TiLDA MK3/Get Started: Difference between revisions
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= Get started | = Get started = | ||
Hacking your TiLDA badge is easy. We've written it down step by step. | Hacking your TiLDA badge is easy. We've written it down step by step. | ||
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Windows will require a driver file for the serial port, which is stored on the badge's mass storage. [https://micropython.org/resources/Micro-Python-Windows-setup.pdf More information] | Windows will require a driver file for the serial port, which is stored on the badge's mass storage. [https://micropython.org/resources/Micro-Python-Windows-setup.pdf More information] | ||
== 3. | == 3. Connect to your badge == | ||
== | === Windows === | ||
* Please follow the instruction under the "Windows" section on this page: https://docs.micropython.org/en/latest/pyboard/pyboard/tutorial/repl.html | |||
* Once you've installed the driver and Putty and you've connected to your badge, press Control+C to stop the main badge app, and then you should be greeted by a line saying "Micropython" | |||
== | === OSX === | ||
* Click the magnifying class in the top right of your screen and type <code>Terminal</code> followed by Enter. A white terminal window should appear. | |||
* type <code>screen /dev/tty.usbmodem*</code> (The * is important, so don't let it out) and hit enter | |||
* hit <code>control+c</code>, if an error is displayed | |||
* You should now be greeted by a line saying "Micropython" | |||
== 6. | === Linux === | ||
* Open a terminal and type <code>screen /dev/ttyACM0</code> | |||
* You should now be greeted by a line saying "Micropython" | |||
=== What to do if this step doesn't work? === | |||
* Press the reset button at the back of your badge and try again | |||
* Have a look at https://docs.micropython.org/en/latest/pyboard/pyboard/tutorial/repl.html for more information | |||
== 4. Your first line of Micropython == | |||
* In your terminal (next to the >>>) type <code>print(1 + 1)</code> followed by Enter | |||
* You should see <code>2</code> printed on the screen. Congratulations, you've just written your first line of micropython code! | |||
* You can now close the terminal window (or Putty, if you're on Windows). Note: some serial terminals will not close when the badge is removed or powered off. You should close the serial terminal before plugging the badge back in, otherwise the serial terminal may not reconnect. | |||
== 5. Download some software you'll need == | |||
You will be downloading some stuff now. It's probably be best if you create some folder somewhere so you don't end up with files all over your Desktop. | |||
Note you can copy files across from your computer to the badge, reset the badge and run the files though the menu, however these instructions make things a little easier. | |||
=== Windows === | |||
* Python: Go to https://www.python.org/downloads/ and download python version 3.x. After the download is finished you can install it. | |||
* Go to https://bootstrap.pypa.io/get-pip.py and save the file into your folder | |||
* Hold shift, right click on the folder on, and click "open command window here" | |||
* Now type <code>python get-pip.py</code> | |||
* After the install was successful please type <code>pip install pyserial pyusb</code> followed by Enter. | |||
* If you do not wish to install python, and would rather copy files across, the command line utility RoboCopy is recommended. For example: <code>Robocopy.exe ./my_app/ d:/apps/my_app</code> | |||
=== OSX / Linux === | |||
* Python: Open a terminal and type <code>python --version</code>. If you get a version number you're good to go, otherwise go to https://www.python.org/downloads/ and download Python version 3.x. After the download is finished you can install it. | |||
* Go to https://bootstrap.pypa.io/get-pip.py and save the file into your folder | |||
* Use a terminal to go to the folder you created ([http://www.macworld.com/article/2042378/master-the-command-line-navigating-files-and-folders.html this is how you do it]) and type <code>python get-pip.py</code> | |||
* Now type <code>python get-pip.py</code> | |||
* After the install was successful please type <code>pip install pyserial pyusb</code> followed by Enter | |||
=== Problems === | |||
* If you have problems install python, please use google, there are lots of good explanations out there | |||
