Dodanie drzewa decyzjnego v1
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decision_tree/decisionTree.py
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66
decision_tree/decisionTree.py
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import joblib
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import matplotlib.pyplot as plt
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import pandas
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from sklearn.tree import DecisionTreeClassifier, export_text, plot_tree
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'''
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atrybuty w pliku csv muszą być integerami, wstępnie ustaliłem:
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season = {"wiosna": 1, "lato": 2, "jesien":3, "zima":4}
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enough_space_in_trashmaster = { "no": 1, "yes":2}
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time_since_flush = [1,2,3,4,5,6,7,8,9,10]
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type_of_trash = {"bio":1, "szklo":2, "plastik":3, "papier":4, "mieszane":5}
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access_to_bin = { "no":1, "yes":2}
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distance = [1,2,3,4,5,6,7,8,9,10]
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decision = [1,2,3,4,5]
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'''
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decisions = ["decision"]
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attributes = ["season", "enough_space_in_trashmaster", "time_since_flush", "type_of_trash", "access_to_bin", "distance",
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"decision"]
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# return tree made from attributes
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def tree():
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dataset = pandas.read_csv('./decision_tree/drzewo_decyzyjne.csv')
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x = dataset[attributes]
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y = dataset[decisions]
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decision_tree = DecisionTreeClassifier()
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decision_tree = decision_tree.fit(x, y)
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return decision_tree
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# return decision made from tree and attributes
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def decision(decision_tree, season, enough_space_in_trashmaster, time_since_flush, type_of_trash, access_to_bin,
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distance):
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decision = decision_tree.predict(
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[[season, enough_space_in_trashmaster, time_since_flush, type_of_trash, access_to_bin, distance]])
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return decision
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'''
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we shall save output of our decision tree. It is possible for a few ways:
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txt, png or structure
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'''
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def tree_as_txt(decision_tree):
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with open('./decision_tree/tree_as_txt.txt', "w") as file:
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file.write(export_text(decision_tree))
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def tree_to_png(decision_tree):
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plt.figure()
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plot_tree(decision_tree, feature_names=attributes, filled=True)
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plt.title("Decision tree")
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plt.show()
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def tree_to_structure(decision_tree):
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joblib.dump(decision_tree, './decision_tree/tree_model')
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#drzewo = tree()
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#tree_as_txt(drzewo)
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#tree_to_png(drzewo)
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#tree_to_structure(drzewo)
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101
decision_tree/drzewo_decyzyjne.csv
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decision_tree/drzewo_decyzyjne.csv
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season,enough_space_in_trashmaster,time_since_flush,type_of_trash,access_to_bin,distance,decision
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2,2,1,1,2,10,1
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2,2,2,2,2,8,1
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2,2,3,3,2,6,1
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2,2,4,4,2,4,2
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2,2,5,5,2,2,3
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2,2,6,1,2,1,5
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2,2,7,2,2,3,4
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2,2,8,3,2,5,4
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2,2,9,4,2,7,3
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2,2,10,5,2,9,5
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2,2,1,1,2,2,1
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2,2,2,2,2,1,1
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2,2,3,3,2,3,2
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2,2,4,4,2,4,2
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2,2,5,5,2,5,3
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2,2,6,1,2,6,3
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2,2,7,2,2,7,2
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2,2,8,3,2,8,2
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2,2,9,4,2,9,4
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2,2,10,5,2,10,4
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2,2,1,1,2,7,1
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2,2,2,2,2,6,2
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2,2,3,3,2,5,3
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2,2,4,4,1,4,0
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2,2,5,5,1,3,0
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2,2,6,1,1,2,0
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2,2,7,2,1,1,0
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2,2,8,3,1,9,0
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2,2,9,4,1,8,0
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2,2,10,5,1,7,0
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2,2,1,1,1,3,0
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2,2,2,2,1,2,0
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2,2,3,3,1,1,0
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2,2,4,4,1,4,0
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2,1,5,5,1,5,0
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2,1,6,1,1,6,0
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2,1,7,2,1,10,0
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2,1,8,3,1,9,0
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2,1,9,4,1,8,0
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2,1,10,5,1,7,0
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2,1,1,1,1,2,0
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2,1,2,2,1,4,0
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2,1,3,3,1,6,0
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2,1,4,4,1,8,0
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2,1,5,5,2,10,0
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2,1,6,1,2,1,0
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2,1,7,2,2,3,0
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2,1,8,3,2,5,0
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2,1,9,4,2,7,0
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2,1,10,5,2,9,0
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3,2,1,1,2,2,1
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3,2,2,2,2,1,1
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3,2,3,3,2,4,2
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3,2,4,4,2,3,3
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3,2,5,5,2,6,4
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3,2,6,1,2,5,4
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3,2,7,2,2,8,3
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3,2,8,3,2,7,3
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3,2,9,4,2,9,4
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3,2,10,5,2,10,5
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3,2,1,1,2,7,1
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3,2,2,2,2,6,1
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3,2,3,3,2,4,3
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3,2,4,4,2,1,3
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3,2,5,5,2,2,4
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3,2,6,1,2,3,4
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3,2,7,2,2,9,3
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3,2,8,3,2,8,3
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3,2,9,4,2,5,5
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3,2,10,5,2,4,5
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3,2,1,1,2,1,1
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3,2,2,2,1,7,0
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3,2,3,3,1,9,0
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3,2,4,4,1,10,0
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3,2,5,5,1,3,0
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3,2,6,1,1,2,0
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3,2,7,2,1,5,0
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3,2,8,3,1,6,0
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3,2,9,4,1,8,0
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3,1,10,5,1,3,0
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3,1,1,1,1,1,0
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3,1,2,2,1,2,0
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3,1,3,3,1,6,0
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3,1,4,4,1,9,0
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3,1,5,5,1,7,0
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3,1,6,1,1,4,0
