Hyper-node

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;Hyper-nodes and inner nodes are also indexed (see [[Indexation]])
 
;Hyper-nodes and inner nodes are also indexed (see [[Indexation]])
 
:(%c,(%b,(%a,"a"))) - a hyper-node %c contaning a hyper-node %b contaning the node %a
 
:(%c,(%b,(%a,"a"))) - a hyper-node %c contaning a hyper-node %b contaning the node %a
:(%c,LEX=%a,(%b,(%z,"a"))) - a hyper-node $c containing a hyper-node %b containing the node %a, where the value of LEX of %c is the same as the value of LEX of %a
+
:(%c,LEX=%a,(%b,(%z,"a"))) - a hyper-node %c containing a hyper-node %b containing the node %a, where the value of LEX of %c is the same as the value of LEX of %a
 
;When a hyper-node is deleted, all its internal relations are deleted, if they are not referenced in the rule
 
;When a hyper-node is deleted, all its internal relations are deleted, if they are not referenced in the rule
 
:(([kick],V)([the],D)([bucket],N)):=; (the hyper-node is deleted, as well as the relations ([kick],V)([the],D) AND ([the],D)([bucket],N))
 
:(([kick],V)([the],D)([bucket],N)):=; (the hyper-node is deleted, as well as the relations ([kick],V)([the],D) AND ([the],D)([bucket],N))

Revision as of 14:22, 24 June 2014

Hyper-nodes are nodes containing relations between nodes. They represent scopes or sub-graphs.

Contents

Basic Symbols

Basic symbols used in the UNL framework
Symbol Definition Example
( ) node (%a)
" " string "went"
[ ] natural language entry (headword) [go]
[[ ]] UW [[to go(icl>to move)]]
// regular expression /a{2,3}/ = aa,aaa
rel(x;y) relation agt(kill;Peter)
^ not ^a = not a
{ | } or {a|b} = a or b
% index for nodes, attributes and values %x
: scope ID :01
# index for sub-NLWs #01
= attribute-value assignment POS=NOU
! rule trigger !PLR
& merge operator %x&%y
? dictionary lookup operator ?[a]

Basic Concepts

Grammar.png
Node
A node is the most elementary unit in the graph. It is the result of the tokenization process, and corresponds to the notion of "lexical item". At the surface level, a natural language sentence is considered a list of nodes, and a UNL graph a set of relations between nodes.
Relation
In order to form a natural language sentence or a UNL graph, nodes are inter-related by relations. In the UNL framework, there are three different types of relations: the linear (list) relation, syntactic relations and semantic relations.
Hyper-Node
A hyper-node is a sub-graph, i.e., a scope: a node containing relations between nodes.
Hyper-Relation
A hyper-relation is a relation between relations.

Scopes

main article: Scope

A scope is a sub-graph inside a graph, i.e., group of relations between nodes that work as a single entity. For instance, in the sentence "Mary saw Peter when John arrived", the dependent clause "when John arrived" describes the argument of a time relation and, therefore, should be represented as a hyper-node (i.e., as a sub-graph) as indicated below:

Scope.jpg

In the UNL table representation, hyper-nodes are indexed by ":XX", where XX is a two-digit hyper-node index. The main node index is :00 and may be omitted. Hyper-node indexes must be associated to every relation inside the node.

Scope1.jpg

Notation

As any node, hyper-nodes are represented between (parentheses):

  • (("a")("b")) - a hyper-node containing a list relation between two nodes
  • (L("a";"b")) - the same as above
  • (VC("a";"b")) - a hyper-node containing a syntactic relation VC between two nodes
  • (agt("a";"b")) - a hyper-node containing a semantic relation agt between two nodes

For better readability, hyper-nodes are normally referenced by the SCOPE ID :XX, where XX is a two-character unique identifier for the hyper-node.

  • tim(saw;agt(arrived;John)) (= saw when John arrived) is represented as
    tim(saw;:01)
    agt:01(arrived;John)

All relations inside the same scope must share the same scope ID

  • tim(saw;agt(killed;John)obj(killed;Peter)) (= saw when John killed Peter) is represented as
    tim(saw;:01)
    agt:01(killed;John)
    obj:01(killed;Peter)

The scope ID of the main scope is 00 and is omitted by default.