* For information about how to install <code>pip</code> have a look here: https://pip.pypa.io/en/stable/installing/ | |||
== 6. (Optional) Update your badge's micropython == | |||
'You can skip this step', but since TiLDA is still a work in progress, it's best to update regularly. So why not do it now? It's easy, just follow the instructions here: [[TiLDA_MK3/Firmware_Update]] | |||
== 5. Run a whole file of code == | |||
While you can do most things via the terminal like you just did, it's a bit easier to work on a file that you can edit. So let's do that. | |||
* Go to https://raw.githubusercontent.com/emfcamp/micropython/tilda-master/tools/pyboard.py and use your browser to save it as "pyboard.py" into your newly created folder | |||
* Open a text editor. On Windows you can search for <code>Notepad</code>, on OSX there's one called <code>textedit</code> and if you're on Linux you can probably find one by searching for "edit". | |||
* Copy the following and save it as <code>test.py</code> in your folder: | |||
<source lang="python"> | |||
print(1 + 2) | |||
</source> | |||
* Open a terminal, navigate to the right folder (see step 5 for more info) | |||
** Windows: <code>python pyboard.py test.py --device=COM4</code> Replace COM4 with whatever port your badge installed as. | |||
** OSX: type <code>python pyboard.py test.py --device=/dev/tty.usbmodem*</code> | |||
** Linux: type <code>python pyboard.py test.py --device=/dev/ttyACM*</code> | |||
* You should now see the your terminal showing <code>3</code>. Your getting good at this! | |||
'''Hint''': If you don't want the home app to start every time you can create an empty <code>main.py</code> file in the USB folder. This will stop the boot from loading the home screen and allow you do run code on your badge undisturbed. But remember to "safely eject" the badge after writing the file and to remove it again when you want the normal behaviour back | |||
== 7. Blink == | == 7. Blink == | ||
So far all we've seen is the badge doing some maths and sending the result back via usb. Let's start with one of the simplest hardware device on the badge, a LED (which means "Light emitting diode") -- We want to make it blink. | |||
Create a file called <code>blink.py</code> and copy this bit of code into it: | |||
<source lang="python"> | |||
import pyb | |||
led = pyb.LED(1) | |||
led.on() | |||
pyb.delay(500) | |||
led.off() | |||
pyb.delay(500) | |||
led.on() | |||
pyb.delay(500) | |||
led.off() | |||
pyb.delay(500) | |||
led.on() | |||
</source> | |||
Save it and use a terminal to execute it (See Step 5 - but make sure to replace the filename in the command). Have a look at your badge, you should see the tiny LED labeled "A" (It's right between the B button and the screen) flash twice before and then staying on. | |||
Now, let's see what the code actually does. | |||
<source lang="python"> | |||
import pyb | |||
</source> | |||
This line tells your badge to import the "pyb" library. It allows you to do various hardware related things with your badge (the full list is [http://docs.micropython.org/en/latest/pyboard/library/pyb.html here]). This is something very important in python, you always need to import libraries before you can use them. | |||
<source lang="python"> | |||
led = pyb.LED(1) | |||
</source> | |||
This line uses the pyb module we've just imported and creates a LED object. The "<code>1</code>" means we're using the first LED on the badge. Change it to "<code>2</code>", save it and run pyboard.py again - Now the LED B should flash in green. | |||
The <code>led</code> bit before the <code>=</code> means that we're not only creating an LED object, but we're also storing it for later use. | |||
<source lang="python"> | |||
led.on() | |||
</source> | |||
Here we're using the reference to the LED object we've just created and calling the <code>.on()</code> function on it. Most python objects have multiple functions you can use. In this case you can look the them up here: http://docs.micropython.org/en/latest/pyboard/library/pyb.LED.html?highlight=led | |||
<source lang="python"> | |||
pyb.delay(500) | |||
</source> | |||
This line uses the <code>pyb.delay()</code> function to pause the execution of our program for a while. The <code>500</code> is a number in milliseconds and the code is stopping for half a second. We need this delay to give your eyes some time to see that the LED has turned on. Try playing with different numbers or leaving the line out altogether to get a feeling for it. | |||
