rootpoints returns the root point(s) (one per tree, often
the soma).
branchpoints returns the branch points.
endpoints returns the end points (aka leaf nodes); the
root point will be returned if it also a leaf node.
rootpoints(x, ...) # S3 method for default rootpoints(x, ...) # S3 method for neuron rootpoints(x, subtrees = 1, ...) # S3 method for igraph rootpoints(x, ...) branchpoints(x, ...) # S3 method for default branchpoints(x, ...) # S3 method for neuron branchpoints(x, subtrees = 1, ...) # S3 method for igraph branchpoints(x, ...) endpoints(x, ...) # S3 method for neuron endpoints(x, subtrees = 1, ...) # S3 method for igraph endpoints(x, ...) # S3 method for default endpoints(x, ...)
| x | Neuron or other object (e.g. |
|---|---|
| ... | Further arguments passed to methods (for |
| subtrees | Integer index of the fully connected subtree in
|
FIXME Raw indices (in range 1:N) of vertices when x is a
neuron, integer point identifier (aka PointNo) otherwise.
A neuron may have multiple subtrees and therefore multiple roots. At
present there is discrepancy between the *.neuron and
*.igraph methods. For neurons we return the node indices, for
igraph/ngraph objects the node identifiers (aka
names/PointNo)
branchpoints.neuron returns a list if more than one subtree
is specified
Other neuron: neuron, ngraph,
plot.dotprops,
potential_synapses, prune,
resample, spine,
subset.neuron
rootpoints(Cell07PNs[[1]])#> [1] 1endpoints(Cell07PNs[[1]])#> [1] 1 42 59 62 80 85 96 100 102 112 117 121 134 148 154 165 172 180