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@ -24,7 +24,6 @@ import pandas |
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import numpy |
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import numpy |
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from pandas.plotting import scatter_matrix |
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from pandas.plotting import scatter_matrix |
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import matplotlib.pyplot as plt |
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import matplotlib.pyplot as plt |
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import sys |
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from sklearn import model_selection |
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from sklearn import model_selection |
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from sklearn.metrics import classification_report |
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from sklearn.metrics import classification_report |
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from sklearn.metrics import confusion_matrix |
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from sklearn.metrics import confusion_matrix |
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@ -35,16 +34,45 @@ from sklearn.neighbors import KNeighborsClassifier |
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from sklearn.discriminant_analysis import LinearDiscriminantAnalysis |
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from sklearn.discriminant_analysis import LinearDiscriminantAnalysis |
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from sklearn.naive_bayes import GaussianNB |
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from sklearn.naive_bayes import GaussianNB |
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from sklearn.svm import SVC |
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from sklearn.svm import SVC |
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sys.path.append('..') |
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from utils.models_evaluation import ModelsEvaluation |
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from utils.models_evaluation import ModelsEvaluation |
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from utils.model import Model |
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from utils.model import Model |
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def getGlassesClassText(number): |
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return { |
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1.0 : 'Building windows float processed', |
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2.0 : 'Building windows non-float processed', |
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3.0 : 'Vehicle windows float processed', |
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4.0 : 'Vehicle windows non-float processed', |
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5.0 : 'Containers', |
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6.0 : 'Tableware', |
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7.0 : 'Headlamps' |
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}.get(number, None) |
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# Load the dataset |
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# Load the dataset |
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path = "../datasets/Glass Dataset/glass.data" |
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path = "../datasets/Glass Dataset/glass.data" |
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names = ['id', 'RI', 'Na', 'Mg', 'Al', 'Si', 'K', 'Ca', 'Ba', 'Fe', 'class'] |
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names = ['id', 'RI', 'Na', 'Mg', 'Al', 'Si', 'K', 'Ca', 'Ba', 'Fe', 'class'] |
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dataset = pandas.read_csv(path, names = names) |
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dataset = pandas.read_csv(path, names = names) |
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array = dataset.values |
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array = dataset.values |
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X = array[:, 1:9] |
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X = array[:, 1:10] |
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Y = array[:, 10] |
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Y = array[:, 10] |
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print(X) |
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# validation_size = 0.20 |
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print(Y) |
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# seed = 7 |
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# X_train, X_validation, Y_train, Y_validation = model_selection.train_test_split(X, Y, test_size = validation_size, random_state = seed) |
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MODEL_EVALUATION = ModelsEvaluation(X, Y) |
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HIGHEST_ACC_MODEL_NAME = MODEL_EVALUATION.evaluateAccuracy().name |
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HIGHEST_ACC_MODEL_SCORE = MODEL_EVALUATION.evaluateAccuracy().mean |
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HIGHEST_MODEL = Model.getAlgorithmModel(HIGHEST_ACC_MODEL_NAME) |
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HIGHEST_MODEL.fit(X, Y) |
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predict_data = [ |
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[ 1.51755, 13.00, 3.60, 1.36, 72.99, 0.57, 8.40, 0.00, 0.11 ], |
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[ 1.51574, 14.86, 3.67, 1.74, 71.87, 0.16, 7.36, 0.00, 0.12 ], |
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[ 1.51593, 13.09, 3.59, 1.52, 73.10, 0.67, 7.83, 0.00, 0.00 ] |
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] |
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if ( HIGHEST_MODEL is not None ): |
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prediction = HIGHEST_MODEL.predict(predict_data) |
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print("Matching algorithm is " + HIGHEST_ACC_MODEL_NAME) |
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for i in range(0, len(prediction)): |
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print(getGlassesClassText(prediction[i])) |
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else: |
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print("Didn't get matching algorithm") |
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