Saving data with timestamps: Difference between revisions
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* In python there is a special library called datetime that makes it easy to record and format dates and times. | * In python there is a special library called datetime that makes it easy to record and format dates and times. | ||
* In this lesson we will create a new program to get some experience with the datetime library before we add it back into our main program. | * In this lesson we will create a new program to get some experience with the datetime library before we add it back into our main program. | ||
== Learning Objectives == | == Learning Objectives == | ||
| Line 24: | Line 23: | ||
=== Create a new file named timestamp.py === | === Create a new file named timestamp.py === | ||
* From the Raspberry Pi main menu drop down select '''Programming > Python3 (IDLE)'''. | * From the Raspberry Pi main menu drop down select '''Programming > Python3 (IDLE)'''. | ||
[[File:Screen Shot 2021-12-26 at 6.34.54 am.png]] | |||
* This will open the Python Shell. | |||
[[File:Screen Shot 2021-12-26 at 6.35.47 am.png]] | |||
* From the '''File drop down menu''' select '''New File'''. | |||
* Add a comment to the new file - '''# timestamp.py'''. | |||
* The file name will be '''timestamp.py''' | |||
[[File:Screen Shot 2021-12-26 at 6.36.57 am.png]] | |||
* From the File dropdown menu select '''Save As'''. | |||
* Navigate to your project directory. | |||
* In this case it is '''botanica-park-lake''' | |||
* Name the file '''timestamp.py''' and click '''Save'''. | |||
[[File:Screen Shot 2021-12-26 at 6.38.07 am.png]] | |||
* Enter the following code: | |||
** '''import datetime''' – library import | |||
** '''now = datetime.datetime(now)''' – creates a new datetime object named now | |||
** '''print(now)''' – printing the now object | |||
* '''Save''' and '''Run''' the program | |||
[[File:Screen Shot 2021-12-26 at 6.39.45 am.png]] | |||
* The output in the Shell should show the year, month, day, hour, minute, second and microsecond time components. | |||
[[File:Screen Shot 2021-12-26 at 6.41.33 am.png]] | |||
=== Using the strftime() method === | |||
* When we create a '''datetime object''' (now) we have access to a method for formatting output of the date object into more readable strings. | |||
* The method that does this is '''strftime()'''. | |||
* To format the datetime object we need to use some special characters called Directives. | |||
* Each Directive has a percentage sign ('''%''') and a single upper or lower-case letter ('''a-z, A-Z'''). | |||
** '''%Y''' – full version of year – e.g. 2021 | |||
** '''%b''' – month name short version – e.g. Jan, Feb, Mar | |||
** '''%d''' – day of the month 01 to 31 – e.g. 28 | |||
** '''%H''' – hour 00 to 24 – e.g. 08 | |||
** '''%M''' – minute 00 to 59 – e.g. 48 | |||
* To use these Directives to format the date object add the following two lines of code. | |||
** '''date_stamp = now.strftime(“%Y”)''' | |||
** '''print(date_stamp)''' | |||
* The full code is included below. | |||
[[File:Screen Shot 2021-12-26 at 6.44.20 am.png]] | |||
* Save and Run the program. | |||
* There are two lines of output: | |||
** '''2021-05026 03:45:43...''' – print out of the '''now instance''' of the datetime object | |||
** '''2021''' – print out of the now datetime object formatted using the '''strftime()''' method to show the Year ('''%Y'''). | |||
[[File:Screen Shot 2021-12-26 at 6.46.09 am.png]] | |||
* We can now keep on adding Directives to achieve our own customised format for the date and time. | |||
* In this example we have added the '''short version of the month''' using the ('''%b''') Directive – e.g. Jan. | |||
* To add the full version of the month we would use the ('''%B''') Directive – e.g. January. | |||
* To represent months as numbers 01 to 12 use the ('''%m''') Directive – e.g. 01 (for January). | |||
[[File:Screen Shot 2021-12-26 at 6.47.50 am.png]] | |||
* Save and Run the program and test some options. | |||
[[File:Screen Shot 2021-12-26 at 6.48.40 am.png]] | |||
* Add the day of the month ('''%d'''). | |||
* The reason we have used this date format separated by '''hyphens (-)''', is because this style can be universally read by other python programs. | |||
* In the future we will write a program that will use the data to plot graphs. | |||
[[File:Screen Shot 2021-12-26 at 12.08.07 pm.png]] | |||
* We are interested in capturing data once every hour, so it makes sense to also record the hour and minute that the data was collected. | |||
* Update your code with the example below with the Hour ('''%H''') and Minute ('''%M''') Directives. | |||
