Maison  >  Article  >  développement back-end  >  Comment Python Pygame implémente les jeux d'entreprise

Comment Python Pygame implémente les jeux d'entreprise

WBOY
WBOYavant
2023-05-17 14:16:141414parcourir

一、注意事项

1.python的字体要尽量小一点 否则视觉上会很难看,调9-11左右 而且一定一定要调Consolas字体 对于win7系统字符画显示可能有问题,因为程序使用制表符, 制表符在win7下存储占2个字符 游戏是win10设计,设计时使用1个字符的制表符做图画。 

2.千万不要Ctrl+C直接暴力停止游戏!要输入“退出”,否则存档不保存第二次进去无法加载存档,正常退出会有file.close() 暴力退出不会close 。

3.不要输错任何一个东西!该写数字的输入字符串报错,存档同样不保存!!

4.收钱最多有10分钟上限,不会一直计时,计时从建造工作点开始算起。

二、运行环境

[开发环境]: 

python 3.6 运行代码 

pycharm 2021 辅助敲代码  第三方模块 pip install 模块名 

镜像源安装 pip install -i pypi.douban.com/simple/ +模块名  +python 安装包

三、代码展示

主程序

#  特大都市  梦想小镇
import random
import time as ctime
import os

# DATA
ROAD =           {"name":"road",           "level":1,  "cost":200,     "exp":1,  "people":False, "environment":0}
SMALLHOUSE =     {"name":"smallhouse",     "level":1,  "cost":12500,   "exp":5,  "people":(5,10,15), "environment":-5}
WOODENHOUSE =    {"name":"woodenhouse",    "level":2,  "cost":15000,   "exp":10, "people":(10,20,25), "environment":-10}
DOUBLECABIN =    {"name":"doublecabin",    "level":2,  "cost":35000,   "exp":15, "people":(30,50,80), "environment":-15}
BASICFARM   =    {"name":"basicfarm",      "level":1,  "cost":5000,    "exp":8,  "people":False, "earns":2000, "environment":-40}
EXTRAFARM   =    {"name":"extrafarm",      "level":2,  "cost":10000,   "exp":10, "people":False, "earns":4000, "environment":-80}
TREE1  =         {"name":"tree1",          "level":1,  "cost":1000,    "exp":3, "people":False, "environment":15}
SMALLLAKE  =     {"name":"smalllake",       "level":2,  "cost":500,    "exp":2, "people":False, "environment":10}
BAMBOO  =        {"name":"bamboo",          "level":3,  "cost":5000,    "exp":15, "people":False, "environment":40}
MARKET =         {"name":"market",          "level":3,  "cost":25000,    "exp":20, "people":False, "earns":7500, "environment":-20} 
DATA = [ROAD, SMALLHOUSE, WOODENHOUSE, DOUBLECABIN, BASICFARM, EXTRAFARM, TREE1, SMALLLAKE, BAMBOO, MARKET]

lv = [10, 15, 25, 50, 100, 200, 500, 1000]
CHA = {"road": 1, "smallhouse": 5, "woodenhouse": 10, "doublecabin": 15,
       "smallpark": 15, "basicfarm": 8, "extrafarm": 15, "tree1": 3}
earns = {"basicfarm":5000, "extrafarm":10000}
PEOPLE_BUILDINGS = ["smallhouse", "woodenhouse", "doublecabin"]
EARNING_BUILDINGS = ["basicfarm", "extrafarm", "market"]
ROADS = ["road1", "road2", "road3", "road4", "road5", "road6", "road7", "road8", "road9", "road10", "road11"]

