Constraint-based Syntax 2: Week 2: Difference between revisions
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[POL ''boolean''] | [POL ''boolean''] | ||
[INV ''boolean'']] | [INV ''boolean'']]<br> | ||
Task: go to the online grammar and parse the following words in order to see the values for their head features: ''like, likes, liked, liking''. | |||
Note that those verb forms which can serve as the complement of the verb ''be'' (the passive ''liked'' and the progressive ''liking'') are [PRED plus], whereas all the remaining forms are [PRED minus]. | |||
Revision as of 17:34, 21 April 2017
The Argument Realization Principle (ARP)
Recall that in GS the syntactic arguments of a word are in a sense represented twice: once on the ARG-ST (argument structure) list which, among others, is used for Binding Theory, and again on one of the valence lists SUBJ, SPR, and COMPS. Rather than being arbitrary, the relationship between the ARG-S and the valence lists is governed by the Argument Realization Principle:
In words, the principle says that the ARG-ST list is the result of merging the three valence lists into one list, with the elements of the SUBJ list coming first, followed by the elements on the SPR list, followed by the elements on the COMPS list.
Besides the ARP, the valence properties of words depend on their part of speech. Thus, all words of part of speech v must have a SUBJ list with exactly one element on it and a SPR list which is empty. In combination with the ARP, verbs of part of speech v thus must have the following properties:
- The ARG-ST must have at least one element on it.
- The first element of the ARG-ST is also the single element on the SUBJ list.
- If there are additional elements on the ARG-ST, then these elements also occur on the COMPS list.
- The elements which appear both on the ARG-ST and the COMPS list, appear in the same order on both lists.
The following Exercises on the append relation have the purpose of showing that the 4 statements above must be true.
Exercises on the Argument Realization Principle
Head Features
The parts of speech are divided into two classes, the substantive parts of speech and the functional parts of speech.
The parts of speech v and g
v is the part of speech of all verbs and auxiliaries, including the infinitive marker to. g represents verbal gerunds.
The table below is to be interpreted as follows. In the leftmost column, we find parts of speech. The top-to-bottom order represents the immediate subtype relationship, i.e. verbal is an immediate subtype of subst, verb is an immediate subtype of verbal, and both v and g are immediate subtypes of verb.
The second column lists the features introduced by each part of speech, followed in the third column by the value type of the feature, and finally a short statement of the function of the feature in distinguishing different subgroups of the part(s) of speech under discussion.
| Part of speech | Feature | Value type | Function of the feature |
|---|---|---|---|
| subst | PRED | boolean | predicative expression |
| MOD | mod-synsem | modified synsem or none | |
| verbal | VFORM | vform | verb form |
| IC | boolean | independent clause | |
| verb | AUX | boolean | auxiliary construction |
| POL | boolean | polarized auxiliary (not, TOO, so) | |
| INV | boolean | inverted auxiliary | |
| v, g |
Let us now ask what this means for expressions of part of speech v. v itself does not introduce any features, but since every v is also a verb, a verbal, and a subset, an expression of part of speech v has all the features introduced by its supertypes and the corresponding values:
[v
[PRED boolean]
[MOD mod-synsem]
[VFORM vform]
[AUX boolean]
[POL boolean]
[INV boolean]]
Task: go to the online grammar and parse the following words in order to see the values for their head features: like, likes, liked, liking.
Note that those verb forms which can serve as the complement of the verb be (the passive liked and the progressive liking) are [PRED plus], whereas all the remaining forms are [PRED minus].