Historical materialist fork of the Arduino based BreadBoy via the Arduboy Community Forum a non-soldering DIY breadboard based arduino gameboy based on the Arduboy.
It is a handheld version of the Mikroskopisk PacMan project and an experiment in the field of biotic gaming and part of ongoing playful natureculture experiments in critical making inspired by Science and Technology Studies, ArcadeDeBruno
We use the Slimboy Arduboy2 fork to make a resource constrained platform for experimenting with handheld microscopic inter-species gaming using Prakash Labs DIY paper Foldscope. Combined with the scientific craft practices of microbiologist and engineer Alexandre Benedetto's PDMS microfluidic techniques, which we explore in the Lab From A Chip kit which the Breadboy is compatible with. Games on the platform allow graphics to interact with Euglena gracilis a ubiquitous light sensitive photosynthesising algae in microfluidic environments made from impressions of old vinyl record grooves. The default game to play is Conways Game Of Life
SourdoughBreadboy is a speculative handheld gaming platform for a variety of slide based microbiological experiments for learning;
- Simple protist protest environments
- Identifying and counting yeast
- DIY PDMS moulded environments from domestic 'capitalist ruins', ie old electronics and utensils and contribute to a social media based community of moulders
- Arduboy 2 SlimBoy
- Arduino Nano
- 128 x 64 I2C LCD screen
- 4 x Microbreadboards
- 3 x 220 Ohm Resistors
- 1 x 10K Ohm Resistor
- Piezo mic/speaker
- jumper wires and 6 breadboard headers
- USB A to USB
- Lab From A Chip Kit
- Foldscope
- Standard Microscope Slide
- Micro petri dish
- Tweezers
- PDMS mix and hardener
- Conways Game Of Life
- MrBlinky Homemade Package
- Arduboy Life
- Arduboy 2: Alternative Library Life uses
- Arduboy Original
- Handy Pin notes for doing SPI with Milecastles screens
Map out the energy toxicity matrix so we trace the complete carbon cost of your build using the Materials Energy Toxicity Matrix developed at OMGCLIMATE 2019. We found this via @mrchrisadams excellent talk on Reducing Carbon In the Digital Realm at Maintenance Festival 2019 in Liverpool
This is a port of the original Arduboy2 code to the simpler and cheaper Arduino Nano and an I²C display.
The SLIMBOY setup has a few limitations over the original solution:
- The I²C connection is slower than SPI and the framerate slightly suffers on some games. The current setup has been optimized for speed and runs nearly as smooth as the SPI version
- The Atmega328 on the Arduino Nano has some limitations over the Atmega32u4 of the original Arduboy
- It has fewer timers and thus some custom sound libraries won't work 100%
- It has 500 bytes less ram
- It has less PWM pins and thus the green LED cannot be dimmed
These limitations only have a very minor impact on the usability and games like ShadowRunner just run fine on the SLIMBOY.
Several sound libraries exist for the Arduboy. Some of them have also been ported the the Nano:
- Matching port of ArduboyTones
- Matching port of ATMlib
- ArduBreakout
- ArduboyLife
- Shadow-Runner
- VIRUS-LQP-79
- Pinball
- Nineteen43
The Arduboy2 library is maintained in a git repository hosted on GitHub
The Arduboy2 library is a fork of the Arduboy library, which provides a standard application programming interface (API) to the display, buttons and other hardware of the Arduino based Arduboy miniature game system.
The name Arduboy2 doesn't indicate that it's for a new "next generation" of the Arduboy hardware. The name was changed so it can coexist in the Arduino IDE with the current Arduboy library, without conflict. This way, existing sketches can continue to use the Arduboy library and class, without changes, while new sketches can be written (or old ones modified) to use and take advantage of the capabilities of the Arduboy2 class and library.
For notes on the differences between the Arduboy2 library and the original Arduboy library, and for information on migrating a sketch currently using the Arduboy library, see the sections at the end of this document.