#PICS2 [0]-empty [1]-smallhouse [2]-basicfarm [3]-woodenhouse [4]-doublecabin [5]-smallpark
#PICS2 [6]-road1 [7]-road2 [8]-road3 [9]-road4 [10]-road5 [11]-road6 [12]-road7
#PICS2 [13]-road8 [14]-road9 [15]-road10 [16]-road11
#PICS2 [17]-extrafarm [18]-tree1 [19]-bamboo [20]-water [21]-market
#4,5,6,7分别是上转左,上转右,下转左,下转右
# 4,5,6,7 left+up right+up left+down right+down
# 8,9,10,11 left+up+down right+up+down up+left+right down+left+right
PICS2 = [["┏━━━━━━━━━━━━━━┓", "┃              ┃","┃              ┃","┃              ┃",
         "┃              ┃","┃              ┃","┃              ┃","┗━━━━━━━━━━━━━━┛"],
         ["                ","   /^^^^^^^^\   ","/^^^^^^^^^^^^^^\\","┣┅┳┅┳━━━━┳┅┅┳┅┅┫",
         "┣┳┻┅┫    ┣━┳┻┳┅┫", "┣┻┅┳┫  ○ ┣┅┻┳┻┅┫","┣┅┳┻┫    ┣┅┳┻┳┅┫","┗┅┻┅┻┅┅┅┅┻┅┻┅┻┅┛"],
         ["┏━━━━━━━┳━━━━━━┓","┃□□□ □□□┃Basic ┃","┃□□□ □□□┃Farm  ┃","┃□□□ □□□┃      ┃",
         "┃□□□ □□□┃      ┃","┣━━━ ━━━┛      ┃","┃        2k/min┃","┗━━━━━━━━━━━━━━┛"],
         ["     ╔┉┉┉┉╗     ","  ╔╦┉╩┉┉┉┉╩┉╦╗  ","╔╦╬╬╦╦╦╦╦╦╦╦╬╬╦╗"," ╬╬ ╩ ╩  ╩ ╩ ╬╬ ",
         " ┋┋ ╔┉┉╗ ╔┉┉┉╣┋ "," ┋┋ ╠┉┉╣ ┋  ╔╣┋ "," ┋┋ ╚┉┉╝ ┋  ╚╣┋ ","╔╩╩┉┉┉┉┉┉╩┉┉┉╩╩╗"],
         ["----------------","|              |","|    Double    |","|    Cabin     |",
          "|              |","|              |","|              |","----------------"],
         ["----------------", "|              |", "|              |", "|  Small Park  |",
          "|              |", "|              |", "|              |", "----------------"],
         ["┃ ┃    ■■    ┃ ┃","┃ ┃    ■■    ┃ ┃","┃ ┃    ■■    ┃ ┃","┃ ┃    ■■    ┃ ┃",  # road 1
          "┃ ┃    ■■    ┃ ┃","┃ ┃    ■■    ┃ ┃","┃ ┃    ■■    ┃ ┃","┃ ┃    ■■    ┃ ┃"], 
         ["━━━━━━━━━━━━━━━━","━━━━━━━━━━━━━━━━","                "," ■■ ■■ ■■ ■■ ■■ ",  # road 2
          " ■■ ■■ ■■ ■■ ■■ ","                ","━━━━━━━━━━━━━━━━","━━━━━━━━━━━━━━━━"],
         ["  ┃    ■■    ┃  ","━━┛    ■■    ┗━━","       ■■       "," ■■ ■■ ■■ ■■ ■■ ",  # road 3
          " ■■ ■■ ■■ ■■ ■■ ","       ■■       ","━━┓    ■■    ┏━━","  ┃    ■■    ┃  "],
         ["━━━━━━━━━━━━━━━┓","━━━━━━━━━━━━━┓ ┃","             ┃ ┃"," ■■ ■■ ■■    ┃ ┃",  # 4
          " ■■ ■■ ■■    ┃ ┃","       ■■    ┃ ┃","━━┓    ■■    ┃ ┃","  ┃    ■■    ┃ ┃"], 
         ["┏━━━━━━━━━━━━━━━","┃ ┏━━━━━━━━━━━━━","┃ ┃             ","┃ ┃    ■■ ■■ ■■ ",  # 5
          "┃ ┃    ■■ ■■ ■■ ","┃ ┃    ■■       ","┃ ┃    ■■    ┏━━","┃ ┃    ■■    ┃  "],
         ["  ┃    ■■    ┃ ┃","━━┛    ■■    ┃ ┃","       ■■    ┃ ┃"," ■■ ■■ ■■    ┃ ┃",  #6
          " ■■ ■■ ■■    ┃ ┃","             ┃ ┃","━━━━━━━━━━━━━┛ ┃","━━━━━━━━━━━━━━━┛"],
         ["┃ ┃    ■■    ┃  ","┃ ┃    ■■    ┗━━","┃ ┃    ■■       ","┃ ┃    ■■ ■■ ■■ ",  # 7
          "┃ ┃    ■■ ■■ ■■ ","┃ ┃             ","┃ ┗━━━━━━━━━━━━━","┗━━━━━━━━━━━━━━━"],
         ["  ┃    ■■    ┃ ┃","━━┛    ■■    ┃ ┃","       ■■    ┃ ┃"," ■■ ■■ ■■    ┃ ┃", # 8
          " ■■ ■■ ■■    ┃ ┃","       ■■    ┃ ┃","━━┓    ■■    ┃ ┃","  ┃    ■■    ┃ ┃"],
         ["┃ ┃    ■■    ┃  ","┃ ┃    ■■    ┗━━","┃ ┃    ■■       ","┃ ┃    ■■ ■■ ■■ ", # 9
          "┃ ┃    ■■ ■■ ■■ ","┃ ┃    ■■       ","┃ ┃    ■■    ┏━━","┃ ┃    ■■    ┃  "],
         ["  ┃    ■■    ┃  ","━━┛    ■■    ┗━━","       ■■       "," ■■ ■■ ■■ ■■ ■■ ", # 10
          " ■■ ■■ ■■ ■■ ■■ ","                ","━━━━━━━━━━━━━━━━","━━━━━━━━━━━━━━━━"],
         ["━━━━━━━━━━━━━━━━","━━━━━━━━━━━━━━━━","                "," ■■ ■■ ■■ ■■ ■■ ", # 11
          " ■■ ■■ ■■ ■■ ■■ ","       ■■       ","━━┓    ■■    ┏━━","  ┃    ■■    ┃  "],
         ["┏━━━━━━━━━━━┳━━┓","┃□□□ □□□ □□□┃  ┃","┃□□□ □□□ □□□┃  ┃","┃□□□ □□□ □□□┃  ┃", # ExtraFarm
          "┃□□□ □□□ □□□┃  ┃","┣━━┛ ┗━━    ┛  ┃","┃FarmEX  4k/min┃","┗━━━━━━━━━━━━━━┛",],
         [" ┏━━━━━━━━━━━━┓ "," ┃  ┏┳━━━━┳┓  ┃ " ," ┃┏━┛┗┳━━┳┛┗━┓┃ " ," ┗┛   ┗┳┳┛   ┗┛ ", # Tree1
          "       ╋╋       ","       ╋╋       ","       ╋╋       ","       ┻┻       ",],
         ["      ╲┏┓╱      ","      ╲╋╋╱      ","  ╲┏┓╱╲╋╋╱      ","  ╲╋╋╱╲╋╋╱      ", # bamboo
          "  ╲╋╋╱╲╋╋╱ ╲┏┓╱ ","  ╲╋╋╱ ╋╋  ╲╋╋╱ ","   ╋╋  ╋╋  ╲╋╋╱ ","   ╋╋  ╋╋   ╋╋  "],
         ["┏━━━━━━━━━━━━━━┓","┃ ~~~ ~~   ~~  ┃","┃~~~ ~   ~~  ~~┃","┃  ~~  ~~ ~~  ~┃", # water
          "┃~ ~~~~  ~~    ┃","┃~~~   ~~~  ~~~┃","┃~~ ~ ~~~~~~  ~┃","┗━━━━━━━━━━━━━━┛"],
         ["  ╱╳╳╳╳╳╳╳╳╳╳╲  "," ╱╳╳╳╳╳╳╳╳╳╳╳╳╲ ","╱┳┻━━━━━━━━━━┻┳╲","┣┫   Market   ┣┫", # market
          "╋╈┳┳┳┳┳┳┳┳━━━┳╈╋","╋╈╈╈╈╈╈╈╈╈  ┏╈╈╋","╋╈╈╈╈╈╈╈╈╈  ┗╈╈╋","┻┻┻┻┻┻┻┻┻┻━━━┻┻┻"]] 


