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@ -1,15 +1,16 @@
from enum import Enum
from sklearn import tree
from sklearn import metrics
from sklearn import preprocessing
from sklearn.ensemble import RandomForestClassifier
# from ...helpers.treenum import Tree
from enum import Enum
import csv
import random
import sklearn
from matplotlib import pyplot as plt
import pandas as pd
import numpy as np
import random
import csv
SIFT_PATH = "..\\algorithms\\data\\sift.csv"
# SIFT_PATH = "C:\\Users\\Tom\\Desktop\\Files\\Repositories\\EV5_Beeldherk_Bomen\datacsv\\result-2023-10-13T14.46.23.csv"
class Tree(Enum):
ACCASIA = 0
@ -24,6 +25,27 @@ class Tree(Enum):
# [[tree1_data],[tree2_data]]
# [tree1_label, tree2_label]
def roc_auc_score_multiclass(actual_class, pred_class, average = "macro"):
#creating a set of all the unique classes using the actual class list
unique_class = set(actual_class)
roc_auc_dict = {}
for per_class in unique_class:
#creating a list of all the classes except the current class
other_class = [x for x in unique_class if x != per_class]
#marking the current class as 1 and all other classes as 0
new_actual_class = [0 if x in other_class else 1 for x in actual_class]
new_pred_class = [0 if x in other_class else 1 for x in pred_class]
#using the sklearn metrics method to calculate the roc_auc_score
roc_auc = metrics.roc_auc_score(new_actual_class, new_pred_class, average = average)
roc_auc_dict[per_class] = roc_auc
return roc_auc_dict
labels = []
i = 0
done = False
@ -44,17 +66,28 @@ with open(SIFT_PATH, 'r') as file:
normalized = preprocessing.normalize(data, axis=0, norm='max')
norm = list(normalized.tolist())
actual = []
predicted = []
for i in range(75):
steps = np.linspace(2, 20, 10, dtype=np.int64)
accuracy = []
precision = []
recall = []
roc = []
for step in steps:
actual = []
predicted = []
for i in range(100):
test_index = random.randint(1, 101)
temp_data = data.pop(test_index)
temp_label = labels.pop(test_index)
del dec_tree
# dec_tree = tree.DecisionTreeClassifier(
# criterion='entropy',
# splitter='best')
dec_tree = RandomForestClassifier(max_depth=None)
dec_tree = tree.DecisionTreeClassifier(
min_samples_leaf=2,
max_depth=None,
random_state=False,
criterion='gini',
splitter='best')
dec_tree = dec_tree.fit(data, labels)
result = dec_tree.predict([matrix[test_index][1:]])
@ -65,9 +98,33 @@ for i in range(75):
actual.append(temp_label)
predicted.append(result[0])
accuracy.append(metrics.accuracy_score(actual, predicted))
precision.append(metrics.precision_score(actual, predicted, average='macro'))
recall.append(metrics.recall_score(actual, predicted, average='macro'))
roc.append(roc_auc_score_multiclass(actual, predicted))
print(step)
# Scores
# https://www.evidentlyai.com/classification-metrics/multi-class-metrics
plt.plot(accuracy)
plt.title("Accuracy")
plt.show()
plt.plot(precision)
plt.title("Precision")
plt.show()
plt.plot(recall)
plt.title("Recall")
plt.show()
df = pd.DataFrame(roc)
plt.figure()
for i in range(7):
plt.plot(df[i], label=Tree(i).name)
plt.legend()
plt.show()
# Confusion matrix
c_matrix = metrics.confusion_matrix(actual, predicted)
cm_display = metrics.ConfusionMatrixDisplay(confusion_matrix=c_matrix)
cm_display.plot()
plt.show(block=False)
# print("Testdata: \t" + Tree[matrix[test_index][0].upper()].name)
# print("Predicted: \t" + Tree(result[0]).name)