Comments in the library header files are formatted for the Doxygen document generation system. The HTML files generated using the configuration file extras/Doxyfile can be found at:
https://MLXXXp.github.io/documents/Arduino/libraries/Arduboy2/Doxygen/html/index.html
A generated PDF file can be found at:
https://MLXXXp.github.io/documents/Arduino/libraries/Arduboy2/Doxygen/pdf/Arduboy2.pdf
Easiest method is to install Arduino and git
Then go to your Arduino Sketchbook folder location and the libraries
folder inside
cd path/to/my/Arduino/Sketchbook/Folder/libraries
Run git clone https://github.com/harbaum/Arduboy2.git
The restart your Arduino programme and the Arduboy2 examples will appear in File/Examples/Examples From Custom Libraries
Connect the Arduino Micro by usb; find the port in the Arduino Tools
menu
Then select the Aruduino Nano board and check it compiles ok. Then upload to the board and check the buttons work.
The Arduboy2 library can also be installed using the Arduino IDE Library Manager but use the slimboy library you can download as a zip from harbaum
- In the Arduino IDE select from the menus:
Sketch > Include Library > Manage Libraries...
- In the Library Manager Filter your search... field enter arduboy2.
- Click somewhere within the Arduboy2 entry.
- Click on the Install button.
For more library installation information see
Installing Additional Arduino Libraries - Using the Library Manager
Again go to your Arduino Sketchbook folder location but don't enter the libraries directory
cd path/to/my/Arduino/Sketchbook/Folder/
Run git clone https://github.com/MLXXXp/ArduboyLife.git
The restart your Arduino programme and the ArduboyLife game will be available in File/Sketchbook
in the Arduino software.
The begin() function, used to initialize the library, includes features that are intended to be available to all sketches using the library (unless the sketch developer has chosen to disable one or more of them to free up some code space):
At the start of the sketch, the ARDUBOY logo scrolls down from the top of the screen to the center.
The RGB LED lights red then green then blue while the logo is scrolling. (If your Arduboy is one of those that has the RGB LED installed incorrectly, then it will light blue then off then red). For users who do not wish to have the RGB LED flash during the boot logo sequence, a flag can be set in system EEPROM to have it remain off. The included SetSystemEEPROM example sketch can be used to set this flag.
A user settable unit name of up to 6 characters can be saved in system EEPROM memory. If set, this name will be briefly displayed at the bottom of the boot logo screen, after the logo stops scrolling down. This feature is only available if the Arduboy2 class is used, not the Arduboy2Base class. This is because it requires the text display functions, which are only available in the Arduboy2 class. A flag in system EEPROM controls whether or not the unit name is displayed on the boot logo screen, regardless of whether the unit name itself has been set. The included SetSystemEEPROM example sketch can be used to set both the unit name and this flag.
Once the logo display sequence completes, the sketch continues.
For developers who wish to quickly begin testing, or impatient users who want to go strait to playing their game, the boot logo sequence can be bypassed by holding the RIGHT button while powering up, and then releasing it. Alternatively, the RIGHT button can be pressed while the logo is scrolling down.
For users who wish to always disable the displaying of the boot logo sequence on boot up, a flag in system EEPROM is available for this. The included SetSystemEEPROM example sketch can be used to set this flag.
If the UP button is pressed and held when the Arduboy is powered on, it enters flashlight mode. This turns the RGB LED fully on, and all the pixels of the screen are lit, resulting in a bright white light suitable as a small flashlight. (For an incorrect RGB LED, only the screen will light). To exit flashlight mode the Arduboy must be restarted.
Flashlight mode is also sometimes useful to allow uploading of new sketches, in case the sketch currently loaded uses a large amount of RAM which creates a bootloader problem.
Pressing and holding the B button when powering on will enter System Control mode. The RGB LED will light blue (red for an incorrect LED) to indicate that you are in system control mode. You must continue to hold the B button to remain in this mode. The only system control function currently implemented is audio mute control.
Pressing the UP button (while still holding B) will set a flag in system EEPROM indicating audio enabled. The RGB LED will flash green once (off for an incorrect LED) to indicate this action.
Pressing the DOWN button (while still holding B) will set the flag to audio disabled (muted). The RGB LED will flash red once (blue for an incorrect LED) to indicate this action.