# 通过建筑名称获取建筑相关数据
def getdata(buildname, datatype):
    for data in DATA:
        if data["name"] == buildname:
            return data[datatype]

# 检测是否已经有存档存在
def checkloads():
    for load in os.listdir():
        if load.split(".")[-1] == "city":
            return True
    return False

# 获得目录下所有存档
def getloads():
    loads = []
    for load in os.listdir():
        if load.split(".")[-1] == "city":
            loads.append(load)
    return loads

# 通过存档还原地图
def remap(s):
    resultmap = []
    new = []
    s1 = s.split("$")[:-1]
    for s2 in s1:
        s2 = s2[1:-1]
        tmp = s2.split(",")
        resultmap.append(tmp)
    for i in resultmap:
        jie = []
        for j in i:
            try:
                jie.append(int(j))
            except:
                jie.append(str(j[1:][1:-1]))
        new.append(jie)
    return new

# 通过存档还原工作点
def rework(s):
    resultworkers = []
    parts = s.split("@")
    for part in parts:
        if part == "":
            continue
        resultworkers.append(part.split("#"))
    for i in range(0, len(resultworkers)):
        for j in range(0, len(resultworkers[i])):
            try:
                resultworkers[i][j] = float(resultworkers[i][j])
            except:
                pass
    return resultworkers[:-1]



# 玩家类
class Player():
    def __init__(self, name, type = "new"):
        self.type = type
        self.data = city.userdata.readlines()
        if self.type == "load":
            self.name = self.data[0].split()[-1]
            self.balance = int(self.data[1].split()[-1])
            self.level = int(self.data[2].split()[-1])
            self.exp = int(self.data[3].split()[-1])
            self.totalexp = int(self.data[4].split()[-1])
            self.nextexp = int(self.data[5].split()[-1])
        else:
            self.name = name
            self.balance = 50000
            self.level = 1
            self.exp = 0
            self.totalexp = 0
            self.nextexp = 10
            city.userdata.write("username: " + self.name + "\n")
            city.userdata.write("balance: " + str(self.balance) + "\n")
            city.userdata.write("level: " + str(self.level) + "\n")
            city.userdata.write("exp: " + str(self.exp) + "\n")
            city.userdata.write("totalexp: " + str(self.totalexp) + "\n")
            city.userdata.write("nextexp: " + str(self.nextexp) + "\n")


    def earn(self, value):
        self.balance += value

    def cost(self, value):
        if value <= self.balance:
            self.balance -= value
        else:
            return False

    def addexp(self, num):
        self.totalexp += num
        self.exp += num
        if self.exp < lv[self.level - 1]:
            print("你获得了" + str(num) + "经验!")
            return
        while self.exp >= lv[self.level - 1]:
            self.exp = self.exp - lv[self.level - 1]
            self.level += 1
            self.nextexp = lv[self.level - 1] - self.exp
            print("恭喜! 您升入等级" + str(self.level) + "!")

    def show(self):
        print("市长:" + self.name)
        print("金钱:" + str(self.balance))
        print("等级:" + str(self.level), " 经验:" + str(self.exp))
        print()

# 城市工作经营类
class Worker():
    def __init__(self, name, type, money):
        T = ctime.time()
        self.name = name
        self.type = type
        self.oncemoney = money
        self.totaltime = 0 # 游戏总时长
        self.time = 0 # 距离上次获得利润时间
        self.starttime = T # 起始时间刻(每局常量)
        self.nowtime = T # 现在时间刻
        self.lastearntime = T # 上次盈利时间
        self.totalearn = 0 # 盈利总金额

    # 刷新现在的时间刻
    def update(self):
        self.nowtime = ctime.time()
        self.totaltime = int(self.nowtime - self.starttime)
        self.time = int(self.nowtime - self.lastearntime)

    # 盈利
    def earn(self):
        # 这里规定 单次收取的最大利润不可以大于10min所获得的利润
        self.update()
        if int(self.time) < 60:
            return False
        self.lastearntime = ctime.time()
        earns = (int(self.time) // 60) * self.oncemoney
        if earns > 10 * self.oncemoney:
            earns = 10 * self.oncemoney
        self.totalearn += earns
        return earns



# 城市类
class City():
    def __init__(self, name, size = "8x8", type = "new", username = "/"):
        self.name = name
        self.height = int(size.split("x")[1])
        self.width = int(size.split("x")[0])
        self.map = [[j, i, "empty"] for i in range(1, self.height+1) for j in range(1, self.width+1)]
        self.environment = 100
        self.env_type = "perfect"
        self.people = 0
        self.people_env_list = [0, 0, 0] # 应当反映的人口数量和环境状态的关系 bad-good-perfect 顺序
        
        self.earn = 0
        self.housecount = 0
        self.workcount = 0
        self.parkcount = 0
        self.buildcount = 0

        self.isfull = False
        self.lasttime = 0
        self.workers = []

