How to plot the ROC curve for ANN for 10 fold Cross validation in Keras using Python?

Question

I was just trying to find ROC plot for all the 10 experiments for 10 fold cross-validation for ANN in Keras. I got stuck with it for a week and can not find a solution. Could anyone help with this? I have tried the code from the following link(https://scikit-learn.org/stable/auto_examples/model_selection/plot_roc_crossval.html) from sklearn and wanted to use wrapper to use Keras model in sklearn but it shows errors. My code in python:

    ## Creating NN in Keras
# Load libraries
import numpy as np
from keras import models
from keras import layers
from keras.wrappers.scikit_learn import KerasClassifier
from sklearn.model_selection import cross_val_score
from sklearn.datasets import make_classification

# Set random seed
np.random.seed(7)
#Create Function That Constructs Neural Network
# Create function returning a compiled network
def create_network():
    
    # Start neural network
    network = models.Sequential()

    # Add fully connected layer with a ReLU activation function
    network.add(layers.Dense(units=25, activation='relu', input_shape=(X.shape[1],)))

    # Add fully connected layer with a ReLU activation function
    network.add(layers.Dense(units=X.shape[1], activation='relu'))

    # Add fully connected layer with a sigmoid activation function
    network.add(layers.Dense(units=1, activation='sigmoid'))

    # Compile neural network
    network.compile(loss='binary_crossentropy', # Cross-entropy
                    optimizer='adam', # Root Mean Square Propagation
                    metrics=['accuracy']) # Accuracy performance metric
    
    # Return compiled network
    return network

###
#Wrap Function In KerasClassifier
# Wrap Keras model so it can be used by scikit-learn
neural_network = KerasClassifier(build_fn=create_network, 
                                 epochs=150, 
                                 batch_size=10, 
                                 verbose=0)


    import numpy as np
    import matplotlib.pyplot as plt
    
    from sklearn import svm, datasets
    from sklearn.metrics import auc
    from sklearn.metrics import plot_roc_curve
    from sklearn.model_selection import StratifiedKFold
    
    n_samples, n_features = X.shape
    
    # Add noisy features
    random_state = np.random.RandomState(0)
    X = np.c_[X, random_state.randn(n_samples, 200 * n_features)]
    
    # #############################################################################
    # Classification and ROC analysis
    
    # Run classifier with cross-validation and plot ROC curves
    cv = StratifiedKFold(n_splits=10)
    classifier = neural_network
    
    tprs = []
    aucs = []
    mean_fpr = np.linspace(0, 1, 100)
    
    fig, ax = plt.subplots()
    for i, (train, test) in enumerate(cv.split(X, y)):
        classifier.fit(X[train], y[train])
        viz = plot_roc_curve(classifier, X[test], y[test],
                             name='ROC fold {}'.format(i),
                             alpha=0.3, lw=1, ax=ax)
        interp_tpr = np.interp(mean_fpr, viz.fpr, viz.tpr)
        interp_tpr[0] = 0.0
        tprs.append(interp_tpr)
        aucs.append(viz.roc_auc)
    
    ax.plot([0, 1], [0, 1], linestyle='--', lw=2, color='r',
            label='Chance', alpha=.8)
    
    mean_tpr = np.mean(tprs, axis=0)
    mean_tpr[-1] = 1.0
    mean_auc = auc(mean_fpr, mean_tpr)
    std_auc = np.std(aucs)
    ax.plot(mean_fpr, mean_tpr, color='b',
            label=r'Mean ROC (AUC = %0.2f $\pm$ %0.2f)' % (mean_auc, std_auc),
            lw=2, alpha=.8)
    
    std_tpr = np.std(tprs, axis=0)
    tprs_upper = np.minimum(mean_tpr + std_tpr, 1)
    tprs_lower = np.maximum(mean_tpr - std_tpr, 0)
    ax.fill_between(mean_fpr, tprs_lower, tprs_upper, color='grey', alpha=.2,
                    label=r'$\pm$ 1 std. dev.')
    
    ax.set(xlim=[-0.05, 1.05], ylim=[-0.05, 1.05],
           title="Receiver operating characteristic example")
    ax.legend(loc="lower right")
    plt.show()