Releasing the B button will exit system control mode and the sketch will continue.
Note that the audio control feature only sets a flag in EEPROM. Whatever code actually produces the sound must use the audio.enabled() function to check and honor the mute state. Audio libraries written with the Arduboy system in mind, such as the available ArduboyPlaytune and ArduboyTones, should do this. However, be aware that for some sketches, which don't use the Arduboy2 or other compliant library and generate sounds in their own way, this method of muting sound may not work.
As with most libraries, to use Arduboy2 in your sketch you must include its header file at the start:
#include <Arduboy2.h>
You must then create an Arduboy2 class object:
Arduboy2 arduboy;
Naming the object arduboy has become somewhat of a standard, but you can use a different name if you wish.
To initialize the library, you must call its begin() function. This is usually done at the start of the sketch's setup() function:
void setup()
{
arduboy.begin();
// more setup code follows, if required
}
The rest of the Arduboy2 functions will now be available for use.
If you wish to use the Sprites class functions you must create a Sprites object:
Sprites sprites;
Sample sketches have been included with the library as examples of how to use it. To load an example, for examination and uploading to the Arduboy, using the Arduino IDE menus select:
File > Examples > Arduboy2
More information on writing sketches for the Arduboy can be found in the Arduboy Community Forum.
The Arduboy2 library reserves an area at the start of EEPROM for storing system information, such as the current audio mute state and the Unit Name and Unit ID. A sketch must not use this reserved area for its own purposes. A sketch may use any EEPROM past this reserved area. The first EEPROM address available for sketch use is given as the defined value EEPROM_STORAGE_SPACE_START
The library includes an Arduboy2Audio class. This class provides functions to enable and disable (mute) sound and also save the current mute state so that it remains in effect over power cycles and after loading a different sketch. It doesn't contain anything to actually produce sound.
The Arduboy2Base class, and thus the Arduboy2 class, creates an Arduboy2Audio class object named audio, so a sketch doesn't need to create its own Arduboy2Audio object.
Example:
#include <Arduboy2.h>
Arduboy2 arduboy;
// Arduboy2Audio functions can be called as follows:
arduboy.audio.on();
arduboy.audio.off();
The BeepPin1 and BeepPin2 classes are available to generate simple square wave tones using speaker pin 1 and speaker pin 2 respectively. These classes are documented in file Arduboy2Beep.h. Also, BeepDemo is included as one of the example sketches, which demonstrates basic use.
NOTE: These functions will not work with a DevKit Arduboy because the speaker pins used cannot be directly controlled by a timer/counter. "Dummy" functions are provided so a sketch will compile and work properly but no sound will be produced.
If all you want is to play single tones, using the built in BeepPin1 or BeepPin2 classes will be very efficient.
If you want to be able to play sequences of tones or background music, using the ArduboyTones library will be more code efficient than using ArduboyPlaytune or most other sound libraries compatible with the Arduboy. ArduboyTones even produces less code than the Arduino built in tone() function. You'll have to decide on the appropriate library or functions you use to generate sound, based on the features required and how much memory you want it to use.
If your sketch doesn't use any of the functions for displaying text, such as setCursor() and print(), you can remove them. You could do this if your sketch generates whatever text it requires by some other means. Removing the text functions frees up code by not including the font table and some code that is always pulled in by inheriting the Arduino Print class.
To eliminate text capability in your sketch, when creating the library object simply use the Arduboy2Base class instead of Arduboy2:
For example, if the object will be named arduboy:
Replace
Arduboy2 arduboy;
with
Arduboy2Base arduboy;
As previously described, the begin() function includes features that are intended to be available to all sketches during boot up. However, if you're looking to gain some code space, you can call boot() instead of begin(). This will initialize the system but not include any of the extra boot up features. If desired, you can then add back in any of these features by calling the functions that perform them. You will have to trade off between the desirability of having a feature and how much memory you can recover by not including it.
A good way to use boot() instead of begin() is to copy the code from the body of the begin() function, in file Arduboy2.cpp, into your sketch and then edit it to retain the boot() call and any feature calls desired.
