Adjacency

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== Values ==
 
== Values ==
  
The number of intermediary projections define the values of the adjacency in the UNL<sup>arium</sup> framework, which are the following:
+
The number of intermediate projections define the values of the adjacency in the UNL<sup>arium</sup> framework, which are the following:
  
 
{{#tree:id=ADC|openlevels=0|root=Adjacency (AJC)|
 
{{#tree:id=ADC|openlevels=0|root=Adjacency (AJC)|
*AJ0 (immediate): the constituent is inseparable part of the head (as in inseparable phrasal verbs)
+
*AJ0 (immediate): the constituent is actually an inseparable part of the head (as in inseparable phrasal verbs)
*AJ1 (first projection): there is only one projection of the head between the constituent and the head (i.e., the constituent is adjacent to the head)
+
*AJ1 (nearest): the constituent has the highest precedence over other constituents (i.e., it is necessarily the nearest to the head)
*AJ2 (second projection): there are two projections of the head between the constituent and the head (i.e., the constituent is adjacent to the lowest intermediary projection)
+
*AJ2 (near): the constituent has a high precedence but it is not necessarily the nearest to the head (i.e., there may be other constituents nearer to the head)
*AJ3 (third projection): there are three projections of the head between the constituent and the head (i.e., the constituent is adjacent to the second lowest intermediary projection)
+
*AJ3 (distant): the constituent has low precedence but it is not necessarily the most distant from the head (i.e., there may be other constituents farther from the head)
*AJ4 (fourth projection): there are four projections of the head between the constituent and the head (i.e., the constituent is adjacent to the third lowest intermediary projection)
+
*AJ4 (most distant): the constituent has the lowest precedence over other constituents (i.e., it is necessarily the most distant from the head)
*AJB (highest intermediary projection): the constituent is adjacent to the highest intermediary projection of the head ("lowest spec")
+
*AJP (highest projection): the constituent is immediately under the the maximal projection ("highest spec").
+
 
}}
 
}}
  
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*adjt1 = AJ3 (there are three projections (XB1, XB2 and XB3) between adjt1 and X)
 
*adjt1 = AJ3 (there are three projections (XB1, XB2 and XB3) between adjt1 and X)
 
*adjt2 = AJ4 (there are four projections (XB1, XB2, XB3, XB4) between adjt2 and X)
 
*adjt2 = AJ4 (there are four projections (XB1, XB2, XB3, XB4) between adjt2 and X)
*spec = AJB and AJP
 
  
 
== Dictionary ==  
 
== Dictionary ==  
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*go from strength to strength
 
*go from strength to strength
 
**base form = go
 
**base form = go
**compound = +VA("from strenght",'''AJ1''')VA("to strength",'''AJ2''');
+
**compound = +VA("from strength",'''AJ1''')VA("to strength",'''AJ2''');
  
 
== Grammar ==
 
== Grammar ==
 
In the grammar, adjacency is defined through [[S-rule]]s in the following format:
 
In the grammar, adjacency is defined through [[S-rule]]s in the following format:
  
  <SYNTACTIC ROLE>(<ADJACENCY>);
+
  <SYNTACTIC ROLE>(+<ADJACENCY>);
  
 
Where:<br />
 
Where:<br />
*<SYNTACTIC ROLE> is the [[Syntax#Syntactic_Roles|syntactic role]] (VA, VC, VS, VH, etc) of the constituent in relation to the head; and
+
*<SYNTACTIC ROLE> is the [[Syntactic roles|syntactic role]] (VA, VC, VS, VH, etc) of the constituent in relation to the head; and
 
*<ADJACENCY> is the adjancency (AJ0, AJ1, AJ2, etc) of the constituent in relation to the head.
 
*<ADJACENCY> is the adjancency (AJ0, AJ1, AJ2, etc) of the constituent in relation to the head.
  
 
=== Examples ===
 
=== Examples ===
*VH(AJ0); (the head is part of the verb)
+
*VH(+AJ0); (the head is part of the verb)
*VC(AJ1); (the object integrates the first projection of the head)
+
*VC(+AJ1); (the object integrates the first projection of the head)
  
 
=== Observations ===
 
=== Observations ===
 
;Complex adjacency
 
;Complex adjacency
 
:A single adjacency rule may contain several operations:
 
:A single adjacency rule may contain several operations:
:*VC(AJ1)VA(AJ2); (the complement integrates the first projection and the adjunct integrates the second one)
+
:*VC(+AJ1)VA(+AJ2); (the complement integrates the first projection and the adjunct integrates the second one)
 
;Conditional adjacency
 
;Conditional adjacency
 
:Conditional adjacency may be stated by defining the left side of the s-rule and coindexing it to the right side:
 
