Merge pull request 'drzewo_wiki' (#19) from drzewo_wiki into master
Reviewed-on: #19
This commit is contained in:
commit
3f65be482c
5
.vscode/settings.json
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5
.vscode/settings.json
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{
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"python.analysis.extraPaths": [
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"./DecisionTree"
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]
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}
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@ -1,87 +0,0 @@
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import graphviz
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import pandas as pd
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from sklearn.tree import DecisionTreeClassifier
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from sklearn.tree import export_graphviz
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# def make_tree():
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# plikZPrzecinkami = open("training_data.txt", 'w')
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# with open('DecisionTree/200permutations_table.txt', 'r') as plik:
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# for linia in plik:
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# liczby = linia.strip()
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# wiersz = ""
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# licznik = 0
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# for liczba in liczby:
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# wiersz += liczba
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# wiersz += ";"
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# wiersz = wiersz[:-1]
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# wiersz += '\n'
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# plikZPrzecinkami.write(wiersz)
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# plikZPrzecinkami.close()
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# x = pd.read_csv('DecisionTree/training_data.txt', delimiter=';',
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# names=['wielkosc', 'waga,', 'priorytet', 'ksztalt', 'kruchosc', 'dolna', 'gorna', 'g > d'])
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# y = pd.read_csv('DecisionTree/decisions.txt', names=['polka'])
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# # X_train, X_test, y_train, y_test = train_test_split(x, y, test_size=0.3, random_state=1) # 70% treningowe and 30% testowe
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# # Tworzenie instancji klasyfikatora ID3
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# clf = DecisionTreeClassifier(criterion='entropy')
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# # Trenowanie klasyfikatora
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# clf.fit(x.values, y.values)
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# # clf.fit(X_train, y_train)
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# return clf
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plikZPrzecinkami = open("training_data.txt", 'w')
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with open('200permutations_table.txt', 'r') as plik:
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for linia in plik:
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liczby = linia.strip()
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wiersz = ""
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licznik = 0
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for liczba in liczby:
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wiersz += liczba
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wiersz += ";"
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wiersz = wiersz[:-1]
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wiersz += '\n'