  • tim(saw;:01)agt:01(arrived;John) is the same as tim:00(saw;:01)agt:01(arrived;John)

Elements

As any node, hyper-nodes are vectors (uni-dimensional arrays) containing the following necessary elements:

  • a string, represented between "quotes"
  • a headword, represented between [simple square brackets]
  • a UW, represented between [[double square brackets]]
  • features, of which the internal relations are a special type
  • an index, preceded by %

Properties

As any node, hyper-nodes are expressed between (parentheses)
(("a")("b"))
Elements of inner nodes are not elements of hyper-nodes
(%a,"a",[a],[[a]],A,(%b,"b",[b],[[b]],B))
The elements of the hyper-node %a are "a", [a], [[a]], A and the node %b
The elements of the node %b are "b", [b], [[b]], B
The whole inner node (%b,"b",[b],[[b]],B) is an element of %a and may be used to reference it: (("b")), (([b])), (([[b]]), ((B))
However, "b", [b], [[b]] and B are not elements of %a (i.e., %a will not match ("b") but only (("b"))
As any node, hyper-nodes may have one single string, one single headword and one single UW, but may have as many features as necessary
(([kick],V)([the],D)([bucket],N),"kick the bucket",[kick the bucket],[[die]],V,NTST)
the hyper-node is formed of the following elements:
  • the string "kick the bucket"
  • the headword [kick the bucket]
  • the UW [[die]]
  • the features V and NTST
  • the list relation between the nodes ([kick],V)([the],D)([bucket],N)
Note that the string, headword and UW of the hyper-node may not coincide with the corresponding values of the inner nodes.
Internal nodes and relations work in the same way as features
(("a"),("b")) (a hyper-node containing two nodes: ("a") and ("b") (there is no necessary relation between ("a") and ("b"))
(("a")("b")) (a hyper-node containing a list relation between the nodes ("a") and ("b")
({("a")|("b")}) (a hyper-node containing either the node ("a") or the node ("b")
({("a")("b")|("c")("d")}) (a hyper-node containing either a list relation between the nodes ("a") and ("b") or a list relation between the nodes ("c") and ("d")
(rel("a";"b"),rel("c";"d")) (a hyper-node containing the relations rel("a";"b") and the relation rel("c";"d"))
(rel("a";"b")rel("c";"d")) (the same as above)
({rel("a";"b")|rel("c";"d")}) (a hyper-node containing either the relation rel("a";"b") or the relation rel("c";"d"))
As any node, hyper-nodes may be referenced by any of its elements, including internal nodes and relations
(([kick],V)) - refers to any hyper-node containing the node ([kick],V)
(([the],D)([bucket],N)) - refers to any hyper-node containing a linear relation between ([the],D) AND ([bucket],N)
(([kick],D),([bucket],N)) - refers to any hyper-node containing the nodes ([kick],V) AND ([bucket],N)
A hyper-node can be the internal node of another hyper-node
((("a"))) - a hyper-node containing a hyper-node containing the node "a"
Hyper-nodes and inner nodes are also indexed (see Indexation)
(%c,(%b,(%a,"a"))) - a hyper-node %c contaning a hyper-node %b contaning the node %a
(%c,LEX=%a,(%b,(%z,"a"))) - a hyper-node %c containing a hyper-node %b containing the node %a, where the value of LEX of %c is the same as the value of LEX of %a
When a hyper-node is deleted, all its internal relations are deleted, if they are not referenced in the rule
(([kick],V)([the],D)([bucket],N)):=; (the hyper-node is deleted, as well as the relations ([kick],V)([the],D) AND ([the],D)([bucket],N))
(([kick],V)):=; (all hyper-nodes containing the node ([kick],V) are deleted, even if the hyper-node consists of several other inner nodes

Examples

Examples of hyper-nodes are the following:

  • (("a"),("b")) - a hyper-node containing the nodes ("a") and ('b")
  • (("a")("b")) - a hyper-node containing a linear relation between the nodes ("a") and ("b")
  • (VC(%x;%y)VA(%x;%z)) - a hyper-node containing two syntactic relations: VC(%x;%y) AND VA(%x;%z)
  • (agt([a];[b])obj([a];[c])) - a hyper-node containing two semantic relations: agt([a];[b]) AND obj([a];[c])
  • (([kick],V)([the],D)([bucket],N),V,NTST) - a hyper-node having the features V and NTST and containing two linear relations: one between the nodes ([kick],V) and ([the],D), and other between ([the],D) and [bucket],N)
  • (([kick],V)([the],D)([bucket],N),"kick the bucket",[[die]],V,NTST) - the same as before, except for the fact that the hyper-node has string = "kick the bucket" and UW = [[die]]

Hyper-nodes may also contain internal hyper-nodes:

  • ((("a")("b"))("c")) - a hyper-node containing a linear relation between the hyper-node (("a")("b")) and the node ("c")

Transformations

Changes

Hyper-nodes, as nodes, have elements, which may be altered by the use of the operators + (add) and - (delete). The operator + may be omitted. Changes affect only the scopes indicated.

