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Python Geospatial Development

You're reading from   Python Geospatial Development Develop sophisticated mapping applications from scratch using Python 3 tools for geospatial development

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Product type Paperback
Published in May 2016
Publisher
ISBN-13 9781785288937
Length 446 pages
Edition 3rd Edition
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Author (1):
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Erik Westra Erik Westra
Author Profile Icon Erik Westra
Erik Westra
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Table of Contents (15) Chapters Close

Preface 1. Geospatial Development Using Python FREE CHAPTER 2. GIS 3. Python Libraries for Geospatial Development 4. Sources of Geospatial Data 5. Working with Geospatial Data in Python 6. Spatial Databases 7. Using Python and Mapnik to Generate Maps 8. Working with Spatial Data 9. Improving the DISTAL Application 10. Tools for Web-based Geospatial Development 11. Putting It All Together – a Complete Mapping System 12. ShapeEditor – Importing and Exporting Shapefiles 13. ShapeEditor – Selecting and Editing Features Index

Applications of geospatial development

Let's take a brief look at some of the more common geospatial development tasks you might encounter.

Analysing geospatial data

Imagine that you have a database containing a range of geospatial data for San Francisco. This database might include geographical features, roads, the location of prominent buildings, and other man-made features such as bridges, airports, and so on.

Such a database can be a valuable resource for answering various questions such as the following:

  • What's the longest road in Sausalito?
  • How many bridges are there in Oakland?
  • What is the total area of Golden Gate Park?
  • How far is it from Pier 39 to Coit Tower?

Many of these types of problems can be solved using tools such as the PostGIS spatially-enabled database toolkit. For example, to calculate the total area of Golden Gate Park, you might use the following SQL query:

select ST_Area(geometry) from features
  where name = "Golden Gate Park";

To calculate the distance between two locations, you first have to geocode the locations to obtain their latitude and longitude values. There are various ways to do this; one simple approach is to use a free geocoding web service such as the following:

http://nominatim.openstreetmap.org/search?format=json&q=Pier 39,San Francisco, CA

This returns (among other things) a latitude value of 37.8101274 and a longitude value of -122.4104622 for Pier 39 in San Francisco.

Note

These latitude and longitude values are in decimal degrees. If you don't know what these are, don't worry; we'll talk about decimal degrees in Chapter 2, GIS.

Similarly, we can find the location of Coit Tower in San Francisco using this query:

http://nominatim.openstreetmap.org/search?format=json&q=Coit Tower, San Francisco, CA

This returns a latitude value of 37.80237485 and a longitude value of -122.405832766082.

Now that we have the coordinates for the two desired locations, we can calculate the distance between them using the pyproj Python library:

Tip

If you want to run this example, you will need to install the pyproj library. We will look at how to do this in Chapter 3, Python Libraries for Geospatial Development.

import pyproj

lat1,long1 = (37.8101274,-122.4104622)
lat2,long2 = (37.80237485,-122.405832766082)

geod = pyproj.Geod(ellps="WGS84")
angle1,angle2,distance = geod.inv(long1, lat1, long2, lat2)

print("Distance is {:0.2f} meters".format(distance))

This prints the distance between the two points:

Distance is 952.17 meters

Note

Don't worry about the WGS84 reference at this stage; we'll look at what this means in Chapter 2, GIS.

Of course, you wouldn't normally do this sort of analysis on a one-off basis like this—it's much more common to create a Python program that will answer these sorts of questions for any desired set of data. You might, for example, create a web application that displays a menu of available calculations. One of the options in this menu might be to calculate the distance between two points; when this option is selected, the web application would prompt the user to enter the two locations, attempt to geocode them by calling an appropriate web service (and display an error message if a location couldn't be geocoded), then calculate the distance between the two points using pyproj, and finally display the results to the user.

Alternatively, if you have a database containing useful geospatial data, you could let the user select the two locations from the database rather than having them type in arbitrary location names or street addresses.

However you choose to structure it, performing calculations like this will often be a major part of your geospatial application.

Visualizing geospatial data

Imagine you wanted to see which areas of a city are typically covered by a taxi during an average working day. You might place a GPS recorder in a taxi and leave it to record the taxi's position over several days. The result would be a series of timestamps and latitude and longitude values, like this:

2010-03-21 9:15:23  -38.16614499  176.2336626
2010-03-21 9:15:27  -38.16608632  176.2335635
2010-03-21 9:15:34  -38.16604198  176.2334771
2010-03-21 9:15:39  -38.16601507  176.2333958
...

By themselves, these raw numbers tell you almost nothing. But when you display this data visually, the numbers start to make sense:

Visualizing geospatial data

Tip

Detailed steps to download the code bundle are mentioned in the Preface of this book. Please have a look.

The code bundle for the book is also hosted on GitHub at https://github.com/PacktPublishing/Python-Geospatial-Development-Third-Edition. We also have other code bundles from our rich catalog of books and videos available at https://github.com/PacktPublishing/. Check them out!

You can immediately see that the taxi tends to go along the same streets again and again, and if you draw this data as an overlay on top of a street map, you can see exactly where the taxi has been:

Visualizing geospatial data

Street map courtesy of http://openstreetmap.org

While this is a simple example, visualization is a crucial aspect of working with geospatial data. How data is displayed visually, how different data sets are overlaid, and how the user can manipulate data directly in a visual format are all going to be major topics in this book.

Creating a geospatial mash-up

The concept of a mash-up has become popular in recent years. Mash-ups are applications that combine data and functionality from more than one source. For example, a typical mash-up might collect details of houses for rent in a given city and plot the location of each rental on a map, like this:

Creating a geospatial mash-up

Image courtesy of http://housingmaps.com

The Google Maps API has been immensely popular in creating these types of mash-ups. However, Google Maps has some serious licensing and other limitations. It is not the only option, however tools such as Mapnik, OpenLayers, and MapServer, to name a few, also allow you to create mash-ups that overlay your own data onto a map.

Most of these mash-ups run as web applications across the Internet, running on a server that can be accessed by anyone who has a web browser. Sometimes, the mash-ups are private, requiring password access, but usually, they are publicly available and can be used by anyone. Indeed, many businesses (such as the housing maps site shown in the previous screen snapshot) are based on freely-available geospatial mash-ups.

You have been reading a chapter from
Python Geospatial Development - Third Edition
Published in: May 2016
Publisher:
ISBN-13: 9781785288937
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