How to use the deepctr.inputs.get_feature_names function in deepctr

To help you get started, we’ve selected a few deepctr examples, based on popular ways it is used in public projects.

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shenweichen / DeepCTR / examples / run_regression_movielens.py View on Github

data = pd.read_csv("./movielens_sample.txt")
    sparse_features = ["movie_id", "user_id",
                       "gender", "age", "occupation", "zip"]
    target = ['rating']

    # 1.Label Encoding for sparse features,and do simple Transformation for dense features
    for feat in sparse_features:
        lbe = LabelEncoder()
        data[feat] = lbe.fit_transform(data[feat])
    # 2.count #unique features for each sparse field
    fixlen_feature_columns = [SparseFeat(feat, data[feat].nunique(),embedding_dim=4)
                              for feat in sparse_features]
    linear_feature_columns = fixlen_feature_columns
    dnn_feature_columns = fixlen_feature_columns
    feature_names = get_feature_names(linear_feature_columns + dnn_feature_columns)

    # 3.generate input data for model
    train, test = train_test_split(data, test_size=0.2)
    train_model_input = {name:train[name].values for name in feature_names}
    test_model_input = {name:test[name].values for name in feature_names}

    # 4.Define Model,train,predict and evaluate
    model = DeepFM(linear_feature_columns, dnn_feature_columns, task='regression')
    model.compile("adam", "mse", metrics=['mse'], )

    history = model.fit(train_model_input, train[target].values,
                        batch_size=256, epochs=10, verbose=2, validation_split=0.2, )
    pred_ans = model.predict(test_model_input, batch_size=256)
    print("test MSE", round(mean_squared_error(
        test[target].values, pred_ans), 4))

shenweichen / DeepCTR / examples / run_multivalue_movielens.py View on Github

fixlen_feature_columns = [SparseFeat(feat, data[feat].nunique(),embedding_dim=4)
                        for feat in sparse_features]

    use_weighted_sequence = False
    if use_weighted_sequence:
        varlen_feature_columns = [VarLenSparseFeat('genres', maxlen= max_len,vocabulary_size=len(
            key2index) + 1,embedding_dim=4, combiner='mean',weight_name='genres_weight')]  # Notice : value 0 is for padding for sequence input feature
    else:
        varlen_feature_columns = [VarLenSparseFeat('genres', maxlen=max_len,vocabulary_size= len(
            key2index) + 1,embedding_dim=4, combiner='mean',weight_name=None)]  # Notice : value 0 is for padding for sequence input feature

    linear_feature_columns = fixlen_feature_columns + varlen_feature_columns
    dnn_feature_columns = fixlen_feature_columns + varlen_feature_columns

    feature_names = get_feature_names(linear_feature_columns+dnn_feature_columns)


    # 3.generate input data for model
    model_input = {name:data[name] for name in sparse_features}#
    model_input["genres"] = genres_list
    model_input["genres_weight"] =  np.random.randn(data.shape[0],max_len,1)


    # 4.Define Model,compile and train
    model = DeepFM(linear_feature_columns,dnn_feature_columns,task='regression')

    model.compile("adam", "mse", metrics=['mse'], )
    history = model.fit(model_input, data[target].values,
                        batch_size=256, epochs=10, verbose=2, validation_split=0.2, )

shenweichen / DeepCTR / examples / run_multivalue_movielens_hash.py View on Github

genres_list = list(map(lambda x: x.split('|'), data['genres'].values))
    genres_length = np.array(list(map(len, genres_list)))
    max_len = max(genres_length)

    # Notice : padding=`post`
    genres_list = pad_sequences(genres_list, maxlen=max_len, padding='post', dtype=str, value=0)

    # 2.set hashing space for each sparse field and generate feature config for sequence feature

    fixlen_feature_columns = [SparseFeat(feat, data[feat].nunique() * 5,embedding_dim=4, use_hash=True, dtype='string')
                              for feat in sparse_features]
    varlen_feature_columns = [VarLenSparseFeat('genres', maxlen=max_len,vocabulary_size=100,embedding_dim=4,combiner= 'mean', use_hash=True,
                                               dtype="string")]  # Notice : value 0 is for padding for sequence input feature
    linear_feature_columns = fixlen_feature_columns + varlen_feature_columns
    dnn_feature_columns = fixlen_feature_columns + varlen_feature_columns
    feature_names = get_feature_names(linear_feature_columns + dnn_feature_columns)

    # 3.generate input data for model
    model_input = {name:data[name] for name in feature_names}
    model_input['genres'] = genres_list

    # 4.Define Model,compile and train
    model = DeepFM(linear_feature_columns,dnn_feature_columns, task='regression')

    model.compile("adam", "mse", metrics=['mse'], )
    history = model.fit(model_input, data[target].values,
                        batch_size=256, epochs=10, verbose=2, validation_split=0.2, )

shenweichen / DeepCTR / examples / run_classification_criteo_hash.py View on Github

data[dense_features] = data[dense_features].fillna(0, )
    target = ['label']

    # 1.do simple Transformation for dense features
    mms = MinMaxScaler(feature_range=(0, 1))
    data[dense_features] = mms.fit_transform(data[dense_features])

