Connecting two Mappings in series (§6.1) is not the only way of combining them. The alternative, in parallel, involves applying the two Mappings at once but on different subsets of the coordinate values.
Consider, for example, a set of 3-dimensional coordinates and suppose
we wish to transform them by swapping the first two coordinate values
and multiplying the final one by 5, so that () transforms
into (
). Again, we can perform each of these steps
individually using Mappings similar to the PermMapPermMap and ZoomMapZoomMap used
earlier (§6.1). In this case, however, the ZoomMap is
1-dimensional and the individual Mappings are applied in parallel
(c.f. Figure 3).
Creating a CmpMapCmpMap for this purpose is also very simple:
The only difference is that the third argument of astCmpMapastCmpMap is now zero, meaning “in parallel”.
As before, the order in which the two component Mappings are supplied is significant. The first one acts on the lower-numbered input coordinate values (however many it needs) and produces the lower-numbered output coordinates, while the second MappingMapping acts on the higher-numbered input coordinates (however many remain) and generates the remaining higher-numbered output coordinates. When the CmpMap transforms coordinates in the inverse direction, both component Mappings are applied to the same coordinates, but in the inverse direction.
Note that the NinNin and NoutNout attributes of the component Mappings (i.e. the numbers of input and output coordinates) will sum to give the Nin and Nout attributes of the overall CmpMap.