As of this writing, the begin function is:
void Arduboy2Base::begin()
{
boot(); // raw hardware
display(); // blank the display (sBuffer is global, so cleared automatically)
flashlight(); // light the RGB LED and screen if UP button is being held.
// check for and handle buttons held during start up for system control
systemButtons();
audio.begin();
bootLogo();
waitNoButtons(); // wait for all buttons to be released
}
To incorporate it into your sketch just keep boot() and whatever feature calls are desired, if any. Comment out or delete the rest. Remember to add the class object name in front of each function call, since they're now being called from outside the class itself. If your sketch uses sound, it's a good idea to keep the call to audio.begin().
For example: Let's say a sketch has its own code to enable, disable and save the audio on/off setting, and wants to keep the flashlight function. In setup() it could replace begin() with:
arduboy.boot(); // raw hardware
// *** This particular sketch clears the display soon, so it doesn't need this:
// display(); // blank the display (sBuffer is global, so cleared automatically)
arduboy.flashlight(); // light the RGB LED and screen if UP button is being held.
// check for and handle buttons held during start up for system control
// systemButtons();
arduboy.audio.begin();
// bootLogo();
// waitNoButtons(); // wait for all buttons to be released
This saves whatever code display(), systemButtons(), bootLogo() and waitNoButtons() would use.
There are a few functions provided that are roughly equivalent to the standard functions used by begin() but which use less code space.
- bootLogoCompressed(), bootLogoSpritesSelfMasked(), bootLogoSpritesOverwrite(), bootLogoSpritesBSelfMasked() and bootLogoSpritesBOverwrite() will do the same as bootLogo() but will use drawCompressed(), or Sprites / SpritesB class drawSelfMasked() or drawOverwrite() functions respectively, instead of drawBitmask(), to render the logo. If the sketch uses one of these functions, then using the boot logo function that also uses it may reduce code size. It's best to try each of them to see which one produces the smallest size.
- bootLogoText() can be used in place bootLogo() in the case where the sketch uses text functions. It renders the logo as text instead of as a bitmap (so doesn't look as good).
- safeMode() can be used in place of flashlight() for cases where it's needed to allow uploading a new sketch when the bootloader "magic key" problem is an issue. It only lights the red RGB LED, so you don't get the bright light that is the primary purpose of flashlight().
The SpritesB class has functions identical to the Sprites class. The difference is that SpritesB is optimized for small code size rather than execution speed. If you want to use the sprites functions, and the slower speed of SpritesB doesn't affect your sketch, you may be able to use it to gain some code space.
Even if the speed is acceptable when using SpritesB, you should still try using Sprites. In some cases Sprites will produce less code than SpritesB, notably when only one of the functions is used.
You can easily switch between using Sprites or SpritesB by using one or the other to create an object instance:
Sprites sprites; // Use this to optimize for execution speed
SpritesB sprites; // Use this to (likely) optimize for code size
Warning: Although this will free up a fair amount of code and some RAM space, without an active USB interface uploader programs will be unable to automatically force a reset to invoke the bootloader. This means the user will have to manually initiate a reset in order to upload a new sketch. This can be an inconvenience or even frustrating for a user, due to the fact that timing the sequence can sometimes be tricky. Therefore, using this technique should be considered as a last resort. If it is used, the sketch documentation should state clearly what will be involved to upload a new sketch.
The ARDUBOY_NO_USB macro is used to eliminate the USB code. The exitToBootloader() function is available to make it easier for a user to invoke the bootloader. For more details, see the documentation provided for these.
A main goal of Arduboy2 is to provide ways in which more code space can be freed for use by large sketches. Another goal is to allow methods other than the tunes functions to be used to produce sounds. Arduboy2 remains substantially compatible with Arduboy library V1.1, which was the latest stable release at the time of the fork. Arduboy2 is based on the code targeted for Arduboy library V1.2, which was still in development and unreleased at the time it was forked.