        self.filedata = []
        self.f, self.f2 = 0, 0
        if type == "new":
            self.f = open("{}.city".format(name), "w+")
            self.userdata = open("{}.user".format(name), "w+")
            self.log = open("{}.log".format(name), "a+")
            &#39;&#39;&#39;
            userdata.write("username: "+ username +"\n")
            userdata.write("balance: 50000\n")
            userdata.write("level: 1\n")
            userdata.write("exp: 0\n")
            userdata.write("totalexp: 0\n")
            userdata.write("nextexp: 0\n")
            &#39;&#39;&#39;
            self.writedata("创建存档\n")
            self.f.write("cityname: " + self.name + "\n")
            self.f.write("height: " + str(self.height) + "\n")
            self.f.write("width: " + str(self.width) + "\n")
            self.f.write("environment: " + str(self.environment) + "\n")
            self.f.write("people: " + str(self.people) + "\n")
            self.f.write("people_env_list: " + str(self.people_env_list)[1:-1] + "\n")
            workers_data = self.workers_data_change()
            self.f.write("workers: " + str(workers_data) + "\n")  
            self.f.write("earn: " + str(self.earn) + "\n")
            self.f.write("housecount: " + str(self.housecount) + "\n")
            self.f.write("workcount: " + str(self.workcount) + "\n")
            self.f.write("parkcount: " + str(self.parkcount) + "\n")
            self.f.write("buildcount: " + str(self.buildcount) + "\n")
            self.f.write("citymap: " + str(self.map))

        elif type == "load":
            try:
                self.f = open("{}.city".format(name), "r+")
                self.userdata = open("{}.user".format(name), "r+")
                self.log = open("{}.log".format(name), "a+")

            except:
                print("错误!没有找到存档!")
        self.filedata = self.f.readlines()
        if type == "load":
            self.name = self.filedata[0].split()[-1]
            self.height = int(self.filedata[1].split()[-1])
            self.width = int(self.filedata[2].split()[-1])
            self.environment = int(self.filedata[3].split()[-1])
            self.people = int(self.filedata[4].split()[-1])
            self.people_env_list = self.filedata[5][17:-1].split(", ")
            for i in range(0, len(self.people_env_list)):
                self.people_env_list[i] = int(self.people_env_list[i])
            
            workerslist = rework(self.filedata[6].split(":")[-1])
            self.map = remap(self.filedata[12][9:])
            for worker in workerslist:
                tmpworker = Worker(worker[0], worker[1], worker[2])
                tmpworker.totaltime = worker[3]
                tmpworker.time = worker[4]
                tmpworker.starttime = worker[5]
                tmpworker.nowtime = worker[6]
                tmpworker.lastearntime = worker[7]
                tmpworker.totalearn = worker[8]
                self.workers.append(tmpworker)
            self.workcount = len(self.workers)

    # 建造建筑
    def build(self, what, where):
        w = self.changexy(where)
        for i in range(0, len(self.map)):
            if self.map[i][0] == int(w[0]) and self.map[i][1] == int(w[1]) and self.map[i][2] == "empty":
                self.map[i][2] = what
                break
        if what in PEOPLE_BUILDINGS:
            self.housecount += 1
            self.people_change(what, "increase")
        if what in EARNING_BUILDINGS:
            self.workcount += 1
            worker = Worker(str(len(self.workers) + 1), what, self.getplacedata(what, "earns"))
            self.workers.append(worker)

        self.changemap()
        self.writedata("在 {} 处建造 {} 建筑\n".format(where, what))
        self.show()

    # 道路建造
    def buildroad(self, where, isShow=True):
        w = self.changexy(where)
        x, y = w[0], w[1]
        if self.getplace(x, y) != "empty":
            return False

        self.map[self.getmapnum(x, y)][2] = "road3"
        self.roadmove(x, y, 1)

        # 判断1:如果目标道路上下左右都没有道路,建road3十字路口
        if self.getplace(x + 1, y) not in ROADS and self.getplace(x - 1, y) not in ROADS and self.getplace(x,
                                                                                                           y + 1) not in ROADS and self.getplace(
                x, y - 1) not in ROADS:
            self.map[self.getmapnum(x, y)][2] = "road3"
        else:
            self.roadcheck(x, y)

        self.writedata("在 {} 处建造道路\n".format(where))
        self.changemap()
        if isShow:
            self.show()

    # 更改.city的数据
    def changemap(self):
        self.f.close()
        os.remove("{}.city".format(self.name))
        ctime.sleep(0.1)
        self.f = 0
        self.f = open("{}.city".format(self.name), "w+")
        self.f.write("cityname: " + self.name + "\n")
        self.f.write("height: " + str(self.height) + "\n")
        self.f.write("width: " + str(self.width) + "\n")
        self.f.write("environment: " + str(self.environment) + "\n")
        self.f.write("people: " + str(self.people) + "\n")
        self.f.write("people_env_list: " + str(self.people_env_list)[1:-1] + "\n")
        workers_data = self.workers_data_change()
        self.f.write("workers: " + str(workers_data) + "\n")  
        self.f.write("earn: " + str(self.earn) + "\n")
        self.f.write("housecount: " + str(self.housecount) + "\n")
        self.f.write("workcount: " + str(self.workcount) + "\n")
        self.f.write("parkcount: " + str(self.parkcount) + "\n")
        self.f.write("buildcount: " + str(self.buildcount) + "\n")
        self.f.write("citymap: ")
        for i in self.map:
            self.f.write(str(i) + "$")

        self.f.seek(0, 0)
        self.filedata = self.f.readlines()


