コード例 #1
0
def main(argv):

    input_filename_x = 'train_data.csv'
    input_filename_y = 'train_labels.csv'
    test_input_filename = 'test_data.csv'

    lr_model_filename = 'lr2_classif.pkl'
    model_comp_result_chart_filename = 'method_comp_res.png'

    io = lib.io.IO()
    viz = lib.viz.Viz()
    cl = lib.cl.CL(io, viz)

    # Read data
    X, y = io.read_data(input_filename_x, input_filename_y)
    test_x = io.read_data(test_input_filename, None)
    X_ = copy.deepcopy(X)
    y_ = copy.deepcopy(y)

    print "There are " + str(len(X)) + " samples in the train set."
    print "There are " + str(len(test_x)) + " samples in the test set."

    test_x = np.matrix(test_x)
    test_ids = range(1, len(test_x) + 1)

    # Remove outliers
    X, y = cl.lof(np.matrix(X), np.matrix(y))

    # Shuffle
    X, y = io.shuffle(X, y)

    # PCA
    #X = cl.pca(np.matrix(X), 'pca_explained_variance.png').tolist()
    #test_x = cl.pca(np.matrix(test_x), None).tolist()

    # Split data to train and validation set
    val_ids, val_x, val_y = io.pick_set(X, y, 726)
    train_ids, train_x, train_y = io.pick_set(X, y, 3200)

    # Train
    # cl.lr_cl_train(train_x, train_y, filename=lr_model_filename)
    cl.lr_cl_load(lr_model_filename)

    # Validate
    cl.lr_cl_val(val_x, val_y)

    # predict
    pred_class, pred_proba = cl.lr_cl_pred(test_x)

    # Output
    io.write_classes('classes_lr2_result.csv', test_ids, pred_class)
    io.write_probabilities('probabilities_lr2_result.csv', test_ids,
                           pred_proba)
コード例 #2
0
def main(argv):

    input_filename_x = 'train_data.csv'
    input_filename_y = 'train_labels.csv'

    test_input_filename = 'test_data.csv'

    svc_model_filename = 'svc_classif.pkl'
    # lr_model_filename = 'lr_classif.pkl'
    lr_model_filename = 'classif.pkl'
    rfc_model_filename = 'rfc_classif.pkl'
    rfc_feat_imp_filename = 'rfc_feat_imp.png'
    model_comp_result_chart_filename = 'method_comp_res.png'

    io = lib.io.IO()
    viz = lib.viz.Viz()
    cl = lib.cl.CL(io, viz)

    # Read data
    X, y = io.read_data(input_filename_x, input_filename_y)
    test_x = io.read_data(test_input_filename, None)
    X_ = copy.deepcopy(X)
    y_ = copy.deepcopy(y)

    print "There are " + str(len(X)) + " samples in the train set."
    print "There are " + str(len(test_x)) + " samples in the test set."

    test_x = np.matrix(test_x)
    test_ids = range(1, len(test_x) + 1)

    # PCA etc.
    X = cl.pca(np.matrix(X), 'pca_explained_variance.png').tolist()
    # test_x = cl.pca(test_x, None).tolist()

    val_ids, val_x, val_y = io.pick_set(X, y, 1063)
    _, no_pca_val_x, no_pca_val_y = io.pick_set(X_, y_, 1063)
    #train_ids, train_x, train_y = io.pick_set(X, y, 4000)
    #_, no_pca_train_x, no_pca_train_y = io.pick_set(X_, y_, 4000)

    # Train
    # cl.svc_cl_train(train_x, train_y, filename=svc_model_filename)
    # cl.lr_cl_train(train_x, train_y, filename=lr_model_filename)
    #cl.rfc_cl_train(no_pca_train_x, no_pca_train_y,
    #                filename=rfc_model_filename,
    #                feat_imp_plot_filename=rfc_feat_imp_filename)
    cl.svc_cl_load(svc_model_filename)
    cl.lr_cl_load(lr_model_filename)
    cl.rfc_cl_load(rfc_model_filename)

