In Surge, we added microtuning and spent a lot of time making sure our SCL/KBM implementation was properly calibrated and available for C++ programs. We then added that same implementation to dexed through a copy.
But we realized we could make the functions available as standalone C++ header only library and get three benefits.
- Share more code between Surge and our Dexed fork
- Make the code available to other soft synths where we or others may add microtuning like our tuning workbench synth
- Have a set of standalone command line utilities and well documented tests
So we took the code and re-factored it here under an MIT license.
Although Surge and Dexed are GPL3, the copyright holders and authors of the original Surge microtuning implementation (and only that implementation) were happy to relicense.
The C++ library is a standalone header only C++-11 library. There are a variety of ways to use it in your project but our approach is generally:
- Make this github repo a submodule of your project
- Add the "include/" directory to your compiler include path
#include "Tunings.h"
If you use cmake you can also do
add_subdirectory(this/library EXCLUDE_FROM_ALL)
and then add the target tuning-library
as a library target to your project.
The code is organized such that Tunings.h is the API and TuningsImpl.h is the header with more involved implementation bodies. Tunings.h includes TuningsImpl.h automatically.
cmake -Bbuild
cmake --build build --target run-all-tests
cmake --build build --target showmapping
cmake --build build --target parsecheck
showmapping
takes one or two arguments. It either takes an .scl file, in which
case it dumps the frequency table for that .scl file with midi note 60 being the
scale start tuned to 261hz, or it takes an .scl and .kbm file, in which case it
prints the entire internal tuning table for the combination.
parsecheck
takes a list of files and tries to parse them showing errors if it
fails. parsecheck test/data/*scl
will test that all those SCL parse.
Github user @chinenual has ported this library to go
here: https://github.com/chinenual/go-scala/
Python bindings for this library are available here.
If you find bugs, please open a github issue and we will fix it right away!
If you have a non-bug problem, you can do the same or you can hop on the slack as detailed at https://surge-synth-team.org/
If you would like to expand our test cases, we are always thrilled for you to do so. Drop in a pull request.
If you choose to use the software in your synth, you can go right ahead of course. That's the point of the MIT license! But if you want to let us know, again pop open a github or drop in our slack. Always glad to hear from you.
Enjoy!