Semantic rules
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== Relation Rules == | == Relation Rules == | ||
Relation rules are used for translating UNL relations into natural language syntactic structures. They form a special case of the [[S-Rule]] type, because: | Relation rules are used for translating UNL relations into natural language syntactic structures. They form a special case of the [[S-Rule]] type, because: | ||
| − | *differently from other s-rules, the heads of the syntactic | + | *differently from other s-rules, the heads of the syntactic relations may not be simplified; and |
| − | *differently from other s-rules, both arguments of the syntactic relation must be coindexed to the arguments of the semantic relation. | + | *differently from other s-rules, both arguments of the syntactic relation must be coindexed to the arguments of the semantic relation through the placeholders %01 and %02, which stand for the left and the right argument [of the semantic relation], respectively. |
=== Templates === | === Templates === | ||
Revision as of 15:41, 16 October 2009
Semantic rules are rules for mapping UNL structures into natural language and vice-versa. They can be of two different types: relation rules, i.e., rules that map UNL relations into syntatic structures; and attribute rules, which are rules that map UNL attributes into morpho-syntactic structures.
Relation Rules
Relation rules are used for translating UNL relations into natural language syntactic structures. They form a special case of the S-Rule type, because:
- differently from other s-rules, the heads of the syntactic relations may not be simplified; and
- differently from other s-rules, both arguments of the syntactic relation must be coindexed to the arguments of the semantic relation through the placeholders %01 and %02, which stand for the left and the right argument [of the semantic relation], respectively.
Templates
| CASE | TEMPLATE* | EXAMPLE | GLOSS |
|---|---|---|---|
| ADJUNCT (DIRECT) | XA(%01:%02); | mod(NOU;ADJ):=NA(%01:%02); | if "mod(NOU;ADJ)" then the ADJ (%02) is a direct adjunct to the NOU (%01) inside the noun phrase |
| ADJUNCT (INDIRECT) | XA(%01:YC(Y:%02)); | tim(VER;NOU):=VA(%01:PC([in]:%02)); | if "tim(VER;NOU)" then the NOU (%02) is the complement of the preposition "in" which is the head of the prepositional phrase adjunct to the VER (%01) |
| COMPLEMENT (DIRECT) | XC(%01:%02) | obj(VER;NOU):=VC(%01:%02); | if "mod(VER;NOU)" then the NOU (%02) is the direct complement of the VER (%01) |
| COMPLEMENT (INDIRECT) | XC(%01:YC(Y:%02)); | gol(VER;NOU):=VC(%01:PC([to]:%02)); | if "gol(VER;NOU)" then the NOU (%02) is the complement of the preposition "to" which is the head of the prepositional phrase complement to the VER (%01) |
| SPECIFIER | XS(%01:%02) | agt(VER;NOU):=VS(%01:%02); | if "agt(VER;NOU)" then the NOU (%02) is the specifier of the VER (%01) |
*X and Y must be replaced by lexical categories (N,A,J,V,P,C,D,I), depending on the nature of the heads.
Attribute Rules
Attribute rules are used for translating UNL attributes into natural language morpho-syntactic structures. Depending on their nature, they can follow either the s-rule or the m-rule type.
- m-rule
- m-rules are used when the attribute implies a morphological or an orthographical change. There are attributes, such as .@pl (= plural) and .@past (= past), that can be directly associated to inflections.
