Sorry for bothering again, but it doesnt work. Here some of my trials:
1) I created a scl file like Gilles posted above with 88times of 440.0 .
The result: Keys no 0-21 let sound an (some lower) F1, keys no 22-109 let sound an A1, keys no 110-127 sounding (some higher) C2sharp.
2) I changed the keymap from 88 notes scale to Default mapping (linear) to test what happens.
Result: Keys 0-60 sounding F1, keys 61-127 sounding A1
3) I changed the 1)-configuration through replacing the 440.0 with 110.0 to get a 2 octaves lower tone. Result: Keys 0-21 sounding A1flat, keys 22-109 sounding A1,
keys 110-127 sounding A1sharp. NO expected frequency lowering happened!!!
4) I tested different replacements (replacing the 88-value by 127).
5) I wondered if the "same freq"- row in the .scl-file would be redundant because after it all the frequencies of the 88 or 127 keys appeared. So I removed this line.
With 127 Keys it worked, with 88 keys it worked not.....etc.
6)MOST IMPORTANT and disappointing: The thing I hoped to achieve didnt work. It was not possible in tne note edit mode to create different string lengths,
overtone spectra etc. for two neighbour keys with the same pitch tune. Paradoxically for some parameters like detune or key release noise it was possible.
I dont want to waste my time with trial-and-error-games as well as yours with reading resultless postings.
I think I made clear my aim and ask again: Is there someone who can explain me what the values after and between the (!) in the scala file do mean and how to program the frequencies and position of the notes at the keyboard. And how to get a keyboard with SAME PITCH tuned strings on EVERY key but the ability to have DIFFERENT string length, overtone spectra, strike points etc. on EACH SINGLE key.
Thanks&sorry, Flieger.