== 8. Blink forever == | |||
Since our original <code>blink.py</code> script is only blinking twice it might be easy to miss. Let's fix this by blinking a bit longer: | |||
<source lang="python"> | |||
import pyb | |||
led = pyb.LED(1) | |||
while True: | |||
led.toggle() | |||
pyb.delay(500) | |||
</source> | |||
Be careful to make sure you're copying the spaces in front of the last two lines as well, they're very important in Python! If you want to type them you have to use the <code>Tab</code> key on your keyboard - It's normally on the left of your keyboard, two keys above the <code>Shift</code> key. | |||
Save this code and run it via <code>pyboard.py</code> again. You should now see the red LED blinking forever. So what's happening here? | |||
<source lang="python"> | |||
while True: | |||
led.toggle() | |||
pyb.delay(500) | |||
</source> | |||
This is called a "while loop" in Python. It means that a certain bit of code (the one indented by the Tab at the beginning of the line) will be repeated over and over again until a certain condition is not fulfilled anymore. In this case the condition is <code>True</code> which is the Python-way of saying "this is always correct". Therefore the loop will repeat forever. | |||
<code>led.toggle()</code> is similar to <code>led.on()</code> and <code>led.off()</code>, but instead of always turning the LED on or off it switches between the states. Very useful in our case! | |||
This kind of "infinite loop" is quite useful for a lot of badge code, but often you also want to have some way of leaving the loop. Try this instead: | |||
<source lang="python"> | |||
import pyb | |||
import buttons | |||
buttons.init() | |||
led = pyb.LED(1) | |||
while not buttons.is_pressed("BTN_MENU"): | |||
led.toggle() | |||
pyb.delay(500) | |||
</source> | |||
There are a few new things here: First we have imported a new library called <code>buttons</code>. This library helps you with all the buttons on the badge. If you want to use buttons in your script you also have to call <code>buttons.init()</code>, so that's what we're doing in line 3. | |||
We have also changed the <code>while</code> loop with a new statement <code>not buttons.is_pressed("BTN_MENU")</code>. Like I said above, <code>while</code> loops will go on forever while its condition is fulfilled. We have now changed the condition to be "while the MENU button is not pressed". | |||
Try running the code. You will again get the same blinking LED, but this time you should be able to stop it by pressing the MENU button. | |||
== 8. Hello Screen == | == 8. Hello Screen == | ||
== | Ok, now let's try to write something on the screen. TiLDA comes with a colour screen and we can use a library called UGFX to draw on it. | ||
Create a <code>main.py</code> file and put this in there: | |||
<source lang="python"> | |||
import ugfx | |||
import buttons | |||
import pyb | |||
ugfx.init() | |||
buttons.init() | |||
ugfx.clear(ugfx.YELLOW) | |||
ugfx.text(5, 5, "Hello World", ugfx.RED) | |||
ugfx.fill_circle(100, 100, 30, ugfx.GREEN) | |||
ugfx.fill_circle(200, 100, 30, ugfx.GREEN) | |||
ugfx.area(80, 150, 140, 20, ugfx.GREEN) | |||
ugfx.area(120, 170, 60, 20, ugfx.GREEN) | |||
</source> | |||
If you run this file you should see a the screen turn yellow with some text and a (very simple) smiley. | |||
If you use the screen you have to make sure you're using <code>ugfx.init()</code>, otherwise nothing will work. <code>ugfx.clear()</code> is used to clear the screen (in this case with a special colour) and the next 5 lines are drawing some text and a few basic shapes. | |||
<code>ugfx.text(x, y, text, color)</code> Prints some text at position (x, y) in a given colour. x and y are coordinates on the screen. x=0 and y=0 means the top-left of the screen and x=320 y=240 is the bottom right corner. Try changing the two numbers and see how the text moves around on the screen. | |||
<code>ugfx.fill_circle(x, y, radius, color)</code> draws a circle on the screen. | |||
<code>ugfx.area(x, y, width, height, color)</code> draws a rectangle on the screen. | |||
There are more basic drawing operations. You can find a list of them here: [[TiLDA MK3/ugfx|uGFX]] | |||
== 10. Your own app == | == 10. Your own app == | ||
Having to have your badge connected to your computer all the time is a bit boring. Let's make it an app, so you can carry it around! | |||
Update your <code>main.py</code> to look like this: | |||
<source lang="python"> | |||
