Toggle cell line numbers in Jupyter notebook

When you are switching from a text editor to jupyter notebook environment for writing python code, you will definitely wish to see line numbers on jupyter notebook cells. And one obvious reason is that it makes it easier to trace errors as seen below.

In the script pictured above, there is an 'ElementNotVisibleException' error on line 86. If the cell line number was off, it will be very difficult to count and locate the line where the error occurred. But will line number enabled, we just scroll to the line number as seen below.

How to enable cell line numbers in Jupyter notebook

To toggle cell line numbers in Jupyter notebook, you can use two keyboard shortcuts in "Command Mode" as follow:-
1) L - to toggle line numbers
2) Shift-L - to toggles line numbers in all cells, and persist the setting



Note that the Jupyter Notebook has two different keyboard input modes.
Edit mode allows you to type code or text into a cell and is indicated by a green cell border.

Command mode binds the keyboard to notebook level commands and is indicated by a grey cell border with a blue left margin.

That is it!

How to work with Geographical APIs

Introduction
API - is the acronym for "Application Programming Interface" which basically means some sets of actions that allow interaction with some bunch of data hosted somewhere on a remote server. These interactions are commonly achieved by sending HTTP request to the server where the data resides. When such a data is related to some geographic location, then it is said you are working with a geographical API.

Imagine there is database of all elevation/heights of points around the world which you can access by providing the location's latitude and longitude. If you want to obtain an elevation of a point, you don't need to travel to that location just to get the elevation value. You will simply send a request to the API of the organization that has the database to retrieve the value.

Or on another hand, there is a database of latitude and longitude values of places around the world. If you need the latitude and longitude of a place you just send a request to with the name of that place to retrieve the latitude and longitude value. This is what the Google Geocode API does, we will see more of other APIs in the coming sections.


Who maintains Geographical API?
An API can be developed and maintained by any individual or organization. The bottom line is that you have access to some data legally and you want users to have access to them by sending HyperText Transfer Protocol (HTTP) requests. Then you will host the data on a server and define some instructions for accessing the data.

To make further clarifications, many organizations such as NASA, Google, ESRI, Mapbox, Government Organisations, etc who have access to large geographic data often have API for accessing and interacting with the data. At the time of writing, the above list are major providers of geo-data API.

There are several method available for the HTTP request, however the most commonly used once are the GET and POST methods. Others are described in the table below:-

SN	Method and Description
1	GET The GET method is used to retrieve information from the given server using a given URI. Requests using GET should only retrieve data and should have no other effect on the data.
2	HEAD Same as GET, but transfers the status line and header section only.
3	POST A POST request is used to send data to the server, for example, customer information, file upload, etc. using HTML forms.
4	PUT Replaces all current representations of the target resource with the uploaded content.
5	DELETE Removes all current representations of the target resource given by a URI.
6	CONNECT Establishes a tunnel to the server identified by a given URI.
7	OPTIONS Describes the communication options for the target resource.
8	TRACE Performs a message loop-back test along the path to the target resource.

Source: Tutorialspoint HTTP - Methods

Where to fine Geographical API?
Just about any individual or organisation that maintains a large volume of geographical data would probably has an API where such data is exposed to developer. However, there are few places to look when searching for geographical API services as listed below:-

1) Rapid API

2) ProgrammableWeb Mashup & API Directory

3) Any API

Above are few places where various APIs are listed and you can use the keywords "Geography", "Location" or "Mapping" to narrow down the search list. In few minutes, I will get some APIs from the directories for demonstration in the section below.

As you can see from each API description, there are literally hundreds of geographical API from different organizations that you can use for different kind of data exploration. You just need to know what the API can do and use it according to there terms of usage as I will explain in the next section.


How to work with Geographical API
1) The first thing is to know what kind of data you want, then head over to the API directories above and search for it availability.

2) If it is available, read and study the documentation provided for the API and use it accordingly.

3) Use any programming language to send/make the HTTP requests.


Example: Lets say we want to work with "Elevation" data across the globe in our project. Obviously we can travel all the globe to collect elevations of points locations, then what do we do? The solution lies in a API, we need an API the provide accurate elevations of places on the globe.

Let's search for such a API...

There are many API providers the can provide "Elevations", some are: Google Elevation API, Open-Elevation API, ElevationAPI.io, Bing Maps Elevations etc.

Now, we have several options to choose from. Here I am going to work with ElevationAPI.io. Lets read and study its documentation.

From the doc, you will see that to retrieve the elevation of a point you need to provied the point's latitude and longitude pair in this HTTP GET request format: 'https://elevation-api.io/api/elevation?points=(39.90974,-106.17188),(62.52417,10.02487)&key=YOUR-API-KEY-HERE'.

