Re-writing and edits in the design doc for data reader (#5849)

* Updating the writeup of RNN doc * Editing the documentation for seq_decoder, and fixing typos * Fixing the captioning on 2 level RNN * pushing after a pull * Editing and re-writing parts of Data Reader design doc

Re-writing and edits in the design doc for data reader (#5849)
* Updating the writeup of RNN doc * Editing the documentation for seq_decoder, and fixing typos * Fixing the captioning on 2 level RNN * pushing after a pull * Editing and re-writing parts of Data Reader design doc
32b10d3b · kavyasrinet · Yi Wang · 659c9373 · 32b10d3b
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doc/design/reader/README.md doc/design/reader/README.md +37 -33

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--- a/doc/design/reader/README.md
+++ b/doc/design/reader/README.md
 # Python Data Reader Design Doc

-At training and testing time, PaddlePaddle programs need to read data. To ease the users' work to write data reading code, we define that
+During the training and testing phases, PaddlePaddle programs need to read data. To help the users write code that performs reading input data, we define the following:

- A *reader* is a function that reads data (from file, network, random number generator, etc) and yields data items.
- A *reader creator* is a function that returns a reader function.
- A *reader decorator* is a function, which accepts one or more readers, and returns a reader.
- A *batch reader* is a function that reads data (from *reader*, file, network, random number generator, etc) and yields a batch of data items.
+- A *reader*: A function that reads data (from file, network, random number generator, etc) and yields the data items.
+- A *reader creator*: A function that returns a reader function.
+- A *reader decorator*: A function, which takes in one or more readers, and returns a reader.
+- A *batch reader*: A function that reads data (from *reader*, file, network, random number generator, etc) and yields a batch of data items.

-and provide function which converts reader to batch reader, frequently used reader creators and reader decorators.
+and also provide a function which can convert a reader to a batch reader, frequently used reader creators and reader decorators.

 ## Data Reader Interface

-Indeed, *data reader* doesn't have to be a function that reads and yields data items. It can be any function with no parameter that creates a iterable (anything can be used in `for x in iterable`):
+*Data reader* doesn't have to be a function that reads and yields data items. It can just be any function without any parameters that creates an iterable (anything can be used in `for x in iterable`) as follows:

 ```
 iterable = data_reader()
 ```

-Element produced from the iterable should be a **single** entry of data, **not** a mini batch. That entry of data could be a single item, or a tuple of items. Item should be of [supported type](http://www.paddlepaddle.org/doc/ui/data_provider/pydataprovider2.html?highlight=dense_vector#input-types) (e.g., numpy 1d array of float32, int, list of int)
+The item produced from the iterable should be a **single** entry of data and **not** a mini batch. The entry of data could be a single item or a tuple of items. Item should be of one of the [supported types](http://www.paddlepaddle.org/doc/ui/data_provider/pydataprovider2.html?highlight=dense_vector#input-types) (e.g., numpy 1d array of float32, int, list of int etc.)

-An example implementation for single item data reader creator:
+An example implementation for single item data reader creator is as follows:

 ```python
 def reader_creator_random_image(width, height):
@@ -29,7 +29,7 @@ def reader_creator_random_image(width, height):
    return reader
 ```

-An example implementation for multiple item data reader creator:
+An example implementation for multiple item data reader creator is as follows:
 ```python
 def reader_creator_random_image_and_label(width, height, label):
    def reader():
@@ -40,9 +40,10 @@ def reader_creator_random_image_and_label(width, height, label):

 ## Batch Reader Interface

-*batch reader* can be any function with no parameter that creates a iterable (anything can be used in `for x in iterable`). The output of the iterable should be a batch (list) of data items. Each item inside the list must be a tuple.
+*Batch reader* can be any function without any parameters that creates an iterable (anything can be used in `for x in iterable`). The output of the iterable should be a batch (list) of data items. Each item inside the list should be a tuple.
+
+Here are some valid outputs:

-Here are valid outputs:
 ```python
 # a mini batch of three data items. Each data item consist three columns of data, each of which is 1.
 [(1, 1, 1),
@@ -58,20 +59,22 @@ Here are valid outputs:
 Please note that each item inside the list must be a tuple, below is an invalid output:
 ```python
 # wrong, [1,1,1] needs to be inside a tuple: ([1,1,1],).
- # Otherwise it's ambiguous whether [1,1,1] means a single column of data [1, 1, 1],
- # or three column of datas, each of which is 1.
+ # Otherwise it is ambiguous whether [1,1,1] means a single column of data [1, 1, 1],
+ # or three columns of data, each of which is 1.
 [[1,1,1],
 [2,2,2],
 [3,3,3]]
 ```

-It's easy to convert from reader to batch reader:
+It is easy to convert from a reader to a batch reader:
+
 ```python
 mnist_train = paddle.dataset.mnist.train()
 mnist_train_batch_reader = paddle.batch(mnist_train, 128)
 ```

-Also easy to create custom batch reader:
+It is also straight forward to create a custom batch reader:
+
 ```python
 def custom_batch_reader():
    while True:
@@ -85,7 +88,8 @@ mnist_random_image_batch_reader = custom_batch_reader

 ## Usage

-batch reader, mapping from item(s) read to data layer, batch size and number of total pass will be passed into `paddle.train`:
+Following is how we can use the reader with PaddlePaddle:
+The batch reader, a mapping from item(s) to data layer, the batch size and the number of total passes will be passed into `paddle.train` as follows:

 ```python
 # two data layer is created:
@@ -99,13 +103,13 @@ paddle.train(batch_reader, {"image":0, "label":1}, 128, 10, ...)