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plikZPrzecinkami.write(wiersz)
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plikZPrzecinkami.close()
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x = pd.read_csv('training_data.txt', delimiter=';',
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names=['wielkosc', 'waga,', 'priorytet', 'ksztalt', 'kruchosc', 'dolna', 'gorna', 'g > d'])
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y = pd.read_csv('decisions.txt', names=['polka'])
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# X_train, X_test, y_train, y_test = train_test_split(x, y, test_size=0.3, random_state=1) # 70% treningowe and 30% testowe
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# Tworzenie instancji klasyfikatora ID3
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clf = DecisionTreeClassifier(criterion='entropy')
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# Trenowanie klasyfikatora
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clf.fit(x.values, y.values)
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# clf.fit(X_train, y_train)
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# Predykcja na nowych danych
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new_data = [[2, 2, 1, 0, 1, 1, 0, 0], [0, 0, 0, 0, 0, 0, 0, 0]]
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predictions = clf.predict(new_data)
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# y_pred = clf.predict(X_test)
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print(predictions)
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# print("Accuracy:", clf.score(new_data, predictions))
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# print("Accuracy:", metrics.accuracy_score(y_test, y_pred))
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# Wygenerowanie pliku .dot reprezentującego drzewo
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dot_data = export_graphviz(clf, out_file=None, feature_names=list(x.columns), class_names=['0', '1'], filled=True,
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rounded=True)
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# Tworzenie obiektu graphviz z pliku .dot
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graph = graphviz.Source(dot_data)
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# Wyświetlanie drzewa
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graph.view()
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z = pd.concat([x, y], axis=1)
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z.to_csv('dane.csv', index=False)
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197
Source.gv
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197
Source.gv
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digraph Tree {
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node [shape=box, style="filled, rounded", color="black", fontname="helvetica"] ;
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edge [fontname="helvetica"] ;
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0 [label="g > d <= 0.5\nentropy = 0.997\nsamples = 200\nvalue = [94, 106]\nclass = 1", fillcolor="#e9f4fc"] ;
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1 [label="waga, <= 0.5\nentropy = 0.803\nsamples = 98\nvalue = [74, 24]\nclass = 0", fillcolor="#edaa79"] ;
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0 -> 1 [labeldistance=2.5, labelangle=45, headlabel="True"] ;
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2 [label="wielkosc <= 1.5\nentropy = 0.998\nsamples = 34\nvalue = [16, 18]\nclass = 1", fillcolor="#e9f4fc"] ;
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1 -> 2 ;
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3 [label="priorytet <= 0.5\nentropy = 0.887\nsamples = 23\nvalue = [7, 16]\nclass = 1", fillcolor="#90c8f0"] ;
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2 -> 3 ;
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4 [label="kruchosc <= 0.5\nentropy = 0.439\nsamples = 11\nvalue = [1, 10]\nclass = 1", fillcolor="#4da7e8"] ;