    # validate
    results = {}
    results['SVC'] = cl.svc_cl_val(val_x, val_y)
    results['Linear Regression'] = cl.lr_cl_val(no_pca_val_x, no_pca_val_y)
    results['Random Forest Classifier'] = cl.rfc_cl_val(
        no_pca_val_x, no_pca_val_y)

    # Draw some results
    viz.model_comp_results(results, model_comp_result_chart_filename)

    # predict
    # pred_class, pred_proba = cl.svc_cl_pred(test_x)
    pred_class, pred_proba = cl.rfc_cl_pred(test_x)
    # pred_class, pred_proba = cl.lr_cl_pred(test_x)

    # Output
    io.write_classes('classes_sub_result.csv', test_ids, pred_class)
    io.write_probabilities('probabilities_sub_result.csv', test_ids,
                           pred_proba)
コード例 #3
0
def main(argv):

    input_filename_x = 'train_data.csv'
    input_filename_y = 'train_labels.csv'

    test_input_filename = 'test_data.csv'

    svc_model_filename = 'svc_classif.pkl'
    lr_model_filename = 'lr_classif.pkl'
    rfc_model_filename = 'rfc_classif.pkl'
    rfc_feat_imp_filename = 'rfc_feat_imp.png'
    model_comp_result_chart_filename = 'method_comp_res.png'

    io = lib.io.IO()
    viz = lib.viz.Viz()

    # Read data
    X_o, y_o = io.read_data(input_filename_x, input_filename_y)
    test_x = io.read_data(test_input_filename, None)

    print "There are " + str(len(X_o)) + " samples in the train set."
    print "There are " + str(len(test_x)) + " samples in the test set."

    SVC_ll, SVC_a, RFC_ll, RFC_a, LR_ll, LR_a = [], [], [], [], [], []

    for s in range(50):
        print("Iteration %d" % s)
        cl = lib.cl.CL(io, viz)
        X = copy.deepcopy(X_o)
        y = copy.deepcopy(y_o)
        X_ = copy.deepcopy(X_o)
        y_ = copy.deepcopy(y_o)

        test_x = np.matrix(test_x)
        test_ids = range(1, len(test_x) + 1)

        # Remove outliers
        X, y = cl.lof(np.matrix(X), np.matrix(y))
        X_, y_ = cl.lof(np.matrix(X_), np.matrix(y_))

        # Shuffle
        X, y = io.shuffle(X, y)
        X_, y_ = io.shuffle(X_, y_)

        # PCA
        X = cl.pca(np.matrix(X), 'pca_explained_variance.png').tolist()
        test_x = cl.pca(np.matrix(test_x), None).tolist()

        val_ids, val_x, val_y = io.pick_set(X, y, 726)
        _, no_pca_val_x, no_pca_val_y = io.pick_set(X_, y_, 726)
        train_ids, train_x, train_y = io.pick_set(X, y, 3200)
        _, no_pca_train_x, no_pca_train_y = io.pick_set(X_, y_, 3200)

        # Train
        cl.svc_cl_train(train_x, train_y, filename=svc_model_filename)
        cl.lr_cl_train(train_x, train_y, filename=lr_model_filename)
        cl.rfc_cl_train(no_pca_train_x,
                        no_pca_train_y,
                        filename=rfc_model_filename,
                        feat_imp_plot_filename=rfc_feat_imp_filename)

        # validate
        ll, a = cl.svc_cl_val(val_x, val_y)
        SVC_ll.append(ll)
        SVC_a.append(a)

        ll, a = cl.lr_cl_val(val_x, val_y)
        LR_ll.append(ll)
        LR_a.append(a)

        ll, a = cl.rfc_cl_val(no_pca_val_x, no_pca_val_y)
        RFC_ll.append(ll)
        RFC_a.append(a)

    # Draw some results
    results = {
        'SVC': (sum(SVC_ll) / len(SVC_ll), sum(SVC_a) / len(SVC_a)),
        'Logistic Regression':
        (sum(LR_ll) / len(LR_ll), sum(LR_a) / len(LR_a)),
        'Random Forest Classifier':
        (sum(RFC_ll) / len(RFC_ll), sum(RFC_a) / len(RFC_a))
    }
    viz.model_comp_results(results, model_comp_result_chart_filename)

