233 lines
6.7 KiB
Python
233 lines
6.7 KiB
Python
from unboxOnTheFloor import UnboxOnTheFloor
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from box import Box
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from AStar import AStar
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import random
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from easygui import *
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import matplotlib.pyplot as plt
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def zbierzBox(gen,data, moves, kordStartowy):
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regalKordy = gen.kordy
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star = AStar()
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mapForAStar = data.astarMap[:]
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mapForAStar[regalKordy[0]][regalKordy[1]] = 0
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path = star.search([kordStartowy[0], kordStartowy[1]], regalKordy, mapForAStar, 1, 1)
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cns = kordStartowy[0]
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cwe = kordStartowy[1]
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value = path[cns][cwe]
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while True:
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if cns > 0 and path[cns - 1][cwe] == (value + 1):
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cns = cns - 1
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moves.append(1)
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value = value + 1
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continue
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if cns < (len(mapForAStar) - 1) and path[cns + 1][cwe] == (value + 1):
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cns = cns + 1
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moves.append(2)
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value = value + 1
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continue
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if cwe > 0 and path[cns][cwe - 1] == (value + 1):
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cwe = cwe - 1
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moves.append(3)
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value = value + 1
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continue
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if cwe < (len(mapForAStar[0]) - 1) and path[cns][cwe + 1] == (value + 1):
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cwe = cwe + 1
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moves.append(4)
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value = value + 1
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continue
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break
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mapForAStar[regalKordy[0]][regalKordy[1]] = 1
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# wyszukiwanie ścieżki z miejsca podjęcia paczki do regału
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# zmienna path posiada macierz oraz kroki podjęte przez wózek
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path = star.search([regalKordy[0], regalKordy[1]], gen.kordyUnboxa, mapForAStar, 1, 1)
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#mapForAStar[where[0]][where[1]] = 1
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value = path[cns][cwe]
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while True:
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if(value == 0):
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if(path[cns - 1][cwe] == 1):
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cns = cns - 1
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elif(path[cns + 1][cwe] == 1):
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cns = cns + 1
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elif(path[cns][cwe - 1] == 1):
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cwe = cwe - 1
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elif(path[cns][cwe + 1] == 1):
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cwe = cwe + 1
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value = path[cns][cwe]
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continue
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if cns > 0 and path[cns - 1][cwe] == (value + 1):
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cns = cns - 1
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moves.append(1)
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value = value + 1
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continue
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if cns < (len(mapForAStar) - 1) and path[cns + 1][cwe] == (value + 1):
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cns = cns + 1
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moves.append(2)
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value = value + 1
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continue
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if cwe > 0 and path[cns][cwe - 1] == (value + 1):
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cwe = cwe - 1
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moves.append(3)
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value = value + 1
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continue
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if cwe < (len(mapForAStar[0]) - 1) and path[cns][cwe + 1] == (value + 1):
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cwe = cwe + 1
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moves.append(4)
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value = value + 1
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continue
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break
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def rysujWykres(data, x, yStart, yEnd):
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plt.axis([0, x,yStart, yEnd])
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for i in range(0, len(data.doWykresu) - 1):
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y = data.doWykresu[i]
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x = i
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plt.scatter(x, y)
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#plt.pause(0.0001)
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plt.show()
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def znajdzUnbox(data,mapa):
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unboxy = []
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iterator = 0
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ostatniWiersz = len(mapa) -1
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for x in mapa[ostatniWiersz]:
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if (isinstance(x, UnboxOnTheFloor)):
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unboxy.append((ostatniWiersz, iterator))
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iterator += 1
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data.unbox = unboxy
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def policzCost(mapaBoxy, poczatek, koniec):
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astar = AStar()
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koszt = astar.search(poczatek, koniec, mapaBoxy, 1, 0)
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return koszt
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def wybierzUnbox(gen, jakLiczycKoszt): #funkcja ustawiajaca jaki unbox
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if(jakLiczycKoszt == 0):
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x = random.choice([gen.unbox1, gen.unbox2])
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if(x == gen.unbox1):
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y = 0
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else:
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y= 1
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return (x,y)
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elif(jakLiczycKoszt == 1):
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return (gen.unbox1,0)
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elif(jakLiczycKoszt == 2):
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return (gen.unbox2,1)
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elif(jakLiczycKoszt == 3):
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x = min(gen.unbox1,gen.unbox2)
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if(x == gen.unbox1):
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y = 0
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else:
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y = 1
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return (x,y)
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def randomBox(mapa, regals, ile):
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regals = regals
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mapa = mapa
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tupleList = []
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ileRegalow = len(regals)
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iteration = 0
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while iteration < ileRegalow and iteration < ile:
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regal = random.choice(regals)
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if regal in tupleList:
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continue
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else:
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tupleList.append(regal)
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iteration+=1
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for (i,j,x) in tupleList:
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box = Box()
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mapa[i][j].put(box)
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"""
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for t in tupleList:
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listaRegalow.append((t[0],t[1]))
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data.zajeteRegaly = listaRegalow
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"""
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return mapa
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def znajdzBox(mapa, regals):
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zajeteRegaly = []
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for (x,y,z) in regals:
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shelf = mapa[x][y]
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tmp = shelf.occupied
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if(tmp == True):
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zajeteRegaly.append((x,y))
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return zajeteRegaly
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#wybiera z populacji dwa najlepsze chromosomy
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def updateMap(data, map, mapForAstar, regals):
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data.mapa = map
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znajdzUnbox(data, map)
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data.zajeteRegaly = znajdzBox(map, regals)
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data.astarMap = data.genMap(mapForAstar)
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def okno():
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try:
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good = True
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fieldValues = multenterbox("Wprowadź warunki początkowe", "Start algorytmu genetycznego", ["Ile chrom. w generacji", "Wielkosc dziedziczonego fragmentu (x>0 and x<1)", "Wartosc mutacji (x>0 and x<1)", "Gdzie odwieść paczkę: (0 or 1 or 2 or 3)", "Ile generacji"])
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if(fieldValues[0] == None):
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return 0
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if(not(fieldValues[0].isnumeric() and (fieldValues[0]!=""))):
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good = False
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msgbox("Wartość nie jest liczbą", "Błąd")
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if(isinstance(float(fieldValues[1]),float) and (fieldValues[1]!="")):
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if((float(fieldValues[1])<=0) and (good==True) and (float(fieldValues[1])>= 1)):
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msgbox("Zla wartosc fragmentu")
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good = False
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elif (good == True):
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msgbox("Wartość nie jest liczbą", "Błąd")
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good = False
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if(isinstance(float(fieldValues[2]),float) and (fieldValues[2]!="")):
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if((float(fieldValues[1])<=0) and (good==True) and (float(fieldValues[1])>= 1)):
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msgbox("Zla wartosc mutacji")
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good = False
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elif (good == True):
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msgbox("Wartość nie jest liczbą", "Błąd")
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good = False
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if(fieldValues[3].isnumeric() and (fieldValues[3]!="")):
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if(((int(fieldValues[3]) != 0) and (int(fieldValues[3]) != 1) and (int(fieldValues[3]) != 2) and (int(fieldValues[3]) != 3))):
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msgbox("Zla wartosc unboxa")
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good = False
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elif (good == True):
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msgbox("Wartość nie jest liczbą", "Błąd")
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good = False
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if(not(fieldValues[4].isnumeric() and (fieldValues[4]!=""))):
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msgbox("Wartość nie jest liczbą", "Błąd")
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good = False
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if(good == True):
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return [fieldValues[0], fieldValues[1], fieldValues[2],fieldValues[3], fieldValues[4]]
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except:
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return 0
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