Wordcount Example#

Let’s look at an end-to-end example using Bytewax. We’ll start by building out a simple dataflow that performs a count of words in a file.

To begin, save a copy of this text in a file called wordcount.txt.

To be, or not to be, that is the question:
Whether 'tis nobler in the mind to suffer
The slings and arrows of outrageous fortune,
Or to take arms against a sea of troubles
And by opposing end them.

And a copy of the code in a file called wordcount.py.

import operator
import re

from datetime import timedelta, datetime, timezone

from bytewax.dataflow import Dataflow
import bytewax.operators as op
from bytewax.connectors.files import FileSource
from bytewax.connectors.stdio import StdOutSink


flow = Dataflow("wordcount_eg")
inp = op.input("inp", flow, FileSource("wordcount.txt"))


def lower(line):
    return line.lower()


lowers = op.map("lowercase_words", inp, lower)


def tokenize(line):
    return re.findall(r'[^\s!,.?":;0-9]+', line)


tokens = op.flat_map("tokenize_input", lowers, tokenize)

counts = op.count_final("count", tokens, lambda word: word)

op.output("out", counts, StdOutSink())

Running the example#

Now that we have our program and our input, we can run our example to see it in action:

$ python -m bytewax.run wordcount
("'tis", 1)
('a', 1)
('against', 1)
('and', 2)
('arms', 1)
('arrows', 1)
('be', 2)
('by', 1)
('end', 1)
('fortune', 1)
('in', 1)
('is', 1)
('mind', 1)
('nobler', 1)
('not', 1)
('of', 2)
('opposing', 1)
('or', 2)
('outrageous', 1)
('question', 1)
('sea', 1)
('slings', 1)
('suffer', 1)
('take', 1)
('that', 1)
('the', 3)
('them', 1)
('to', 4)
('troubles', 1)
('whether', 1)

Unpacking the program#

Now that we’ve run our dataflow, let’s walk through the components that we used.

In a dataflow program, each step added to the flow will occur in the order that it is added. For our wordcount dataflow, we’ll want the following steps:

  • Take a line from the file

  • Lowercase all characters in the line

  • Split the line into words

  • Count the occurrence of each word in the file

  • Print out the result after all the lines have been processed

We’ll start with how to get input we’ll push through our dataflow.

Take a line from the file#

Let’s define the steps that we want to execute for each line of input that we receive. We will add these steps as chains of operators on a dataflow object, Dataflow.

flow = Dataflow("wordcount_eg")
inp = op.input("inp", flow, FileSource("wordcount.txt"))

To emit input into our dataflow, our program needs an input operator that takes a source. To start, we’ll use one of our prepackaged sources, FileSource. This will read the text file line-by-line and emit each line into the dataflow at that point.

To read more about other options for sources, see bytewax.connectors for our built-in connectors, Connector Hub for other available connectors, or Custom IO Connectors for information on how to make your own custom connectors.

Lowercase all characters in the line#

If you look closely at our input, we have instances of both To and to. Let’s add a step to our dataflow that transforms each line into lowercase letters. At the same time, we’ll introduce the map operator.

def lower(line):
    return line.lower()


lowers = op.map("lowercase_words", inp, lower)

For each item that our generator produces, the map operator will use the built-in string function str.lower to emit downstream a copy of the string with all characters converted to lowercase.

Split the line into words#

When our input_builder() function is called, it will receive an entire line from our file. In order to count the words in the file, we’ll need to break that line up into individual words.

Enter our tokenize() function, which uses a Python regular expression to split the line of input into a list of words:

def tokenize(line):
    return re.findall(r'[^\s!,.?":;0-9]+', line)

For example,

to_be = "To be, or not to be, that is the question:"
print(tokenize(to_be))

results in:

['To', 'be', 'or', 'not', 'to', 'be', 'that', 'is', 'the', 'question']

To make use of tokenize function, we’ll use the flat_map operator:

tokens = op.flat_map("tokenize_input", lowers, tokenize)

The flat map operator defines a step which calls a function on each input item. Each word in the list we return from our function will then be emitted downstream individually.

Build up counts#

At this point in the dataflow, the items of data are the individual words. In order to tally counts of words, we’ll need to be able to group words together.

We can use the count_final operator to produce a count of all items in a dataflow. The count_final operator should only be used in a dataflow that is run in a batch context, as it waits for all data to be read before producing output. In this example, we want to count all of the items in the entire file before returning the result.

count_final takes a function that produces a key for each item in the dataflow. Many operators in Bytewax require their input stream to be keyed, to ensure that all items for a given key are processed together. In our word count example, we can use the word itself as the key, so that each instance of that word is counted together.

counts = op.count_final("count", tokens, lambda word: word)

Running#

To run the example, we just need to call the execution script. We will talk in more details about it in the next chapter. When we execute the module bytewax.run, our dataflow program will begin running, Bytewax will read the input items from our input generator, push the data through each step in the dataflow, and return the captured output. We then print the output of the final step.

Here is the complete output when running the example:

$ python -m bytewax.run wordcount
("'tis", 1)
('a', 1)
('against', 1)
('and', 2)
('arms', 1)
('arrows', 1)
('be', 2)
('by', 1)
('end', 1)
('fortune', 1)
('in', 1)
('is', 1)
('mind', 1)
('nobler', 1)
('not', 1)
('of', 2)
('opposing', 1)
('or', 2)
('outrageous', 1)
('question', 1)
('sea', 1)
('slings', 1)
('suffer', 1)
('take', 1)
('that', 1)
('the', 3)
('them', 1)
('to', 4)
('troubles', 1)
('whether', 1)

To learn more about possible modes of execution, see Execution.

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