(r"F:\solar-system\image\neptune_bg.png") screen.blit(pygame.transform.scale(Neptune, (27, 27)), (1090, 385))

设定太阳初始位置

sun = pygame.image.load(r"F:/solar-system/image/sun_bg.png") screen.blit(pygame.transform.scale(sun, (170, 170)), (527,307))

实现各个星球绕着太阳转

# 水星 roll_3 = 0.077 # 每帧公转pi pos_3_x = int(size[0] // 2 size[1] // 8 * math.sin(roll_3)) pos_3_y = int(size[1] // 2 size[1] // 8 * math.cos(roll_3)) mercury = pygame.image.load(r"F:\solar-system\image\mercury_bg.png") screen.blit(pygame.transform.scale(mercury, (8, 8)), (pos_3_x, pos_3_y)) # 金星 roll_2 = 0.069 # 每帧公转pi pos_2_x = int(size[0] // 2 size[1] // 7 * math.sin(roll_2)) pos_2_y = int(size[1] // 2 size[1] // 7 * math.cos(roll_2)) venus = pygame.image.load(r"F:\solar-system\image\venus_bg.png") screen.blit(pygame.transform.scale(venus, (10, 10)), (pos_2_x, pos_2_y)) # 地球 roll_e = 0.060 # 每帧公转pi pos_e_x = int(size[0] // 2 size[1] // 6 * math.sin(roll_e)) pos_e_y = int(size[1] // 2 size[1] // 6 * math.cos(roll_e)) earth = pygame.image.load(r"F:\solar-system\image\earth_min_bg.png") screen.blit(pygame.transform.scale(earth, (15, 15)), (pos_e_x, pos_e_y)) # 火星 roll_4 = 0.053 # 每帧公转pi pos_4_x = int(size[0] // 2 size[1] // 5 * math.sin(roll_4)) pos_4_y = int(size[1] // 2 size[1] // 5 * math.cos(roll_4)) venus = pygame.image.load(r"F:\solar-system\image\venus_bg.png") screen.blit(pygame.transform.scale(venus, (13, 13)), (pos_4_x, pos_4_y)) # 木星 roll_5 = 0.045 # 每帧公转pi pos_5_x = int(size[0] // 2 size[1] // 4 * math.sin(roll_5)) pos_5_y = int(size[1] // 2 size[1] // 4 * math.cos(roll_5)) mouth = pygame.image.load(r"F:\solar-system\image\jupiter_bg.png") screen.blit(pygame.transform.scale(mouth, (70, 70)), (pos_5_x, pos_5_y)) # 土星 roll_6 = 0.037 # 每帧公转pi pos_6_x = int(size[0] // 2 size[1] // 3.5 * math.sin(roll_6)) pos_6_y = int(size[1] // 2 size[1] // 3.5 * math.cos(roll_6)) saturn = pygame.image.load(r"F:\solar-system\image\saturn_bg.png") screen.blit(pygame.transform.scale(saturn, (50, 50)), (pos_6_x, pos_6_y)) # 天王星 roll_7 = 0.031 # 每帧公转pi pos_7_x = int(size[0] // 2 size[1] // 2.7 * math.sin(roll_7)) pos_7_y = int(size[1] // 2 size[1] // 2.7 * math.cos(roll_7)) uranus = pygame.image.load(r"F:\solar-system\image\uranus_bg.png") screen.blit(pygame.transform.scale(uranus, (45, 45)), (pos_7_x, pos_7_y)) # 海王星 roll_8 = 0.025 # 每帧公转pi pos_8_x = int(size[0] // 2 size[1] // 2 * math.sin(roll_8)) pos_8_y = int(size[1] // 2 size[1] // 2 * math.cos(roll_8)) neptune = pygame.image.load(r"F:\solar-system\image\neptune_bg.png") screen.blit(pygame.transform.scale(neptune, (37, 37)), (pos_8_x, pos_8_y))

实现月亮绕着地球转

roll_m = 0.2 # 每帧公转pi pos_m_x = int(pos_e_x size[1] // 50 * math.sin(roll_m)) pos_m_y = int(pos_e_y size[1] // 50 * math.cos(roll_m)) mouth = pygame.image.load(r"F:\solar-system\image\mercury_bg.png") screen.blit(pygame.transform.scale(mouth, (6, 6)), (pos_m_x, pos_m_y))

