Description of the algorithm. More...
Description of the algorithm.
The algorithm top-level is implemented in the NegociateWindow
.
First step : NegociateWindow::_loadRouting()
AutoSegment
) from KatabaticEngine
inside the Kite GCell's
. Then update the GCell's
density. GCell's
according to decreasing density (denser GCell's
are to be routed first). Agglomerate clusters of contiguous GCell's whose density is superior to 0.7 to the seed GCell. See GCellRoutingSet
for the mechanism.
GCellRoutingSet receive an increasing order number. The higher the order the lower the density. This order is transmitted to the TrackSegment
of the GCellRoutingSet
to be taken into account by the track cost function.
Second step : NegociateWindow::_runOnGCellRoutingSet()
For each GCellRoutingSet
in decreasing density, negociate the set of associated TrackSegment
.
RoutingEventQueue
from the list of TrackSegment
. The queue is responsible for allocating the RoutingEvent
associated to each TrackSegment
. TrackSegment
. That is, constrained TrackSegment
are routed first. The queue is processed till it's empty (no unprocessed RoutingEvent
remains).
Processing a RoutingEvent
is trying to insert a TrackSegment
in a suitable Track. We proceed as follow :
TrackSegment
(for now). TrackSegment
can be inserted, then compute the insertion cost in each one. The candidates are ordered by the insertion cost. Now consider the lower cost Track
. If there is a free interval for the TrackSegment
. Issue a Session::addInsertEvent()
then finish.
If there is a "soft overlap", that is the overlaping TrackSegment
already in the Track
could be shrunk either to the left or the right so the new TrackSegment
can be inserted. This is managed by RoutingEvent::_setAside()
, for each soft overlaping TrackSegment
, gets its perpandiculars and issue a displacement request for all of them. That is, re-post a RoutingEvent
with updated constraints and remove the perpandicular from it's Track if it has already been routed. Note that no request is issued for the overlaping TrackSegment
itself has it do not change of Track.
If there is a "hard overlap", that is the two TrackSegment
cannot share the same Track
, remove the previous one from the Track
and re-post a RoutingEvent
. Note that, the cost object should have selected a TrackSegment
which could be ripped-up. Otherwise the Track
would'nt even be a candidate.
When a TrackSegment is riped up, it is re-routed immediately afterward. This is done by increasing his event level.
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