### Author: Your Name | |||
### Description: Smiley! | |||
### Category: Tutorial | |||
### License: MIT | |||
### Appname : Smiley | |||
import ugfx | |||
import buttons | |||
import pyb | |||
ugfx.init() | |||
buttons.init() | |||
ugfx.clear(ugfx.YELLOW) | |||
ugfx.text(5, 5, "Hello World", ugfx.RED) | |||
ugfx.fill_circle(100, 100, 30, ugfx.GREEN) | |||
ugfx.fill_circle(200, 100, 30, ugfx.GREEN) | |||
ugfx.area(80, 150, 140, 20, ugfx.GREEN) | |||
ugfx.area(120, 170, 60, 20, ugfx.GREEN) | |||
while not buttons.is_pressed("BTN_MENU"): | |||
pyb.wfi() | |||
</source> | |||
The bit at the top is a comment, it's not actually part of the code and python ignores it. It does however help us categorise the app. Make sure you update your name :) | |||
Plug your badge in and open the USB drive. Go into the "apps" folder and create a new folder called "hello_screen". Copy your newly updated <code>main.py</code> into there and safely eject the device. If you now press the reset button at the back of your badge it will restart normally. Wait until your name appears and press the MENU button. Go all the way to the bottom right and select "View all". Now you have to press "right" until you find the "Smiley" app. Select it and press A - You should now see your smiley. | |||
== 11. Publish your app to the app library == | |||
Now that you have your own smiley app, why not share it with others? | |||
Find your main.py and create an archive of it. Most operating systems have something build in for that purpose. In OSX you can right click and select "Compress main.py", under Windows you can select "New > Zipped folder" and drag required files into the zip; under Linux you right click the files and use "Compress...". You should now have a new file called <code>main.zip</code> or similar. | |||
Go to http://api.badge.emfcamp.org/ and sign up with your email address and a password. In the top right there's a field called "Create New App" - Put "Smiley" into the field next to it and then click "Create". On the next screen click the "Choose File" button and select your <code>main.zip</code>. Now press "Upload" - and you're done! | |||
You now have to wait until we have reviewed your app to make sure it's not doing something weird and then we'll hit the "publish" button and everyone on the camp site will be able to download your newly created app to their badge. If we're not quick enough, feel free to come to the badge tent and we'll hurry the review up ;) | |||
= Alternative ways to work with TiLDA = | = Alternative ways to work with TiLDA = | ||
Line 38: | Line 255: | ||
When writing your own code, it is advised edit code on your computer, then copy it across to the badge, wait for the red 'writing' LED to go out, reset it, and run. | When writing your own code, it is advised edit code on your computer, then copy it across to the badge, wait for the red 'writing' LED to go out, reset it, and run. | ||
This way you don't need to worry about safely removing the badge each time. | This way you don't need to worry about safely removing the badge each time. | ||
To interactively run code on the badge, a python REPL can be accessed via the virtual serial port. Once you have found the serial port, use your favourite serial terminal to connect to the badge. Since the badge will be running the main software, press Ctrl+c to stop it, and the badge will display '>>>' to indicate it is ready to receive commands. | To interactively run code on the badge, a python REPL can be accessed via the virtual serial port. Once you have found the serial port, use your favourite serial terminal to connect to the badge. Since the badge will be running the main software, press Ctrl+c to stop it, and the badge will display '>>>' to indicate it is ready to receive commands. |
Latest revision as of 17:32, 30 July 2018
Get started
Hacking your TiLDA badge is easy. We've written it down step by step.
If something goes wrong, the badge can be reset to its out-of-the-box state, so do not be concerned about breaking anything.
1. Connect to your computer
To get started you need to connect your badge to a computer. You can use any MicroUSB cable - the same type that charges most mobile phones nowadays. It doesn't matter whether the batter is plugged in or not, so don't worry about it.
2. Check your badge is found by your computer
Upon connecting the badge to a computer, it should appear as a "mass storage device" just like a USB key or an external hard disk.
