Difference between revisions of "Creating Maps in Jupyter Notebook using GeoPandas"

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===Note on Software Versions===
 
===Note on Software Versions===
This tutorial uses the latest versions of software available at the time of writing (December 2020). Python 3.12, and geoPandas 0.14.1. If you find updated versions of software when you try this tutorial, please note that there may be some differences in what you see in our screenshots and instructions, and what you see on your software.
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This tutorial uses the latest versions of software available at the time of writing (October 2024). Python 3.12, and geoPandas 0.14.1. If you find updated versions of software when you try this tutorial, please note that there may be some differences in what you see in our screenshots and instructions, and what you see on your software.
   
 
==Part 1: Getting Started==
 
==Part 1: Getting Started==
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Install Anaconda [https://docs.anaconda.com/anaconda/install/ here].<br>
 
Install Anaconda [https://docs.anaconda.com/anaconda/install/ here].<br>
 
Follow the images to install Anaconda then open the Anaconda Navigator and Install/Launch JupyterLab<br>
 
Follow the images to install Anaconda then open the Anaconda Navigator and Install/Launch JupyterLab<br>
[[File:Installation Step 1.png]]
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=== Step 1. ===
[[File:Installation Step 2.png]]
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[[File:Installation Step 1.png|1000px]]<br>
[[File:Installation Step 3.png]]
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=== Step 2. ===
[[File:Installation Step 4.png]]
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[[File:Installation Step 2.png|1000px]]<br>
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=== Step 3. ===
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[[File:Installation Step 3.png|1000px]]<br>
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=== Step 4. ===
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After Opening Anaconda Navigator <br>
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[[File:Installation Step 4.png|1000px]]<br>
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===Data===
 
===Data===
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All the data and code can be downloaded from this [https://drive.google.com/drive/folders/1sgWFVFYaXLO59QSRAuFco0fXgBpllPTs?usp=sharing Google Drive Link] <br>
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The download contains: <br>
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* The Jupyter Source File<br>
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* The Final Map in both PNG and PDF formats
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* The Census Area Population Data<ref>https://opendata.vancouver.ca/explore/dataset/census-local-area-profiles-2016/information/]</ref>
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* The local-area-boundary Shapefile<ref>https://opendata.vancouver.ca/explore/dataset/local-area-boundary/map/?disjunctive.name&location=13,49.2474,-123.12402</ref>
   
==Part 2: Intro to Jupyter Notebook==
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==Part 2: Opening the Code==
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Once JupyterLab is open, navigate to the downloaded folder using the file browser tab on the left side. Once inside double click on ''MappingInJupterLab.ipynb'' and follow along <br>
 
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[[File:JupyterLab File Path.png]]
Run Jupyter Notebook locally on your machine by searching for “Jupyter Notebook” in the Windows Start Menu. This will open up a terminal window that looks like Figure 2.1 below:
 
 
[[File:IntrojupyterFig4.jpg|500px]]
 
 
<small>'''Figure 2.1.''' Opening up Jupyter.</small>
 
 
It should also open up a new browser window automatically ''or'' you can use the URL provided above and copy & paste it into your browser.
 
 
Another way to open Jupyter Notebook is to use the following command in your working file directory:
 
 
''jupyter-lab''
 
 
Remember, that if you are ever running something in the command line and you want to stop running the process, ''ctrl + c'' will stop the process without having to restart your terminal.
 
 
Once opened, navigate to your working folder and Select “New” → Python 3 Notebook. This will open up a new tab where you can rename your project at the top and save.
 
 
[[File:IntrojupyterFig5.jpg|400px]]
 
 
<small>'''Figure 2.2.''' Opening a new Notebook.</small>
 
 
If you navigate back to the other tab, you will see something like the following (Figure 2.3):
 
 
[[File:IntrojupyterFig6.jpg|400px]]
 
 
<small>'''Figure 2.3.''' Overview of working folder.</small>
 
 
This shows a list of what is in your working folder. Here, we can see that the newly created notebook has been saved properly. If you navigate to the “Running” tab, you will see (Figure 2.4):
 
 
[[File:IntrojupyterFig7.jpg|400px]]
 
 
<small>'''Figure 2.4.''' Overview of the Running tab.</small>
 
 
We should have one notebook running. This tab is useful to visualize what terminals and processes are running, and manage them accordingly.
 
In the newly created notebook, we can see the top ribbon has many options (Figure 2.1). Here is a brief overview of some options you may find useful:
 
*Can change the title (“Creating Maps”)
 
*“File” has many useful options
 
*Typical new, save as, open, make a copy.
 
*The most useful feature is “Save and Checkpoint” where you can take advantage of Jupyter’s simple version controlling and then “Revert to Checkpoint”
 
*“Close and Halt” will close the notebook and halt it from running in the terminal (Note: if you open up the terminal again at any time while making changes to your notebook, you will see the changes being made locally on your machine)
 
*“Edit” and “Cell” helps move cells around, you can play around with these options or manually click and drag cells
 
*“Kernel” is important when running processes
 
*You can “Interrupt” the process (i.e if it is taking too long, or if you have noticed an error)
 
*You can “Restart and “Clear” it to get rid of any errors or outputs that may have come up
 
   
 
==Part 3: Tools and Data Organization==
 
==Part 3: Tools and Data Organization==

Latest revision as of 15:16, 4 October 2024

Introduction

Purpose

This tutorial will demonstrate how Jupyter Notebook can be used to manage and display spatial data in conjunction with Anaconda and GeoPandas. Using Jupyter Notebook in this procedure will enable you to develop your skills in scripting and automatic mapping. This workflow is accessible to users with less computational power, and data will be easier to store and manage. In the second part of this tutorial, we will show you how to display the data as a complete map (utilizing basic cartographic elements). This tutorial is designed for GIS users with some experience using graphic user interfaces, who are looking to get into using Python to streamline their workflow. The instructions and figures included in this tutorial were developed on the Windows operating system. If you are using a different operating system, your process may be slightly different.