* We have used the standard human readable format for '''Hour''' and '''Minute''', separated by a colon (''':''') – e.g. 16:24 | |||
[[File:Screen Shot 2021-12-26 at 12.09.56 pm.png]] | |||
* Using the '''strftime()''' method we can now obtain an output ('''date_stamp''' variable) that has the date and time formatted correctly for other programs to use. | |||
[[File:Screen Shot 2021-12-26 at 12.11.05 pm.png]] | |||
== Updating our main program == | |||
* When developing a large program, it is easier to break the key functions into separate modules so that they can be tested independently. | |||
* Once they are ready, they can then be merged into the main program. | |||
* We have created and tested our '''timestamp.py''' program and shown that it works. | |||
* In this example we will demonstrate how to copy sections of code into our original '''atm_sensor_get.py''' program to improve the functionality. | |||
=== Updating atm_sensor_get.py === | |||
* Now that we have created our '''timestamp.py''' program and shown that it works, we can now copy sections of code into our original '''atm_sensor_get.py''' program | |||
* In the '''timestamp.py''' program copy the import datetime line by highlighting the code, '''right-mouse button click''' and selecting '''Copy'''. | |||
[[File:Screen Shot 2021-12-26 at 12.13.30 pm.png]] | |||
* In the '''atm_sensor_get.py''' program, paste the copied code by right-mouse button clicking and selecting '''Paste'''. | |||
* Add the code just below the '''import requests''' statement. | |||
* We try to keep imports together at the top of the code. | |||
* You should see the '''import datetime''' added to your code. | |||
[[File:Screen Shot 2021-12-26 at 12.15.02 pm.png]] | |||
* Go to the timestamp.py program and '''copy the two lines of code''' highlighted below. | |||
* You may need to '''delete''' some print statements that are not longer needed. | |||
[[File:Screen Shot 2021-12-26 at 12.16.00 pm.png]] | |||
* '''Paste''' these two lines of code into the atm_sensor_get.py program, just below the import datetime statement. | |||
[[File:Screen Shot 2021-12-26 at 12.18.37 pm.png]] | |||
* Within the '''atm_sensor_get.py''' program go down to almost the bottom of the code and '''edit''' the lines to reflect the example included below. | |||
* The key changes are highlighted in yellow: | |||
** '''print(“Date_stamp, .....“)''' | |||
** '''data = date_stamp + “,” + .........''' | |||
[[File:Screen Shot 2021-12-26 at 12.20.15 pm.png]] | |||
* If you '''Save''' and '''Run''' the program you should see the following output. | |||
[[File:Screen Shot 2021-12-26 at 12.21.36 pm.png]] | |||
* In the activity that follows we will check to see that the data has been saved correctly. | |||
== Verifying that data has been saved correctly == | |||
* Our program saves data to the data.txt file in our project’s directory. | |||
* We need to check that the data has been saved correctly. | |||
* In this example we will use two techniques to verify that the data has been saved. | |||
* One method is to use the '''File Manager''' and the other method is to use the '''Terminal'''. | |||
=== Verify data using the File Manager === | |||
* Go to the top left of the Raspberry Pi Desktop and click on the '''File Manager''' icon. | |||
* The File Manager icon looks like two yellow manilla folders. | |||
[[File:Screen Shot 2021-12-26 at 12.23.31 pm.png]] | |||
* The File Manager opens up to the pi user '''home directory'''. | |||
The path to this directory is '''/home/pi''' | |||
Double click on your project directory. In this case it is '''botanica-park-lake''' | |||
[[File:Screen Shot 2021-12-26 at 12.28.44 pm.png]] | |||
* This should then open the botanica-park-lake '''directory''' where all your project files are located. | |||
[[File:Screen Shot 2021-12-26 at 12.29.42 pm.png]] | |||
* Right-mouse button click on the data.txt file and select '''Text Editor'''. | |||
* Alternatively, you can just double click on the '''data.txt file''' and it will open the default Text Editor. | |||
* The default Text Editor on the Raspberry Pi is '''Mousepad'''. | |||
[[File:Screen Shot 2021-12-26 at 12.43.28 pm.png]] | |||
* When the Text Editor opens you should be able to inspect your file. | |||
* The example below show that the new data added (always '''appended to the bottom''' of the file) includes the '''date and time'''. | |||
* If necessary, you can remove the other data entries that do not have a date and time. | |||
* Once you have finished editing your file '''Save''' the changes and '''Close''' the file. | |||
[[File:Screen Shot 2021-12-26 at 12.44.57 pm.png]] | |||
=== Verify data using the Terminal === | |||
* Go to the top of the Raspberry Pi desktop and click on the Terminal icon. | |||