:Conditional adjacency may be stated by defining the left side of the s-rule and coindexing it to the right side:
:*VC(AJ1); (unconditional adjacency: the complement will always integrate the first projection);
+
:*VC(+AJ1); (unconditional adjacency: the complement will always integrate the first projection);
:*VC(PPR):=VC(AJ1); (conditional adjacency: the complement will integrate the first projection if a personal pronoun;
+
:*VC(PPR):=VC(+AJ1); (conditional adjacency: the complement will integrate the first projection if a personal pronoun;
 +
;Use of "+"
 +
:As rules are conservative (i.e., features are preserved unless explicitly deleted), the use of "+" is actually optional:
 +
:*VC(AJ1); is the same as VC(+AJ1);
 
;Reordering
 
;Reordering
 
:Reordering can be done in three different ways:
 
:Reordering can be done in three different ways:
:*By [[Ph-rule]]s, if the process involves neighbour constituents and affects only the surface structure of the phrase;
+
:*By [[L-rule]]s, if the process involves neighbour constituents and affects only the surface structure of the phrase;
:*By attribute change (i.e., deleting and adding distribution features), such as in "VC(-AJ1,AJ2);"  
+
:*By attribute change (i.e., deleting and adding distribution features), such as in "VC(-AJ1,+AJ2);"  
 
:*By [[movement]], in case of more complex inversions and extraction of constituents
 
:*By [[movement]], in case of more complex inversions and extraction of constituents
 
;The symbol '''^''' is used for negation and to control infinite recursion:
 
;The symbol '''^''' is used for negation and to control infinite recursion:
 
:*VC(^AJ1):=VC(AJ1); (assign the feature "AJ1" to the complement of the verb if it does not have it yet)
 
:*VC(^AJ1):=VC(AJ1); (assign the feature "AJ1" to the complement of the verb if it does not have it yet)

Latest revision as of 02:28, 11 May 2011

Adjacency is the distance between two branches in a tree structure. In the UNLarium framework, adjacency is used to represent the structure of maximal projections and, therefore, to state the distance of constituents in relation to the head.

Contents

Values

The number of intermediate projections define the values of the adjacency in the UNLarium framework, which are the following:

Examples

         XP
        / \
     spec XB4
          / \
        XB3  adjt2
        / \
     XB2 adjt1
     / \
   XB1 comp2
   /  \
  X  comp1

In the structure above:

  • comp1 = AJ1 (there is only one projection (XB1) between comp1 and X)
  • comp2 = AJ2 (there are two projections (XB1 and XB2) between comp2 and X)
  • adjt1 = AJ3 (there are three projections (XB1, XB2 and XB3) between adjt1 and X)
  • adjt2 = AJ4 (there are four projections (XB1, XB2, XB3, XB4) between adjt2 and X)

Dictionary

Adjacency is informed in the dictionary only in the following cases:

  • Compounds that do not follow the adjacency patterns (such as "bring home the bacon", where the adjunct precedes the complement)
  • Compounds that have more than one complement or more than one adjunct whose order is important (such as in "go from strength to strength")

Examples

  • bring home the bacon
    • base form = bring
    • compound = +VA([home],AJ1)VC("the bacon",AJ2);
  • go from strength to strength
    • base form = go
    • compound = +VA("from strength",AJ1)VA("to strength",AJ2);

Grammar

In the grammar, adjacency is defined through S-rules in the following format:

<SYNTACTIC ROLE>(+<ADJACENCY>);

Where:

  • <SYNTACTIC ROLE> is the syntactic role (VA, VC, VS, VH, etc) of the constituent in relation to the head; and
  • <ADJACENCY> is the adjancency (AJ0, AJ1, AJ2, etc) of the constituent in relation to the head.

Examples

  • VH(+AJ0); (the head is part of the verb)
  • VC(+AJ1); (the object integrates the first projection of the head)

Observations

Complex adjacency
A single adjacency rule may contain several operations:
  • VC(+AJ1)VA(+AJ2); (the complement integrates the first projection and the adjunct integrates the second one)
Conditional adjacency
Conditional adjacency may be stated by defining the left side of the s-rule and coindexing it to the right side:
  • VC(+AJ1); (unconditional adjacency: the complement will always integrate the first projection);
  • VC(PPR):=VC(+AJ1); (conditional adjacency: the complement will integrate the first projection if a personal pronoun;
Use of "+"
As rules are conservative (i.e., features are preserved unless explicitly deleted), the use of "+" is actually optional:
  • VC(AJ1); is the same as VC(+AJ1);
Reordering
Reordering can be done in three different ways:
  • By L-rules, if the process involves neighbour constituents and affects only the surface structure of the phrase;
  • By attribute change (i.e., deleting and adding distribution features), such as in "VC(-AJ1,+AJ2);"
  • By movement, in case of more complex inversions and extraction of constituents
The symbol ^ is used for negation and to control infinite recursion
  • VC(^AJ1):=VC(AJ1); (assign the feature "AJ1" to the complement of the verb if it does not have it yet)
Software