How to use PyDataProvider2 ========================== We highly recommand users to use PyDataProvider2 to provide training or testing data to PaddlePaddle. The user only needs to focus on how to read a single sample from the original data file by using PyDataProvider2, leaving all of the trivial work, including, transfering data into cpu/gpu memory, shuffle, binary serialization to PyDataProvider2. PyDataProvider2 uses multithreading and a fanscinating but simple cache strategy to optimize the efficiency of the data providing process. DataProvider for the non-sequential model ----------------------------------------- Here we use the MNIST handwriting recognition data as an example to illustrate how to write a simple PyDataProvider. MNIST is a handwriting classification data set. It contains 70,000 digital grayscale images. Labels of the training sample range from 0 to 9. All the images have been size-normalized and centered into images with the same size of 28 x 28 pixels. A small part of the original data as an example is shown as below: .. literalinclude:: ../../../doc_cn/ui/data_provider/mnist_train.txt Each line of the data contains two parts, separated by :code:`;`. The first part is label of an image. The second part contains 28x28 pixel float values. Just write path of the above data into train.list. It looks like this: .. literalinclude:: ../../../doc_cn/ui/data_provider/train.list The corresponding dataprovider is shown as below: .. literalinclude:: ../../../doc_cn/ui/data_provider/mnist_provider.py The first line imports PyDataProvider2 package. The main function is the process function, that has two parameters. The first parameter is the settings, which is not used in this example. The second parameter is the filename, that is exactly each line of train.list. This parameter is passed to the process function by PaddlePaddle. :code:`@provider` is a Python `Decorator `_ . It sets some properties to DataProvider, and constructs a real PaddlePaddle DataProvider from a very simple user implemented python function. It does not matter if you are not familiar with `Decorator`_. You can keep it simple by just taking :code:`@provider` as a fixed mark above the provider function you implemented. `input_types`_ defines the data format that a DataProvider returns. In this example, it is set to a 28x28-dimensional dense vector and an integer scalar, whose value ranges from 0 to 9. `input_types`_ can be set to several kinds of input formats, please refer to the document of `input_types`_ for more details. The process method is the core part to construct a real DataProvider in PaddlePaddle. It implements how to open the text file, how to read one sample from the original text file, convert them into `input_types`_, and give them back to PaddlePaddle process at line 23. Note that data yielded by the process function must follow the same order that `input_types`_ are defined. With the help of PyDataProvider2, user can focus on how to generate ONE traning sample by using keywords :code:`yield`. :code:`yield` is a python keyword, and a concept related to it includes :code:`generator`. Only a few lines of codes need to be added into the training configuration file, you can take this as an example. .. literalinclude:: ../../../doc_cn/ui/data_provider/mnist_config.py Here we specify training data by :code:`train.list`, and no testing data is specified. The method which actually provide data is :code:`process`. User also can use another style to provide data, which defines the :code:`data_layer`'s name explicitly when `yield`. For example, the :code:`dataprovider` is shown as below. .. literalinclude:: ../../../doc_cn/ui/data_provider/mnist_provider.dict.py :linenos: If user did't give the :code:`data_layer`'s name, PaddlePaddle will use the order of :code:`data_layer` definition roughly to determine which feature to which :code:`data_layer`. This order may be not correct, so TO DEFINE THE :code:`data_layer`'s NAMES EXPLICITLY IS THE RECOMMANDED WAY TO PROVIDER DATA. Now, this simple example of using PyDataProvider is finished. The only thing that the user should know is how to generte **one sample** from **one data file**. And PaddlePadle will do all of the rest things\: * Form a training batch * Shuffle the training data * Read data with multithreading * Cache the training data (Optional) * CPU-> GPU double buffering. Is this cool? DataProvider for the sequential model ------------------------------------- A sequence model takes sequences as its input. A sequence is made up of several timesteps. The so-called timestep, is not necessary to have something to do with time. It can also be explained to that the order of data are taken into consideration into model design and training. For example, the sentence can be interpreted as a kind of sequence data in NLP tasks. Here is an example on data proivider for English sentiment classification data. The original input data are simple English text, labeled into positive or negative sentiment (marked by 0 and 1 respectively). A small part of the original data as an example can be found in the path below: .. literalinclude:: ../../../doc_cn/ui/data_provider/sentimental_train.txt The corresponding data provider can be found in the path below: .. literalinclude:: ../../../doc_cn/ui/data_provider/sentimental_provider.py This data provider for sequential model is a little more complex than that for MINST dataset. A new