Important: Just like any other USB storage device, if you changed or copied anything on the Badge, please make sure to "eject" or "safely remove" before unplugging your badge or pressing the reset button. Otherwise you might lose all your work :(
Windows will require a driver file for the serial port, which is stored on the badge's mass storage. More information
3. Connect to your badge
Windows
- Please follow the instruction under the "Windows" section on this page: https://docs.micropython.org/en/latest/pyboard/pyboard/tutorial/repl.html
- Once you've installed the driver and Putty and you've connected to your badge, press Control+C to stop the main badge app, and then you should be greeted by a line saying "Micropython"
OSX
- Click the magnifying class in the top right of your screen and type
Terminal
followed by Enter. A white terminal window should appear. - type
screen /dev/tty.usbmodem*
(The * is important, so don't let it out) and hit enter - hit
control+c
, if an error is displayed - You should now be greeted by a line saying "Micropython"
Linux
- Open a terminal and type
screen /dev/ttyACM0
- You should now be greeted by a line saying "Micropython"
What to do if this step doesn't work?
- Press the reset button at the back of your badge and try again
- Have a look at https://docs.micropython.org/en/latest/pyboard/pyboard/tutorial/repl.html for more information
4. Your first line of Micropython
- In your terminal (next to the >>>) type
print(1 + 1)
followed by Enter - You should see
2
printed on the screen. Congratulations, you've just written your first line of micropython code! - You can now close the terminal window (or Putty, if you're on Windows). Note: some serial terminals will not close when the badge is removed or powered off. You should close the serial terminal before plugging the badge back in, otherwise the serial terminal may not reconnect.
5. Download some software you'll need
You will be downloading some stuff now. It's probably be best if you create some folder somewhere so you don't end up with files all over your Desktop.
Note you can copy files across from your computer to the badge, reset the badge and run the files though the menu, however these instructions make things a little easier.
Windows
- Python: Go to https://www.python.org/downloads/ and download python version 3.x. After the download is finished you can install it.
- Go to https://bootstrap.pypa.io/get-pip.py and save the file into your folder
- Hold shift, right click on the folder on, and click "open command window here"
- Now type
python get-pip.py
- After the install was successful please type
pip install pyserial pyusb
followed by Enter. - If you do not wish to install python, and would rather copy files across, the command line utility RoboCopy is recommended. For example:
Robocopy.exe ./my_app/ d:/apps/my_app
OSX / Linux
- Python: Open a terminal and type
python --version
. If you get a version number you're good to go, otherwise go to https://www.python.org/downloads/ and download Python version 3.x. After the download is finished you can install it. - Go to https://bootstrap.pypa.io/get-pip.py and save the file into your folder
- Use a terminal to go to the folder you created (this is how you do it) and type
python get-pip.py
- Now type
python get-pip.py
- After the install was successful please type
pip install pyserial pyusb
followed by Enter
Problems
- If you have problems install python, please use google, there are lots of good explanations out there
- For information about how to install
pip
have a look here: https://pip.pypa.io/en/stable/installing/
6. (Optional) Update your badge's micropython
'You can skip this step', but since TiLDA is still a work in progress, it's best to update regularly. So why not do it now? It's easy, just follow the instructions here: TiLDA_MK3/Firmware_Update
5. Run a whole file of code
While you can do most things via the terminal like you just did, it's a bit easier to work on a file that you can edit. So let's do that.
- Go to https://raw.githubusercontent.com/emfcamp/micropython/tilda-master/tools/pyboard.py and use your browser to save it as "pyboard.py" into your newly created folder
- Open a text editor. On Windows you can search for
Notepad
, on OSX there's one calledtextedit
and if you're on Linux you can probably find one by searching for "edit". - Copy the following and save it as
test.py
in your folder:
print(1 + 2)
- Open a terminal, navigate to the right folder (see step 5 for more info)
- Windows:
python pyboard.py test.py --device=COM4
Replace COM4 with whatever port your badge installed as. - OSX: type
python pyboard.py test.py --device=/dev/tty.usbmodem*
- Linux: type
python pyboard.py test.py --device=/dev/ttyACM*
- Windows:
- You should now see the your terminal showing
3
. Your getting good at this!
