- PlatfromIO: This project is build around PlatfromIO and its toolchain
- Python: The project use python to enable pre-scripts and code Generation
- Python cogapp: code generation inside the source file
- Clone the repo
- Put your Faust program as
FaustInstrument.dsp
in the root directory. - (optional) configure your environment in
platformio.ini
- Run PlatformIO on CLI,
-e
specifies your custom environment,-t upload
executes the flashing step after compiling
pio run -e teensy41 -t upload
Add Units to values. Example:
a = hslider("attack[unit:s]", 0.01, 0, 5, 0.01);
Set a fine-tune value. Example:
freq_offset1 = hslider("foff1[fine:0.01][unit:semitones]", 0, -12, 12, 1);
Group elements to put them in a submenu. Example:
AmpEnv(x) = vgroup("AmpEnv", x);
a = AmpEnv(hslider("attack[unit:s]", 0.01, 0, 5, 0.01));
d = AmpEnv(hslider("decay[unit:s]", 0.01, 0, 5, 0.01));
s = AmpEnv(hslider("sustain[unit:%]", 0.98, 0.001, 1, 0.01));
r = AmpEnv(hslider("release[unit:s]", 0.01, 0, 5, 0.01));
Generate a menu to select values for a slider/entry/etc. Example:
osc_sel1 = hslider("osz1[style:menu{'Sine':0;'Triangle':1;'Saw':2;'Square':3;'Noise':4}]", 0, 0, 4, 1);
Access analog data. It will automatically scaled to be in your selected range. Example (reads from analog input 10):
light = nentry("lightSens[io: A10]", 0, -1, 1, 0.1);
If you connect an MPU 6050 to the second I2C port of a Teensy (Pins 17/16 on Teensy 4.0/4.1) it is possible to use the gyroscope or accelerometer. The parameter is the Axis. It is scaled to fit the given range. Example:
gyro = nentry("gyroSens[gyr: 1]", 0, -1, 1, 0.1) : si.smoo;
acc = nentry("acceSens[acc: 1]", 0, -1, 1, 0.1) : si.smoo;
It is possible to configure different options of the hardware platform in the platformio.ini
file. They are available as preprocessor defines. Example environment configuration:
[env:teensy41]
platform = teensy
board = teensy41
framework = arduino
build_flags = -D USECLICKENCODER -D USELCD -D USB_MIDI_SERIAL -D USESPDIF -D USBHOSTMIDI
lib_deps =
neu-rah/ArduinoMenu library@^4.21.3
soligen2010/[email protected]+sha.9337a0c46c
extra_scripts =
pre:pre_script.py
The build_flags
contain these parameters. The -D
sets a parameter as defined. USB_MIDI_SERIAL
is a parameter of the Teensy platform. You can find more information here. The other parameters are described in the next section.
Some parameter configurations might be incompatible with each other. You have to make sure to select the ones that make sense.
USECLICKENCODER
- use an encoder on input 3, 2 and button on input 5USELCD
- use an HD44780 style LCDUSEU8G2
- use an OLED DisplayUSEBUTTON
- use buttons on inputs 2, 3, 4 and 5INVERTFIELDKEYS
- invert direction for field keys, might be necessary for some inputs
USBHOSTMIDI
- use a MIDI device connected to the Teensy's Host USB PortUSBCLIENTMIDI
- use MIDI Input on USB MIDI Device (Teensy needs to be in USB MIDI Mode)HARDWAREMIDI
- use a Hardware MIDI interface on Serial 4
SGTL5000
- use the SGTL5000 on a Teensy audio boardUSESPDIF
- use SPDIF Output on Pin 7
Example Circuit for converting the SPDIF Signal
DEBUGOUT
- print debug statements on USB Serial device (Teensy has be configured to work as a USB Serial Device), waits with program execution until the serial is opened on the Computer
platformio.ini
- configure environmentsFaustInstrument.dsp
- Faust programpre_script.py
- python script to convert Faust codesrc/main.cpp
- C++ skeletonsrc/main.py
- python cogapp code