* The Terminal icon looks is a '''black box''' with a command prompt ('''>_''') inside. | |||
[[File:Screen Shot 2021-12-26 at 12.46.10 pm.png]] | |||
* This will open the '''Terminal''' window. | |||
* To verify where you are in the directory tree you can enter the command '''pwd''' | |||
* pwd is short for '''Present Working Directory'''. | |||
* In this case we are in the pi user home directory '''/home/pi''' | |||
[[File:Screen Shot 2021-12-26 at 12.47.19 pm.png]] | |||
* If ever you get lost and want to get back to the /home/pi directory enter the command '''cd ~''' | |||
* The ~ symbol is called '''tilde''', pronounced [TIL] + [DAH]. | |||
[[File:Screen Shot 2021-12-26 at 12.48.30 pm.png]] | |||
* To look at the files and directories in the /home/pi directory enter the command '''ls''' | |||
* ls is short for '''List'''. | |||
[[File:Screen Shot 2021-12-26 at 12.49.39 pm.png]] | |||
* To enter the botanica-park-lake directory enter the command '''cd botanica-park-lake''' | |||
[[File:Screen Shot 2021-12-26 at 12.50.42 pm.png]] | |||
* To list all the files present, enter '''ls''' | |||
* You should be able to see the '''data.txt''' file. | |||
[[File:Screen Shot 2021-12-26 at 4.24.31 pm.png]] | |||
* Finally, to read the data.txt file enter the command '''cat data.txt''' | |||
* This will output the complete listing of the file contents. | |||
[[File:Screen Shot 2021-12-26 at 4.25.33 pm.png]] | |||
* '''Congratulations!''' In our next lesson we will learn how to automate our python program so that we can collect data every hour. | |||
Latest revision as of 22:07, 18 January 2022
Overview
- In this lesson we are going to learn how to add a date and time to our data which is sometimes called a timestamp.
- A timestamp records the current time that an event took place.
- This becomes important later when we want to graph the data that we collected.
- Computer settings are important with dates and times.
- When we initially set up our Raspberry Pi, we need to define localisation options to be Melbourne, Australia.
- The computer can then calculate our local time and even make allowances for daylight savings and atomic clock corrections.
- It is also important that the Raspberry Pi is connected to the internet so that it can re-calibrate the onboard clock.
- In python there is a special library called datetime that makes it easy to record and format dates and times.
- In this lesson we will create a new program to get some experience with the datetime library before we add it back into our main program.
Learning Objectives
- Learn how use the python datetime library.
- Learn how to update our main program with the datetime library functions.
- Learn how to verify that our data has saved correctly using the File Manager and Terminal.
Getting the current date and time
- In this example we will experiment with a new python library named datetime.
- We will demonstrate how to get the current computer time, and also learn how to format the response.
- More information on formatting the datetime output can also be obtained from W3Schools at the following URL: Python Dates (w3schools.com)
Create a new file named timestamp.py
- From the Raspberry Pi main menu drop down select Programming > Python3 (IDLE).
- This will open the Python Shell.
- From the File drop down menu select New File.
- Add a comment to the new file - # timestamp.py.
- The file name will be timestamp.py
- From the File dropdown menu select Save As.
- Navigate to your project directory.
- In this case it is botanica-park-lake
- Name the file timestamp.py and click Save.
- Enter the following code:
- import datetime – library import
- now = datetime.datetime(now) – creates a new datetime object named now
- print(now) – printing the now object
- Save and Run the program
- The output in the Shell should show the year, month, day, hour, minute, second and microsecond time components.
Using the strftime() method
- When we create a datetime object (now) we have access to a method for formatting output of the date object into more readable strings.
- The method that does this is strftime().
- To format the datetime object we need to use some special characters called Directives.
- Each Directive has a percentage sign (%) and a single upper or lower-case letter (a-z, A-Z).
- %Y – full version of year – e.g. 2021
- %b – month name short version – e.g. Jan, Feb, Mar
- %d – day of the month 01 to 31 – e.g. 28
- %H – hour 00 to 24 – e.g. 08
- %M – minute 00 to 59 – e.g. 48
- To use these Directives to format the date object add the following two lines of code.
- date_stamp = now.strftime(“%Y”)
- print(date_stamp)
- The full code is included below.
- Save and Run the program.
