Difference between revisions of "Recursive transfer"
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<pre> |
<pre> |
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$ cat input/input.01.txt | ./eng-kaz.parser |
$ cat input/input.01.txt | ./eng-kaz.parser |
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^you<prn><subj><p2><mf><sp>/сен<prn><pers><subj><p2><mf><sp>$ ^Kazakhstan<np><top><sg>/Қазақстан<np><top><nom>$ ^to<pr>/ |
^you<prn><subj><p2><mf><sp>/сен<prn><pers><subj><p2><mf><sp>$ ^Kazakhstan<np><top><sg>/Қазақстан<np><top><nom>$ ^to<pr>/$ |
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^go<vblex><past>/бар<v><iv><past>$ ^that<cnjsub>/$ ^I<prn><subj><p1><mf><sg>/Мен<prn><pers><subj><p1><mf><sg>$ |
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^know<vblex><pres>/біл<v><tv><pres>$ ^.<sent>/.<sent>$ |
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</pre> |
</pre> |
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<pre> |
<pre> |
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$ cat input/input.01.txt | ./eng-kaz.parser -s -p >/dev/null |
$ cat input/input.01.txt | ./eng-kaz.parser -s -p >/dev/null |
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(S (S1 (PRNS (subj_pron (^I<prn><subj><p1><mf><sg>/Мен<prn><pers><subj><p1><mf><sg>$))) |
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(S (S1 (PRNS (subj_pron (^I<prn><subj><p1><mf><sg>/Мен<prn><pers><subj><p1><mf><sg>$))) (SV (V (pers_verb (^know<vblex><pres>/біл<v><tv><pres>$))))) (Ssub (cnjsub (^that<cnjsub>/$)) (S1 (PRNS (subj_pron (^you<prn><subj><p2><mf><sp>/сен<prn><pers><subj><p2><mf><sp>$))) (SV (V (pers_verb (^go<vblex><past>/бар<v><iv><past>$))) (SP (prep (^to<pr>/$)) (SN1 (SN (N (nom (^Kazakhstan<np><top><sg>/Қазақстан<np><top><nom>$))))))))) (X (sent (^.<sent>/.<sent>$)))) |
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(SV (V (pers_verb (^know<vblex><pres>/біл<v><tv><pres>$))))) (Ssub (cnjsub (^that<cnjsub>/$)) |
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(S1 (PRNS (subj_pron (^you<prn><subj><p2><mf><sp>/сен<prn><pers><subj><p2><mf><sp>$))) |
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(SV (V (pers_verb (^go<vblex><past>/бар<v><iv><past>$))) (SP (prep (^to<pr>/$)) |
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(SN1 (SN (N (nom (^Kazakhstan<np><top><sg>/Қазақстан<np><top><nom>$))))))))) (X (sent (^.<sent>/.<sent>$)))) |
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<pre> |
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$ cat input/input.01.txt | ./eng-kaz.parser |
$ cat input/input.01.txt | ./eng-kaz.parser -p >/dev/null |
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(S (Ssub (S1 (PRNS (subj_pron (^ |
(S (Ssub (S1 (PRNS (subj_pron (^you<prn><subj><p2><mf><sp>/сен<prn><pers><subj><p2><mf><sp>$))) |
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(SV (SP (SN1 (SN (N (nom (^Kazakhstan<np><top><sg>/Қазақстан<np><top><nom>$))))) (prep (^to<pr>/$))) |
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(V (pers_verb (^go<vblex><past>/бар<v><iv><past>$))))) (cnjsub (^that<cnjsub>/$))) |
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(S1 (PRNS (subj_pron (^I<prn><subj><p1><mf><sg>/Мен<prn><pers><subj><p1><mf><sg>$))) |
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(SV (V (pers_verb (^know<vblex><pres>/біл<v><tv><pres>$))))) (X (sent (^.<sent>/.<sent>$)))) |
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</pre> |
</pre> |
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==Further reading== |
==Further reading== |
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* [[User:Mlforcada/Robust LR for Transfer]] |
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* MUHUA ZHU, JINGBO ZHU and HUIZHEN WANG (2013) "Improving shift-reduce constituency parsing with large-scale unlabeled data". ''Natural Language Engineering ''. October 2013, pp. 1--26 |
* MUHUA ZHU, JINGBO ZHU and HUIZHEN WANG (2013) "Improving shift-reduce constituency parsing with large-scale unlabeled data". ''Natural Language Engineering ''. October 2013, pp. 1--26 |
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* http://www.cs.cmu.edu/~./alavie/papers/thesis.pdf |
* http://www.cs.cmu.edu/~./alavie/papers/thesis.pdf |
Latest revision as of 10:50, 9 February 2015
Todo[edit]
Make the parser output optionally original parse tree (SL syntax) and target parse tree (TL syntax).- Attribute structures. These are defined in typical .t1x format with
def-attrs
- Make the parser robust — we should never get parse errors, though our trees may be mangled.
Process[edit]
The parser has two trees, both are built simultaneously:
- The source tree is parser-internal
- The target tree is the "abstract syntax tree".
