Vertices of a LeafTree do not have explicit names. Therefore a vertex $v$ is specified by naming an edge $e$ incident to $v$, and leaf $l$ on the opposite side of the edge as $v$.
The function outputs the subtrees of $T$ obtained by deleting the vertex $v$ from $T$ and then re-adding $v$ to each of the resulting subtrees as a new leaf. The new leaf on each subtree is adjacent to the edge previously adjacent to $v$ on $T$. Each subtree has a copy of the vertex labeled newl, but their edge sets are disjoint.
Each subtree in $P$ may have at most one leaf that was not a leaf of $T$, and therefore previously unlabeled. This leaf label is determined by the user and input as newl.
i1 : T = leafTree(4,{{0,1}}) o1 = {{0, 1, 2, 3}, {set {0, 1}, set {0}, set {1}, set {2}, set {3}}} o1 : LeafTree |
i2 : P = vertexCut(T, set {0,1}, 0, 4); |
i3 : P#0 o3 = {{3, 4}, {set {3}}} o3 : LeafTree |
i4 : P#1 o4 = {{2, 4}, {set {2}}} o4 : LeafTree |
i5 : P#2 o5 = {{0, 1, 4}, {set {0}, set {1}, set {4}}} o5 : LeafTree |
The object vertexCut is a method function.