| 1207 |
|
0 |
| 1208 |
|
5+ nmA nmB s1 s2 .. sN |
| 1209 |
|
.DE |
| 1210 |
< |
The first two real arguments indicate the limits of the covered |
| 1210 |
> |
The first two real arguments indicate the extrema of the |
| 1211 |
|
spectral range in nanometers. |
| 1212 |
< |
Subsequent real values correspond to multipliers in each wavelength band, |
| 1213 |
< |
where the first band goes from nmA to nmA+(nmB-nmA)/N, and N is the |
| 1214 |
< |
number of bands (i.e., the number of real arguments minus 2). |
| 1215 |
< |
The nmA wavelength may be greater or less than the nmB wavelength, |
| 1216 |
< |
but they may not be equal, and their ordering must correspond to |
| 1217 |
< |
the ordering of the spectral values. |
| 1212 |
> |
Subsequent real values correspond to multipliers in at each wavelength. |
| 1213 |
> |
The nmA wavelength may be greater or less than nmB, |
| 1214 |
> |
but they may not be equal, and their ordering matches |
| 1215 |
> |
the order of the spectral values. |
| 1216 |
|
A minimum of 3 values must be given, which would act |
| 1217 |
|
more or less the same as a constant RGB multiplier. |
| 1218 |
|
As with RGB values, spectral quantities normally range between 0 |