 ## Data Reader Decorator

-*Data reader decorator* takes a single or multiple data reader, returns a new data reader. It is similar to a [python decorator](https://wiki.python.org/moin/PythonDecorators), but it does not use `@` syntax.
+The *Data reader decorator* takes in a single reader or multiple data readers and returns a new data reader. It is similar to a [python decorator](https://wiki.python.org/moin/PythonDecorators), but it does not use `@` in the syntax.

-Since we have a strict interface for data readers (no parameter, return a single data item). Data reader can be used flexiable via data reader decorators. Following are a few examples:
+Since we have a strict interface for data readers (no parameters and return a single data item), a data reader can be used in a flexible way using data reader decorators. Following are a few examples:

 ### Prefetch Data

-Since reading data may take time and training can not proceed without data. It is generally a good idea to prefetch data.
+Since reading data may take some time and training can not proceed without data, it is generally a good idea to prefetch the data.

 Use `paddle.reader.buffered` to prefetch data:

@@ -117,9 +121,9 @@ buffered_reader = paddle.reader.buffered(paddle.dataset.mnist.train(), 100)

 ### Compose Multiple Data Readers

-For example, we want to use a source of real images (reusing mnist dataset), and a source of random images as input for [Generative Adversarial Networks](https://arxiv.org/abs/1406.2661).
+For example, if we want to use a source of real images (say reusing mnist dataset), and a source of random images as input for [Generative Adversarial Networks](https://arxiv.org/abs/1406.2661).

-We can do:
+We can do the following :

 ```python
 def reader_creator_random_image(width, height):
@@ -139,13 +143,13 @@ false_reader = reader_creator_bool(False)

 reader = paddle.reader.compose(paddle.dataset.mnist.train(), data_reader_creator_random_image(20, 20), true_reader, false_reader)
 # Skipped 1 because paddle.dataset.mnist.train() produces two items per data entry.
-# And we don't care second item at this time.
+# And we don't care about the second item at this time.
 paddle.train(paddle.batch(reader, 128), {"true_image":0, "fake_image": 2, "true_label": 3, "false_label": 4}, ...)
 ```

 ### Shuffle

-Given shuffle buffer size `n`, `paddle.reader.shuffle` will return a data reader that buffers `n` data entries and shuffle them before a data entry is read.
+Given the shuffle buffer size `n`, `paddle.reader.shuffle` returns a data reader that buffers `n` data entries and shuffles them before a data entry is read.

 Example:
 ```python
@@ -154,21 +158,21 @@ reader = paddle.reader.shuffle(paddle.dataset.mnist.train(), 512)

 ## Q & A

-### Why reader return only a single entry, but not a mini batch?
+### Why does a reader return only a single entry, and not a mini batch?

-Always returning a single entry make reusing existing data readers much easier (e.g., if existing reader return not a single entry but 3 entries, training code will be more complex because it need to handle cases like batch size 2).
+Returning a single entry makes reusing existing data readers much easier (for example, if an existing reader returns 3 entries instead if a single entry, the training code will be more complicated because it need to handle cases like a batch size 2).

-We provide function `paddle.batch` to turn (single entry) reader into batch reader.
+We provide a function: `paddle.batch` to turn (a single entry) reader into a batch reader.

-### Why do we need batch reader, isn't train take reader and batch_size as arguments sufficient?
+### Why do we need a batch reader, isn't is sufficient to give the reader and batch_size as arguments during training ?

-In most of the case, train taking reader and batch_size as arguments would be sufficent. However sometimes user want to customize order of data entries inside a mini batch. Or even change batch size dynamically.
+In most of the cases, it would be sufficient to give the reader and batch_size as arguments to the train method. However sometimes the user wants to customize the order of data entries inside a mini batch, or even change the batch size dynamically. For these cases using a batch reader is very efficient and helpful.

-### Why use a dictionary but not a list to provide mapping?
+### Why use a dictionary instead of a list to provide mapping?

-We decided to use dictionary (`{"image":0, "label":1}`) instead of list (`["image", "label"]`) is because that user can easily resue item (e.g., using `{"image_a":0, "image_b":0, "label":1}`) or skip item (e.g., using `{"image_a":0, "label":2}`).
+Using a dictionary (`{"image":0, "label":1}`) instead of a list (`["image", "label"]`) gives the advantage that the user can easily reuse the items (e.g., using `{"image_a":0, "image_b":0, "label":1}`) or even skip an item (e.g., using `{"image_a":0, "label":2}`).

-### How to create custom data reader creator
+### How to create a custom data reader creator ?

 ```python
 def image_reader_creator(image_path, label_path, n):
@@ -192,7 +196,7 @@ paddle.train(paddle.batch(reader, 128), {"image":0, "label":1}, ...)

 ### How is `paddle.train` implemented

-An example implementation of paddle.train could be:
+An example implementation of paddle.train is:

 ```python
 def train(batch_reader, mapping, batch_size, total_pass):