About Jupyter

Jupyter Notebook was created by Project Jupyter, which is a collective which aims to develop open-source software in various programming languages. Jupyter Notebook specifically enables users to easily create and share code, as well as visualise data, among other uses. It is free to download and use (Jupyter, n.d.). While it runs in web browsers, it also runs locally on the user’s machine, which makes it easy to save version controls locally. Another advantage of Jupyter is that you can type code into kernels, and run those kernels individually. This will be demonstrated in the tutorial, but as a quick explanation -- the benefits to this include being able to test code easily and quickly visualize a certain data table, or in our case, create a map quickly without having to run all of the code at once.

About GeoPandas

GeoPandas is an open source library in Jupyter that builds off of pandas in Python. It is designed for users to more easily perform geospatial operations, by taking advantage of data frames in pandas, and creating spatial data frames. GeoPandas uses fiona for accessing files, Shapely objects for geometric manipulation and Matplotlib for plotting (geoPandas, n.d.).

Note on Software Versions

This tutorial uses the latest versions of software available at the time of writing (October 2024). Python 3.12, and geoPandas 0.14.1. If you find updated versions of software when you try this tutorial, please note that there may be some differences in what you see in our screenshots and instructions, and what you see on your software.

Part 1: Getting Started

Software

This tutorial will be for Windows machines. The following steps will assume that the user is on a Windows platform, and therefore if you are using any other machine, the steps may be slightly different. This tutorial also assumes that the user already has QGIS installed. If you do not have QGIS already, please go to this website to do so.

Install Anaconda

Install Anaconda here.
Follow the images to install Anaconda then open the Anaconda Navigator and Install/Launch JupyterLab

Step 1.

Installation Step 1.png

Step 2.

Installation Step 2.png

Step 3.

Installation Step 3.png

Step 4.

After Opening Anaconda Navigator
Installation Step 4.png

Data

All the data and code can be downloaded from this Google Drive Link
The download contains:

  • The Jupyter Source File
  • The Final Map in both PNG and PDF formats
  • The Census Area Population Data[1]
  • The local-area-boundary Shapefile[2]

Part 2: Opening the Code

Once JupyterLab is open, navigate to the downloaded folder using the file browser tab on the left side. Once inside double click on MappingInJupterLab.ipynb and follow along
JupyterLab File Path.png

Part 3: Tools and Data Organization

Tools

Here is the code cell that contains all the import statements that will be used in the tutorial

Import Statements.png

  • import pandas as pd:
This imports the pandas library, a powerful tool for data manipulation and analysis, particularly with tabular data (dataframes). The alias pd is commonly used for brevity.
  • import numpy as np:
This imports NumPy, a library used for numerical computations, especially with arrays and matrices. In our case we use it for the orientation of the North Arrow.
  • import matplotlib.pyplot as plt:
This imports pyplot from the matplotlib library, which is widely used for creating static, animated, and interactive visualizations in Python. The alias plt is used to simplify plotting commands.
  • import geopandas as gpd:
This imports GeoPandas, an extension of pandas that adds support for geospatial data. It simplifies working with geographical data, such as handling shapefiles and performing spatial operations.
  • import os:
This imports Python’s built-in os module, which provides functionality for interacting with the operating system, such as reading or writing files, navigating directories, and managing paths.

Importing The CSV

This is the code cell that imports the CSV file into a dataframe.
Importing CSV.png

  • Note that there is encoding='ISO-8859-1' which is required because of the CSV's file formatting, in most cases an encoding will not be necessary
  • It is always a good idea to print out the data you have just imported to make sure that it imported correct
  • the print(df.head()) will print the first 5 rows of the CSV

Converting CSV to Desired Formatting

One of the biggest strengths of using Python in your workflow is the ability to automate tasks. The CSV file contains lots of information we do not need and the columns and rows are inverted to what would be intuitive. The following cell shows all the modifications and moves that were made in order to get the Are names in one column with their matching populations in the column to the right. If you want more details on what each of the lines of code is doing read the commends in the code. Once again we are printing the result to make sure they are in the desired formatting.
Converting CSV to Desired Formatting.png

Importing The Shapefile

This cell takes the shapefile and imports it into a geodataframe. Note that we are printing the columns with print(gdf.columns) because we need to know the names of the columns we will be merging data to.
Importing Shapefile.png

Part 4: Merging

The next step is the merge the data onto the geodataframe using a common variable. In this case we will must the name columns of both data. The how='left' clarifies that we are adding the population data to the left dataset (being the shapefile)
Merging Cell.png

Part 5: Displaying

Here is the cell that displays the finalized map. There are lots of different customization options that are explained in the code comments.
Displaying2.png
We are using matplotlib which is primarily used for graphs so there are little changes that we have to make to a good map. Additionally, there is no good implementations of a north arrow so we are forced to make our own. For the vast majority of maps the north arrow will be straight up but in the odd case where it is not you will have to manually change the angle of the arrow. Right before the map is displayed there are two commented lines of code which save the final product to either a png or a pdf. This is very useful if you want to share what you have made to others.

Final Result

Population by Area in Vancouver.png