Main differences between Arduboy2 and Arduboy V1.1 are:
- The ArduboyTunes subclass, which provided the tunes.xxx() functions, has been removed. It's functionality is available in a separate ArduboyPlaytune library. By removing these functions, more code space may become available because interrupt routines and other support code was being compiled in even if a sketch didn't make use them. Another benefit is that without the automatic installation of timer interrupt service routines, other audio generating functions and libraries, that need access to the same interrupts, can now be used. Removal of the tunes functions is the main API incompatibility with Arduboy V1.1. Sketches written to use tunes functions will need some minor modifications in order to make them work with Arduboy2 plus ArduboyPlaytune, ArduboyTones, or some other audio library.
- Arduboy library V1.1 uses timer 1 for the tunes functions. This causes problems when attempting to control the Arduboy's RGB LED using PWM, such as with setRGBled(), because it also requires timer 1. Since the tunes functionality has been removed from Arduboy2, there are no problems with using the RGB LED (except those caused by the RGB LED being incorrectly installed). Of course, using an external library that uses timer 1, such as ArduboyPlaytune, may reintroduce the problems. However, using a library that doesn't use timer 1, such as ArduboyTones, is now an option.
- The code to generate text output, using setCursor(), print(), etc., can be removed to free up code space, if a sketch doesn't use any text functions. The Arduboy2 class includes the text functions but using the Arduboy2Base class instead will eliminate them. With text functions included, the font table and some support functions are always compiled in even if not used. The API for using text functions is the same as Arduboy V1.1 with some additional functions added:
- setTextColor() and setTextBackground() allow for printing black text on a white background.
- getCursorX() and getCursorY() allow for determining the current text cursor position.
- The clear() function will now reset the text cursor to home position 0, 0.
- A new feature has been added which allows the audio on/off flag in system EEPROM to be configured by the user when the sketch starts. The flag is used by the Arduboy and Arduboy2 audio subclass, along with external sound functions and libraries, to provide a standardized sound mute capability. See the information above, under the heading Audio mute control, for more details.
- The color parameter, which is the last parameter for most of the drawing functions, has been made optional and will default to WHITE if not included in the call. This doesn't save any code but has been added as a convenience, since most drawing functions are called with WHITE specified.
- A new function digitalWriteRGB() has been added to control the RGB LED digitally instead of using PWM. This uses less code if just turning the RGB LEDs fully on or off is all that's required.
- The beginNoLogo() function is not included. This function could be used in Arduboy V1.1 in place of begin() to suppress the displaying of the ARDUBOY logo and thus free up the code that it required. Instead, Arduboy2 allows a sketch to call boot() and then add in any extra features that begin() provides by calling their functions directly after boot(), if desired.
- The ArduboyCore and ArduboyAudio base classes, previously only available to, and used to derive, the Arduboy class, have been made publicly available for the benefit of developers who may wish to use them as the base of an entirely new library. This change doesn't affect the existing API.
As of version 2.1.0 functionality from the Team A.R.G. Arglib library has been added:
- The sprite drawing functions, collision detection functions, and button handling functions that Team A.R.G. incorporated from the ArduboyExtra project. The poll() function was renamed pollButtons() for clarity. The Sprites class doesn't require a parameter for the constructor, whereas in Arglib a pointer to an Arduboy class object is required.
- The drawCompressed() function, which allows compressed bitmaps to be drawn. Saving bitmaps in compressed form may reduce overall sketch size.
Team A.R.G. has now migrated all of their games and demos to use the Arduboy2 library.
Since the Arduboy2 library can coexist in the Arduino IDE alongside the Arduboy library V1.1, a currently working sketch that uses Arduboy V1.1 doesn't have to be migrated to Arduboy2. However, if you want to switch a sketch to Arduboy2 for further development, in order to take advantage of any of the changes and enhancements, it's generally relatively easy.
The Arduboy2 library, for the most part, is compatible with Arduboy library V1.1 but migrating a sketch to Arduboy2 will require some small changes, and more so if it uses the tunes functions, such as tunes.tone() or tunes.playScore().
The first thing to do is change the include
for the library header file:
#include <Arduboy.h>
becomes
#include <Arduboy2.h>
If it was "Arduboy.h" (in quotes), it's still better to change it to <Arduboy2.h> (in angle brackets).
