forked from s444420/AL-2020
Przystosowanie algorytmu MCDA
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27
data.py
27
data.py
@ -32,7 +32,7 @@ learning_data = [
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# kolor, kształt, waga, rozmiar, nazwa
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['black', 'rectangle', 51, 'small', 'Mars'],
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['gold', 'pack', 100, 'big', 'Haribo'],
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['purple', 'rectangle', 100, 'big', 'Milka'],
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['purple', 'rectangle', 100, 'big', 'Milka-czekolada'],
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['brown', 'pack', 45, 'small', 'M&M'],
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['blue', 'rectangle', 50, 'medium', 'Bounty'],
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['blue', 'square', 40, 'small', 'Knoppers'],
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@ -43,7 +43,7 @@ learning_data = [
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['brown', 'rectangle', 45, 'medium', 'Lion'],
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['white', 'rectangle', 40, 'medium', 'Kinder-bueno'],
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['red', 'rectangle', 50, 'medium', 'Kit-kat'],
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['blue', 'rectangle', 115, 'big', 'Wedel'],
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['blue', 'rectangle', 115, 'big', 'Wedel-czekolada'],
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['white', 'rectangle', 15, 'small', 'Krowka'],
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['red', 'pack', 70, 'medium', 'Skittles'],
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['orange', 'rectangle', 45, 'medium', 'Reeses'],
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@ -57,6 +57,29 @@ learning_data = [
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['red', 'jar', 250, 'medium', 'Strawberry Jam'],
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['black', 'jar', 250, 'medium', 'Blackberry Jam'],
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['orange', 'jar', 250, 'medium', 'Peach Jam'],
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['brown', 'rectangle', 140, 'big', 'Jezyki classic'],
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['blue', 'rectangle', 140, 'big', 'Jezyki kokos'],
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['white', 'rectangle', 100, 'big', 'Kinder Chocolate'],
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['yellow', 'rectangle', 300, 'big', 'belVita'],
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['blue', 'rectangle', 380, 'big', 'Wedel-Ptasie Mleczko'],
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['purple', 'rectangle', 330, 'big', 'Milka-Alpejskie Mleczko'],
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['blue', 'rectangle', 294, 'big', 'Delicje'],
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['silver', 'pack', 280, 'big', 'Wawel-Michalki'],
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['red', 'rectangle', 50, 'medium', 'Krakuski Petit Beurre'],
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['white', 'egg', 20, 'small', 'Kinder Niespodzianka'],
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['brown', 'rectangle', 180, 'big', 'Familijne Wafle'],
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['red', 'rectangle', 235, 'big', 'dr Gerard PryncyPałki'],
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['white', 'rectangle', 25, 'medium', 'Nestlé Cini Minis Batonik'],
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['black', 'pack', 70, 'big', 'Korsarz Draże'],
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['white', 'rectangle', 50, 'medium', 'Góralki'],
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['white', 'rectangle', 24, 'medium', 'Kinder Country'],
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['red', 'rectangle', 46, 'medium', '3Bit'],
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['yellow', 'rectangle', 25, 'medium', 'Nestlé Nesquik Batonik'],
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['yellow', 'rectangle', 47, 'medium', 'Wedel WW'],
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['brown', 'rectangle', 30, 'medium', 'Lubisie'],
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['purple', 'rectangle', 22, 'small', 'Maoam'],
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['brown', 'rectangle', 294, 'medium', 'Grześki'],
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['white', 'rectangle', 250, 'big', 'merci'],
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]
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4
main.py
4
main.py
@ -9,7 +9,7 @@ from agent import Agent
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from settings import Settings
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from board import create_board, draw_board
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from random import randint, choice
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from mcda import choseProducts
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from mcda import selectedSupply
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# Inicjalizacja programu i utworzenie obiektu ekrany
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def run():
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@ -21,7 +21,7 @@ def run():
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board = create_board(screen)
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my_tree = decision_tree.build_tree(data.learning_data)
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produsctsFromSupply = choseProducts(5)
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produsctsFromSupply = selectedSupply()
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# for row in board:
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# for field in row:
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30
mcda.py
30
mcda.py
@ -1,9 +1,9 @@
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from supply import *
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allProducts = create_data_products()
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allProducts = supply()
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color = {'black': 16, 'gold': 10, 'purple': 5, 'brown': 7, 'blue': 12, 'white': 14, 'red': 13, 'orange': 11}
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shape = {'rectangle': 15, 'pack': 19, 'square': 9, 'jar': 7}
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color = {'black': 16, 'gold': 10, 'purple': 12, 'brown': 7, 'blue': 12, 'white': 14, 'red': 13, 'orange': 11, 'yellow': 8, 'silver': 15}
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shape = {'rectangle': 15, 'pack': 19, 'square': 9, 'jar': 7, 'egg': 12}
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size = {'small': 7, 'medium': 16, 'big': 13}
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def sizeValue(X):
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@ -68,12 +68,11 @@ def getConcordanceAllProducts():
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C.append(c)
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return C
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def choseProducts(number):
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def choseProducts():
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number = 20
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C = getConcordanceAllProducts()
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products = []
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prev = -1
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if number > len(allProducts):
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return allProducts
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while number > 0:
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max = -1
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if prev == -1:
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@ -89,11 +88,28 @@ def choseProducts(number):
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max = j