Further study of the API doc reveals that the API_Key is an optional parameter in the GET url. So, it means we can obtain an elevation of a point at 5km resolution like this: https://elevation-api.io/api/elevation?points=(39.90974,-106.17188)'

The output result is in JSON format and you can parse this easily in python or similar programming language or use an online tool like 'JSON Editor Online' to view the result in a friendly form.

The above concept is the same for any other type of API data you want to work with begin it: Geocode API, Distance API, Satelite Image API, IPGeolocation API, Drone UAV API, etc just to name a few.

That is it!

Documenting a python script and REST API with 'PyDoc' and 'Swagger OpenAPI Specification' respectively

Documenting a python app appropriately goes along way in communicating what the app does and what is expected of it.

In this post, I will introduce you to two tools you can easily use to create and keep appropriate documentation of your python app.

The first is the PyDoc module which is a standard documentation module in python programming language similar to PerlDoc and JavaDoc for Perl and Java programming languages respectively. With PyDoc, we can generate text and HTML pages with documentation specifics.

The second tool is the Swagger (aka OpenAPI ) which is an open-source software framework backed by a large ecosystem of tools that helps developers design, build, document, and consume RESTful Web services.

PyDoc: Documenting a python script

Pydoc is a Python documentation tool. On cmd enter this: python -m pydoc
You will see that all that the pydoc module is capable of doing as explained below....

1) pydoc <name> ...
    Show text documentation on something.  <name> may be the name of a
    Python keyword, topic, function, module, or package, or a dotted
    reference to a class or function within a module or module in a
    package.  If <name> contains a '\', it is used as the path to a
    Python source file to document. If name is 'keywords', 'topics',
    or 'modules', a listing of these things is displayed.

As an example enter: python -m pydoc pandas to see the documentation on the pandas module (note you should have already install "pandas" for you to see its documentation).

2) pydoc -k <keyword>
    Search for a keyword in the synopsis lines of all available modules.

An example to search for the keyword 'sql' is: python -m pydoc -k sql
All the keywords related to 'sql' on your python environment will be returned as seen below.

3) pydoc -p <port>
    Start an HTTP server on the given port on the local machine.  Port
    number 0 can be used to get an arbitrary unused port.

For example, python -m pydoc -p 0 started an arbitrary unused port '61281' http://localhost:61281 in my case. Yours will definitely be on a different port.

On the cmd use letter 'b' to browse and 'q' to quit/stop the HTTP server.

4) pydoc -b
    Start an HTTP server on an arbitrary unused port and open a Web browser
    to interactively browse documentation.  The -p option can be used with
    the -b option to explicitly specify the server port.

Example is: python -m pydoc -b will start the server doc automatically, it is just a handy shortcut for the above.


5) pydoc -w <name> ...
    Write out the HTML documentation for a module to a file in the current
    directory.  If <name> contains a '\', it is treated as a filename; if
    it names a directory, documentation is written for all the contents.

This enable you generate a HTML doc for a module or a script you have written. Example is: python -m pydoc -w XXX where XXX can be a module or a script file name.

This is useful if you want to share or host the doc, you simply share the resulting html file with others. Below is a written sample script I did like to document. Save it as 'testScript.py' and run the command from the folder that contains the script: python -m pydoc -w testScript

This will generate a html doc for the script that you can share with other developers as seen below. The script contains classes, methods and function with multi line comments (doc strings) in them, the html doc is generated based on those multi line comments (doc strings).

'''
Author: Umar Yusuf
Date: 2019/04/01
This python script, demonstrates how a module is documented for easy future reference.
Hope you like it!
'''

class ClassA(object):
    """Here is the docstring for ClassA"""
    def __init__(self, arg):
        super(ClassA, self).__init__()
        self.arg = arg

    def myMethod(self):
        '''A function in a class is a know as a METHOD'''
        pass
        


class ClassB(ClassA):
    """Here is the docstring for second ClassB. It inherits from ClassA"""
    def __init__(self, arg):
        super(ClassB, self).__init__()
        self.arg = arg
        

# --------------------
# These are functions since they are outside the class definition
# Python program to multiply two numbers

def multiply(a, b):
    '''
    This function takes two numbers in the form of input and multiplies them.
    It displays the multiplication as the result.
    '''
    print("Result= ", (a * b))


# functions calling
multiply(5, 2)

Recap
a) Show module's doc: python -m pydoc XXX 
b) Search for keyword: python -m pydoc -k XXX
c) Start python doc on http port: python -m pydoc -p 0
d) Shortcut for http server doc: python -m pydoc -b
e) Generates HTML file for modules or written scripts: python -m pydoc -w XXX

Connecting to a Google Sheet from Python Script

It is very common when working with data sets in python to save processed data onto a local spreadsheet file. After which you will attached and send such a file to other users in some other locations. In a situation where you want the spreadsheet file to be readily available to those users as you push in process data, then you need to share a cloud hosted spreadsheet such as 'Google Sheet'.