Hint: If you don't want the home app to start every time you can create an empty main.py
file in the USB folder. This will stop the boot from loading the home screen and allow you do run code on your badge undisturbed. But remember to "safely eject" the badge after writing the file and to remove it again when you want the normal behaviour back
7. Blink
So far all we've seen is the badge doing some maths and sending the result back via usb. Let's start with one of the simplest hardware device on the badge, a LED (which means "Light emitting diode") -- We want to make it blink.
Create a file called blink.py
and copy this bit of code into it:
import pyb
led = pyb.LED(1)
led.on()
pyb.delay(500)
led.off()
pyb.delay(500)
led.on()
pyb.delay(500)
led.off()
pyb.delay(500)
led.on()
Save it and use a terminal to execute it (See Step 5 - but make sure to replace the filename in the command). Have a look at your badge, you should see the tiny LED labeled "A" (It's right between the B button and the screen) flash twice before and then staying on.
Now, let's see what the code actually does.
import pyb
This line tells your badge to import the "pyb" library. It allows you to do various hardware related things with your badge (the full list is here). This is something very important in python, you always need to import libraries before you can use them.
led = pyb.LED(1)
This line uses the pyb module we've just imported and creates a LED object. The "1
" means we're using the first LED on the badge. Change it to "2
", save it and run pyboard.py again - Now the LED B should flash in green.
The led
bit before the =
means that we're not only creating an LED object, but we're also storing it for later use.
led.on()
Here we're using the reference to the LED object we've just created and calling the .on()
function on it. Most python objects have multiple functions you can use. In this case you can look the them up here: http://docs.micropython.org/en/latest/pyboard/library/pyb.LED.html?highlight=led
pyb.delay(500)
This line uses the pyb.delay()
function to pause the execution of our program for a while. The 500
is a number in milliseconds and the code is stopping for half a second. We need this delay to give your eyes some time to see that the LED has turned on. Try playing with different numbers or leaving the line out altogether to get a feeling for it.
8. Blink forever
Since our original blink.py
script is only blinking twice it might be easy to miss. Let's fix this by blinking a bit longer:
import pyb
led = pyb.LED(1)
while True:
led.toggle()
pyb.delay(500)
Be careful to make sure you're copying the spaces in front of the last two lines as well, they're very important in Python! If you want to type them you have to use the Tab
key on your keyboard - It's normally on the left of your keyboard, two keys above the Shift
key.
Save this code and run it via pyboard.py
again. You should now see the red LED blinking forever. So what's happening here?
while True:
led.toggle()
pyb.delay(500)
This is called a "while loop" in Python. It means that a certain bit of code (the one indented by the Tab at the beginning of the line) will be repeated over and over again until a certain condition is not fulfilled anymore. In this case the condition is True
which is the Python-way of saying "this is always correct". Therefore the loop will repeat forever.
led.toggle()
is similar to led.on()
and led.off()
, but instead of always turning the LED on or off it switches between the states. Very useful in our case!
This kind of "infinite loop" is quite useful for a lot of badge code, but often you also want to have some way of leaving the loop. Try this instead:
import pyb
import buttons
buttons.init()
led = pyb.LED(1)
while not buttons.is_pressed("BTN_MENU"):
led.toggle()
pyb.delay(500)
There are a few new things here: First we have imported a new library called buttons
. This library helps you with all the buttons on the badge. If you want to use buttons in your script you also have to call buttons.init()
, so that's what we're doing in line 3.
We have also changed the while
loop with a new statement not buttons.is_pressed("BTN_MENU")
. Like I said above, while
loops will go on forever while its condition is fulfilled. We have now changed the condition to be "while the MENU button is not pressed".
Try running the code. You will again get the same blinking LED, but this time you should be able to stop it by pressing the MENU button.
8. Hello Screen
Ok, now let's try to write something on the screen. TiLDA comes with a colour screen and we can use a library called UGFX to draw on it.
Create a main.py
file and put this in there:
import ugfx
import buttons
import pyb
ugfx.init()
buttons.init()
ugfx.clear(ugfx.YELLOW)
ugfx.text(5, 5, "Hello World", ugfx.RED)
ugfx.fill_circle(100, 100, 30, ugfx.GREEN)
ugfx.fill_circle(200, 100, 30, ugfx.GREEN)
ugfx.area(80, 150, 140, 20, ugfx.GREEN)
ugfx.area(120, 170, 60, 20, ugfx.GREEN)
If you run this file you should see a the screen turn yellow with some text and a (very simple) smiley.