The same thing has to be done with creating the library object. (If the object name isn't arduboy, keep whatever name is used.):
Arduboy arduboy;
becomes
Arduboy2 arduboy;
If the sketch doesn't use any tunes functions, there's a good chance this is all that has to be done to make it compile.
If the sketch has sound but only uses tunes.tone(), solutions are:
An easy change is to use the Arduino built in tone() function. You can add a function to the sketch that wraps tone() so that it works like tunes.tone(), like so:
// Wrap the Arduino tone() function so that the pin doesn't have to be
// specified each time. Also, don't play if audio is set to off.
void playTone(unsigned int frequency, unsigned long duration)
{
if (arduboy.audio.enabled() == true)
{
tone(PIN_SPEAKER_1, frequency, duration);
}
}
You then change all tunes.tone() calls to playTone() calls using the same parameter values. For example:
arduboy.tunes.tone(1000, 250);
becomes
playTone(1000, 250);
Changing to the ArduboyTones library is slightly more complicated. The advantage is that it will generate less code than using tone() and will also allow you to easily enhance the sketch to play tone sequences instead of just single tones. ArduboyTones can also play each tone at either normal or a higher volume.
You have to add an include for the ArduboyTones header file:
#include <ArduboyTones.h>
You then have to create an object for the ArduboyTones class and pass it a pointer to the Arduboy2 audio.enabled() function. This must go after the creation of the Arduboy2 object, like so:
Arduboy2 arduboy;
ArduboyTones sound(arduboy.audio.enabled);
You then change all Arduboy tunes.tone() calls to ArduboyTones tone() calls using the same parameter values. For example:
arduboy.tunes.tone(1000, 250);
becomes
sound.tone(1000, 250);
See the ArduboyTones README file for more information on installing and using it.
See the following for how to do this:
If the sketch uses tunes.playScore(), probably the easiest solution is to use the ArduboyPlaytune library. ArduboyPlaytune is essentially the code that was in the Arduboy V1.1 tunes subclass, which has been removed from Arduboy2. It's been cleaned up and a few enhancements have been added, but all the Arduboy V1.1 tunes functions are available.
You have to add an include for the ArduboyPlaytune header file:
#include <ArduboyPlaytune.h>
You then have to create an object for the ArduboyPlaytune class and pass it a pointer to the Arduboy2 audio.enabled() function. This must go after the creation of the Arduboy2 object, like so:
Arduboy2 arduboy;
ArduboyPlaytune tunes(arduboy.audio.enabled);
The sound channels must then be initialzed and assigned to the speaker pins. This code would go in the setup() function:
// audio setup
tunes.initChannel(PIN_SPEAKER_1);
#ifndef AB_DEVKIT
// if not a DevKit
tunes.initChannel(PIN_SPEAKER_2);
#else
// if it's a DevKit
tunes.initChannel(PIN_SPEAKER_1); // use the same pin for both channels
tunes.toneMutesScore(true); // mute the score when a tone is sounding
#endif
If you name the ArduboyPlaytune object tunes as shown above, then you just have to remove the Arduboy object name from any tunes calls. For example:
arduboy.tunes.playScore(mySong);
becomes
tunes.playScore(mySong);
See the ArduboyPlaytune library documentation for more information.
If you don't need to play scores containing two parts, and don't require tones to be played in parallel with a score that's playing, then as an alternative to using ArduboyPlaytune you may wish to consider switching to ArduboyTones. This may require a bit of work because any ArduboyPlaytune scores would have to be converted to ArduboyTones format. It would involve changing note numbers to frequencies. This could be simplified by using the provided NOTE_ defines. Also, durations would have to be converted, including adding silent "rest" tones as necessary.
The benefit of using ArduboyTones would be reduced code size and possibly easier addition of new sequences without the need of a MIDI to Playtune format converter.
The beginNoLogo() function has been removed. Instead, boot() can be used with additional functions following it to add back in desired boot functionality. See the information above, under the heading Remove boot up features, for more details. Assuming the object is named arduboy, a direct replacement for beginNoLogo() would be:
arduboy.boot();
arduboy.display();
arduboy.flashlight();
arduboy.audio.begin();