I'm writing C++ code which plays both digital audio (synthesised music) and MIDI music at the same time (using the RtMidi library.) The digitised music will play out of the computer's audio device, but the MIDI music could play out of an external synthesiser. I want to play a song that uses both digitised instruments and MIDI instruments, and I am not sure of the best way to synchronise these two audio streams:
- It is not possible to use a function like Sleep() as the delay time is both uneven and too long for my needs (which are on the order of one millisecond.) If Sleep() regularly waits for 5ms when only 1ms was requested, the resulting song tempo will be off, and unless it's exact each time it's called, the tempo will be uneven.
- Counting the number of samples placed into the audio buffer provides super accurate timing between notes for the digital audio (minimum delay of one sample - 0.02ms at 48kHz), but this timing can't be used for MIDI. Because the audio is buffered the notes are synthesised in bursts (filling up one audio buffer at a time, as quickly as possible) so this results in a bunch of MIDI notes being played with no delay between them every time a digital audio buffer needs to be refilled.
- Playing live MIDI data has no timing information, so a note plays as soon as it is sent. Therefore a note can't be scheduled to play at a later time, so I am required to accurately send MIDI events at the correct time myself.
Currently I am using nanosleep() - which only works under Linux, not Windows - to wait for the correct time between notes. This allows both the digital audio and the MIDI data to remain synchronised, however nanosleep() is not very consistent so the resulting tempo is very uneven.
Can anyone think of a way to retain accurate timing between notes for both the digital audio as well as the MIDI data?