    # 2.set hashing space for each sparse field,and record dense feature field name

    fixlen_feature_columns = [SparseFeat(feat, vocabulary_size=1000,embedding_dim=4, use_hash=True, dtype='string')  # since the input is string
                              for feat in sparse_features] + [DenseFeat(feat, 1, )
                          for feat in dense_features]

    linear_feature_columns = fixlen_feature_columns
    dnn_feature_columns = fixlen_feature_columns
    feature_names = get_feature_names(linear_feature_columns + dnn_feature_columns, )

    # 3.generate input data for model

    train, test = train_test_split(data, test_size=0.2)

    train_model_input = {name:train[name] for name in feature_names}
    test_model_input = {name:test[name] for name in feature_names}


    # 4.Define Model,train,predict and evaluate
    model = DeepFM(linear_feature_columns,dnn_feature_columns, task='binary')
    model.compile("adam", "binary_crossentropy",
                  metrics=['binary_crossentropy'], )

    history = model.fit(train_model_input, train[target].values,
                        batch_size=256, epochs=10, verbose=2, validation_split=0.2, )

shenweichen / DeepCTR / examples / run_dien.py View on Github

hist_iid = np.array([[ 1, 2, 3,0], [ 1, 2, 3,0], [ 1, 2, 0,0]])
    hist_igender = np.array([[1, 1, 2,0 ], [2, 1, 1, 0], [2, 1, 0, 0]])

    behavior_length = np.array([3,3,2])

    feature_dict = {'user': uid, 'gender': ugender, 'item': iid, 'item_gender': igender,
                    'hist_item': hist_iid, 'hist_item_gender': hist_igender,
                    'score': score,"seq_length":behavior_length}

    if use_neg:
        feature_dict['neg_hist_item'] = np.array([[1, 2, 3, 0], [1, 2, 3, 0], [1, 2, 0, 0]])
        feature_dict['neg_hist_item_gender'] = np.array([[1, 1, 2, 0], [2, 1, 1, 0], [2, 1, 0, 0]])
        feature_columns += [VarLenSparseFeat('neg_hist_item', maxlen=4,vocabulary_size=3+1,embedding_dim=8, embedding_name='item',length_name="seq_length"),
                        VarLenSparseFeat('neg_hist_item_gender', maxlen=4, vocabulary_size=3+1,embedding_dim=4,embedding_name='item_gender',length_name="seq_length")]

    x = {name:feature_dict[name] for name in get_feature_names(feature_columns)}
    y = [1, 0, 1]
    return x, y, feature_columns, behavior_feature_list

shenweichen / DeepCTR / examples / run_dsin.py View on Github

igender = np.array([1, 2, 1])  # 0 is mask value
    score = np.array([0.1, 0.2, 0.3])

    sess1_iid = np.array([[1, 2, 3, 0], [1, 2, 3, 0], [0, 0, 0, 0]])
    sess1_igender = np.array([[1, 1, 2, 0], [2, 1, 1, 0], [0, 0, 0, 0]])

    sess2_iid = np.array([[1, 2, 3, 0], [0, 0, 0, 0], [0, 0, 0, 0]])
    sess2_igender = np.array([[1, 1, 2, 0], [0, 0, 0, 0], [0, 0, 0, 0]])

    sess_number = np.array([2, 1, 0])

    feature_dict = {'user': uid, 'gender': ugender, 'item': iid, 'item_gender': igender,
                    'sess_0_item': sess1_iid, 'sess_0_item_gender': sess1_igender, 'score': score,
                    'sess_1_item': sess2_iid, 'sess_1_item_gender': sess2_igender, }

    x = {name:feature_dict[name] for name in get_feature_names(feature_columns)}
    x["sess_length"] = sess_number
    y = [1, 0, 1]
    return x, y, feature_columns, behavior_feature_list

shenweichen / DeepCTR / examples / run_din.py View on Github

feature_columns += [VarLenSparseFeat('hist_item', maxlen=4, vocabulary_size=3+1, embedding_dim=8,embedding_name='item'),
                        VarLenSparseFeat('hist_item_gender', maxlen=4,vocabulary_size=3+1,embedding_dim=4, embedding_name='item_gender')]

    behavior_feature_list = ["item", "item_gender"]
    uid = np.array([0, 1, 2])
    ugender = np.array([0, 1, 0])
    iid = np.array([1, 2, 3])  # 0 is mask value
    igender = np.array([1, 2, 1])  # 0 is mask value
    score = np.array([0.1, 0.2, 0.3])

    hist_iid = np.array([[1, 2, 3, 0], [1, 2, 3, 0], [1, 2, 0, 0]])
    hist_igender = np.array([[1, 1, 2, 0], [2, 1, 1, 0], [2, 1, 0, 0]])

    feature_dict = {'user': uid, 'gender': ugender, 'item': iid, 'item_gender': igender,
                    'hist_item': hist_iid, 'hist_item_gender': hist_igender, 'score': score}
    x = {name:feature_dict[name] for name in get_feature_names(feature_columns)}
    y = [1, 0, 1]
    return x, y, feature_columns, behavior_feature_list

How to use the deepctr.inputs.get_feature_names function in deepctr

To help you get started, we’ve selected a few deepctr examples, based on popular ways it is used in public projects.

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