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IPython Interactive Computing and Visualization Cookbook

You're reading from   IPython Interactive Computing and Visualization Cookbook Over 100 hands-on recipes to sharpen your skills in high-performance numerical computing and data science in the Jupyter Notebook

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Product type Paperback
Published in Jan 2018
Publisher Packt
ISBN-13 9781785888632
Length 548 pages
Edition 2nd Edition
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Author (1):
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Cyrille Rossant Cyrille Rossant
Author Profile Icon Cyrille Rossant
Cyrille Rossant
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Table of Contents (17) Chapters Close

Preface 1. A Tour of Interactive Computing with Jupyter and IPython FREE CHAPTER 2. Best Practices in Interactive Computing 3. Mastering the Jupyter Notebook 4. Profiling and Optimization 5. High-Performance Computing 6. Data Visualization 7. Statistical Data Analysis 8. Machine Learning 9. Numerical Optimization 10. Signal Processing 11. Image and Audio Processing 12. Deterministic Dynamical Systems 13. Stochastic Dynamical Systems 14. Graphs, Geometry, and Geographic Information Systems 15. Symbolic and Numerical Mathematics Index

Getting started with exploratory data analysis in the Jupyter Notebook

In this recipe, we will give an introduction to IPython and Jupyter for data analysis. Most of the subject has been covered in the prequel of this book, Learning IPython for Interactive Computing and Data Visualization, Second Edition, Packt Publishing, but we will review the basics here.

We will download and analyze a dataset about attendance on Montreal's bicycle tracks. This example is largely inspired by a presentation from Julia Evans (available at https://github.com/jvns/talks/blob/master/2013-04-mtlpy/pistes-cyclables.ipynb). Specifically, we will introduce the following:

  • Data manipulation with pandas
  • Data visualization with Matplotlib
  • Interactive widgets

How to do it...

  1. The very first step is to import the scientific packages we will be using in this recipe, namely NumPy, pandas, and Matplotlib. We also instruct Matplotlib to render the figures as inline images in the Notebook:
    >>> import numpy as np
        import pandas as pd
        import matplotlib.pyplot as plt
        %matplotlib inline

    Tip

    We can enable high-resolution Matplotlib figures on Retina display systems with the following commands:

    from IPython.display import set_matplotlib_formats
    set_matplotlib_formats('retina')
    
  2. Now, we create a new Python variable called url that contains the address to a Comma-separated Values (CSV) data file. This standard text-based file format is used to store tabular data:
    >>> url = ("https://raw.githubusercontent.com/"
               "ipython-books/cookbook-2nd-data/"
               "master/bikes.csv")
  3. pandas defines a read_csv() function that can read any CSV file. Here, we pass the URL to the file. pandas will automatically download the file, parse it, and return a DataFrame object. We need to specify a few options to make sure that the dates are parsed correctly:
    >>> df = pd.read_csv(url, index_col='Date',
                         parse_dates=True, dayfirst=True)
  4. The df variable contains a DataFrame object, a specific pandas data structure that contains 2D tabular data. The head(n) method displays the first n rows of this table. In the Notebook, pandas displays a DataFrame object in an HTML table, as shown in the following screenshot:
    >>> df.head(2)
    How to do it...

    Here, every row contains the number of bicycles on every track of the city, for every day of the year.

  5. We can get some summary statistics of the table with the describe() method:
    >>> df.describe()
    How to do it...
  6. Let's display some figures. We will plot the daily attendance of two tracks. First, we select the two columns, Berri1 and PierDup. Then, we call the plot() method:
    >>> df[['Berri1', 'PierDup']].plot(figsize=(10, 6),
                                       style=['-', '--'],
                                       lw=2)
    How to do it...
  7. Now, we move to a slightly more advanced analysis. We will look at the attendance of all tracks as a function of the weekday. We can get the weekday easily with pandas: the index attribute of the DataFrame object contains the dates of all rows in the table. This index has a few date-related attributes, including weekday_name:
    >>> df.index.weekday_name
    Index(['Tuesday', 'Wednesday', 'Thursday', 'Friday',
           'Saturday', 'Sunday', 'Monday', 'Tuesday',
           ...
           'Friday', 'Saturday', 'Sunday', 'Monday',
           'Tuesday', 'Wednesday'],
          dtype='object', name='Date', length=261)
  8. To get the attendance as a function of the weekday, we need to group the table elements by the weekday. The groupby() method lets us do just that. We use weekday instead of weekday_name to keep the weekday order (Monday is 0, Tuesday is 1, and so on). Once grouped, we can sum all rows in every group:
    >>> df_week = df.groupby(df.index.weekday).sum()
    >>> df_week
    How to do it...
  9. We can now display this information in a figure. We create a Matplotlib figure, and we use the plot() method of DataFrame to create our plot:
    >>> fig, ax = plt.subplots(1, 1, figsize=(10, 8))
        df_week.plot(style='-o', lw=3, ax=ax)
        ax.set_xlabel('Weekday')
        # We replace the labels 0, 1, 2... by the weekday
        # names.
        ax.set_xticklabels(
            ('Monday,Tuesday,Wednesday,Thursday,'
             'Friday,Saturday,Sunday').split(','))
        ax.set_ylim(0)  # Set the bottom axis to 0.
    How to do it...
  10. Finally, let's illustrate the interactive capabilities of the Notebook. We will plot a smoothed version of the track attendance as a function of time (rolling mean). The idea is to compute the mean value in the neighborhood of any day. The larger the neighborhood, the smoother the curve. We will create an interactive slider in the Notebook to vary this parameter in real time in the plot. All we have to do is add the @interact decorator above our plotting function:
    >>> from ipywidgets import interact
        
        @interact
        def plot(n=(1, 30)):
            fig, ax = plt.subplots(1, 1, figsize=(10, 8))
            df['Berri1'].rolling(window=n).mean().plot(ax=ax)
            ax.set_ylim(0, 7000)
            plt.show()
How to do it...

How it works...

To create Matplotlib figures, it is good practice to create a Figure (fig) and one or several Axes (subplots, ax object) objects with the plt.subplots() command. The figsize keyword argument lets us specify the size of the figure, in inches. Then, we call plotting methods directly on the Axes instances. Here, for example, we set the y limits of the axis with the set_ylim() method. If there are existing plotting commands, like the plot() method provided by pandas on DataFrame instances, we can pass the relevant Axis instance with the ax keyword argument.

There's more...

pandas is the main data wrangling library in Python. Other tools and methods are generally required for more advanced analyses (signal processing, statistics, and mathematical modeling). We will cover these steps in the second part of this book, starting with Chapter 7, Statistical Data Analysis.

Here are some more references about data manipulation with pandas:

See also

  • The Introducing the multidimensional array in NumPy for fast array computations recipe
You have been reading a chapter from
IPython Interactive Computing and Visualization Cookbook - Second Edition
Published in: Jan 2018
Publisher: Packt
ISBN-13: 9781785888632
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