AbstractGenericDiHyperEdge
Attributes
- Graph
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- Supertypes
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trait GenericDiHyperEdgeMapper[CC]class AbstractDiHyperEdge[N]trait AnyDiHyperEdge[N]trait AnyHyperEdge[N]trait Edge[N]trait Equalsclass Objecttrait Matchableclass AnyShow all
Members list
Value members
Inherited methods
Number of the endpoints of this edge. At least two nodes are joined. In case of a hook, the two nodes are identical. Hyperedges may link more than two nodes.
Number of the endpoints of this edge. At least two nodes are joined. In case of a hook, the two nodes are identical. Hyperedges may link more than two nodes.
Attributes
- Definition Classes
- Inherited from:
- AnyDiHyperEdge
Attributes
- Definition Classes
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EqDiHyper -> Eq
- Inherited from:
- EqDiHyper (hidden)
Attributes
- Definition Classes
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EqDiHyper -> Eq
- Inherited from:
- EqDiHyper (hidden)
Same as isAt.
The endpoints of this edge, in other words the nodes this edge connects.
The endpoints of this edge, in other words the nodes this edge connects.
Attributes
- Definition Classes
- Inherited from:
- AnyDiHyperEdge
Compares the receiver object (this) with the argument object (that) for equivalence.
Compares the receiver object (this) with the argument object (that) for equivalence.
Any implementation of this method should be an equivalence relation:
- It is reflexive: for any instance
xof typeAny,x.equals(x)should returntrue. - It is symmetric: for any instances
xandyof typeAny,x.equals(y)should returntrueif and only ify.equals(x)returnstrue. - It is transitive: for any instances
x,y, andzof typeAnyifx.equals(y)returnstrueandy.equals(z)returnstrue, thenx.equals(z)should returntrue.
If you override this method, you should verify that your implementation remains an equivalence relation. Additionally, when overriding this method it is usually necessary to override hashCode to ensure that objects which are "equal" (o1.equals(o2) returns true) hash to the same scala.Int. (o1.hashCode.equals(o2.hashCode)).
Value parameters
- that
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the object to compare against this object for equality.
Attributes
- Returns
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trueif the receiver object is equivalent to the argument;falseotherwise. - Definition Classes
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Eq -> Any
- Inherited from:
- Eq (hidden)
true if any source end of this edge fulfills pred.
true if any source end of this edge fulfills pred.
Attributes
- Definition Classes
- Inherited from:
- AnyDiHyperEdge
true if node is a source of this edge. In case this edge is undirected this method maps to isAt.
true if node is a source of this edge. In case this edge is undirected this method maps to isAt.
Attributes
- Definition Classes
- Inherited from:
- AnyDiHyperEdge
true if any target end of this edge fulfills pred.
true if any target end of this edge fulfills pred.
Attributes
- Definition Classes
- Inherited from:
- AnyDiHyperEdge
true if node is a target of this edge. In case this edge is undirected this method maps to isAt.
true if node is a target of this edge. In case this edge is undirected this method maps to isAt.
Attributes
- Definition Classes
- Inherited from:
- AnyDiHyperEdge
Calculate a hash code value for the object.
Calculate a hash code value for the object.
The default hashing algorithm is platform dependent.
Note that it is allowed for two objects to have identical hash codes (o1.hashCode.equals(o2.hashCode)) yet not be equal (o1.equals(o2) returns false). A degenerate implementation could always return 0. However, it is required that if two objects are equal (o1.equals(o2) returns true) that they have identical hash codes (o1.hashCode.equals(o2.hashCode)). Therefore, when overriding this method, be sure to verify that the behavior is consistent with the equals method.
Attributes
- Returns
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the hash code value for this object.
- Definition Classes
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Eq -> Any
- Inherited from:
- Eq (hidden)
true if any end of this edge fulfills pred.
true if any end of this edge fulfills pred.
Attributes
- Definition Classes
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AnyHyperEdge -> Edge
- Inherited from:
- AnyHyperEdge
true if node is incident with this edge.
true if node is incident with this edge.
Attributes
- Definition Classes
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AnyHyperEdge -> Edge
- Inherited from:
- AnyHyperEdge
Whether this edge is directed.
Whether this edge's type is hyperedge meaning that it may have more than two ends.
Whether this edge's type is hyperedge meaning that it may have more than two ends.
Attributes
- Inherited from:
- AnyHyperEdge
Whether this edge produces a self-loop. In case of a non-hyperedge, a loop is given if the incident nodes are equal. In case of a directed hyperedge, a loop is given if any of the targets is included in the sources. In case of an undirected hyperedge, a loop is given if any of the ends is a duplicate.
Whether this edge produces a self-loop. In case of a non-hyperedge, a loop is given if the incident nodes are equal. In case of a directed hyperedge, a loop is given if any of the targets is included in the sources. In case of an undirected hyperedge, a loop is given if any of the ends is a duplicate.
Attributes
- Definition Classes
- Inherited from:
- AnyDiHyperEdge
Whether this edge is undirected.
Attributes
- Inherited from:
- GenericDiHyperEdgeMapper
true if
a) two distinct ends of this undirected edge exist for which p1 and p2 hold or
b) p1 holds for a source and p2 for a target of this directed edge.
true if
a) two distinct ends of this undirected edge exist for which p1 and p2 hold or
b) p1 holds for a source and p2 for a target of this directed edge.
Attributes
- Definition Classes
- Inherited from:
- AnyDiHyperEdge
true if a. being an undirected edge, both n1 and n2 are at this edge a. being a directed edge, n1 is a source and n2 a target of this edge.
true if a. being an undirected edge, both n1 and n2 are at this edge a. being a directed edge, n1 is a source and n2 a target of this edge.
Attributes
- Definition Classes
- Inherited from:
- AnyDiHyperEdge
The n'th node of this edge.
The n'th node of this edge.
Attributes
- Throws
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IllegalArgumentException
if
ndoes not meet0 <= n < arity. - Inherited from:
- AnyHyperEdge
The first node of this edge.
The second node of this edge.
Whether this edge has exactly two ends.
Same as ! looping.
The weight of this edge with a default of 1.
The weight of this edge with a default of 1.
Note that weight is normally not part of the edge key (hashCode). As a result, edges with different weights connecting the same nodes will be evaluated as equal and thus added once and only once to the graph. In case you need multi-edges based on different weights you should define a custom edge class that mixes in ExtendedKey and adds weight to keyAttributes.
Attributes
- Inherited from:
- Edge
Applies f to all source ends of this edge without any memory allocation.
Applies f to all source ends of this edge without any memory allocation.
Attributes
- Inherited from:
- AnyHyperEdge
Applies f to the target ends of this edge without any memory allocation.
Applies f to the target ends of this edge without any memory allocation.
Attributes
- Inherited from:
- AnyHyperEdge