151 lines
4.6 KiB
Python
151 lines
4.6 KiB
Python
import pygame
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import sys
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import random
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from Tractor import Tractor
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class Game(object):
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def __init__(self):
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# Config
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self.max_tps = 2.0
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self.res = (720, 720)
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self.fields = []
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self.randomize_field()
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# Initialization
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pygame.init()
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self.screen = pygame.display.set_mode(self.res)
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pygame.display.set_caption('Traktorek')
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self.clock = pygame.time.Clock()
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self.dt = 0.0
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self.player = Tractor(self)
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while True:
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# Handle events
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for event in pygame.event.get():
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if event.type == pygame.QUIT:
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sys.exit(0)
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elif event.type == pygame.K_ESCAPE:
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sys.exit(0)
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# Ticking
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self.dt += self.clock.tick() / 1000.0
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while self.dt > 1 / self.max_tps:
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self.tick()
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self.dt -= 1 / self.max_tps
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# Rendering
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self.screen.fill((0, 0, 0))
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self.draw()
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pygame.display.flip()
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def tick(self):
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self.player.tick()
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def draw(self):
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self.screen.fill((0, 0, 0))
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self.draw_field()
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self.draw_net()
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self.player.draw()
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pygame.display.update()
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def draw_net(self):
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color = (255, 255, 255)
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for i in range(1, 5):
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krat = int(720 / 5 * i)
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# linia pozioma
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pygame.draw.line(self.screen, color, (0, krat), (720, krat), 1)
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# linia pionowa
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pygame.draw.line(self.screen, color, (krat, 0), (krat, 720), 1)
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def randomize_field(self):
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ileDni = []
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uprawa = []
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uprawaDni = []
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woda = []
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for x in range(25):
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temp = []
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# nasiona
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temp.append(random.choice(["żyto", "jęczmień", "owies", "marchew", "rzodkiew", "pietruszka", "puste"]))
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# gleba
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temp.append(random.choice([True, False]))
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# woda
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temp.append(random.choice([True, False]))
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# ile dni temu pole bylo podlewane
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temp.append(random.randrange(7))
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# # growth rate
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# temp.append(random)
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# # cost
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if temp[0] == "żyto":
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temp.append(10)
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temp.append(4)
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elif temp[0] == "jęczmień":
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temp.append(12)
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temp.append(3)
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elif temp[0] == "owies":
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temp.append(8)
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temp.append(2)
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elif temp[0] == "marchew":
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temp.append(14)
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temp.append(5)
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elif temp[0] == "rzodkiew":
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temp.append(7)
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temp.append(5)
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elif temp[0] == "pietruszka":
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temp.append(6)
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temp.append(1)
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elif temp[0] == "puste":
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temp.append(2)
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temp.append(6)
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else:
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temp.append(0)
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self.fields.append(temp)
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uprawa.append(temp[0])
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ileDni.append(temp[3])
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uprawaDni.append(temp[6])
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woda.append(temp[2])
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print(self.fields)
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print(uprawa)
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print(ileDni)
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print(uprawaDni)
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nawadnianie = pd.DataFrame({"uprawa": uprawa, "ileDni": ileDni, "uprawaDni": uprawaDni, "woda": woda})
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nawadnianie["uprawa"], uprawa_kody=pd.factorize(nawadnianie["uprawa"])
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nawadnianie["ileDni"], ileDni_kody = pd.factorize(nawadnianie["ileDni"])
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nawadnianie["uprawaDni"], uprawaDni_kody = pd.factorize(nawadnianie["uprawaDni"])
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nawadnianie["woda"], woda_kody = pd.factorize(nawadnianie["woda"])
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X = nawadnianie.drop(["woda"], axis=1)
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y = nawadnianie["woda"]
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klasyfikator = DecisionTreeClassifier(criterion="entropy")
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klasyfikator.fit(X=X, y=y)
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print(klasyfikator.predict(X))
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#if(klasyfikator.predict(X)[n]==0):
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def draw_field(self):
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for x in range(25):
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self.screen.fill(self.color(x), (144 * (x % 5), 144 * (x // 5), 144 * (x % 5 + 1), 144 * (x // 5 + 1)))
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def color(self, z):
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if self.fields[z][0] == 'owies':
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return (255, 200, 55)
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elif self.fields[z][0] == 'jęczmień':
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return (170, 150, 40)
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elif self.fields[z][0] == 'żyto':
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return (100, 215, 80)
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elif self.fields[z][0] == 'marchew':
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return (224, 60, 14)
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elif self.fields[z][0] == 'rzodkiew':
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return (142, 24, 104)
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elif self.fields[z][0] == 'pietruszka':
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return (254, 247, 246)
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else:
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return (0,0,0)
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if __name__ == "__main__":
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Game()
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