    # 变换坐标
    def changexy(self, string):
        s = string.split(",")
        return int(s[0]), int(s[1])

    # 更改.user的用户信息(钱数,等级等等)
    def changeuserdata(self, name, balance, level, exp, totalexp, nextexp):
        self.userdata.close()
        self.userdata = open("{}.user".format(self.name), "w+")
        self.userdata.write("username: " + name + "\n")
        self.userdata.write("balance: " + str(balance) + "\n")
        self.userdata.write("level: " + str(level) + "\n")
        self.userdata.write("exp: " + str(exp) + "\n")
        self.userdata.write("totalexp: " + str(totalexp) + "\n")
        self.userdata.write("nextexp: " + str(nextexp) + "\n")
    
    def check(self):
        return self.height, self.width, self.map

    # 检测坐标上是否是空位
    def checkempty(self, where):
        w = self.changexy(where)
        for i in range(0, len(self.map)):
            if self.map[i][0] == int(w[0]) and self.map[i][1] == int(w[1]) and self.map[i][2] == "empty":
                return True
            elif self.map[i][0] == int(w[0]) and self.map[i][1] == int(w[1]) and self.map[i][2] != "empty":
                return False

    # 环境状态监测
    def checkenv(self):
        if self.environment < 0:
            self.env_type = "bad"
        elif 0 < self.environment and self.environment < 100:
            self.env_type = "good"
        elif self.environment > 100:
            self.env_type = "perfect"

    # 检测坐标是否超出范围
    def checkout(self, where):
        w = self.changexy(where)
        if w[0] <= self.width and w[1] <= self.height and w[0] > 0 and w[1] > 0:
            return True
        else:
            return False

    # 检测城市是否满格
    def checkplace(self):
        isOk = True
        for i in range(0, len(self.map)):
            if self.map[i][2] == "empty":
                self.isfull = False
                return
        self.isfull = True

    # 检查工作点并返回工作点的信息列表
    def checkworkplace(self):
        res = []
        for i in self.workers:
            i.update()
            res.append(str(int(float(i.name))) + " " + i.type + " 工作时间:" + str(i.time) + "秒")
        return res

    # 商业性建筑的盈利
    def earnmoney(self, num):
        for i in self.workers:
            if int(i.name) == num:
                result = i.earn()
                if result == False:
                    return None
                else:
                    self.writedata("收取 {} 建筑的利润 ¥{} \n".format(i.type, result))
                    return result

    # 获取系统内部图的序号
    def getmapnum(self, xray, yray):
        for i in range(0, len(self.map)):
            if self.map[i][0] == xray and self.map[i][1] == yray:
                return i
        return False

    # 获取该位置上的建筑物
    def getplace(self, xray, yray):

        if xray == 0 or yray == 0 or xray > self.width or yray > self.height:
            return False
        
        for target in self.map:
            if target[0] == xray and target[1] == yray:
                return target[2]
        return False

    # 通过建筑名称获取建筑的所有信息 tag 表示信息种类
    def getplacedata(self, placename, tag):
        for data in DATA:
            if data["name"] == placename:
                return data[tag]
        return False
        
    # 动态更新人口
    def people_change(self, what = None, mode = "increase"):
        if what != None:
            peoples = self.getplacedata(what, "people")
            self.people_env_list[0] += (peoples[0] if mode == "increase" else -peoples[0])
            self.people_env_list[1] += (peoples[1] if mode == "increase" else -peoples[1])
            self.people_env_list[2] += (peoples[2] if mode == "increase" else -peoples[2])

        # 动态更新
        if self.env_type == "bad": self.people = self.people_env_list[0]
        elif self.env_type == "good": self.people = self.people_env_list[1]
        elif self.env_type == "perfect": self.people = self.people_env_list[2]

    # 拆除建筑
    def remove(self, where, isShow = True):
        w = self.changexy(where)
        removething = ""
        for i in range(0, len(self.map)):
            if self.map[i][0] == int(w[0]) and self.map[i][1] == int(w[1]):
                removething = self.map[i][2]
                self.map[i][2] = "empty"
                if removething in ROADS:
                     # 拆除的如果是道路,拆除后对其他道路的朝向重新检测 
                    self.roadmove(int(w[0]), int(w[1]), 2)
                break
        if removething in PEOPLE_BUILDINGS:
            self.housecount -= 1
            self.people_change(removething, "decrease")
        self.changemap()
        
        self.writedata("在 {} 处拆除 {}\n".format(where, removething))
        if isShow:
            self.show()

