"add book recommender_system testing" (#5143)

* "add sequence conv layer" * "add book recommender_system testing" * "add training loop" * "add sequence layer" * "add recommender system training data" * "fix conv2d layer bug" * add sequence_conv_pool * "fix input is Null" * add networks * "fix based comment" * "add sum op layer" * "merge layers" * Update layers.py * "fix input is NULL bug" * "debug embedding table" * "modify layers.py" * "fix pool interface" * "add export type to layers" * "fix based on comment" * "need lod info support in all operator" * "remove accuracy layer" * "tuning learning rate" * "add sparse test" * "add gpu test" * Update test_recommender_system.py

"add book recommender_system testing" (#5143)
* "add sequence conv layer" * "add book recommender_system testing" * "add training loop" * "add sequence layer" * "add recommender system training data" * "fix conv2d layer bug" * add sequence_conv_pool * "fix input is Null" * add networks * "fix based comment" * "add sum op layer" * "merge layers" * Update layers.py * "fix input is NULL bug" * "debug embedding table" * "modify layers.py" * "fix pool interface" * "add export type to layers" * "fix based on comment" * "need lod info support in all operator" * "remove accuracy layer" * "tuning learning rate" * "add sparse test" * "add gpu test" * Update test_recommender_system.py
69011c18 · dzhwinter · GitHub · f48159ad · 69011c18 · 69011c18
3 changed file
--- a/python/paddle/v2/framework/layers.py
+++ b/python/paddle/v2/framework/layers.py
@@ -197,11 +197,11 @@ def sums(input, program=None, init_program=None):
    return out


-def cos_sim(X, Y, program=None, init_program=None):
-    helper = LayerHelper('cos_sim', **locals())
-    out = helper.create_tmp_variable(dtype=helper.input_dtype("X"))
-    xnorm = helper.create_tmp_variable(dtype=helper.input_dtype("X"))
-    ynorm = helper.create_tmp_variable(dtype=helper.input_dtype("X"))
+def cos_sim(X, Y, **kwargs):
+    helper = LayerHelper('cos_sim', **kwargs)
+    out = helper.create_tmp_variable(dtype=X.data_type)
+    xnorm = helper.create_tmp_variable(dtype=X.data_type)
+    ynorm = helper.create_tmp_variable(dtype=X.data_type)
    helper.append_op(
        type='cos_sim',
        inputs={'X': [X],
@@ -209,7 +209,7 @@ def cos_sim(X, Y, program=None, init_program=None):
        outputs={'Out': [out],
                 'XNorm': [xnorm],
                 'YNorm': [ynorm]})
-    return out, xnorm, ynorm
+    return out


 def cross_entropy(input, label, **kwargs):
@@ -265,7 +265,7 @@ def accuracy(input, label, k=1, **kwargs):
 def sequence_conv(input,
                  num_filters,
                  filter_size=3,
-                  stride=1,
+                  filter_stride=1,
                  padding=None,
                  bias_attr=None,
                  param_attr=None,
@@ -291,9 +291,9 @@ def sequence_conv(input,
        },
        outputs={"Out": pre_bias},
        attrs={
-            'context_stride': stride,
-            'context_start': 0,
-            'context_length': filter_size
+            'contextStride': filter_stride,
+            'contextStart': 0,
+            'contextLength': filter_size
        })
    pre_act = helper.append_bias_op(pre_bias)
    return helper.append_activation(pre_act)

--- a/python/paddle/v2/framework/nets.py
+++ b/python/paddle/v2/framework/nets.py
@@ -101,6 +101,7 @@ def img_conv_group(input,
 def sequence_conv_pool(input,
                       num_filters,
                       filter_size,
+                       act="sigmoid",
                       pool_type="max",
                       program=None,
                       init_program=None):

