added doctests to scoring_functions.py (#1300)

* added doctests to scoring_functions.py * dedented lines
2023-10-11 13:06:12 +08:00 · 2019-10-08 13:42:27 +05:30 · 2019-10-08 13:42:27 +05:30 · 25701a9877
commit 25701a9877
parent 3a06aba66a
1 changed files with 57 additions and 3 deletions
--- a/machine_learning/scoring_functions.py
+++ b/machine_learning/scoring_functions.py
@ -16,6 +16,16 @@ import numpy as np

 # Mean Absolute Error
 def mae(predict, actual):
+    """
+    Examples(rounded for precision):
+    >>> actual = [1,2,3];predict = [1,4,3]
+    >>> np.around(mae(predict,actual),decimals = 2)
+    0.67
+
+    >>> actual = [1,1,1];predict = [1,1,1]
+    >>> mae(predict,actual)
+    0.0
+    """
    predict = np.array(predict)
    actual = np.array(actual)

@ -27,6 +37,16 @@ def mae(predict, actual):

 # Mean Squared Error
 def mse(predict, actual):
+    """
+    Examples(rounded for precision):
+    >>> actual = [1,2,3];predict = [1,4,3]
+    >>> np.around(mse(predict,actual),decimals = 2)
+    1.33
+
+    >>> actual = [1,1,1];predict = [1,1,1]
+    >>> mse(predict,actual)
+    0.0
+    """
    predict = np.array(predict)
    actual = np.array(actual)

@ -39,6 +59,16 @@ def mse(predict, actual):

 # Root Mean Squared Error
 def rmse(predict, actual):
+    """
+    Examples(rounded for precision):
+    >>> actual = [1,2,3];predict = [1,4,3]
+    >>> np.around(rmse(predict,actual),decimals = 2)
+    1.15
+
+    >>> actual = [1,1,1];predict = [1,1,1]
+    >>> rmse(predict,actual)
+    0.0
+    """
    predict = np.array(predict)
    actual = np.array(actual)

@ -51,6 +81,16 @@ def rmse(predict, actual):

 # Root Mean Square Logarithmic Error
 def rmsle(predict, actual):
+    """
+    Examples(rounded for precision):
+    >>> actual = [10,10,30];predict = [10,2,30]
+    >>> np.around(rmsle(predict,actual),decimals = 2)
+    0.75
+
+    >>> actual = [1,1,1];predict = [1,1,1]
+    >>> rmsle(predict,actual)
+    0.0
+    """
    predict = np.array(predict)
    actual = np.array(actual)

@ -68,15 +108,29 @@ def rmsle(predict, actual):

 # Mean Bias Deviation
 def mbd(predict, actual):
+    """
+    This value is Negative, if the model underpredicts,
+    positive, if it overpredicts.
+
+    Example(rounded for precision):
+
+    Here the model overpredicts
+    >>> actual = [1,2,3];predict = [2,3,4]
+    >>> np.around(mbd(predict,actual),decimals = 2)
+    50.0
+
+    Here the model underpredicts
+    >>> actual = [1,2,3];predict = [0,1,1]
+    >>> np.around(mbd(predict,actual),decimals = 2)
+    -66.67
+    """
    predict = np.array(predict)
    actual = np.array(actual)

    difference = predict - actual
    numerator = np.sum(difference) / len(predict)
    denumerator = np.sum(actual) / len(predict)
-    print(numerator)
-    print(denumerator)
-
+    # print(numerator, denumerator)
    score = float(numerator) / denumerator * 100

    return score