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3 -> 4 ;
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5 [label="entropy = 0.0\nsamples = 7\nvalue = [0, 7]\nclass = 1", fillcolor="#399de5"] ;
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4 -> 5 ;
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6 [label="ksztalt <= 0.5\nentropy = 0.811\nsamples = 4\nvalue = [1, 3]\nclass = 1", fillcolor="#7bbeee"] ;
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4 -> 6 ;
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7 [label="entropy = 0.0\nsamples = 1\nvalue = [0, 1]\nclass = 1", fillcolor="#399de5"] ;
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6 -> 7 ;
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8 [label="dolna <= 0.5\nentropy = 0.918\nsamples = 3\nvalue = [1, 2]\nclass = 1", fillcolor="#9ccef2"] ;
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6 -> 8 ;
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9 [label="entropy = 0.0\nsamples = 1\nvalue = [0, 1]\nclass = 1", fillcolor="#399de5"] ;
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8 -> 9 ;
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10 [label="gorna <= 0.5\nentropy = 1.0\nsamples = 2\nvalue = [1, 1]\nclass = 0", fillcolor="#ffffff"] ;
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8 -> 10 ;
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11 [label="entropy = 0.0\nsamples = 1\nvalue = [1, 0]\nclass = 0", fillcolor="#e58139"] ;
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10 -> 11 ;
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12 [label="entropy = 0.0\nsamples = 1\nvalue = [0, 1]\nclass = 1", fillcolor="#399de5"] ;
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10 -> 12 ;
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13 [label="kruchosc <= 0.5\nentropy = 1.0\nsamples = 12\nvalue = [6, 6]\nclass = 0", fillcolor="#ffffff"] ;
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3 -> 13 ;
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14 [label="entropy = 0.0\nsamples = 5\nvalue = [5, 0]\nclass = 0", fillcolor="#e58139"] ;
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13 -> 14 ;
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15 [label="wielkosc <= 0.5\nentropy = 0.592\nsamples = 7\nvalue = [1, 6]\nclass = 1", fillcolor="#5aade9"] ;
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13 -> 15 ;
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16 [label="entropy = 0.0\nsamples = 4\nvalue = [0, 4]\nclass = 1", fillcolor="#399de5"] ;
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15 -> 16 ;
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17 [label="ksztalt <= 0.5\nentropy = 0.918\nsamples = 3\nvalue = [1, 2]\nclass = 1", fillcolor="#9ccef2"] ;
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15 -> 17 ;
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18 [label="entropy = 0.0\nsamples = 2\nvalue = [0, 2]\nclass = 1", fillcolor="#399de5"] ;
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17 -> 18 ;
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19 [label="entropy = 0.0\nsamples = 1\nvalue = [1, 0]\nclass = 0", fillcolor="#e58139"] ;
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17 -> 19 ;
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20 [label="ksztalt <= 0.5\nentropy = 0.684\nsamples = 11\nvalue = [9, 2]\nclass = 0", fillcolor="#eb9d65"] ;
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2 -> 20 ;
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21 [label="kruchosc <= 0.5\nentropy = 1.0\nsamples = 4\nvalue = [2, 2]\nclass = 0", fillcolor="#ffffff"] ;
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20 -> 21 ;
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22 [label="entropy = 0.0\nsamples = 1\nvalue = [1, 0]\nclass = 0", fillcolor="#e58139"] ;
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21 -> 22 ;
