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machine learning - How to write a confusion matrix in Python?

I wrote a confusion matrix calculation code in Python:

def conf_mat(prob_arr, input_arr):
        # confusion matrix
        conf_arr = [[0, 0], [0, 0]]

        for i in range(len(prob_arr)):
                if int(input_arr[i]) == 1:
                        if float(prob_arr[i]) < 0.5:
                                conf_arr[0][1] = conf_arr[0][1] + 1
                        else:
                                conf_arr[0][0] = conf_arr[0][0] + 1
                elif int(input_arr[i]) == 2:
                        if float(prob_arr[i]) >= 0.5:
                                conf_arr[1][0] = conf_arr[1][0] +1
                        else:
                                conf_arr[1][1] = conf_arr[1][1] +1

        accuracy = float(conf_arr[0][0] + conf_arr[1][1])/(len(input_arr))

prob_arr is an array that my classification code returned and a sample array is like this:

 [1.0, 1.0, 1.0, 0.41592955657342651, 1.0, 0.0053405015805891975, 4.5321494433440449e-299, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 0.70943426182688163, 1.0, 1.0, 1.0, 1.0]

input_arr is the original class labels for a dataset and it is like this:

[2, 1, 1, 1, 1, 1, 2, 1, 1, 2, 1, 1, 2, 1, 2, 1, 1, 1]

What my code is trying to do is: i get prob_arr and input_arr and for each class (1 and 2) I check if they are misclassified or not.

But my code only works for two classes. If I run this code for a multiple classed data, it doesn't work. How can I make this for multiple classes?

For example, for a data set with three classes, it should return: [[21,7,3],[3,38,6],[5,4,19]]

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Scikit-Learn provides a confusion_matrix function

from sklearn.metrics import confusion_matrix
y_actu = [2, 0, 2, 2, 0, 1, 1, 2, 2, 0, 1, 2]
y_pred = [0, 0, 2, 1, 0, 2, 1, 0, 2, 0, 2, 2]
confusion_matrix(y_actu, y_pred)

which output a Numpy array

array([[3, 0, 0],
       [0, 1, 2],
       [2, 1, 3]])

But you can also create a confusion matrix using Pandas:

import pandas as pd
y_actu = pd.Series([2, 0, 2, 2, 0, 1, 1, 2, 2, 0, 1, 2], name='Actual')
y_pred = pd.Series([0, 0, 2, 1, 0, 2, 1, 0, 2, 0, 2, 2], name='Predicted')
df_confusion = pd.crosstab(y_actu, y_pred)

You will get a (nicely labeled) Pandas DataFrame:

Predicted  0  1  2
Actual
0          3  0  0
1          0  1  2
2          2  1  3

If you add margins=True like

df_confusion = pd.crosstab(y_actu, y_pred, rownames=['Actual'], colnames=['Predicted'], margins=True)

you will get also sum for each row and column:

Predicted  0  1  2  All
Actual
0          3  0  0    3
1          0  1  2    3
2          2  1  3    6
All        5  2  5   12

You can also get a normalized confusion matrix using:

df_conf_norm = df_confusion / df_confusion.sum(axis=1)

Predicted         0         1         2
Actual
0          1.000000  0.000000  0.000000
1          0.000000  0.333333  0.333333
2          0.666667  0.333333  0.500000

You can plot this confusion_matrix using

import matplotlib.pyplot as plt
def plot_confusion_matrix(df_confusion, title='Confusion matrix', cmap=plt.cm.gray_r):
    plt.matshow(df_confusion, cmap=cmap) # imshow
    #plt.title(title)
    plt.colorbar()
    tick_marks = np.arange(len(df_confusion.columns))
    plt.xticks(tick_marks, df_confusion.columns, rotation=45)
    plt.yticks(tick_marks, df_confusion.index)
    #plt.tight_layout()
    plt.ylabel(df_confusion.index.name)
    plt.xlabel(df_confusion.columns.name)

plot_confusion_matrix(df_confusion)

plot confusion matrix

Or plot normalized confusion matrix using:

plot_confusion_matrix(df_conf_norm)  

plot confusion matrix normalized

You might also be interested by this project https://github.com/pandas-ml/pandas-ml and its Pip package https://pypi.python.org/pypi/pandas_ml

With this package confusion matrix can be pretty-printed, plot. You can binarize a confusion matrix, get class statistics such as TP, TN, FP, FN, ACC, TPR, FPR, FNR, TNR (SPC), LR+, LR-, DOR, PPV, FDR, FOR, NPV and some overall statistics

In [1]: from pandas_ml import ConfusionMatrix
In [2]: y_actu = [2, 0, 2, 2, 0, 1, 1, 2, 2, 0, 1, 2]
In [3]: y_pred = [0, 0, 2, 1, 0, 2, 1, 0, 2, 0, 2, 2]
In [4]: cm = ConfusionMatrix(y_actu, y_pred)
In [5]: cm.print_stats()
Confusion Matrix:

Predicted  0  1  2  __all__
Actual
0          3  0  0        3
1          0  1  2        3
2          2  1  3        6
__all__    5  2  5       12


Overall Statistics:

Accuracy: 0.583333333333
95% CI: (0.27666968568210581, 0.84834777019156982)
No Information Rate: ToDo
P-Value [Acc > NIR]: 0.189264302376
Kappa: 0.354838709677
Mcnemar's Test P-Value: ToDo


Class Statistics:

Classes                                        0          1          2
Population                                    12         12         12
P: Condition positive                          3          3          6
N: Condition negative                          9          9          6
Test outcome positive                          5          2          5
Test outcome negative                          7         10          7
TP: True Positive                              3          1          3
TN: True Negative                              7          8          4
FP: False Positive                             2          1          2
FN: False Negative                             0          2          3
TPR: (Sensitivity, hit rate, recall)           1  0.3333333        0.5
TNR=SPC: (Specificity)                 0.7777778  0.8888889  0.6666667
PPV: Pos Pred Value (Precision)              0.6        0.5        0.6
NPV: Neg Pred Value                            1        0.8  0.5714286
FPR: False-out                         0.2222222  0.1111111  0.3333333
FDR: False Discovery Rate                    0.4        0.5        0.4
FNR: Miss Rate                                 0  0.6666667        0.5
ACC: Accuracy                          0.8333333       0.75  0.5833333
F1 score                                    0.75        0.4  0.5454545
MCC: Matthews correlation coefficient  0.6831301  0.2581989  0.1690309
Informedness                           0.7777778  0.2222222  0.1666667
Markedness                                   0.6        0.3  0.1714286
Prevalence                                  0.25       0.25        0.5
LR+: Positive likelihood ratio               4.5          3        1.5
LR-: Negative likelihood ratio                 0       0.75       0.75
DOR: Diagnostic odds ratio                   inf          4          2
FOR: False omission rate                       0        0.2  0.4285714

I noticed that a new Python library about Confusion Matrix named PyCM is out: maybe you can have a look.


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