- There are two lines of output:
- 2021-05026 03:45:43... – print out of the now instance of the datetime object
- 2021 – print out of the now datetime object formatted using the strftime() method to show the Year (%Y).
- We can now keep on adding Directives to achieve our own customised format for the date and time.
- In this example we have added the short version of the month using the (%b) Directive – e.g. Jan.
- To add the full version of the month we would use the (%B) Directive – e.g. January.
- To represent months as numbers 01 to 12 use the (%m) Directive – e.g. 01 (for January).
- Save and Run the program and test some options.
- Add the day of the month (%d).
- The reason we have used this date format separated by hyphens (-), is because this style can be universally read by other python programs.
- In the future we will write a program that will use the data to plot graphs.
- We are interested in capturing data once every hour, so it makes sense to also record the hour and minute that the data was collected.
- Update your code with the example below with the Hour (%H) and Minute (%M) Directives.
- We have used the standard human readable format for Hour and Minute, separated by a colon (:) – e.g. 16:24
- Using the strftime() method we can now obtain an output (date_stamp variable) that has the date and time formatted correctly for other programs to use.
Updating our main program
- When developing a large program, it is easier to break the key functions into separate modules so that they can be tested independently.
- Once they are ready, they can then be merged into the main program.
- We have created and tested our timestamp.py program and shown that it works.
- In this example we will demonstrate how to copy sections of code into our original atm_sensor_get.py program to improve the functionality.
Updating atm_sensor_get.py
- Now that we have created our timestamp.py program and shown that it works, we can now copy sections of code into our original atm_sensor_get.py program
- In the timestamp.py program copy the import datetime line by highlighting the code, right-mouse button click and selecting Copy.
- In the atm_sensor_get.py program, paste the copied code by right-mouse button clicking and selecting Paste.
- Add the code just below the import requests statement.
- We try to keep imports together at the top of the code.
- You should see the import datetime added to your code.
- Go to the timestamp.py program and copy the two lines of code highlighted below.
- You may need to delete some print statements that are not longer needed.
- Paste these two lines of code into the atm_sensor_get.py program, just below the import datetime statement.
- Within the atm_sensor_get.py program go down to almost the bottom of the code and edit the lines to reflect the example included below.
- The key changes are highlighted in yellow:
- print(“Date_stamp, .....“)
- data = date_stamp + “,” + .........
- If you Save and Run the program you should see the following output.
- In the activity that follows we will check to see that the data has been saved correctly.
Verifying that data has been saved correctly
- Our program saves data to the data.txt file in our project’s directory.
- We need to check that the data has been saved correctly.
- In this example we will use two techniques to verify that the data has been saved.
- One method is to use the File Manager and the other method is to use the Terminal.
Verify data using the File Manager
- Go to the top left of the Raspberry Pi Desktop and click on the File Manager icon.
- The File Manager icon looks like two yellow manilla folders.
- The File Manager opens up to the pi user home directory.
The path to this directory is /home/pi Double click on your project directory. In this case it is botanica-park-lake
- This should then open the botanica-park-lake directory where all your project files are located.
- Right-mouse button click on the data.txt file and select Text Editor.
- Alternatively, you can just double click on the data.txt file and it will open the default Text Editor.
- The default Text Editor on the Raspberry Pi is Mousepad.
- When the Text Editor opens you should be able to inspect your file.
- The example below show that the new data added (always appended to the bottom of the file) includes the date and time.
- If necessary, you can remove the other data entries that do not have a date and time.
- Once you have finished editing your file Save the changes and Close the file.
Verify data using the Terminal
- Go to the top of the Raspberry Pi desktop and click on the Terminal icon.
- The Terminal icon looks is a black box with a command prompt (>_) inside.
- This will open the Terminal window.
- To verify where you are in the directory tree you can enter the command pwd
- pwd is short for Present Working Directory.
- In this case we are in the pi user home directory /home/pi
- If ever you get lost and want to get back to the /home/pi directory enter the command cd ~
- The ~ symbol is called tilde, pronounced [TIL] + [DAH].
- To look at the files and directories in the /home/pi directory enter the command ls
- ls is short for List.
- To enter the botanica-park-lake directory enter the command cd botanica-park-lake
- To list all the files present, enter ls
- You should be able to see the data.txt file.
- Finally, to read the data.txt file enter the command cat data.txt
- This will output the complete listing of the file contents.
- Congratulations! In our next lesson we will learn how to automate our python program so that we can collect data every hour.


