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23 [label="dolna <= 0.5\nentropy = 0.918\nsamples = 3\nvalue = [1, 2]\nclass = 1", fillcolor="#9ccef2"] ;
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21 -> 23 ;
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24 [label="entropy = 0.0\nsamples = 2\nvalue = [0, 2]\nclass = 1", fillcolor="#399de5"] ;
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23 -> 24 ;
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25 [label="entropy = 0.0\nsamples = 1\nvalue = [1, 0]\nclass = 0", fillcolor="#e58139"] ;
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23 -> 25 ;
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26 [label="entropy = 0.0\nsamples = 7\nvalue = [7, 0]\nclass = 0", fillcolor="#e58139"] ;
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20 -> 26 ;
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27 [label="gorna <= 0.5\nentropy = 0.449\nsamples = 64\nvalue = [58, 6]\nclass = 0", fillcolor="#e88e4d"] ;
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1 -> 27 ;
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28 [label="entropy = 0.0\nsamples = 33\nvalue = [33, 0]\nclass = 0", fillcolor="#e58139"] ;
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27 -> 28 ;
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29 [label="wielkosc <= 1.5\nentropy = 0.709\nsamples = 31\nvalue = [25, 6]\nclass = 0", fillcolor="#eb9f69"] ;
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27 -> 29 ;
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30 [label="ksztalt <= 0.5\nentropy = 0.918\nsamples = 18\nvalue = [12, 6]\nclass = 0", fillcolor="#f2c09c"] ;
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29 -> 30 ;
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31 [label="kruchosc <= 0.5\nentropy = 1.0\nsamples = 10\nvalue = [5, 5]\nclass = 0", fillcolor="#ffffff"] ;
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30 -> 31 ;
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32 [label="waga, <= 1.5\nentropy = 0.722\nsamples = 5\nvalue = [4, 1]\nclass = 0", fillcolor="#eca06a"] ;
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31 -> 32 ;
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33 [label="entropy = 0.0\nsamples = 3\nvalue = [3, 0]\nclass = 0", fillcolor="#e58139"] ;
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32 -> 33 ;
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34 [label="dolna <= 0.5\nentropy = 1.0\nsamples = 2\nvalue = [1, 1]\nclass = 0", fillcolor="#ffffff"] ;
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32 -> 34 ;
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35 [label="entropy = 0.0\nsamples = 1\nvalue = [0, 1]\nclass = 1", fillcolor="#399de5"] ;
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34 -> 35 ;
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36 [label="entropy = 0.0\nsamples = 1\nvalue = [1, 0]\nclass = 0", fillcolor="#e58139"] ;
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34 -> 36 ;
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37 [label="priorytet <= 0.5\nentropy = 0.722\nsamples = 5\nvalue = [1, 4]\nclass = 1", fillcolor="#6ab6ec"] ;
|
||||
31 -> 37 ;
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||||
38 [label="entropy = 0.0\nsamples = 3\nvalue = [0, 3]\nclass = 1", fillcolor="#399de5"] ;
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37 -> 38 ;
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||||
39 [label="dolna <= 0.5\nentropy = 1.0\nsamples = 2\nvalue = [1, 1]\nclass = 0", fillcolor="#ffffff"] ;
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37 -> 39 ;
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||||
40 [label="entropy = 0.0\nsamples = 1\nvalue = [0, 1]\nclass = 1", fillcolor="#399de5"] ;
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39 -> 40 ;
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41 [label="entropy = 0.0\nsamples = 1\nvalue = [1, 0]\nclass = 0", fillcolor="#e58139"] ;
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39 -> 41 ;