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prev = max
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for j in range(len(allProducts)):
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if C[max] > 0.8:
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if C[max] == C[j]:
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products.append(allProducts[j])
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print(C[j])
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number -= 1
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if number == 0:
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break
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print(C)
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else:
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number = 0
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return products
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def selectedSupply():
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products = choseProducts()
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supply = []
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product = ['-', '-', 0, '-', '-']
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for i in range(len(products)):
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product[0] = products[i].color
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product[1] = products[i].shape
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product[2] = products[i].mass
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product[3] = products[i].size
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supply.append(product)
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product = ['-', '-', 0, '-', '-']
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supply.append(product)
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print(supply)
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return supply
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61
supply.py
61
supply.py
@ -1,11 +1,10 @@
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from product import Product
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import random
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def create_data_products():
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allProducts = []
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product = Product('black', 'rectangle', 51, 'small')
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allProducts.append(product)
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product = Product('black', 'rectangle', 51, 'small')
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allProducts.append(product)
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product = Product('gold', 'pack', 100, 'big')
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@ -60,5 +59,63 @@ def create_data_products():
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allProducts.append(product)
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product = Product('orange', 'jar', 250, 'medium')
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allProducts.append(product)
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product = Product('brown', 'rectangle', 140, 'big')
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allProducts.append(product)
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product = Product('blue', 'rectangle', 140, 'big')
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allProducts.append(product)
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product = Product('white', 'rectangle', 100, 'big')
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allProducts.append(product)
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product = Product('yellow', 'rectangle', 300, 'big')
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allProducts.append(product)
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product = Product('blue', 'rectangle', 380, 'big')
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allProducts.append(product)
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product = Product('purple', 'rectangle', 330, 'big')
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allProducts.append(product)
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product = Product('blue', 'rectangle', 294, 'big')
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allProducts.append(product)
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product = Product('silver', 'pack', 280, 'big')
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allProducts.append(product)
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product = Product('red', 'rectangle', 50, 'medium')
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allProducts.append(product)
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product = Product('white', 'egg', 20, 'small')
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allProducts.append(product)
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product = Product('brown', 'rectangle', 180, 'big')
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allProducts.append(product)
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product = Product('red', 'rectangle', 235, 'big')
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allProducts.append(product)
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product = Product('white', 'rectangle', 25, 'medium')
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allProducts.append(product)
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product = Product('black', 'pack', 70, 'big')
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allProducts.append(product)
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product = Product('white', 'rectangle', 50, 'medium')
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allProducts.append(product)
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product = Product('white', 'rectangle', 24, 'medium')
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allProducts.append(product)
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product = Product('red', 'rectangle', 46, 'medium')
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allProducts.append(product)
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product = Product('yellow', 'rectangle', 25, 'medium')
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allProducts.append(product)
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product = Product('yellow', 'rectangle', 47, 'medium')
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allProducts.append(product)
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product = Product('brown', 'rectangle', 30, 'medium')
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allProducts.append(product)
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product = Product('purple', 'rectangle', 22, 'small')
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allProducts.append(product)
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product = Product('brown', 'rectangle', 294, 'medium')
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allProducts.append(product)
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product = Product('white', 'rectangle', 250, 'big')
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allProducts.append(product)
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return allProducts
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def supply():
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allProducts = create_data_products()
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R = []
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supply = []
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while len(R)<20:
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rand = random.randint(0, 49)
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if R.count(rand) == 0:
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R.append(rand)
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supply.append(allProducts[rand])
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return supply
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