initialization method is introduced here. The method :code:`on_init` is configured to DataProvider by :code:`@provider`'s :code:`init_hook` parameter, and it will be invoked once DataProvider is initialized. The :code:`on_init` function has the following parameters: * The first parameter is the settings object. * The rest parameters are passed by key word arguments. Some of them are passed by PaddlePaddle, see reference for `init_hook`_. The :code:`dictionary` object is a python dict object passed from the trainer configuration file, and it maps word string to word id. To pass these parameters into DataProvider, the following lines should be added into trainer configuration file. .. literalinclude:: ../../../doc_cn/ui/data_provider/sentimental_config.py The definition is basically same as MNIST example, except: * Load dictionary in this configuration * Pass it as a parameter to the DataProvider The `input_types` is configured in method :code:`on_init`. It has the same effect to configure them by :code:`@provider`'s :code:`input_types` parameter. However, the :code:`input_types` is set at runtime, so we can set it to different types according to the input data. Input of the neural network is a sequence of word id, so set :code:`seq_type` to :code:`integer_value_sequence`. Durning :code:`on_init`, we save :code:`dictionary` variable to :code:`settings`, and it will be used in :code:`process`. Note the settings parameter for the process function and for the on_init's function are a same object. The basic processing logic is the same as MNIST's :code:`process` method. Each sample in the data file is given back to PaddlePaddle process. Thus, the basic usage of PyDataProvider is here. Please refer to the following section reference for details. Reference --------- @provider +++++++++ .. autofunction:: paddle.trainer.PyDataProvider2.provider input_types +++++++++++ PaddlePaddle has four data types, and three sequence types. The four data types are: * :code:`dense_vector`: dense float vector. * :code:`sparse_binary_vector`: sparse binary vector, most of the value is 0, and the non zero elements are fixed to 1. * :code:`sparse_float_vector`: sparse float vector, most of the value is 0, and some non zero elements can be any float value. They are given by the user. * :code:`integer`: an integer scalar, that is especially used for label or word index. The three sequence types are: * :code:`SequenceType.NO_SEQUENCE` means the sample is not a sequence. * :code:`SequenceType.SEQUENCE` means the sample is a sequence. * :code:`SequenceType.SUB_SEQUENCE` means it is a nested sequence, that each timestep of the input sequence is also a sequence. Different input type has a defferenct input format. Their formats are shown in the above table. +----------------------+---------------------+-----------------------------------+------------------------------------------------+ | | NO_SEQUENCE | SEQUENCE | SUB_SEQUENCE | +======================+=====================+===================================+================================================+ | dense_vector | [f, f, ...] | [[f, ...], [f, ...], ...] | [[[f, ...], ...], [[f, ...], ...],...] | +----------------------+---------------------+-----------------------------------+------------------------------------------------+ | sparse_binary_vector | [i, i, ...] | [[i, ...], [i, ...], ...] | [[[i, ...], ...], [[i, ...], ...],...] | +----------------------+---------------------+-----------------------------------+------------------------------------------------+ | sparse_float_vector | [(i,f), (i,f), ...] | [[(i,f), ...], [(i,f), ...], ...] | [[[(i,f), ...], ...], [[(i,f), ...], ...],...] | +----------------------+---------------------+-----------------------------------+------------------------------------------------+ | integer_value | i | [i, i, ...] | [[i, ...], [i, ...], ...] | +----------------------+---------------------+-----------------------------------+------------------------------------------------+ where f represents a float value, i represents an integer value. init_hook +++++++++ init_hook is a function that is invoked once the data provoder is initialized. Its parameters lists as follows: * The first parameter is a settings object, which is the same to :code:`settings` in :code:`process` method. The object contains several attributes, including: * :code:`settings.input_types`: the input types. Reference `input_types`_. * :code:`settings.logger`: a logging object. * The rest parameters are the key word arguments. It is made up of PaddpePaddle pre-defined parameters and user defined parameters. * PaddlePaddle-defined parameters including: * :code:`is_train` is a bool parameter that indicates the DataProvider is used in training or testing. * :code:`file_list` is the list of all files. * User-defined parameters args can be set in training configuration. Note, PaddlePaddle reserves the right to add pre-defined parameter, so please use :code:`**kwargs` in init_hook to ensure compatibility by accepting the parameters which your init_hook does not use. cache +++++ DataProvider provides two simple cache strategy. They are: * :code:`CacheType.NO_CACHE` means do not cache any data, then data is read at runtime by the user implemented python module every pass. * :code:`CacheType.CACHE_PASS_IN_MEM` means the first pass reads data by the user implemented python module, and the rest passes will directly read data from memory.