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42 [label="waga, <= 1.5\nentropy = 0.544\nsamples = 8\nvalue = [7, 1]\nclass = 0", fillcolor="#e99355"] ;
|
||||
30 -> 42 ;
|
||||
43 [label="entropy = 0.0\nsamples = 4\nvalue = [4, 0]\nclass = 0", fillcolor="#e58139"] ;
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42 -> 43 ;
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44 [label="wielkosc <= 0.5\nentropy = 0.811\nsamples = 4\nvalue = [3, 1]\nclass = 0", fillcolor="#eeab7b"] ;
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42 -> 44 ;
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||||
45 [label="entropy = 0.0\nsamples = 1\nvalue = [1, 0]\nclass = 0", fillcolor="#e58139"] ;
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44 -> 45 ;
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||||
46 [label="dolna <= 0.5\nentropy = 0.918\nsamples = 3\nvalue = [2, 1]\nclass = 0", fillcolor="#f2c09c"] ;
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||||
44 -> 46 ;
|
||||
47 [label="entropy = 0.0\nsamples = 1\nvalue = [1, 0]\nclass = 0", fillcolor="#e58139"] ;
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46 -> 47 ;
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48 [label="kruchosc <= 0.5\nentropy = 1.0\nsamples = 2\nvalue = [1, 1]\nclass = 0", fillcolor="#ffffff"] ;
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46 -> 48 ;
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49 [label="entropy = 0.0\nsamples = 1\nvalue = [1, 0]\nclass = 0", fillcolor="#e58139"] ;
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48 -> 49 ;
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50 [label="entropy = 0.0\nsamples = 1\nvalue = [0, 1]\nclass = 1", fillcolor="#399de5"] ;
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48 -> 50 ;
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||||
51 [label="entropy = 0.0\nsamples = 13\nvalue = [13, 0]\nclass = 0", fillcolor="#e58139"] ;
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29 -> 51 ;
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52 [label="wielkosc <= 1.5\nentropy = 0.714\nsamples = 102\nvalue = [20, 82]\nclass = 1", fillcolor="#69b5eb"] ;
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||||
0 -> 52 [labeldistance=2.5, labelangle=-45, headlabel="False"] ;
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53 [label="waga, <= 0.5\nentropy = 0.469\nsamples = 70\nvalue = [7, 63]\nclass = 1", fillcolor="#4fa8e8"] ;
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52 -> 53 ;
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||||
54 [label="entropy = 0.0\nsamples = 21\nvalue = [0, 21]\nclass = 1", fillcolor="#399de5"] ;
|
||||
53 -> 54 ;
|
||||
55 [label="ksztalt <= 0.5\nentropy = 0.592\nsamples = 49\nvalue = [7, 42]\nclass = 1", fillcolor="#5aade9"] ;
|
||||
53 -> 55 ;
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||||
56 [label="wielkosc <= 0.5\nentropy = 0.25\nsamples = 24\nvalue = [1, 23]\nclass = 1", fillcolor="#42a1e6"] ;
|
||||
55 -> 56 ;
|
||||
57 [label="entropy = 0.0\nsamples = 15\nvalue = [0, 15]\nclass = 1", fillcolor="#399de5"] ;
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||||
56 -> 57 ;
|
||||
58 [label="kruchosc <= 0.5\nentropy = 0.503\nsamples = 9\nvalue = [1, 8]\nclass = 1", fillcolor="#52a9e8"] ;
|
||||
56 -> 58 ;
|
||||
59 [label="gorna <= 0.5\nentropy = 0.722\nsamples = 5\nvalue = [1, 4]\nclass = 1", fillcolor="#6ab6ec"] ;
|
||||
58 -> 59 ;
|
||||
60 [label="dolna <= 0.5\nentropy = 0.918\nsamples = 3\nvalue = [1, 2]\nclass = 1", fillcolor="#9ccef2"] ;
|
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59 -> 60 ;
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||||
61 [label="entropy = 0.0\nsamples = 1\nvalue = [0, 1]\nclass = 1", fillcolor="#399de5"] ;
|
||||
60 -> 61 ;
|
||||
62 [label="waga, <= 1.5\nentropy = 1.0\nsamples = 2\nvalue = [1, 1]\nclass = 0", fillcolor="#ffffff"] ;
|
||||
60 -> 62 ;
|
||||
63 [label="entropy = 0.0\nsamples = 1\nvalue = [0, 1]\nclass = 1", fillcolor="#399de5"] ;