如果你很有情调的话,还可以在循环体之前加一段代码,配曲music

注:此处音乐力求达到宏伟效果,因此选的是 Victory.mp3

# 添加背景音乐 pygame.mixer.music.load('F:/music.mp3') pygame.mixer.music.play(-1, 40) pygame.mixer.music.set_volume(0.5)

总观整体代码

# 导入模块 import pygame import sys import math from pygame.locals import * # 初始化 pygame.init() # 定义窗口大小、标题名称、字体设置、创建时钟(可以控制游戏循环频率)等 size = width, height = 1206, 780 screen = pygame.display.set_mode(size) pygame.display.set_caption("太阳系行星运转示意图") myfont = pygame.font.Font(None,60) clock = pygame.time.Clock() # 定义三个空列表 pos_e = pos_mm = [] # 地球和月球等其他行星的公转过的角度 roll_e = roll_m = 0 roll_2 = roll_3 = roll_4 = roll_5 = roll_6 = roll_7 = roll_8 = 0 # 添加背景音乐 pygame.mixer.music.load('F:/music.mp3') pygame.mixer.music.play(-1, 40) pygame.mixer.music.set_volume(0.5) # 循环,达到万事万物永不停息的目的 while True: for event in pygame.event.get(): if event.type == QUIT: sys.exit() # 宇宙 background = pygame.image.load(r"E:/3.PNG") screen.blit(background, (0, 0)) # 显示文字及星球 textImage = myfont.render("Solar System", True, (255, 255, 0)) # 太阳系 screen.blit(textImage, (100, 100)) my_font = pygame.font.SysFont("arial", 15) text_surface = my_font.render("Sun", True, (255, 0, 0), (0, 0, 0)) # 太阳 screen.blit(text_surface, (1020, 30)) sun = pygame.image.load(r"F:\solar-system\image\sun_bg.png") screen.blit(pygame.transform.scale(sun, (27, 27)), (1090, 25)) my_font = pygame.font.SysFont("arial", 15) text_surface = my_font.render("Mercury", True, (255, 0, 0), (0, 0, 0)) # 水星 screen.blit(text_surface, (1020, 70)) my_font = pygame.font.SysFont("arial", 15) Mercury = pygame.image.load(r"F:\solar-system\image\mercury_bg.png") screen.blit(pygame.transform.scale(Mercury, (27, 27)), (1090, 65)) text_surface = my_font.render("Venus", True, (255, 0, 0), (0, 0, 0)) # 金星 screen.blit(text_surface, (1020, 110)) my_font = pygame.font.SysFont("arial", 15) spark = pygame.image.load(r"F:\solar-system\image\spark_bg.png") screen.blit(pygame.transform.scale(spark, (27, 27)), (1090, 105)) text_surface = my_font.render("Earth", True, (255, 0, 0), (0, 0, 0)) # 地球 screen.blit(text_surface, (1020, 150)) my_font = pygame.font.SysFont("arial", 15) earth = pygame.image.load(r"F:\solar-system\image\earth_min_bg.png") screen.blit(pygame.transform.scale(earth, (27, 27)), (1090, 145)) text_surface = my_font.render("Moon", True, (255, 0, 0), (0, 0, 0)) # 月球 screen.blit(text_surface, (1020, 190)) my_font = pygame.font.SysFont("arial", 15) moon = pygame.image.load(r"F:\solar-system\image\mercury_bg.png") screen.blit(pygame.transform.scale(moon, (27, 27)), (1090, 185)) text_surface = my_font.render("Mars", True, (255, 0, 0), (0, 0, 0)) # 火星 screen.blit(text_surface, (1020, 230)) Mars = pygame.image.load(r"F:\solar-system\image\venus_bg.png") screen.blit(pygame.transform.scale(Mars, (27, 27)), (1090, 225)) my_font = pygame.font.SysFont("arial", 15) text_surface = my_font.render("Jupiter", True, (255, 0, 0), (0, 0, 0)) # 木星 screen.blit(text_surface, (1020, 270)) Jupiter = pygame.image.load(r"F:\solar-system\image\jupiter_min_bg.png") screen.blit(pygame.transform.scale(Jupiter, (27, 27)), (1090, 265)) my_font = pygame.font.SysFont("arial", 15) text_surface = my_font.render("Saturn", True, (255, 0, 0), (0, 0, 0)) # 土星 screen.blit(text_surface, (1020, 300)) Saturn = pygame.image.load(r"F:\solar-system\image\saturn_bg.png") screen.blit(pygame.transform.scale(Saturn, (30, 30)), (1090, 305)) my_font = pygame.font.SysFont("arial", 