--- a/python/paddle/v2/framework/tests/test_recommender_system.py
+++ b/python/paddle/v2/framework/tests/test_recommender_system.py
+import paddle.v2 as paddle
+import paddle.v2.framework.layers as layers
+import paddle.v2.framework.nets as nets
+import paddle.v2.framework.core as core
+import paddle.v2.framework.optimizer as optimizer
+
+from paddle.v2.framework.framework import Program, g_program
+from paddle.v2.framework.executor import Executor
+
+import numpy as np
+
+init_program = Program()
+program = Program()
+is_sparse = True
+use_gpu = False
+BATCH_SIZE = 256
+
+
+def get_usr_combined_features():
+    # FIXME(dzh) : old API integer_value(10) may has range check.
+    # currently we don't have user configurated check.
+
+    USR_DICT_SIZE = paddle.dataset.movielens.max_user_id() + 1
+
+    uid = layers.data(
+        name='user_id',
+        shape=[1],
+        data_type='int64',
+        program=program,
+        init_program=init_program)
+
+    usr_emb = layers.embedding(
+        input=uid,
+        data_type='float32',
+        size=[USR_DICT_SIZE, 32],
+        param_attr={'name': 'user_table'},
+        is_sparse=is_sparse,
+        program=program,
+        init_program=init_program)
+
+    usr_fc = layers.fc(input=usr_emb,
+                       size=32,
+                       program=program,
+                       init_program=init_program)
+
+    USR_GENDER_DICT_SIZE = 2
+
+    usr_gender_id = layers.data(
+        name='gender_id',
+        shape=[1],
+        data_type='int64',
+        program=program,
+        init_program=init_program)
+
+    usr_gender_emb = layers.embedding(
+        input=usr_gender_id,
+        size=[USR_GENDER_DICT_SIZE, 16],
+        param_attr={'name': 'gender_table'},
+        is_sparse=is_sparse,
+        program=program,
+        init_program=init_program)
+
+    usr_gender_fc = layers.fc(input=usr_gender_emb,
+                              size=16,
+                              program=program,
+                              init_program=init_program)
+
+    USR_AGE_DICT_SIZE = len(paddle.dataset.movielens.age_table)
+    usr_age_id = layers.data(
+        name='age_id',
+        shape=[1],
+        data_type="int64",
+        program=program,
+        init_program=init_program)
+
+    usr_age_emb = layers.embedding(
+        input=usr_age_id,
+        size=[USR_AGE_DICT_SIZE, 16],
+        is_sparse=is_sparse,
+        param_attr={'name': 'age_table'},
+        program=program,
+        init_program=init_program)
+
+    usr_age_fc = layers.fc(input=usr_age_emb,
+                           size=16,
+                           program=program,
+                           init_program=init_program)
+
+    USR_JOB_DICT_SIZE = paddle.dataset.movielens.max_job_id() + 1
+    usr_job_id = layers.data(
+        name='job_id',
+        shape=[1],
+        data_type="int64",
+        program=program,
+        init_program=init_program)
+
+    usr_job_emb = layers.embedding(
+        input=usr_job_id,
+        size=[USR_JOB_DICT_SIZE, 16],
+        param_attr={'name': 'job_table'},
+        is_sparse=is_sparse,
+        program=program,
+        init_program=init_program)
+
+    usr_job_fc = layers.fc(input=usr_job_emb,
+                           size=16,
+                           program=program,
+                           init_program=init_program)
+
+    concat_embed = layers.concat(
+        input=[usr_fc, usr_gender_fc, usr_age_fc, usr_job_fc],
+        axis=1,
+        program=program,
+        init_program=init_program)
+
+    usr_combined_features = layers.fc(input=concat_embed,
+                                      size=200,
+                                      act="tanh",
+                                      program=program,
+                                      init_program=init_program)
+
+    return usr_combined_features
+
+
+def get_mov_combined_features():
+
+    MOV_DICT_SIZE = paddle.dataset.movielens.max_movie_id() + 1
+
+    mov_id = layers.data(
+        name='movie_id',
+        shape=[1],
+        data_type='int64',
+        program=program,
+        init_program=init_program)
+
+    mov_emb = layers.embedding(
+        input=mov_id,
+        data_type='float32',
+        size=[MOV_DICT_SIZE, 32],
+        param_attr={'name': 'movie_table'},
+        is_sparse=is_sparse,
+        program=program,
+        init_program=init_program)
+
+    mov_fc = layers.fc(input=mov_emb,
+                       size=32,
+                       program=program,
+                       init_program=init_program)
+
+    CATEGORY_DICT_SIZE = len(paddle.dataset.movielens.movie_categories())
+
+    category_id = layers.data(