When a sentence terminal (S
) is reached, the target tree is traversed and printed out.
Questions[edit]
- What to do with a parse-fail.
- Implicit glue rules
- How do we make sure that we never get
Syntax error
(e.g. really robust glue rules).
- How do we make sure that we never get
- the glue rules would not compute anything, just allow for partial parses
- Implicit glue rules
- How about unknown words...
- they would be some non-terminal UNK that would be glued by the all-encompassing glue rule from above.
- Ambiguous grammars -> can be automatically disambiguated ?
- Learn shift/reduce using target-language information ?
- Converting right-recursive to left-recursive grammars.
- How to apply macros in rules which have >1 non-terminal.
- What on earth to do with blanks / formatting...
- Do we try and find syntactic relations in the transfer, or do we pre-annotate (e.g. with CG) then use the tags from CG to constraint the parser?
- Can/should we do unification in the grammar (e.g. to avoid rules like SN -> adj n matching when adj.G and n.G are not the same)?
- If a language uses CG, the rule SN -> @A→ @N would only match where CG mapped @A→ (and CG can do unification with less trouble, not mapping @A→ where gender differs)
- However, if we are to propagate attributes up the tree as well, it makes sense to have unification as well, so we can say
NP[gen=X] -> D[gen=X] N[gen=X]
- Should the transfer allow for >1 possible TL translation ? to allow 'lexical selection' inside transfer as well as outside ?
- Can we learn transfer grammars from aligned treebanks ?
Algorithms[edit]
Usage[edit]
$ svn co https://svn.code.sf.net/p/apertium/svn/branches/transfer4 $ cd transfer4 $ cd eng-kaz $ make
- Files
eng-kaz.grammar
: Transfer grammar file for English→Kazakheng-kaz.t1x
: Categories (terminals) and attributes for English→Kazakh
- Apply the transfer grammar
$ cat input/input.01.txt | ./eng-kaz.parser ^you<prn><subj><p2><mf><sp>/сен<prn><pers><subj><p2><mf><sp>$ ^Kazakhstan<np><top><sg>/Қазақстан<np><top><nom>$ ^to<pr>/$ ^go<vblex><past>/бар<v><iv><past>$ ^that<cnjsub>/$ ^I<prn><subj><p1><mf><sg>/Мен<prn><pers><subj><p1><mf><sg>$ ^know<vblex><pres>/біл<v><tv><pres>$ ^.<sent>/.<sent>$
- Print out the source tree
$ cat input/input.01.txt | ./eng-kaz.parser -s -p >/dev/null (S (S1 (PRNS (subj_pron (^I<prn><subj><p1><mf><sg>/Мен<prn><pers><subj><p1><mf><sg>$))) (SV (V (pers_verb (^know<vblex><pres>/біл<v><tv><pres>$))))) (Ssub (cnjsub (^that<cnjsub>/$)) (S1 (PRNS (subj_pron (^you<prn><subj><p2><mf><sp>/сен<prn><pers><subj><p2><mf><sp>$))) (SV (V (pers_verb (^go<vblex><past>/бар<v><iv><past>$))) (SP (prep (^to<pr>/$)) (SN1 (SN (N (nom (^Kazakhstan<np><top><sg>/Қазақстан<np><top><nom>$))))))))) (X (sent (^.<sent>/.<sent>$))))
- Print out the target tree
$ cat input/input.01.txt | ./eng-kaz.parser -p >/dev/null (S (Ssub (S1 (PRNS (subj_pron (^you<prn><subj><p2><mf><sp>/сен<prn><pers><subj><p2><mf><sp>$))) (SV (SP (SN1 (SN (N (nom (^Kazakhstan<np><top><sg>/Қазақстан<np><top><nom>$))))) (prep (^to<pr>/$))) (V (pers_verb (^go<vblex><past>/бар<v><iv><past>$))))) (cnjsub (^that<cnjsub>/$))) (S1 (PRNS (subj_pron (^I<prn><subj><p1><mf><sg>/Мен<prn><pers><subj><p1><mf><sg>$))) (SV (V (pers_verb (^know<vblex><pres>/біл<v><tv><pres>$))))) (X (sent (^.<sent>/.<sent>$))))
References[edit]
- Prószéky & Tihanyi (2002) "MetaMorpho: A Pattern-Based Machine Translation System"
- White (1985) "Characteristics of the METAL machine translation system at Production Stage" (§6)
- Slocum (1982) "The LRC Machine translation system: An application of State-of-the-Art ..." (p.18)
Further reading[edit]
- User:Mlforcada/Robust LR for Transfer
- MUHUA ZHU, JINGBO ZHU and HUIZHEN WANG (2013) "Improving shift-reduce constituency parsing with large-scale unlabeled data". Natural Language Engineering . October 2013, pp. 1--26
- http://www.cs.cmu.edu/~./alavie/papers/thesis.pdf
- http://www.cl.cam.ac.uk/techreports/UCAM-CL-TR-743.pdf