Add training program

022596ae · Nicky · ed43609a · 022596ae
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05.recommender_system/train.py 05.recommender_system/train.py +233 -113

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--- a/05.recommender_system/train.py
+++ b/05.recommender_system/train.py
-import paddle.v2 as paddle
-import cPickle
-import copy
-import os
-
-with_gpu = os.getenv('WITH_GPU', '0') != '0'
+#   Copyright (c) 2018 PaddlePaddle Authors. All Rights Reserved.
+#
+# Licensed under the Apache License, Version 2.0 (the "License");
+# you may not use this file except in compliance with the License.
+# You may obtain a copy of the License at
+#
+#     http://www.apache.org/licenses/LICENSE-2.0
+#
+# Unless required by applicable law or agreed to in writing, software
+# distributed under the License is distributed on an "AS IS" BASIS,
+# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+# See the License for the specific language governing permissions and
+# limitations under the License.
+
+import math
+import sys
+import numpy as np
+import paddle
+import paddle.fluid as fluid
+import paddle.fluid.layers as layers
+import paddle.fluid.nets as nets
+
+IS_SPARSE = True
+USE_GPU = False
+BATCH_SIZE = 256


 def get_usr_combined_features():
-    uid = paddle.layer.data(
-        name='user_id',
-        type=paddle.data_type.integer_value(
-            paddle.dataset.movielens.max_user_id() + 1))
-    usr_emb = paddle.layer.embedding(input=uid, size=32)
-    usr_fc = paddle.layer.fc(input=usr_emb, size=32)
-
-    usr_gender_id = paddle.layer.data(
-        name='gender_id', type=paddle.data_type.integer_value(2))
-    usr_gender_emb = paddle.layer.embedding(input=usr_gender_id, size=16)
-    usr_gender_fc = paddle.layer.fc(input=usr_gender_emb, size=16)
-
-    usr_age_id = paddle.layer.data(
-        name='age_id',
-        type=paddle.data_type.integer_value(
-            len(paddle.dataset.movielens.age_table)))
-    usr_age_emb = paddle.layer.embedding(input=usr_age_id, size=16)
-    usr_age_fc = paddle.layer.fc(input=usr_age_emb, size=16)
-
-    usr_job_id = paddle.layer.data(
-        name='job_id',
-        type=paddle.data_type.integer_value(
-            paddle.dataset.movielens.max_job_id() + 1))
-    usr_job_emb = paddle.layer.embedding(input=usr_job_id, size=16)
-    usr_job_fc = paddle.layer.fc(input=usr_job_emb, size=16)
-
-    usr_combined_features = paddle.layer.fc(
-        input=[usr_fc, usr_gender_fc, usr_age_fc, usr_job_fc],
-        size=200,
-        act=paddle.activation.Tanh())
+
+    USR_DICT_SIZE = paddle.dataset.movielens.max_user_id() + 1
+
+    uid = layers.data(name='user_id', shape=[1], dtype='int64')
+
+    usr_emb = layers.embedding(
+        input=uid,
+        dtype='float32',
+        size=[USR_DICT_SIZE, 32],
+        param_attr='user_table',
+        is_sparse=IS_SPARSE)
+
+    usr_fc = layers.fc(input=usr_emb, size=32)
+
+    USR_GENDER_DICT_SIZE = 2
+
+    usr_gender_id = layers.data(name='gender_id', shape=[1], dtype='int64')
+
+    usr_gender_emb = layers.embedding(
+        input=usr_gender_id,
+        size=[USR_GENDER_DICT_SIZE, 16],
+        param_attr='gender_table',
+        is_sparse=IS_SPARSE)
+
+    usr_gender_fc = layers.fc(input=usr_gender_emb, size=16)
+
+    USR_AGE_DICT_SIZE = len(paddle.dataset.movielens.age_table)
+    usr_age_id = layers.data(name='age_id', shape=[1], dtype="int64")
+
+    usr_age_emb = layers.embedding(
+        input=usr_age_id,
+        size=[USR_AGE_DICT_SIZE, 16],
+        is_sparse=IS_SPARSE,
+        param_attr='age_table')
+
+    usr_age_fc = layers.fc(input=usr_age_emb, size=16)
+
+    USR_JOB_DICT_SIZE = paddle.dataset.movielens.max_job_id() + 1
+    usr_job_id = layers.data(name='job_id', shape=[1], dtype="int64")
+
+    usr_job_emb = layers.embedding(
+        input=usr_job_id,
+        size=[USR_JOB_DICT_SIZE, 16],
+        param_attr='job_table',
+        is_sparse=IS_SPARSE)
+
+    usr_job_fc = layers.fc(input=usr_job_emb, size=16)
+
+    concat_embed = layers.concat(
+        input=[usr_fc, usr_gender_fc, usr_age_fc, usr_job_fc], axis=1)
+
+    usr_combined_features = layers.fc(input=concat_embed, size=200, act="tanh")
+
    return usr_combined_features