    # 判断一个道路四周的道路方向并加以调整
    def roadcheck(self, x, y):
        placesnear = [self.getplace(x-1, y-1), self.getplace(x, y-1), self.getplace(x+1, y-1),
                      self.getplace(x-1, y),   self.getplace(x, y),   self.getplace(x+1, y)  ,
                      self.getplace(x-1, y+1), self.getplace(x, y+1), self.getplace(x+1, y+1)]
        #print(x, y, self.getplace(x, y))
        # 前判断:如果原点不是道路,直接返回
        if placesnear[4] not in ROADS:
            return
        # 判断1:如果一方出现道路,那么将一方的道路改为单向道路
        if placesnear[1] in ROADS and placesnear[3] not in ROADS and placesnear[5] not in ROADS and placesnear[7] not in ROADS:
            self.map[self.getmapnum(x, y)][2] = "road1"
        elif placesnear[3] in ROADS and placesnear[1] not in ROADS and placesnear[5] not in ROADS and placesnear[7] not in ROADS:
            self.map[self.getmapnum(x, y)][2] = "road2"
        elif placesnear[5] in ROADS and placesnear[1] not in ROADS and placesnear[3] not in ROADS and placesnear[7] not in ROADS:
            self.map[self.getmapnum(x, y)][2] = "road2"
        elif placesnear[7] in ROADS and placesnear[1] not in ROADS and placesnear[3] not in ROADS and placesnear[5] not in ROADS:
            self.map[self.getmapnum(x, y)][2] = "road1"
        # 判断2:双连路口 
        elif placesnear[1] in ROADS and placesnear[3] in ROADS and placesnear[5] not in ROADS and placesnear[7] not in ROADS:
            self.map[self.getmapnum(x, y)][2] = "road6"
        elif placesnear[1] in ROADS and placesnear[5] in ROADS and placesnear[3] not in ROADS and placesnear[7] not in ROADS:
            self.map[self.getmapnum(x, y)][2] = "road7"
        elif placesnear[1] in ROADS and placesnear[7] in ROADS and placesnear[3] not in ROADS and placesnear[5] not in ROADS:
            self.map[self.getmapnum(x, y)][2] = "road1"
        elif placesnear[3] in ROADS and placesnear[5] in ROADS and placesnear[1] not in ROADS and placesnear[7] not in ROADS:
            self.map[self.getmapnum(x, y)][2] = "road2"
        elif placesnear[3] in ROADS and placesnear[7] in ROADS and placesnear[1] not in ROADS and placesnear[5] not in ROADS:
            self.map[self.getmapnum(x, y)][2] = "road4"
        elif placesnear[5] in ROADS and placesnear[7] in ROADS and placesnear[1] not in ROADS and placesnear[3] not in ROADS:
            self.map[self.getmapnum(x, y)][2] = "road5"
        # 判断3:丁字路口
        elif placesnear[1] in ROADS and placesnear[3] in ROADS and placesnear[5] in ROADS and placesnear[7] not in ROADS:
            self.map[self.getmapnum(x, y)][2] = "road10"
        elif placesnear[1] in ROADS and placesnear[3] in ROADS and placesnear[7] in ROADS and placesnear[5] not in ROADS:
            self.map[self.getmapnum(x, y)][2] = "road8"
        elif placesnear[1] in ROADS and placesnear[5] in ROADS and placesnear[7] in ROADS and placesnear[3] not in ROADS:
            self.map[self.getmapnum(x, y)][2] = "road9"
        elif placesnear[3] in ROADS and placesnear[5] in ROADS and placesnear[7] in ROADS and placesnear[1] not in ROADS:
            self.map[self.getmapnum(x, y)][2] = "road11" 
        # 判断4:十字路口
        elif placesnear[1] in ROADS and placesnear[3] in ROADS and placesnear[5] in ROADS and placesnear[7] in ROADS:
            self.map[self.getmapnum(x, y)][2] = "road3" 

    # 动态道路分析判断
    def roadmove(self, x, y, time):
        # time 递归次数(拓展范围) 
        #print(x, y, self.getplace(x, y), time)
        if time == -1:
            return
        #if self.getplace(x, y) not in ROADS :
            #return

        self.roadcheck(x, y)
        # 递归
        self.roadmove(x-1, y-1, time-1)
        self.roadmove(x, y-1, time-1)
        self.roadmove(x+1, y-1, time-1)
        self.roadmove(x-1, y, time-1)
        self.roadmove(x+1, y, time-1)
        self.roadmove(x-1, y+1, time-1)
        self.roadmove(x, y+1, time-1)
        self.roadmove(x+1, y+1, time-1)

    # 打印城市模型
    def show(self):
        def printlines(things):
            oneline = ""
            for line in range(0, 8):
                for i in things:
                    if i == "empty":
                        oneline += PICS2[0][line]
                    elif i == "smallhouse":
                        oneline += PICS2[1][line]
                    elif i == "basicfarm":
                        oneline += PICS2[2][line]
                    elif i == "woodenhouse":
                        oneline += PICS2[3][line]
                    elif i == "doublecabin":
                        oneline += PICS2[4][line]
                    elif i == "smallpark":
                        oneline += PICS2[5][line]
                    elif i == "road1":
                        oneline += PICS2[6][line]
                    elif i == "road2":
                        oneline += PICS2[7][line]
                    elif i == "road3":
                        oneline += PICS2[8][line]
                    elif i == "road4":
                        oneline += PICS2[9][line]
                    elif i == "road5":
                        oneline += PICS2[10][line]
                    elif i == "road6":
                        oneline += PICS2[11][line]
                    elif i == "road7":
                        oneline += PICS2[12][line]
                    elif i == "road8":
                        oneline += PICS2[13][line]
                    elif i == "road9":
                        oneline += PICS2[14][line]
                    elif i == "road10":
                        oneline += PICS2[15][line]
                    elif i == "road11":
                        oneline += PICS2[16][line]
                    elif i == "extrafarm":
                        oneline += PICS2[17][line]
                    elif i == "tree1":
                        oneline += PICS2[18][line]
                    elif i == "bamboo":
                        oneline += PICS2[19][line]
                    elif i == "smalllake":
                        oneline += PICS2[20][line]
                    elif i == "market":
                        oneline += PICS2[21][line]
                print(oneline)
                oneline = ""
        tmp, things = 0, []
        for i in range(0, len(self.map)):
            things.append(self.map[i][2])
            tmp += 1
            if tmp == self.width:
                printlines(things)
                tmp, things = 0, []
                
    # 打印城市信息
    def show_information(self):
        self.update()
        print("城市名称:" + self.name)
        print("金钱:{} 等级 {} 距下一级还需 {} 经验".format(player.balance, player.level, player.nextexp))
        print("人口:" + str(self.people))
        print("环境指数:" + str(self.environment), self.env_type.capitalize())
        print()

    # 有事没事更新一下游戏各种数据~
    def update(self):
        player.nextexp = lv[player.level - 1] - player.exp # 更新下一等级所需经验数
        self.checkenv() # 更新环境等级
        self.people_change()  # 依照环境更新人口
            
