Complete a very simple mnist demo.

409a5774 · Yu Yang · eaba2e2e · 409a5774
隐藏空白更改
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Showing with 99 addition and 9 deletion

demo/mnist/api_train.py demo/mnist/api_train.py +99 -9

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--- a/demo/mnist/api_train.py
+++ b/demo/mnist/api_train.py
+"""
+A very basic example for how to use current Raw SWIG API to train mnist network.
+
+Current implementation uses Raw SWIG, which means the API call is directly \
+passed to C++ side of Paddle.
+
+The user api could be simpler and carefully designed.
+"""
 import py_paddle.swig_paddle as api
 from py_paddle import DataProviderConverter
 import paddle.trainer.PyDataProvider2 as dp
 import paddle.trainer.config_parser
 import numpy as np
+import random
 from mnist_util import read_from_mnist


@@ -27,6 +36,18 @@ def generator_to_batch(generator, batch_size):
        yield ret_val


+class BatchPool(object):
+    def __init__(self, generator, batch_size):
+        self.data = list(generator)
+        self.batch_size = batch_size
+
+    def __call__(self):
+        random.shuffle(self.data)
+        for offset in xrange(0, len(self.data), self.batch_size):
+            limit = min(offset + self.batch_size, len(self.data))
+            yield self.data[offset:limit]
+
+
 def input_order_converter(generator):
    for each_item in generator:
        yield each_item['pixel'], each_item['label']
@@ -37,46 +58,115 @@ def main():
    config = paddle.trainer.config_parser.parse_config(
        'simple_mnist_network.py', '')

+    # get enable_types for each optimizer.
+    # enable_types = [value, gradient, momentum, etc]
+    # For each optimizer(SGD, Adam), GradientMachine should enable different
+    # buffers.
    opt_config = api.OptimizationConfig.createFromProto(config.opt_config)
    _temp_optimizer_ = api.ParameterOptimizer.create(opt_config)
    enable_types = _temp_optimizer_.getParameterTypes()

+    # Create Simple Gradient Machine.
    m = api.GradientMachine.createFromConfigProto(
        config.model_config, api.CREATE_MODE_NORMAL, enable_types)
+
+    # This type check is not useful. Only enable type hint in IDE.
+    # Such as PyCharm
    assert isinstance(m, api.GradientMachine)
+
+    # Initialize Parameter by numpy.
    init_parameter(network=m)
+
+    # Create Local Updater. Local means not run in cluster.
+    # For a cluster training, here we can change to createRemoteUpdater
+    # in future.
    updater = api.ParameterUpdater.createLocalUpdater(opt_config)
    assert isinstance(updater, api.ParameterUpdater)
+
+    # Initialize ParameterUpdater.
    updater.init(m)

+    # DataProvider Converter is a utility convert Python Object to Paddle C++
+    # Input. The input format is as same as Paddle's DataProvider.
    converter = DataProviderConverter(
        input_types=[dp.dense_vector(784), dp.integer_value(10)])

    train_file = './data/raw_data/train'
+    test_file = './data/raw_data/t10k'

+    # start gradient machine.
+    # the gradient machine must be started before invoke forward/backward.
+    # not just for training, but also for inference.
    m.start()

-    for _ in xrange(100):
+    # evaluator can print error rate, etc. It is a C++ class.
+    batch_evaluator = m.makeEvaluator()
+    test_evaluator = m.makeEvaluator()
+
+    # Get Train Data.
+    # TrainData will stored in a data pool. Currently implementation is not care
+    # about memory, speed. Just a very naive implementation.
+    train_data_generator = input_order_converter(read_from_mnist(train_file))
+    train_data = BatchPool(train_data_generator, 128)
+
+    # outArgs is Neural Network forward result. Here is not useful, just passed
+    # to gradient_machine.forward
+    outArgs = api.Arguments.createArguments(0)
+
+    for pass_id in xrange(2):  # we train 2 passes.
        updater.startPass()
-        outArgs = api.Arguments.createArguments(0)
-        train_data_generator = input_order_converter(
-            read_from_mnist(train_file))
-        for batch_id, data_batch in enumerate(
-                generator_to_batch(train_data_generator, 2048)):
-            trainRole = updater.startBatch(len(data_batch))

+        for batch_id, data_batch in enumerate(train_data()):
+            # data_batch is input images.
+            # here, for online learning, we could get data_batch from network.
+
+            # Start update one batch.
+            pass_type = updater.startBatch(len(data_batch))
+
+            # Start BatchEvaluator.
+            # batch_evaluator can be used between start/finish.
+            batch_evaluator.start()
+
+            # A callback when backward.
+            # It is used for updating weight values vy calculated Gradient.
            def updater_callback(param):
                updater.update(param)

+            # forwardBackward is a shortcut for forward and backward.
+            # It is sometimes faster than invoke forward/backward separately,
+            # because in GradientMachine, it may be async.
            m.forwardBackward(
-                converter(data_batch), outArgs, trainRole, updater_callback)
+                converter(data_batch), outArgs, pass_type, updater_callback)

+            # Get cost. We use numpy to calculate total cost for this batch.
            cost_vec = outArgs.getSlotValue(0)
            cost_vec = cost_vec.copyToNumpyMat()
            cost = cost_vec.sum() / len(data_batch)
-            print 'Batch id', batch_id, 'with cost=', cost
+
+            # Make evaluator works.
+            m.eval(batch_evaluator)
+
+            # Print logs.
+            print 'Pass id', pass_id, 'Batch id', batch_id, 'with cost=', \
+                cost, batch_evaluator
+
+            batch_evaluator.finish()
+            # Finish batch.
+            #  * will clear gradient.
+            #  * ensure all values should be updated.
            updater.finishBatch(cost)

+        # testing stage. use test data set to test current network.
+        test_evaluator.start()
+        test_data_generator = input_order_converter(read_from_mnist(test_file))
+        for data_batch in generator_to_batch(test_data_generator, 128):
+            # in testing stage, only forward is needed.
+            m.forward(converter(data_batch), outArgs, api.PASS_TEST)
+            m.eval(test_evaluator)
+
+        # print error rate for test data set
+        print 'Pass', pass_id, ' test evaluator: ', test_evaluator
+        test_evaluator.finish()
        updater.finishPass()

    m.finish()