|
||||
62 -> 63 ;
|
||||
64 [label="entropy = 0.0\nsamples = 1\nvalue = [1, 0]\nclass = 0", fillcolor="#e58139"] ;
|
||||
62 -> 64 ;
|
||||
65 [label="entropy = 0.0\nsamples = 2\nvalue = [0, 2]\nclass = 1", fillcolor="#399de5"] ;
|
||||
59 -> 65 ;
|
||||
66 [label="entropy = 0.0\nsamples = 4\nvalue = [0, 4]\nclass = 1", fillcolor="#399de5"] ;
|
||||
58 -> 66 ;
|
||||
67 [label="kruchosc <= 0.5\nentropy = 0.795\nsamples = 25\nvalue = [6, 19]\nclass = 1", fillcolor="#78bced"] ;
|
||||
55 -> 67 ;
|
||||
68 [label="priorytet <= 0.5\nentropy = 0.98\nsamples = 12\nvalue = [5, 7]\nclass = 1", fillcolor="#c6e3f8"] ;
|
||||
67 -> 68 ;
|
||||
69 [label="dolna <= 0.5\nentropy = 0.764\nsamples = 9\nvalue = [2, 7]\nclass = 1", fillcolor="#72b9ec"] ;
|
||||
68 -> 69 ;
|
||||
70 [label="entropy = 0.0\nsamples = 5\nvalue = [0, 5]\nclass = 1", fillcolor="#399de5"] ;
|
||||
69 -> 70 ;
|
||||
71 [label="gorna <= 0.5\nentropy = 1.0\nsamples = 4\nvalue = [2, 2]\nclass = 0", fillcolor="#ffffff"] ;
|
||||
69 -> 71 ;
|
||||
72 [label="entropy = 0.0\nsamples = 2\nvalue = [2, 0]\nclass = 0", fillcolor="#e58139"] ;
|
||||
71 -> 72 ;
|
||||
73 [label="entropy = 0.0\nsamples = 2\nvalue = [0, 2]\nclass = 1", fillcolor="#399de5"] ;
|
||||
71 -> 73 ;
|
||||
74 [label="entropy = 0.0\nsamples = 3\nvalue = [3, 0]\nclass = 0", fillcolor="#e58139"] ;
|
||||
68 -> 74 ;
|
||||
75 [label="gorna <= 0.5\nentropy = 0.391\nsamples = 13\nvalue = [1, 12]\nclass = 1", fillcolor="#49a5e7"] ;
|
||||
67 -> 75 ;
|
||||
76 [label="priorytet <= 0.5\nentropy = 0.65\nsamples = 6\nvalue = [1, 5]\nclass = 1", fillcolor="#61b1ea"] ;
|
||||
75 -> 76 ;
|
||||
77 [label="entropy = 0.0\nsamples = 4\nvalue = [0, 4]\nclass = 1", fillcolor="#399de5"] ;
|
||||
76 -> 77 ;
|
||||
78 [label="wielkosc <= 0.5\nentropy = 1.0\nsamples = 2\nvalue = [1, 1]\nclass = 0", fillcolor="#ffffff"] ;
|
||||
76 -> 78 ;
|
||||
79 [label="entropy = 0.0\nsamples = 1\nvalue = [1, 0]\nclass = 0", fillcolor="#e58139"] ;
|
||||
78 -> 79 ;
|
||||
80 [label="entropy = 0.0\nsamples = 1\nvalue = [0, 1]\nclass = 1", fillcolor="#399de5"] ;
|
||||
78 -> 80 ;
|
||||
81 [label="entropy = 0.0\nsamples = 7\nvalue = [0, 7]\nclass = 1", fillcolor="#399de5"] ;
|
||||
75 -> 81 ;
|
||||
82 [label="gorna <= 0.5\nentropy = 0.974\nsamples = 32\nvalue = [13, 19]\nclass = 1", fillcolor="#c0e0f7"] ;
|
||||
52 -> 82 ;
|
||||
83 [label="kruchosc <= 0.5\nentropy = 0.65\nsamples = 12\nvalue = [10, 2]\nclass = 0", fillcolor="#ea9a61"] ;
|
||||
82 -> 83 ;
|
||||
84 [label="entropy = 0.0\nsamples = 7\nvalue = [7, 0]\nclass = 0", fillcolor="#e58139"] ;
|
||||
83 -> 84 ;
|
||||
85 [label="priorytet <= 0.5\nentropy = 0.971\nsamples = 5\nvalue = [3, 2]\nclass = 0", fillcolor="#f6d5bd"] ;
|
||||
83 -> 85 ;
|
||||
86 [label="waga, <= 1.5\nentropy = 0.918\nsamples = 3\nvalue = [1, 2]\nclass = 1", fillcolor="#9ccef2"] ;
|
||||
85 -> 86 ;
|
||||
87 [label="entropy = 0.0\nsamples = 2\nvalue = [0, 2]\nclass = 1", fillcolor="#399de5"] ;
|
||||
86 -> 87 ;
|
||||
88 [label="entropy = 0.0\nsamples = 1\nvalue = [1, 0]\nclass = 0", fillcolor="#e58139"] ;
|
||||
86 -> 88 ;
|
||||
89 [label="entropy = 0.0\nsamples = 2\nvalue = [2, 0]\nclass = 0", fillcolor="#e58139"] ;
|
||||
85 -> 89 ;
|
||||
90 [label="dolna <= 0.5\nentropy = 0.61\nsamples = 20\nvalue = [3, 17]\nclass = 1", fillcolor="#5caeea"] ;
|
||||
82 -> 90 ;
|
||||
91 [label="entropy = 0.0\nsamples = 11\nvalue = [0, 11]\nclass = 1", fillcolor="#399de5"] ;
|
||||
90 -> 91 ;
|
||||
92 [label="kruchosc <= 0.5\nentropy = 0.918\nsamples = 9\nvalue = [3, 6]\nclass = 1", fillcolor="#9ccef2"] ;
|
||||
90 -> 92 ;
|
||||
93 [label="waga, <= 0.5\nentropy = 0.811\nsamples = 4\nvalue = [3, 1]\nclass = 0", fillcolor="#eeab7b"] ;
|
||||
92 -> 93 ;
|
||||
94 [label="entropy = 0.0\nsamples = 1\nvalue = [0, 1]\nclass = 1", fillcolor="#399de5"] ;
|
||||
93 -> 94 ;
|
||||
95 [label="entropy = 0.0\nsamples = 3\nvalue = [3, 0]\nclass = 0", fillcolor="#e58139"] ;
|
||||
93 -> 95 ;
|
||||
