Maps a linear range of values to another linear range of values.
| in |
The input signal to convert. |
| srclo |
Lower limit of input range. |
| srchi |
Upper limit of input range. |
| dstlo |
Lower limit of output range. |
| dsthi |
Upper limit of output range. |
// examples:({ var mod = SinOsc.kr(Line.kr(1, 10, 10)); SinOsc.ar(LinLin.kr(mod, -1,1, 100, 900)) * 0.1}.play;)// modulating destination values.({ var mod = LFNoise2.ar(80); SinOsc.ar(LinLin.ar(mod, -1,1, MouseX.kr(200, 8000, 1), MouseY.kr(200, 8000, 1))) * 0.1}.play;)// modulating source and destination values.({ var mod = LFNoise2.ar(80); SinOsc.ar( LinLin.ar(mod, SinOsc.kr(0.2), SinOsc.kr(0.2543), MouseX.kr(200, 8000, 1), MouseY.kr(200, 8000, 1) ) ) * 0.1}.play;)linlin and range can be used to create a LinLin implicitly from a ugen, mapping its output values from linear range to an exponential one. The rate is derived from the ugen.
xxxxxxxxxx// linlin({ var mod = LFNoise2.ar(80); SinOsc.ar(mod.linlin(-1,1, MouseX.kr(200, 8000, 1), MouseY.kr(200, 8000, 1))) * 0.1}.play;)// range({ var mod = LFNoise2.ar(80).range(MouseX.kr(200, 8000, 1), MouseY.kr(200, 8000, 1)); SinOsc.ar(mod) * 0.1}.play;)