Previously the range of MicrobitLightSensor read() was 0 - 100, this didn't align with other APIs. The new range is 0-255 which aligns with display brightness to give a more consistent overall API.
Building a project for the micro:bit using Yotta
Instead of using the online IDE, Yotta can be used to provide an equivalent offline experience. The current compilers that are available are:
1. Install Yotta
The first step is to get Yotta onto your machine, to do this follow the install guide here
Note: if you are on windows, dependencies will be missed as of 8/8/15, please use the helper script located here.
2. Fetch the example project
If your install has gone correctly, and you have all dependencies installed, the next step is to fetch the example project using the runtime from GitHub.
git clone https://github.com/lancaster-university/microbit
Note: To successfully build this project you will need access to the microbit-dal private repository, if you need access please email me at firstname.lastname@example.org.
3. Try to build
Building rarely works first time due to dependencies currently not being installed by Yotta, so the next step is to try to build.
The default yotta target you will receive when you pull the aforementioned repo is bbc-microbit-classic-armcc, you can use the following command to print your current target in Yotta:
yt target bbc-microbit-classic-armcc 0.0.5 mbed-armcc 0.0.8
If you do not have armcc installed (or don't have a license for Keil), then you will need to use GCC. To swap to the GCC target run:
yt target bbc-microbit-classic-gcc
Then you should try to build using the following command:
To build the final hex files for the micro:bit, you will need to install the srec which can be installed via brew (
brew install srecord), or you can install it manually from here.
4. Flash your micro:bit
The final step is to check your hex works.
The yotta build command will place files in
/build/<TARGET_NAME>/source. The file you will need to flash will be microbit-combined.hex. Simply drag and drop the hex.
The expected result will be that the micro:bit will scroll
BELLO! :) on its display.