96 [label="entropy = 0.0\nsamples = 5\nvalue = [0, 5]\nclass = 1", fillcolor="#399de5"] ;
|
||||
92 -> 96 ;
|
||||
}
|
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58
drzewo_decyzyjne.py
Normal file
58
drzewo_decyzyjne.py
Normal file
@ -0,0 +1,58 @@
|
||||
import graphviz
|
||||
import pandas as pd
|
||||
from sklearn.tree import DecisionTreeClassifier
|
||||
from sklearn.tree import export_graphviz
|
||||
|
||||
def make_tree():
|
||||
plikZPrzecinkami = open("training_data.txt", 'w')
|
||||
|
||||
with open('DecisionTree/200permutations_table.txt', 'r') as plik:
|
||||
for linia in plik:
|
||||
liczby = linia.strip()
|
||||
wiersz = ""
|
||||
licznik = 0
|
||||
for liczba in liczby:
|
||||
wiersz += liczba
|
||||
wiersz += ";"
|
||||
wiersz = wiersz[:-1]
|
||||
wiersz += '\n'
|
||||
plikZPrzecinkami.write(wiersz)
|
||||
|
||||
plikZPrzecinkami.close()
|
||||
|
||||
x = pd.read_csv('DecisionTree/training_data.txt', delimiter=';',
|
||||
names=['wielkosc', 'waga,', 'priorytet', 'ksztalt', 'kruchosc', 'dolna', 'gorna', 'g > d'])
|
||||
y = pd.read_csv('DecisionTree/decisions.txt', names=['polka'])
|
||||
# X_train, X_test, y_train, y_test = train_test_split(x, y, test_size=0.3, random_state=1) # 70% treningowe and 30% testowe
|
||||
|
||||
# Tworzenie instancji klasyfikatora ID3
|
||||
clf = DecisionTreeClassifier(criterion='entropy')
|
||||
|
||||
# Trenowanie klasyfikatora
|
||||
clf.fit(x.values, y.values)
|
||||
# clf.fit(X_train, y_train)
|
||||
return clf
|
||||
|
||||
# # Predykcja na nowych danych
|
||||
# new_data = [[2, 2, 1, 0, 1, 1, 0, 0], [0, 0, 0, 0, 0, 0, 0, 0]]
|
||||
# predictions = clf.predict(new_data)
|
||||
# # y_pred = clf.predict(X_test)
|
||||
|
||||
|
||||
# print(predictions)
|
||||
# # print("Accuracy:", clf.score(new_data, predictions))
|
||||
# # print("Accuracy:", metrics.accuracy_score(y_test, y_pred))
|
||||
|
||||
|
||||
# Wygenerowanie pliku .dot reprezentującego drzewo
|
||||
# dot_data = export_graphviz(clf, out_file=None, feature_names=list(x.columns), class_names=['0', '1'], filled=True,
|
||||
# rounded=True)
|
||||
|
||||
# # Tworzenie obiektu graphviz z pliku .dot
|
||||
# graph = graphviz.Source(dot_data)
|
||||
|
||||
# # Wyświetlanie drzewa
|
||||
# graph.view()
|
||||
|
||||
# z = pd.concat([x, y], axis=1)
|
||||
# z.to_csv('dane.csv', index=False)
|
22
ekran.py
22
ekran.py
@ -1,10 +1,7 @@
|
||||
import pygame
|
||||
|
||||
from plansza import x1, y1, x2, y2, x3, y3, x4, y4, a_pix, b_pix
|
||||
from regal import Regal, obliczPixeleNaPodstawieKratek
|
||||
# import wozek
|
||||
from packageList import *
|
||||
# from paczka import Paczka
|
||||
|
||||
EKRAN_SZEROKOSC = 770
|
||||
EKRAN_WYSOKOSC = 770
|
||||
@ -15,9 +12,6 @@ pygame.display.set_caption("Inteligentny wozek")
|
||||
icon = pygame.image.load('images/icon.png')
|
||||
pygame.display.set_icon(icon)
|
||||
|
||||
# lista_paczek = packageList.zainicjuj_liste_paczek(a_pix, b_pix)
|
||||
|
||||
#lista_paczek = listOfPackages()
|
||||
lista_paczek = []
|
||||
lista_paczek_na_regalach = []
|
||||
|
||||
@ -52,11 +46,6 @@ def zwroc_regaly_kategoria(kategoria):
|
||||
lista_reg.append(reg)
|
||||
return lista_reg
|
||||
|
||||
# def zwroc_regaly_wspolrzedne(x_reg, y_reg):
|
||||
# for regal in lista_regalow:
|
||||
# if regal.wiersz == obliczPixeleNaPodstawieKratek(x_reg) and regal.kolumna == obliczPixeleNaPodstawieKratek(y_reg):
|
||||
# return regal
|
||||
|
||||
def narysuj_siatke():
|
||||
blockSize = 70 # Set the size of the grid block
|
||||
WHITE = (200, 200, 200)
|
||||
@ -94,13 +83,16 @@ def sprawdz_ktora_kolumna(y):
|
||||
|
||||
|
||||
def narysuj_paczki(wozek):
|
||||
#if wozek.ln == 0:
|
||||
#for paczka in lista_paczek.list:
|
||||
#if len(lista_paczek_na_regalach) == 0:
|
||||
for paczka in lista_paczek:
|
||||
paczka.narysuj(paczka.x, paczka.y, screen)
|
||||
|
||||
def narysuj_paczke_na_regale():
|
||||
for paczka in lista_paczek_na_regalach:
|
||||
if paczka.is_in_move is False:
|
||||
paczka.narysuj(paczka.x, paczka.y, screen)
|
||||