    # predict
    pred_class, pred_proba = cl.lr_cl_pred(test_x)

    # Output
    io.write_classes('classes_sub_result.csv', test_ids, pred_class)
    io.write_probabilities('probabilities_sub_result.csv', test_ids,
                           pred_proba)
コード例 #4
0
        val_ids, val_x, val_y = io.pick_set(X, y, 526)
        train_ids, train_x, train_y = io.pick_set(X, y, 3400)

        # train
        model, history = train_model(train_x, train_y, val_x, val_y)

        # Save model
        full_model_filename = options.model_path + '/' + model_filename
        full_weights_filename = options.model_path + '/' + weights_filename
        with open(full_model_filename, 'w') as f:
            f.write(model.to_yaml())
            model.save_weights(full_weights_filename)

        # Print metrics
        viz.plot_nn_perf(history, options.output_path + '/nn_perf.png')

    # visualize model
    viz.plot_model(model, options.output_path + '/model.png')
    # viz.plot_all_feature_maps(model, test_x[:12], options.output_path+'/')

    # predict
    pred_proba = predict(model, test_x)
    pred_class = np.argmax(pred_proba, axis=1)
    pred_class = io.shift_v(pred_class, shift=1)

    # Output
    io.write_classes(options.output_path + '/classes_result.csv', test_ids,
                     pred_class)
    io.write_probabilities(options.output_path + '/probabilities_result.csv',
                           test_ids, pred_proba)
コード例 #5
0
def main(argv):

    input_filename_x = 'train_data.csv'
    input_filename_y = 'train_labels.csv'

    test_input_filename = 'test_data.csv'

    svc_model_filename = 'svc_classif.pkl'
    lr_model_filename = 'lr_classif.pkl'
    rfc_model_filename = 'rfc_classif.pkl'
    rfc_feat_imp_filename = 'rfc_feat_imp.png'
    model_comp_result_chart_filename = 'method_comp_res.png'

    nn_model_filename = 'nn1.pkl'

    io = lib.io.IO()
    viz = lib.viz.Viz()
    nn = lib.nn.NN(io, viz)
    cl = lib.cl.CL(io, viz)

    # Read data
    print "Reading train data..."
    X, y = io.read_data(input_filename_x, input_filename_y)
    y = io.shift_v(y, shift=-1)

    print "Reading test data..."
    test_x = io.read_data(test_input_filename, None)

    print "There are " + str(len(X)) + " samples in the train set."
    print "There are " + str(len(test_x)) + " samples in the test set."

    test_x = np.matrix(test_x)
    test_ids = range(1, len(test_x) + 1)

    # PCA etc.
    X = cl.pca(np.matrix(X), 'pca_explained_variance.png').tolist()
    test_x = cl.pca(test_x, None).tolist()

    # Split data to train and validation set
    # mini_batches
    #ids, batches_x, batches_y = io.split_data(X, y, 100, 100)

    val_ids, val_x, val_y = io.pick_set(X, y, 563)
    train_ids, train_x, train_y = io.pick_set(X, y, 3800)

    nn.initialize(train_x.shape[1], nn1=18, nn2=9,
                  alpha=0.01)  #, filename=nn_model_filename)

    # Train
    pred, proba, acc = nn.predict(train_x, train_y)
    print("Train set classification accuray before training: %.4f" % acc)

    nn.train(train_x, train_y, val_x, val_y, training_steps=100000)
    nn.save_nn(nn_model_filename)

    # validate
    pred, proba, acc = nn.predict(train_x, train_y)
    print("Train set classification accuray after training: %.4f" % acc)
    pred, proba, acc = nn.predict(val_x, val_y)
    print("Validation set classification accuray after training: %.4f" % acc)

    # Draw some results
    # viz.model_comp_results(results, model_comp_result_chart_filename)

    # predict
    pred_class, pred_proba, _ = nn.predict(test_x)
    pred_class = io.shift_v(pred_class, shift=1)

    # Output
    io.write_classes('nn_classes_sub_result.csv', test_ids, pred_class)
    io.write_probabilities('nn_probabilities_sub_result.csv', test_ids,
                           pred_proba)