+        name='category_id',
+        shape=[1],
+        data_type='int64',
+        program=program,
+        init_program=init_program)
+
+    mov_categories_emb = layers.embedding(
+        input=category_id,
+        size=[CATEGORY_DICT_SIZE, 32],
+        is_sparse=is_sparse,
+        program=program,
+        init_program=init_program)
+
+    mov_categories_hidden = layers.sequence_pool(
+        input=mov_categories_emb,
+        pool_type="sum",
+        program=program,
+        init_program=init_program)
+
+    MOV_TITLE_DICT_SIZE = len(paddle.dataset.movielens.get_movie_title_dict())
+
+    mov_title_id = layers.data(
+        name='movie_title',
+        shape=[1],
+        data_type='int64',
+        program=program,
+        init_program=init_program)
+
+    mov_title_emb = layers.embedding(
+        input=mov_title_id,
+        size=[MOV_TITLE_DICT_SIZE, 32],
+        is_sparse=is_sparse,
+        program=program,
+        init_program=init_program)
+
+    mov_title_conv = nets.sequence_conv_pool(
+        input=mov_title_emb,
+        num_filters=32,
+        filter_size=3,
+        act="tanh",
+        pool_type="sum",
+        program=program,
+        init_program=init_program)
+
+    concat_embed = layers.concat(
+        input=[mov_fc, mov_categories_hidden, mov_title_conv],
+        axis=1,
+        program=program,
+        init_program=init_program)
+
+    # FIXME(dzh) : need tanh operator
+    mov_combined_features = layers.fc(input=concat_embed,
+                                      size=200,
+                                      act="tanh",
+                                      program=program,
+                                      init_program=init_program)
+
+    return mov_combined_features
+
+
+def model():
+    usr_combined_features = get_usr_combined_features()
+    mov_combined_features = get_mov_combined_features()
+
+    # need cos sim
+    inference = layers.cos_sim(
+        X=usr_combined_features,
+        Y=mov_combined_features,
+        program=program,
+        init_program=init_program)
+
+    label = layers.data(
+        name='score',
+        shape=[1],
+        data_type='float32',
+        program=program,
+        init_program=init_program)
+
+    square_cost = layers.square_error_cost(
+        input=inference,
+        label=label,
+        program=program,
+        init_program=init_program)
+
+    avg_cost = layers.mean(
+        x=square_cost, program=program, init_program=init_program)
+
+    return avg_cost
+
+
+def main():
+    cost = model()
+    sgd_optimizer = optimizer.SGDOptimizer(learning_rate=0.2)
+    opts = sgd_optimizer.minimize(cost)
+    block = program.block(0)
+
+    if use_gpu:
+        place = core.GPUPlace(0)
+    else:
+        place = core.CPUPlace()
+
+    exe = Executor(place)
+    exe.run(init_program, feed={}, fetch_list=[])
+
+    train_reader = paddle.batch(
+        paddle.reader.shuffle(
+            paddle.dataset.movielens.train(), buf_size=8192),
+        batch_size=BATCH_SIZE)
+
+    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 func_feed(feeding, data):
+        feed_tensors = {}
+        for (key, idx) in feeding.iteritems():
+            tensor = core.LoDTensor()
+            if key != "category_id" and key != "movie_title":
+                if key == "score":
+                    numpy_data = np.array(map(lambda x: x[idx], data)).astype(
+                        "float32")
+                else:
+                    numpy_data = np.array(map(lambda x: x[idx], data)).astype(
+                        "int64")
+            else:
+                numpy_data = map(lambda x: np.array(x[idx]).astype("int64"),
+                                 data)
+                lod_info = [len(item) for item in numpy_data]
+                offset = 0
+                lod = [offset]
+                for item in lod_info:
+                    offset += item
+                    lod.append(offset)
+                numpy_data = np.concatenate(numpy_data, axis=0)
+                tensor.set_lod([lod])
+
+            numpy_data = numpy_data.reshape([numpy_data.shape[0], 1])
+            tensor.set(numpy_data, place)
+            feed_tensors[key] = tensor
+        return feed_tensors
+
+    PASS_NUM = 100
+    for pass_id in range(PASS_NUM):
+        for data in train_reader():
+            outs = exe.run(program,
+                           feed=func_feed(feeding, data),
+                           fetch_list=[cost])
+            out = np.array(outs[0])
+            if out[0] < 5.0:
+                # if avg cost less than 10.0, we think our code is good.
+                exit(0)
+
+
+main()