If you use the screen you have to make sure you're using ugfx.init()
, otherwise nothing will work. ugfx.clear()
is used to clear the screen (in this case with a special colour) and the next 5 lines are drawing some text and a few basic shapes.
ugfx.text(x, y, text, color)
Prints some text at position (x, y) in a given colour. x and y are coordinates on the screen. x=0 and y=0 means the top-left of the screen and x=320 y=240 is the bottom right corner. Try changing the two numbers and see how the text moves around on the screen.
ugfx.fill_circle(x, y, radius, color)
draws a circle on the screen.
ugfx.area(x, y, width, height, color)
draws a rectangle on the screen.
There are more basic drawing operations. You can find a list of them here: uGFX
10. Your own app
Having to have your badge connected to your computer all the time is a bit boring. Let's make it an app, so you can carry it around!
Update your main.py
to look like this:
### Author: Your Name
### Description: Smiley!
### Category: Tutorial
### License: MIT
### Appname : Smiley
import ugfx
import buttons
import pyb
ugfx.init()
buttons.init()
ugfx.clear(ugfx.YELLOW)
ugfx.text(5, 5, "Hello World", ugfx.RED)
ugfx.fill_circle(100, 100, 30, ugfx.GREEN)
ugfx.fill_circle(200, 100, 30, ugfx.GREEN)
ugfx.area(80, 150, 140, 20, ugfx.GREEN)
ugfx.area(120, 170, 60, 20, ugfx.GREEN)
while not buttons.is_pressed("BTN_MENU"):
pyb.wfi()
The bit at the top is a comment, it's not actually part of the code and python ignores it. It does however help us categorise the app. Make sure you update your name :)
Plug your badge in and open the USB drive. Go into the "apps" folder and create a new folder called "hello_screen". Copy your newly updated main.py
into there and safely eject the device. If you now press the reset button at the back of your badge it will restart normally. Wait until your name appears and press the MENU button. Go all the way to the bottom right and select "View all". Now you have to press "right" until you find the "Smiley" app. Select it and press A - You should now see your smiley.
11. Publish your app to the app library
Now that you have your own smiley app, why not share it with others?
Find your main.py and create an archive of it. Most operating systems have something build in for that purpose. In OSX you can right click and select "Compress main.py", under Windows you can select "New > Zipped folder" and drag required files into the zip; under Linux you right click the files and use "Compress...". You should now have a new file called main.zip
or similar.
Go to http://api.badge.emfcamp.org/ and sign up with your email address and a password. In the top right there's a field called "Create New App" - Put "Smiley" into the field next to it and then click "Create". On the next screen click the "Choose File" button and select your main.zip
. Now press "Upload" - and you're done!
You now have to wait until we have reviewed your app to make sure it's not doing something weird and then we'll hit the "publish" button and everyone on the camp site will be able to download your newly created app to their badge. If we're not quick enough, feel free to come to the badge tent and we'll hurry the review up ;)
Alternative ways to work with TiLDA
All of the python code which runs on the badge can be modified on the mass storage device, and new apps can be added this way too. Be careful when using text editors to modify files on the device, if the mass storage is not 'safely removed' before removal, corruption of the file being edited can occur.
When writing your own code, it is advised edit code on your computer, then copy it across to the badge, wait for the red 'writing' LED to go out, reset it, and run. This way you don't need to worry about safely removing the badge each time.
To interactively run code on the badge, a python REPL can be accessed via the virtual serial port. Once you have found the serial port, use your favourite serial terminal to connect to the badge. Since the badge will be running the main software, press Ctrl+c to stop it, and the badge will display '>>>' to indicate it is ready to receive commands.
The badge runs micropython, and as a result does not contain everything you may expect from full python. See the micropython docs in the lniks below for more information. The badge has additional APIs, in particular for the LCD, Wifi and IMU, which are also listed below.