Changes to the main scope
  • (%a,"a",[a],[[a]],A,(%b,"b")):=(%a,"c");(the string of the hyper-node is set to "c"; the internal node %b is not affected)
  • (%a,"a",[a],[[a]],A,(%b,"b")):=(%a,"");(the string of the hyper-node is set to ""; the internal node %b is not affected)
  • (%a,"a",[a],[[a]],A,(%b,"b")):=(%a,-"a");(the same as above)
  • (%a,"a",[a],[[a]],A,(%b,"b")):=(%a,[c]);(the headword of the hyper-node is set to [c]; the internal node %b is not affected)
  • (%a,"a",[a],[[a]],A,(%b,"b")):=(%a,[[c]]);(the UW of the hyper-node is set to [[c]]; the internal node %b is not affected)
  • (%a,"a",[a],[[a]],A,^B,(%b,"b")):=(%a,+B);(add the feature B to the hyper-node %a; the internal node %b is not affected)
  • (%a,"a",[a],[[a]],A,^B,(%b,"b")):=(%a,B); (the same as above: add the feature B to %a)
  • (%a,"a",[a],[[a]],A,(%b,"b")):=(%a,-A);(delete the feature A from the hyper-node %a; the internal node %b is not affected)
Changes to inner scopes
  • (%a,(%b,"b",[b],[[b]],B)):=(%a,(%b,"c"));(the string of the inner node %b is set to "c"; the hyper-node %a is not affected)
  • (%a,(%b,"b",[b],[[b]],B)):=(%a,(%b,""));(the string of the inner node %b is set to ""; the hyper-node %a is not affected)
  • (%a,(%b,"b",[b],[[b]],B)):=(%a,(%b,-"b"));(the same as above)
  • (%a,(%b,"b",[b],[[b]],B)):=(%a,(%b,[c]));(the headword of the inner node %bis set to [c]; the hyper-node %a is not affected)
  • (%a,(%b,"b",[b],[[b]],B)):=(%a,(%b,[[c]]));(the UW of the inner node %b is set to [[c]]; the hyper-node %a is not affected)
  • (%a,(%b,"b",[b],[[b]],B,^C)):=(%a,(%b,+C));(add the feature C to the inner node %b; the hyper-node %a is not affected)
  • (%a,(%b,"b",[b],[[b]],B,^C)):=(%a,(%b,C)); (the same as above: add the feature C to %b)
  • (%a,(%b,"b",[b],[[b]],B)):=(%a,(%b,-B));(delete the feature B from the inner node %b; the hyper-node %a is not affected)
Rules must have as many parentheses as the depth of the inner scope to be altered
  • (%a,(%b,(%c,(%d,(%e,"e",[e],[[e]],E))))):=(%a,(%b,(%c,(%d,(%e,"f"))))); (the string of inner node %e is set to "f"; the enclosing nodes %d, %c, %b and %a are not affected)
Hyper-nodes do not need to be represented if the changes apply to nodes instead of nodes inside hyper-nodes
  • (%a,(%b,"b",[b],[[b]],B)):=(%a,(%b,"c")); (the string of the inner node %b is set to "c"; the hyper-node %a is not affected)

could be represented simply as

  • (%b,"b",[b],[[b]],B)):=(%b,"c");

if the changes apply to all nodes ("b",[b],[[b]],B) and not only to those inside scopes.

Deletion

Hyper-nodes, as any node, are deleted if they are not repeated (co-indexed) in the right side. In this case, all the inner nodes are deleted as well:

  • (REL(%x;%y),%z):=; (the hyper-node %z will be deleted, and all its internal nodes and relations as well)

As any feature, inner nodes are conservative, and are not deleted even if they are not repeated (co-indexed) in the right side:

  • (%a,A,^B):=(%a,+B); (the feature A is not deleted from the node %a)
  • (%a,^B,(%b,"b")):=(%a,+B); (the node %b is not deleted from the hyper-node %a)

In order to delete inner nodes, the operator "-" must be used

  • (%a,A,(%b,B)):=(%a,-(%b)); (the node %b is deleted from the hyper-node %a)
  • (%a,A,rel(%b;%c)):=(%a,-rel(%b;%c)); (the relation rel(%b;%c) is deleted from the hyper-node %a)

Extraction

Nodes may be extracted from hyper-nodes by removing the corresponding parentheses. In this case, the hyper-node is deleted (along with its features), but the internal nodes and relations are preserved, if repeated on the right side.

  • ((%x),%y):=(%x); (the hyper-node %y is deleted, but its internal node %x is preserved; in case %y have nodes other than %x, these nodes will be deleted as well, because they are not repeated in the right side)
  • (REL(%x;%y),%z):=REL(%x;%y); (the hyper-node %z is deleted, but its internal relation REL(%x;%y) is preserved; in case %z have relations other than REL(%x;%y), and nodes other than %x and %y, these will be deleted as well, because they are not repeated in the right side.

Create

Hyper-nodes are created through the encapsulation of existing nodes

  • (%x):=((%x),%y); (the hyper-node %y is created, with the node %x there inside)
  • REL(%x;%y):=(REL(%x;%y),%z); (the hyper-node %z is created, with the relation REL between the nodes %x and %y inside)
  • (%x)(%y):=((%x)(%y),%z); (the hyper-node %z is created, with the linear relation between the nodes %x and %y there inside)
Attention
relations and nodes must be repeated in the right side or they will be deleted
  • (%x):=(%y); (the node %x will be simply replaced by %y; no hyper-node will be created)
  • REL(%x;%y):=(%z); (the relation REL between the nodes %x and %y will be replaced by the node %z; no hyper-node will be created)
Software