    # 改变Worker类的数据为可见的列表
    def workers_data_change(self):
        result = ""
        if self.workers == []:
            return []
        for each in self.workers:
            temp = str(each.name) + "#" + str(each.type) + "#" + str(each.oncemoney) + "#" +str(each.totaltime) + "#" +str(each.time) + "#" +str(each.starttime) + "#" +str(each.nowtime) + "#" +str(each.lastearntime) + "#" +str(each.totalearn)
            result += temp + "@"
        
        return result

    # 工作时间检查
    def worktimecheck(self):
        res = self.checkworkplace()

    # 记录玩家操作日志
    def writedata(self, thing):
        self.log.write(ctime.strftime("%Y-%m-%d %H:%M:%S") + " " + thing)

        
# 初始化城市
isRead = False
print("----------欢迎来到Megapolis!----------")
print("市长,我们该如何称呼您:")
name = input()
if checkloads():
    loads = []
    print("系统检测到您已经有存档,存档如下:")
    loads = getloads()
    print(loads)
    print("您想选择打开存档,还是新建一个城市?(打开:1/新建:2)")
    user = int(input())
    if user == 1:
        print("您想打开哪一个存档?输入序号:")
        num = int(input())
        load = loads[num - 1]
        print("正在加载中,请稍后......")
        isRead = True
    elif user == 2:
        print("您好, " + name + ", 现在,为您的城市创建一个新名称:")
        cityname = input()
        print("您的城市大小是多少? (运用数字x数字的方式,例如 4x4, 8x8)")
        citysize = input()
        print("城市创建中,请稍后......")
else:
    print("您好, " + name + ", 现在,为您的城市创建一个新名称:")
    cityname = input()
    print("您的城市大小是多少? (运用数字x数字的方式,例如 4x4, 8x8)")
    citysize = input()
    print("城市创建中,请稍后......")
# 创造并打印城市
if isRead:
    city = City(load.split(".")[0], "1x1", "load")
    # 创造玩家
    player = Player(name, type = "load")
else:
    city = City(cityname, citysize)
    player = Player(name)
city.show()
player.show()

def fast_road_building():
    print("您要把道路安放在哪些地方?(用2,3 2,4 2,5这样的连续坐标来安置道路,坐标之间要加空格哦)")
    while True:
        try:
            wheres = input()
            if wheres == "退出":
                print("好的,已经退出~")
                return
            else:
                wheres = wheres.split()
        except:
            print("输入有误,请重新尝试哦~")
        else:
            not_empty_places = []
            is_repeated = True if len(list(set(wheres))) != len(wheres) else False
            wheres = list(set(wheres))
            print(wheres)
            all_count = len(wheres)
            # 制作一个wheres的拷贝,方便完整遍历where
            wheres_copy = wheres.copy()
            for where in wheres_copy:
                if not city.checkempty(where) or not city.checkout(where):
                    not_empty_places.append(where)
                    wheres.remove(where)

            rest_empty_places = (all_count - len(not_empty_places))
            total_price = 200 * rest_empty_places
            total_exp = 2 * rest_empty_places
            if is_repeated:
                print("您输入了重复的坐标,已经自动帮您去除重复~")
            if len(wheres) == 0:
                print("您所描述的位置上均有建筑或位于城市区域之外,无法建造道路!")
                return
            elif len(not_empty_places) != 0:
                print("您所描述的位置中,{} 位置不能建造道路。剩余可建造的道路总价为¥{}".format(str(not_empty_places)[1:-1], total_price))
            else:
                print("建造这些道路需要¥{}".format(total_price))
            print("继续建造吗?(建造/不建造)")
            is_build = input()
            if is_build == "建造":
                player.cost(total_price)
                player.addexp(total_exp)
                city.changeuserdata(player.name, player.balance, player.level, player.exp, player.totalexp,
                                    player.nextexp)
                for where in wheres:
                    city.buildroad(where, isShow = False)
                city.show()
                player.show()
                return
            else:
                print("好的,已经取消建造!")
                return

def fast_removing():
    print("您要拆除哪些地方的建筑?(用2,3 2,4 2,5这样的连续坐标来拆除建筑,坐标之间要加空格哦)")
    while True:
        try:
            wheres = input()
            if wheres == "退出":
                print("好的,已经退出~")
                return
            else:
                wheres = wheres.split()
        except:
            print("输入有误,请重新尝试哦~")
        else:
            not_empty_places = []
            is_repeated = True if len(list(set(wheres))) != len(wheres) else False
            wheres = list(set(wheres))
            print(wheres)
            all_count = len(wheres)
            # 制作一个wheres的拷贝,方便完整遍历where
            wheres_copy = wheres.copy()
            for where in wheres_copy:
                if city.checkempty(where) or not city.checkout(where):
                    not_empty_places.append(where)
                    wheres.remove(where)

            rest_empty_places = (all_count - len(not_empty_places))
            total_price = 200 * rest_empty_places
            total_exp = 2 * rest_empty_places
            if is_repeated:
                print("您输入了重复的坐标,已经自动帮您去除重复~")
            if len(wheres) == 0:
                print("您所描述的位置上均没有可拆除的建筑或位于城市区域之外,无法拆除!")
                return
            elif len(not_empty_places) != 0:
                print("您所描述的位置中,{} 位置无法拆除。".format(str(not_empty_places)[1:-1]))
            print("继续拆除吗?(拆除/不拆除)")
            is_build = input()
            if is_build == "拆除":
                for where in wheres:
                    city.remove(where, isShow = False)
                city.show()
                player.show()
                return
            else:
                print("好的,已经取消拆除!")
                return


def choose_building(housetypes, prices):
    l = len(housetypes)
    if housetypes == "road":
        if player.balance < prices:
            print("市长,您没有足够的金钱建造道路!\n")
            return
        elif city.isfull:
            print("市长,您的城市空位不足!\n")
            return
        else:
            print("您想要把道路安放在何处:(运用 x,y 例如 3,3)")
            while True:
                where = input()
                if where == "退出":
                    print("好的,已退出建造!")
                    break
                if not city.checkout(where):
                    print("市长,您不能把道路放在城市土地之外!")
                elif not city.checkempty(where):
                    print("市长,这块地上已经有建筑了,请换一块地!")
                else:
                    break