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3,1,7,2,1,3,0
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3,1,8,3,1,5,0
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3,1,9,4,1,10,0
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3,1,10,5,1,8,0
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3,1,1,1,2,2,0
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3,1,2,2,2,4,0
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3,1,3,3,2,6,0
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3,1,4,4,2,7,0
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3,1,5,5,2,1,0
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3,1,6,1,2,9,0
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3,1,7,2,2,3,0
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3,1,8,3,2,9,0
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3,1,9,4,2,9,0
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3,1,10,5,2,1,0
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decision_tree/tree_as_txt.txt
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decision_tree/tree_as_txt.txt
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|--- feature_6 <= 0.50
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| |--- class: 0
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|--- feature_6 > 0.50
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| |--- feature_6 <= 1.50
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| | |--- class: 1
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| |--- feature_6 > 1.50
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| | |--- feature_6 <= 3.50
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| | | |--- feature_6 <= 2.50
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| | | | |--- class: 2
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| | | |--- feature_6 > 2.50
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| | | | |--- class: 3
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| | |--- feature_6 > 3.50
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| | | |--- feature_6 <= 4.50
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| | | | |--- class: 4
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| | | |--- feature_6 > 4.50
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| | | | |--- class: 5
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BIN
decision_tree/tree_model
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BIN
decision_tree/tree_model
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@ -19,6 +19,7 @@ class Player(pg.sprite.Sprite):
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self.pos = vec(x, y)
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self.rot = 0
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self.__rotation = a_star_utils.Rotation.RIGHT
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self.mass = 0
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def rotation(self) -> a_star_utils.Rotation:
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return self.__rotation
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main.py
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main.py
@ -10,9 +10,18 @@ from map import map
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from map import map_utils
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from path_search_algorthms import bfs
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from path_search_algorthms import a_star, a_star_utils
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from decision_tree import decisionTree
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from game_objects import aiPlayer
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def printTree():
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tree = decisionTree.tree()
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decisionTree.tree_as_txt(tree)
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decisionTree.tree_to_png(tree)
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decisionTree.tree_to_structure(tree)
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class Game():
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def __init__(self):
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@ -52,7 +61,7 @@ class Game():
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# print(path)
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realPath = []
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nextNode = target_node
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for i in range(len(path)-1, 0, -1):
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for i in range(len(path) - 1, 0, -1):
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node = path[i]
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if node[0] == nextNode:
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realPath.insert(0, node[0])
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@ -72,15 +81,15 @@ class Game():
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game_folder = path.dirname(__file__)
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img_folder = path.join(game_folder, 'resources/textures')
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self.player_img = pg.image.load(path.join(img_folder,PLAYER_IMG)).convert_alpha()
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self.player_img = pg.transform.scale(self.player_img, (PLAYER_WIDTH,PLAYER_HEIGHT) )
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self.player_img = pg.image.load(path.join(img_folder, PLAYER_IMG)).convert_alpha()
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self.player_img = pg.transform.scale(self.player_img, (PLAYER_WIDTH, PLAYER_HEIGHT))
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def run(self):
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# game loop - set self.playing = False to end the game
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self.playing = True
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while self.playing:
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self.dt = self.clock.tick(FPS) / 1000.0
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self.dt = self.clock.tick(FPS) / 1000.0
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self.events()
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self.update()
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self.draw()
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@ -96,20 +105,20 @@ class Game():
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# pygame.display.update()
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def draw(self):
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#display fps as window title
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# display fps as window title
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pg.display.set_caption("{:.2f}".format(self.clock.get_fps()))
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#rerender map
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# rerender map
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map.render_tiles(self.roadTiles, self.screen, self.camera)
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map.render_tiles(self.wallTiles, self.screen, self.camera, self.debug_mode)
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#rerender additional sprites
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# rerender additional sprites
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for sprite in self.agentSprites:
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self.screen.blit(sprite.image, self.camera.apply(sprite))
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if self.debug_mode:
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pg.draw.rect(self.screen, CYAN, self.camera.apply_rect(sprite.hit_rect), 1)
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#finally update screen
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# finally update screen
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pg.display.flip()
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def events(self):
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@ -125,7 +134,9 @@ class Game():
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pos = pg.mouse.get_pos()
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offset_x, offset_y = self.camera.offset()
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clicked_coords = [math.floor(pos[0] / TILESIZE) - offset_x, math.floor(pos[1] / TILESIZE) - offset_y]
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actions = a_star.search_path(math.floor(self.player.pos[0] / TILESIZE), math.floor(self.player.pos[1] / TILESIZE), self.player.rotation(), clicked_coords[0], clicked_coords[1], self.mapArray)
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actions = a_star.search_path(math.floor(self.player.pos[0] / TILESIZE),
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math.floor(self.player.pos[1] / TILESIZE), self.player.rotation(),
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clicked_coords[0], clicked_coords[1], self.mapArray)
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print(actions)
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if (actions != None):
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t = aiPlayer.aiPlayer(self.player, game=self)
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@ -137,11 +148,13 @@ class Game():
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def show_go_screen(self):
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pass
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# create the game object
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if __name__ == "__main__":
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g = Game()
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g.show_start_screen()
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printTree()
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g.run()
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g.show_go_screen()
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tomli==2.0.1
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typing_extensions==4.1.1
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wrapt==1.14.0
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joblib~=1.1.0
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matplotlib~=3.5.1
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pandas~=1.1.1
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scikit-learn~=1.0.2
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