Difference between revisions of "User:Mlforcada/Robust LR for Transfer"
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One possible way to do so is to model left-to-right '''restarts''' as follows: |
One possible way to do so is to model left-to-right '''restarts''' as follows: |
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* by accepting the longest possible constituent that cannot be merged with the remaining output and generating some kind of translation for it |
* by accepting the longest possible constituent (in the original grammar <math>G</math> that cannot be merged with the remaining output and generating some kind of translation for it |
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* and treating the remaining output as a complete sentence again |
* and treating the remaining output as a complete sentence again |
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For instance, if the grammar <math>G</math> is: |
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<pre> |
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S : NP VP { write(agree(nom($1),$2)) }; |
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NP : n { write($1) } ; |
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VP : v { write($1) } ; |
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| v NP { write(acc($2),$1) }; |
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</pre> |
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the sequence <math>v n n</math> could not be parsed and would lead to an error. However, it could be seen as a NP followed by a VP, and a translation could be generated for both. One could augment the grammar by adding some rules: |
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<pre> |
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S : NP VP { write(agree(nom($1),$2)) } |
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| NP TryS { write($1); write($2) } # translate an NP and skip |
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| VP TryS { write($1); write($2) } # translate a VP and skip |
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; |
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TryS : S { write($1); } |
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| ; # the remaining part may be empty |
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NP : n { write($1) } ; |
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VP : v { write($1) } ; |
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| v NP { write(acc($2),$1) }; |
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</pre> |
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Revision as of 16:42, 1 January 2015
We need a way to implement Apertium4 Bison grammars that are robust.
Here, Bison GRAMMAR is a LALR(1) grammar with actions between braces.
There should be a way (or a procedure) to complete handwritten rules, if possible automatically, to generate a robust parser (and translator). The idea is to take the handwritten Bison grammar and complement it with automatically-generated glue rules in such a way that conflicts are not produced (or are harmless) to produce a new grammar .
One possible way to do so is to model left-to-right restarts as follows:
- by accepting the longest possible constituent (in the original grammar that cannot be merged with the remaining output and generating some kind of translation for it
- and treating the remaining output as a complete sentence again
For instance, if the grammar is:
S : NP VP { write(agree(nom($1),$2)) };
NP : n { write($1) } ;
VP : v { write($1) } ;
| v NP { write(acc($2),$1) };
the sequence could not be parsed and would lead to an error. However, it could be seen as a NP followed by a VP, and a translation could be generated for both. One could augment the grammar by adding some rules:
S : NP VP { write(agree(nom($1),$2)) }
| NP TryS { write($1); write($2) } # translate an NP and skip
| VP TryS { write($1); write($2) } # translate a VP and skip
;
TryS : S { write($1); }
| ; # the remaining part may be empty
NP : n { write($1) } ;
VP : v { write($1) } ;
| v NP { write(acc($2),$1) };