            player.cost(prices)
            player.addexp(2)
            city.changeuserdata(player.name, player.balance, player.level, player.exp, player.totalexp, player.nextexp)
            city.buildroad(where)
            player.show()
            return
    while True:
        print("请告诉我建筑物的序号(用0来停止):")
        num = int(input())
        if num > l or num < 0:
            print("没有这个序号的建筑物,请重试!")
        elif num == 0:
            print("好的,已经退出选择!")
            break
        else:
            if player.level < getdata(housetypes[num - 1], "level"):
                print("市长,您的等级不够建造此建筑!\n")
                break
            if player.balance < prices[num - 1]:
                print("市长,您没有足够的金钱建造该建筑!\n")
                break
            elif city.isfull:
                print("市长,您的城市空位不足!\n")
                break
            else:
                print("您想要把该建筑安放在何处:(运用 x,y 例如 3,3)")
                while True:
                    where = input()
                    if not city.checkout(where):
                        print("市长,您不能把道路放在城市土地之外!")
                    elif not city.checkempty(where):
                        print("市长,这块地上已经有建筑了,请换一块地!")
                    else:
                        break

                player.cost(prices[num - 1])
                city.environment += int(getdata(housetypes[num - 1], "environment"))
                city.checkenv()
                city.build(housetypes[num - 1], where)
                player.addexp(city.getplacedata(housetypes[num - 1], "exp"))
                city.changeuserdata(player.name, player.balance, player.level, player.exp, player.totalexp, player.nextexp)
                player.show()
                break

# 主循环
while True:
    city.update()
    print("亲爱的市长,您想做些什么?(建造/铲除建筑/查看信息/盈利/退出)")
    users = input()
    if users == "建造":
        print("您想建造什么样的建筑?(房屋/工作点/道路/绿化)")
        kind = input()
        if kind == "房屋":
            print("以下是一些种类的房屋:")
            print("1.小房子      价格:12500  需求等级:1 容纳人数:5/10/15  环境指数:-5")
            print("2.精致木屋    价格:15000  需求等级:2 容纳人数:10/20/25 环境指数:-10")
            print("3.双层旅馆    价格:35000  需求等级:2 容纳人数:30/50/80 环境指数:-15")
            choose_building(["smallhouse", "woodenhouse", "doublecabin"],
                            [12500, 15000, 35000])

        elif kind == "工作点":
            print("以下是一些种类的工作点(利润单位为元/分钟):")
            print("1.基础农场     价格:5000  需求等级:1 利润:¥2000/min  环境指数:-40")
            print("2.大型农场     价格:15000 需求等级:2 利润:¥4000/min  环境指数:-80")
            print("3.小商店       价格:25000 需求等级:3 利润:¥7500/min  环境指数:-20")
            choose_building(["basicfarm", "extrafarm", "market"],
                            [5000, 15000, 25000])
        elif kind == "道路":
            print("道路的价格为¥200/1格")
            print("选择快速建造道路模式吗?(是/否)")
            is_fast_road_building = input()
            if is_fast_road_building == "是":
                fast_road_building()
            else:
                choose_building("road", 200)
        elif kind == "绿化":
            print("以下是不同种类的绿化:")
            print("1.树木       价格:1000 需求等级:1 环境指数:+15")
            print("2.小型湖泊   价格:500 需求等级:2 环境指数:+10")
            print("3.竹林       价格:5000 需求等级:3 环境指数:+40")
            choose_building(["tree1", "smalllake", "bamboo"], [1000, 500, 5000])
        else:
            print("不好意思,您输入的建筑类型还不存在哦~")
    elif users == "铲除建筑":
        print("选择快速拆除建筑模式吗?(是/否)")
        is_fast_removing = input()
        if is_fast_removing == "是":
            fast_removing()
        else:
            print("输入你想铲除的建筑坐标:(运用 x,y 例如 3,3)")
            while True:
                where = input()
                if where == "退出":
                    print("好的,已经退出拆除界面!")
                    break
                if not city.checkout(where):
                    print("市长,您不能铲除城市土地之外的建筑,请重新尝试!")
                elif city.checkempty(where):
                    print("这块土地上没有建筑可以铲除,请重新尝试!")
                else:
                    city.remove(where)
                    player.show()
                    break

    elif users == "查看信息":
        city.show_information()
    elif users == "盈利":
        if city.workcount == 0:
            print("市长,您还没有任何的工作点!")
        else:
            result = city.checkworkplace()
            print("您有以下几个工作点:")
            print(result)
            print("您想要选择哪一个? 请告诉我序号:")
            index = int(input())
            tmpmoney = city.earnmoney(int(result[index - 1].split()[0]))
            money = None if tmpmoney == None else int(tmpmoney)
            if money == None:
                print("等一下,市长!工人们还没有生产完毕!")
            else:
                player.earn(money)
                city.changeuserdata(player.name, player.balance, player.level, player.exp, player.totalexp, player.nextexp)
                city.changemap()
                print("您获得了 ¥" + str(money) + "!")
    elif users == "退出":
        print("欢迎下次再来, " + name + "!")
        break
    
city.f.close()
city.log.close()
city.userdata.close()

四、效果展示

这款游戏是经营类:可建造房屋、工作、绿化等。会产出、消耗相应的金钱等。

1)城市示咧

Comment Python Pygame implémente les jeux dentreprise

2)随机截图

Comment Python Pygame implémente les jeux dentreprise

Ce qui précède est le contenu détaillé de. pour plus d'informations, suivez d'autres articles connexes sur le site Web de PHP en chinois!

Déclaration:
Cet article est reproduit dans:. en cas de violation, veuillez contacter admin@php.cn Supprimer