paczka.narysuj(paczka.x, paczka.y, screen)
|
||||
|
||||
def dodaj_paczki_na_rampe(p1, p2):
|
||||
lista_paczek.append(p1)
|
||||
lista_paczek.append(p2)
|
||||
p1.update_position(a_pix, b_pix)
|
||||
p2.update_position(a_pix, b_pix)
|
||||
|
33
main.py
33
main.py
@ -7,6 +7,7 @@ import ekran
|
||||
from grid import GridCellType, SearchGrid
|
||||
from sklearn.tree import DecisionTreeClassifier
|
||||
import pandas as pd
|
||||
import drzewo_decyzyjne
|
||||
|
||||
from plansza import a_pix, b_pix
|
||||
pygame.init()
|
||||
@ -14,15 +15,11 @@ pygame.init()
|
||||
|
||||
def main():
|
||||
wozek = Wozek()
|
||||
|
||||
p1 = Paczka('duzy', 12, 'narzedzia', False, True, False, any, any, any, any, any)
|
||||
p2 = Paczka('maly', 1, 'ogród', False, True, False, any, any, any, any, any)
|
||||
ekran.lista_paczek.append(p1)
|
||||
ekran.lista_paczek.append(p2)
|
||||
p1.update_position(a_pix, b_pix)
|
||||
p2.update_position(a_pix, b_pix)
|
||||
|
||||
ekran.dodaj_paczki_na_rampe(p1, p2)
|
||||
grid_points = SearchGrid()
|
||||
drzewo = drzewo_decyzyjne.make_tree()
|
||||
|
||||
while True:
|
||||
for event in pygame.event.get():
|
||||
@ -52,34 +49,14 @@ def main():
|
||||
|
||||
array, reg = przenoszona_paczka.tablica_do_drzewa(przenoszona_paczka.kategoria)
|
||||
|
||||
plikZPrzecinkami = open("DecisionTree/training_data.txt", 'w')
|
||||
predictions = drzewo.predict([array])
|
||||
|
||||
with open('DecisionTree/200permutations_table.txt', 'r') as plik:
|
||||
for linia in plik:
|
||||
liczby = linia.strip()
|
||||
wiersz = ""
|
||||
licznik = 0
|
||||
for liczba in liczby:
|
||||
wiersz += liczba
|
||||
wiersz += ";"
|
||||
wiersz = wiersz[:-1]
|
||||
wiersz += '\n'
|
||||
plikZPrzecinkami.write(wiersz)
|
||||
|
||||
plikZPrzecinkami.close()
|
||||
x = pd.read_csv('DecisionTree/training_data.txt', delimiter=';',
|
||||
names=['wielkosc', 'waga,', 'priorytet', 'ksztalt', 'kruchosc', 'dolna', 'gorna', 'g > d'])
|
||||
y = pd.read_csv('DecisionTree/decisions.txt', names=['polka'])
|
||||
clf = DecisionTreeClassifier(criterion='entropy')
|
||||
clf.fit(x.values, y.values)
|
||||
|
||||
predictions = clf.predict([array])
|
||||
if predictions == 0:
|
||||
print('odklada na dolna polke!')
|
||||
else:
|
||||
print('odklada na gorna polke!')
|
||||
|
||||
docelowy_stan = wyszukiwanie.Stan(reg.numerWiersza * 70, reg.numerKolumny * 70, 1) # x1 i y1 bo to są regału kategorii ogród
|
||||
docelowy_stan = wyszukiwanie.Stan(reg.numerWiersza * 70, reg.numerKolumny * 70, 1)
|
||||
wezel = wyszukiwanie.wyszukiwanie_a_star(wozek.obecnyStan, docelowy_stan, grid_points)
|
||||
sciezka = wyszukiwanie.znajdz_sciezke(wezel)
|
||||
wozek.przemiesc_wozek_po_sciezce(sciezka)
|
||||
|
26
paczka.py
26
paczka.py
@ -89,36 +89,36 @@ class Paczka(pygame.sprite.Sprite):
|
||||
|
||||
# piorytet
|
||||
if self.priorytet is True:
|
||||
tablica.append(0)
|
||||
else: tablica.append(1)
|
||||
tablica.append(1)
|
||||
else: tablica.append(0)
|
||||
|
||||
# kształt
|
||||
if self.ksztalt is True:
|
||||
tablica.append(0)
|
||||
else: tablica.append(1)
|
||||
tablica.append(1)
|
||||
else: tablica.append(0)
|
||||
|
||||
# kruchość
|
||||
if self.kruchosc is True:
|
||||
tablica.append(0)
|
||||
else: tablica.append(1)
|
||||
tablica.append(1)
|
||||
else: tablica.append(0)
|
||||
|
||||
reg = ekran.zwroc_regaly_kategoria(kategoria)
|
||||
# czy dolna wolna
|
||||
if reg[0].is_dolna_free() is True:
|
||||
tablica.append(0)
|
||||
else:
|
||||
tablica.append(1)
|
||||
else:
|
||||
tablica.append(0)
|
||||
|
||||
#czy górna wolna
|
||||
if reg[0].is_dolna_free() is True:
|
||||
tablica.append(0)
|
||||
else:
|
||||
tablica.append(1)
|
||||
else:
|
||||
tablica.append(0)
|
||||
|
||||
# czy na górnej więcej miejsca
|
||||
if reg[0].is_dolna_free() is True:
|
||||
tablica.append(0)
|
||||
else:
|
||||
if reg[0].czy_na_gornej_wiecej_miejsca() is True:
|
||||
tablica.append(1)
|
||||
else:
|
||||
tablica.append(0)
|
||||
|
||||
return tablica, reg[0]
|
Loading…
Reference in New Issue
Block a user