 def get_mov_combined_features():
-    movie_title_dict = paddle.dataset.movielens.get_movie_title_dict()
-    mov_id = paddle.layer.data(
-        name='movie_id',
-        type=paddle.data_type.integer_value(
-            paddle.dataset.movielens.max_movie_id() + 1))
-    mov_emb = paddle.layer.embedding(input=mov_id, size=32)
-    mov_fc = paddle.layer.fc(input=mov_emb, size=32)
-
-    mov_categories = paddle.layer.data(
-        name='category_id',
-        type=paddle.data_type.sparse_binary_vector(
-            len(paddle.dataset.movielens.movie_categories())))
-    mov_categories_hidden = paddle.layer.fc(input=mov_categories, size=32)
-
-    mov_title_id = paddle.layer.data(
-        name='movie_title',
-        type=paddle.data_type.integer_value_sequence(len(movie_title_dict)))
-    mov_title_emb = paddle.layer.embedding(input=mov_title_id, size=32)
-    mov_title_conv = paddle.networks.sequence_conv_pool(
-        input=mov_title_emb, hidden_size=32, context_len=3)
-
-    mov_combined_features = paddle.layer.fc(
-        input=[mov_fc, mov_categories_hidden, mov_title_conv],
-        size=200,
-        act=paddle.activation.Tanh())
+
+    MOV_DICT_SIZE = paddle.dataset.movielens.max_movie_id() + 1
+
+    mov_id = layers.data(name='movie_id', shape=[1], dtype='int64')
+
+    mov_emb = layers.embedding(
+        input=mov_id,
+        dtype='float32',
+        size=[MOV_DICT_SIZE, 32],
+        param_attr='movie_table',
+        is_sparse=IS_SPARSE)
+
+    mov_fc = layers.fc(input=mov_emb, size=32)
+
+    CATEGORY_DICT_SIZE = len(paddle.dataset.movielens.movie_categories())
+
+    category_id = layers.data(
+        name='category_id', shape=[1], dtype='int64', lod_level=1)
+
+    mov_categories_emb = layers.embedding(
+        input=category_id, size=[CATEGORY_DICT_SIZE, 32], is_sparse=IS_SPARSE)
+
+    mov_categories_hidden = layers.sequence_pool(
+        input=mov_categories_emb, pool_type="sum")
+
+    MOV_TITLE_DICT_SIZE = len(paddle.dataset.movielens.get_movie_title_dict())
+
+    mov_title_id = layers.data(
+        name='movie_title', shape=[1], dtype='int64', lod_level=1)
+
+    mov_title_emb = layers.embedding(
+        input=mov_title_id, size=[MOV_TITLE_DICT_SIZE, 32], is_sparse=IS_SPARSE)
+
+    mov_title_conv = nets.sequence_conv_pool(
+        input=mov_title_emb,
+        num_filters=32,
+        filter_size=3,
+        act="tanh",
+        pool_type="sum")
+
+    concat_embed = layers.concat(
+        input=[mov_fc, mov_categories_hidden, mov_title_conv], axis=1)
+
+    mov_combined_features = layers.fc(input=concat_embed, size=200, act="tanh")
+
    return mov_combined_features


-def main():
-    paddle.init(use_gpu=with_gpu)
+def inference_program():
    usr_combined_features = get_usr_combined_features()
    mov_combined_features = get_mov_combined_features()
-    inference = paddle.layer.cos_sim(
-        a=usr_combined_features, b=mov_combined_features, size=1, scale=5)
-    cost = paddle.layer.square_error_cost(
-        input=inference,
-        label=paddle.layer.data(
-            name='score', type=paddle.data_type.dense_vector(1)))
-
-    parameters = paddle.parameters.create(cost)
-
-    trainer = paddle.trainer.SGD(
-        cost=cost,
-        parameters=parameters,
-        update_equation=paddle.optimizer.Adam(learning_rate=1e-4))
-    feeding = {
-        'user_id': 0,
-        'gender_id': 1,
-        'age_id': 2,
-        'job_id': 3,
-        'movie_id': 4,
-        'category_id': 5,
-        'movie_title': 6,
-        'score': 7
-    }

-    def event_handler(event):
-        if isinstance(event, paddle.event.EndIteration):
-            if event.batch_id % 100 == 0:
-                print "Pass %d Batch %d Cost %.2f" % (
-                    event.pass_id, event.batch_id, event.cost)
+    inference = layers.cos_sim(X=usr_combined_features, Y=mov_combined_features)
+    scale_infer = layers.scale(x=inference, scale=5.0)
+
+    return scale_infer

-    trainer.train(
-        reader=paddle.batch(
-            paddle.reader.shuffle(
-                paddle.dataset.movielens.train(), buf_size=8192),
-            batch_size=256),
-        event_handler=event_handler,
-        feeding=feeding,
-        num_passes=1)