So, in this post I will share with you how you can use python to connect to a 'Google Sheet' located in your Google Drive and push in data right from a python script running on your local machine. This post will guide you on loading data from a local python script into cloud based spreadsheet (Google Sheet).

Let's get started...

Python Google Sheet setup instructions

1)  Configuring Google account
a)  Go to: https://console.cloud.google.com/apis/dashboard and create a new project, give it a name and open it. You can use existing project if you already created one before.

Here my project is named “PySpreadSheetExample”.

b)  Open the project and enable “Google Drive API” and “Google Sheet API” by clicking on ‘Enable API and Services’ button.

You will search for “Google Drive API” and “Google Sheet API” and click on the ‘Enable’ button for each.

Geographic Coordinates Order - Latitude Longitude OR Longitude Latitude

There is this frustrating inconsistency in working with geospatial data as to whether an array of numbers like this "9.071, 7.499" means Latitude, Longitude OR Longitude, Latitude?

I have personally wasted valuable time when am using a new GIS tool trying to figure out the right coordinate order recognized by the tool.

Obviously, some GIS platforms use Latitude, Longitude while some uses Longitude, Latitude. The question now is which is the correct coordinates order? This is an opinion with no right answer. Vocal and written geographical theory favors Latitude, Longitude. Numerical and software prefer Longitude, Latitude.

It common to describe a location as *the Latitude and Longitude of ABC is "9.071, 7.499"*, thereby mentioning Latitude first instead of the Longitude. However technically speaking mathematics, Latitude represents Y coordinate while Longitude represents X coordinate. So Latitude, Longitude implies Y, X while Longitude, Latitude is X, Y.

If you include altitude or height (Z) of ABC location the two coordinates ordering above will read: Latitude, Longitude, Height (Y, X, Z) and Longitude, Latitude, Height (X, Y, Z) respectively.

The most common ordering is XYZ - Longitude, Latitude, Height. However, if you decide to adopt YXZ - Latitude, Longitude, Height you could still be right. The most important thing is for you to know the right order you need when working with a GIS platform especially a new one you haven't used before.

As an example, Google GIS products (such google maps, google earth, etc) use the format YXZ - Latitude, Longitude, Height. ESRI ArcGIS and QGIS adopted the format XYZ - Longitude, Latitude, Height.

This coordinate "9.071, 7.499" on Google maps is the Y, X- Latitude, Longitude values of "Millennium Park (Wupa River)", if you change the order like this "7.499, 9.071" (i.e X, Y - Longitude, Latitude) it points to a different location from the intended location in this case an Unnamed Road.

Millennium Park (Wupa River) - 9.071, 7.499 (Latitude, Longitude)

Unnamed Road - 7.499, 9.071 (Longitude, Latitude)

Python split list into sub-lists based on string value

I have a list that is randomly separated by a string value, now I want to make a sub-list at each of the random string that separates the whole list.


in other words as an example, the list below is separated by ':' at random intervals. So, at each occurrence of ':', I want to make a list of those elements.

mylist = [1, 'sistani', ':', 3, ':', 7, 9, 0, 'anita', ':', 20, 8, 4, ':', 12, 5, 10, ':', 56, ':', 6, 30, 56, 'usman', ':']
mysepstring = ':'

# Split list by value - python split list into sublists based on string value
def list_splitz(baseList, sepString):    
    group = []    
    for x in baseList:
        if x != sepString:
            group.append(x)
        elif group:
            yield group
            group = []
            
print(list(list_splitz(mylist, mysepstring)))

Hope this was useful.

How to Setup Geo-tagging on photos taken by Smart Phone Camera

Today, it is very common for people to use their smart phones to take pictures of locations they visited. However, very few of them know that they can actually tag the pictures with the latitude, longitude and altitude of the places.

In this post, I will show you how enable GPS on your smart phone so that the pictures you snap with the camera adds geo data (latitude, longitude and altitude) to the photos.

This feature is mostly disabled by default on most smart phones. There will be different ways to enable the feature on different phones, here I will use android device for my demonstration.

Android users follow these steps:

Step 1: Go to your phone "Settings".

Step 2: Under personal group of settings icons, select "Location" and turn it on.

Step 3: Now that you got your phone location sensor on, open you camera and select the option button. There you will find "GPS Location Info", turn it on if it is off.

Any picture you take with these settings above properly enabled, will link that picture with GPS coordinate of the location.

Geocoding and Reverse Geocoding with Python

Disclaimer: I originally submitted this article to DataCamp on "Jan 27, 2018". Since they didn't publish it on the platform, I have decided to do it here so that someone out there will find it useful.

