@Override public boolean allowsSelfLoops() { return AbstractNetwork.this.allowsSelfLoops(); }
@Override public boolean allowsSelfLoops() { return AbstractNetwork.this.allowsSelfLoops(); }
@Override public boolean allowsSelfLoops() { return AbstractNetwork.this.allowsSelfLoops(); }
/** Returns a string representation of this network. */ @Override public String toString() { return "isDirected: " + isDirected() + ", allowsParallelEdges: " + allowsParallelEdges() + ", allowsSelfLoops: " + allowsSelfLoops() + ", nodes: " + nodes() + ", edges: " + edgeIncidentNodesMap(this); }
/** Returns a string representation of this network. */ @Override public String toString() { return "isDirected: " + isDirected() + ", allowsParallelEdges: " + allowsParallelEdges() + ", allowsSelfLoops: " + allowsSelfLoops() + ", nodes: " + nodes() + ", edges: " + edgeIncidentNodesMap(this); }
/** Returns a string representation of this network. */ @Override public String toString() { return "isDirected: " + isDirected() + ", allowsParallelEdges: " + allowsParallelEdges() + ", allowsSelfLoops: " + allowsSelfLoops() + ", nodes: " + nodes() + ", edges: " + edgeIncidentNodesMap(this); }
@Override public boolean allowsSelfLoops() { return AbstractNetwork.this.allowsSelfLoops(); }
@Override public boolean allowsSelfLoops() { return AbstractNetwork.this.allowsSelfLoops(); }
/** Returns a string representation of this network. */ @Override public String toString() { return "isDirected: " + isDirected() + ", allowsParallelEdges: " + allowsParallelEdges() + ", allowsSelfLoops: " + allowsSelfLoops() + ", nodes: " + nodes() + ", edges: " + edgeIncidentNodesMap(this); }
/** Returns a string representation of this network. */ @Override public String toString() { return "isDirected: " + isDirected() + ", allowsParallelEdges: " + allowsParallelEdges() + ", allowsSelfLoops: " + allowsSelfLoops() + ", nodes: " + nodes() + ", edges: " + edgeIncidentNodesMap(this); }