-    user_id = 234
-    movie_id = 345
+def train_program():

-    user = paddle.dataset.movielens.user_info()[user_id]
-    movie = paddle.dataset.movielens.movie_info()[movie_id]
+    scale_infer = inference_program()

-    feature = user.value() + movie.value()
+    label = layers.data(name='score', shape=[1], dtype='float32')
+    square_cost = layers.square_error_cost(input=scale_infer, label=label)
+    avg_cost = layers.mean(square_cost)

-    infer_dict = copy.copy(feeding)
-    del infer_dict['score']
+    return [avg_cost, scale_infer]

-    prediction = paddle.infer(
-        output_layer=inference,
-        parameters=parameters,
-        input=[feature],
-        feeding=infer_dict)
-    print(prediction + 5) / 2
+
+def optimizer_func():
+    return fluid.optimizer.SGD(learning_rate=0.2)
+
+
+def train(use_cuda, train_program, params_dirname):
+    place = fluid.CUDAPlace(0) if use_cuda else fluid.CPUPlace()
+
+    trainer = fluid.Trainer(
+        train_func=train_program, place=place, optimizer_func=optimizer_func)
+
+    feed_order = [
+        'user_id', 'gender_id', 'age_id', 'job_id', 'movie_id', 'category_id',
+        'movie_title', 'score'
+    ]
+
+    def event_handler(event):
+        if isinstance(event, fluid.EndStepEvent):
+            test_reader = paddle.batch(
+                paddle.dataset.movielens.test(), batch_size=BATCH_SIZE)
+            avg_cost_set = trainer.test(
+                reader=test_reader, feed_order=feed_order)
+
+            # get avg cost
+            avg_cost = np.array(avg_cost_set).mean()
+
+            print("avg_cost: %s" % avg_cost)
+
+            if float(avg_cost) < 4:  # Change this number to adjust accuracy
+                trainer.save_params(params_dirname)
+                trainer.stop()
+            else:
+                print('BatchID {0}, Test Loss {1:0.2}'.format(event.epoch + 1,
+                                                              float(avg_cost)))
+                if math.isnan(float(avg_cost)):
+                    sys.exit("got NaN loss, training failed.")
+
+    train_reader = paddle.batch(
+        paddle.reader.shuffle(
+            paddle.dataset.movielens.train(), buf_size=8192),
+        batch_size=BATCH_SIZE)
+
+    trainer.train(
+        num_epochs=1,
+        event_handler=event_handler,
+        reader=train_reader,
+        feed_order=feed_order)
+
+
+def infer(use_cuda, inference_program, params_dirname):
+    place = fluid.CUDAPlace(0) if use_cuda else fluid.CPUPlace()
+    inferencer = fluid.Inferencer(
+        inference_program, param_path=params_dirname, place=place)
+
+    # Use the first data from paddle.dataset.movielens.test() as input.
+    # Use create_lod_tensor(data, lod, place) API to generate LoD Tensor,
+    # where `data` is a list of sequences of index numbers, `lod` is
+    # the level of detail (lod) info associated with `data`.
+    # For example, data = [[10, 2, 3], [2, 3]] means that it contains
+    # two sequences of indexes, of length 3 and 2, respectively.
+    # Correspondingly, lod = [[3, 2]] contains one level of detail info,
+    # indicating that `data` consists of two sequences of length 3 and 2.
+    user_id = fluid.create_lod_tensor([[1]], [[1]], place)
+    gender_id = fluid.create_lod_tensor([[1]], [[1]], place)
+    age_id = fluid.create_lod_tensor([[0]], [[1]], place)
+    job_id = fluid.create_lod_tensor([[10]], [[1]], place)
+    movie_id = fluid.create_lod_tensor([[783]], [[1]], place)
+    category_id = fluid.create_lod_tensor([[10, 8, 9]], [[3]], place)
+    movie_title = fluid.create_lod_tensor([[1069, 4140, 2923, 710, 988]], [[5]],
+                                          place)
+
+    results = inferencer.infer(
+        {
+            'user_id': user_id,
+            'gender_id': gender_id,
+            'age_id': age_id,
+            'job_id': job_id,
+            'movie_id': movie_id,
+            'category_id': category_id,
+            'movie_title': movie_title
+        },
+        return_numpy=False)
+
+    print("infer results: ", np.array(results[0]))
+
+
+def main(use_cuda):
+    if use_cuda and not fluid.core.is_compiled_with_cuda():
+        return
+    params_dirname = "recommender_system.inference.model"
+    train(
+        use_cuda=use_cuda,
+        train_program=train_program,
+        params_dirname=params_dirname)
+    infer(
+        use_cuda=use_cuda,
+        inference_program=inference_program,
+        params_dirname=params_dirname)


 if __name__ == '__main__':
-    main()
+    main(USE_GPU)