15) text_surface = my_font.render("Uranus", True, (255, 0, 0), (0, 0, 0)) # 天王星 screen.blit(text_surface, (1020, 340)) Uranus = pygame.image.load(r"F:\solar-system\image\uranus_bg.png") screen.blit(pygame.transform.scale(Uranus, (27, 27)), (1090, 345)) my_font = pygame.font.SysFont("arial", 15) text_surface = my_font.render("Neptune", True, (255, 0, 0), (0, 0, 0)) # 海王星 screen.blit(text_surface, (1020, 380)) Neptune = pygame.image.load(r"F:\solar-system\image\neptune_bg.png") screen.blit(pygame.transform.scale(Neptune, (27, 27)), (1090, 385)) # 太阳 sun = pygame.image.load(r"F:/solar-system/image/sun_bg.png") screen.blit(pygame.transform.scale(sun, (170, 170)), (527,307)) # 水星 roll_3 = 0.077 # 每帧公转pi pos_3_x = int(size[0] // 2 size[1] // 8 * math.sin(roll_3)) pos_3_y = int(size[1] // 2 size[1] // 8 * math.cos(roll_3)) mercury = pygame.image.load(r"F:\solar-system\image\mercury_bg.png") screen.blit(pygame.transform.scale(mercury, (8, 8)), (pos_3_x, pos_3_y)) # 金星 roll_2 = 0.069 # 每帧公转pi pos_2_x = int(size[0] // 2 size[1] // 7 * math.sin(roll_2)) pos_2_y = int(size[1] // 2 size[1] // 7 * math.cos(roll_2)) venus = pygame.image.load(r"F:\solar-system\image\venus_bg.png") screen.blit(pygame.transform.scale(venus, (10, 10)), (pos_2_x, pos_2_y)) # 地球 roll_e = 0.060 # 每帧公转pi pos_e_x = int(size[0] // 2 size[1] // 6 * math.sin(roll_e)) pos_e_y = int(size[1] // 2 size[1] // 6 * math.cos(roll_e)) earth = pygame.image.load(r"F:\solar-system\image\earth_min_bg.png") screen.blit(pygame.transform.scale(earth, (15, 15)), (pos_e_x, pos_e_y)) # 月球 roll_m = 0.2 # 每帧公转pi pos_m_x = int(pos_e_x size[1] // 50 * math.sin(roll_m)) pos_m_y = int(pos_e_y size[1] // 50 * math.cos(roll_m)) mouth = pygame.image.load(r"F:\solar-system\image\mercury_bg.png") screen.blit(pygame.transform.scale(mouth, (6, 6)), (pos_m_x, pos_m_y)) # 火星 roll_4 = 0.053 # 每帧公转pi pos_4_x = int(size[0] // 2 size[1] // 5 * math.sin(roll_4)) pos_4_y = int(size[1] // 2 size[1] // 5 * math.cos(roll_4)) venus = pygame.image.load(r"F:\solar-system\image\venus_bg.png") screen.blit(pygame.transform.scale(venus, (13, 13)), (pos_4_x, pos_4_y)) # 木星 roll_5 = 0.045 # 每帧公转pi pos_5_x = int(size[0] // 2 size[1] // 4 * math.sin(roll_5)) pos_5_y = int(size[1] // 2 size[1] // 4 * math.cos(roll_5)) mouth = pygame.image.load(r"F:\solar-system\image\jupiter_bg.png") screen.blit(pygame.transform.scale(mouth, (70, 70)), (pos_5_x, pos_5_y)) # 土星 roll_6 = 0.037 # 每帧公转pi pos_6_x = int(size[0] // 2 size[1] // 3.5 * math.sin(roll_6)) pos_6_y = int(size[1] // 2 size[1] // 3.5 * math.cos(roll_6)) saturn = pygame.image.load(r"F:\solar-system\image\saturn_bg.png") screen.blit(pygame.transform.scale(saturn, (50, 50)), (pos_6_x, pos_6_y)) # 天王星 roll_7 = 0.031 # 每帧公转pi pos_7_x = int(size[0] // 2 size[1] // 2.7 * math.sin(roll_7)) pos_7_y = int(size[1] // 2 size[1] // 2.7 * math.cos(roll_7)) uranus = pygame.image.load(r"F:\solar-system\image\uranus_bg.png") screen.blit(pygame.transform.scale(uranus, (45, 45)), (pos_7_x, pos_7_y)) # 海王星 roll_8 = 0.025 # 每帧公转pi pos_8_x = int(size[0] // 2 size[1] // 2 * math.sin(roll_8)) pos_8_y = int(size[1] // 2 size[1] // 2 * math.cos(roll_8)) neptune = pygame.image.load(r"F:\solar-system\image\neptune_bg.png") screen.blit(pygame.transform.scale(neptune, (37, 37)), (pos_8_x, pos_8_y)) # 刷新 pygame.display.flip() # 数值越大刷新越快,小球运动越快 clock.tick(50)

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