    **It shows the following error:**



    ---------------------------------------------------------------------------
ValueError                                Traceback (most recent call last)
<ipython-input-29-f10078491154> in <module>()
     40     viz = plot_roc_curve(classifier, X[test], y[test],
     41                          name='ROC fold {}'.format(i),
---> 42                          alpha=0.3, lw=1, ax=ax)
     43     interp_tpr = np.interp(mean_fpr, viz.fpr, viz.tpr)
     44     interp_tpr[0] = 0.0

/usr/local/lib/python3.6/dist-packages/sklearn/metrics/_plot/roc_curve.py in plot_roc_curve(estimator, X, y, sample_weight, drop_intermediate, response_method, name, ax, **kwargs)
    170     )
    171     if not is_classifier(estimator):
--> 172         raise ValueError(classification_error)
    173 
    174     prediction_method = _check_classifer_response_method(estimator,

ValueError: KerasClassifier should be a binary classifier
    

Answer 1

I had the same question. I found this link very informative. https://www.kaggle.com/kanncaa1/roc-curve-with-k-fold-cv. I have modified it for my case as bellow:

seed = 7
np.random.seed(seed)
tprs = []

aucs = []
mean_fpr = np.linspace(0, 1, 100)
i = 1
fig, ax = plt.subplots()
kfold = StratifiedKFold(n_splits=3, shuffle=True, random_state=seed)
# for i, (train, test) in enumerate(cv.split(X_13 , target)):
for train, test in kfold.split(X_train, y_train):
  # create model
    model= Sequential()
    
    model.add(Dense(100, input_dim=X_train.shape[1], activation= 'relu',kernel_constraint=maxnorm(3)))
    model.add(Dropout(0.2))
    model.add(Dense(80, activation = 'relu',kernel_constraint=maxnorm(3)))
    model.add(Dropout(0.2))
    model.add(Dense(1, activation = 'sigmoid'))

##- compile model
    sgd = SGD(lr=0.1, momentum=0.8)
    model.compile(loss='binary_crossentropy', optimizer=sgd, metrics=['accuracy'])
    model.fit(X_train[train], y_train[train], epochs=100, batch_size=15,verbose=0)
# evaluate the model
    
    y_pred_keras = model.predict_proba(X_train[test]).ravel()
    
    fpr, tpr, thresholds = roc_curve(y_train[test], y_pred_keras)
    tprs.append(interp(mean_fpr, fpr, tpr))
    roc_auc = auc(fpr, tpr)
    aucs.append(roc_auc)
    plt.plot(fpr, tpr, lw=2, alpha=0.3, label='ROC fold %d (AUC = %0.2f)' % (i, roc_auc))
    i= i+1


plt.plot([0,1],[0,1],linestyle = '--',lw = 2,color = 'black')
mean_tpr = np.mean(tprs, axis=0)
mean_auc = auc(mean_fpr, mean_tpr)
plt.plot(mean_fpr, mean_tpr, color='blue',
         label=r'Mean ROC (AUC = %0.2f )' % (mean_auc),lw=2, alpha=1)

plt.xlabel('False Positive Rate')
plt.ylabel('True Positive Rate')
plt.title('ROC')
plt.legend(loc="lower right")

plt.show()

Hope it could help!

Answer 2

I have just answered what seems to be the copy of this post (apart from variable names) here.

Not sure whether this is the exact duplicate or not because the question comes from a different account but it seems like that. But here is a copy of my answer in case one of these is closed as a duplicate.

---

This is an implementational detail that is (probably) missing in this wrapper library.

Sklearn simply checks whether an attribute called _estimator_type is present on the estimator and is set to string value classifier. You can see that by looking into sklearn's source code on github.

def is_classifier(estimator):
    """Return True if the given estimator is (probably) a classifier.
    Parameters
    ----------
    estimator : object
        Estimator object to test.
    Returns
    -------
    out : bool
        True if estimator is a classifier and False otherwise.
    """
    return getattr(estimator, "_estimator_type", None) == "classifier"

All you need to do is to add this attribute to your classifier object manually.

classifier = KerasClassifier(build_fn=create_network, 
                                 epochs=10, 
                                 batch_size=100, 
                                 verbose=2)

classifier._estimator_type = "classifier"

I have tested it and it works.