Download the original files in HTML and Jupyter Notebook formats

DataCamp Tutorial - Geocoding and Reverse Geocoding with Python

The increasing use of location-aware data and technologies that are able to give directions relative to location and access geographically aware data has given rise to category of data scientists with strong knowledge of geospatial data - Geo-data Scientists.

In this tutorial, you will discover how to use PYTHON to carry out geocoding task. Specifically, you will learn to use GeoPy, Pandas and Folium PYTHON libraries to complete geocoding tasks. Because this is a geocoding tutorial, the article will cover more of GeoPy than Pandas. If you are not familiar with Pandas, you should definitely consider studying the Pandas Tutorial by Karlijn Willems so also this Pandas cheat sheet will be handy to your learning.

Tutorial Overview

• What is Geocoding?
• Geocoding with Python
• Putting it all together – Bulk Geocoding
• Accuracy of the Result
• Mapping Geocoding Result
• Conclusion

What is Geocoding?

A very common task faced by Geo-data Scientist is the conversion of physical human-readable addresses of places into latitude and longitude geographical coordinates. This process is known as “Geocoding” while the reverse case (that is converting latitude and longitude coordinates into physical addresses) is known as “Reverse Geocoding”. To clarify this explanation, here is an example using the datacamp USA office address:-

Geocoding: is converting an address like “Empire State Building 350 5th Ave, Floor 77 New York, NY 10118” to “latitude 40.7484284, longitude -73.9856546”.

Reverse Geocoding: is converting “latitude 40.7484284, longitude -73.9856546” to address “Empire State Building 350 5th Ave, Floor 77 New York, NY 10118”.

Now that you have seen how to do forward and reverse geocoding manually, let’s see how it can be done programmatically in PYTHON on larger dataset by calling some APIs.

Amazon EC2 - Using SFTP to download or upload files

In this post you will learn how to upload/download files to/from Amazon EC2 Instance using FileZilla and SFTP.

SFTP stands for: Secure Shell (SSH) File Transfer Protocol or Secure File Transfer Protocol.

Step 1:

The very first step is to download your AWS console key file in .pem and convert it to .ppk file.

The key file you download from AWS console will be a .pem file and filezilla doesn't read such a file. So you need to convert it to .ppk file. You can use PuttyGen (puttygen.exe) for this conversion from .pem to .ppk.

Step 2:
Download and install FileZilla client from here Download FileZilla.

Step 3:
Now, launch FileZilla and add your .ppk key file of your AWS instance for public key authentication as follow;

~ Go to Edit >> Settings

~ On the Settings dialog box, under 'Connection', select 'SFTP' then click on 'Add Key File...'. Navigate to where you saved your converted .ppk key file and upload it. Then click on 'Ok' button.

Step 4:
Lets login to the server. Go to File >> Site Manager

Step 5:
Click on 'New Site' button, under 'General' tab select 'SFTP' as the protocol and insert your instance username and password. Finally click on "Connect" button.

Host name is something like: ec2-21-xx-xx-xxx.compute-1.amazonaws.com
Username is: ec2-user
Password is optional.

You should now be connected as seen on the status...

Step 6:
You can now navigate your local site folders on the right side pane and upload to the remote site folder on the left pane. Similarly for the downloading of files.

Note: the files which are owned by root cannot be uploaded and downloaded. You will get permission denied error when you try to download a file owned by root.

So, if you want to download those files, you will use PuTTY to SSH into the machine and change the owner of that file to the normal user using the following command.

sudo chown user:user /folder/file

Replace "user:user" with the appropriate root user name.



That is it!
I hope you find it useful.

Python Programming for GIS Data Processing in QGIS

Python is a general purpose programming language that has a strong presence in the GIS industry as many house hold software such as ArcGIS and QGIS do expose their interfaces through python scripting.

Broadly speaking, python can be used for any of the following:-
1~ Scripting and Automation
2~ Web Development
3~ Data Science — including Machine Learning, Deep Learning, Data Analysis, and Data Visualization
4~ Embedded Applications - Hardware Programming
5~ Gaming
6~ Desktop Applications
7~ Network Programming

Here our focus will be to use python to automate GIS processes via well packaged video series as seen below. Python is excellent tool for doing GIS data wrangling, data manipulation and analysis processes. That is exactly what I set out to teach you in this video series.... By the end of the tutorial, you should be able to use python to:-

• Extend the capabilities of mapping applications
• Build a GIS workflow
• Automate redundant tasks
• Integrate maps or spatial data into other applications
• Build your own applications

Let's get our hand dirty manipulating GIS data with python starting with the basics off cause 😊.

Video 1: Getting Started Setting up working environment





Video 2: Writing and executing code





Video 3: How to Install Third-party Python Modules in QGIS 3.x





Video 4: Python Implementations, Comment, Variable, Interactive Help





Video 5: Python Data Types - Part 1





Video 6: Python Data Types - Part 2




Video 7: Python Data Types - Part 3


Coming soon...