Apertium separable
Lttoolbox provides a module for reordering separable/discontiguous multiwords and processing them in the pipeline. Multiwords are manually written in an additional xml-format dictionary.
Installing
Prerequisites and compilation are the same as lttoolbox and apertium. See Installation.
Lexical transfer in the pipeline
lsx-proc runs between apertium-tagger and apertium-pretransfer:
… | apertium-tagger -g eng.prob | lsx-proc english.bin | apertium-pretransfer | …
Example
A sentence in plain text,
Thus, it was asserted that a tax on foreign workers would reduce the numbers coming in and “taking jobs away” from American citizens.
This is the output of feeding the sentence through apertium-tagger
:
^thus<adv>$^,<cm>$ ^prpers<prn><subj><p3><nt><sg>$ ^be<vbser><past><p3><sg>$ ^assert<vblex><pp>$ ^that<prn><tn><mf><sg>$ ^a<det><ind><sg>$ ^tax<n><sg>$ ^on<pr>$ ^foreign<adj>$ ^worker<n><pl>$ ^would<vaux><inf>$ ^reduce<vblex><inf>$ ^the<det><def><sp>$ ^number<vblex><pri><p3><sg>$ ^come<vblex><ger># in$ ^and<cnjcoo>$ “^take<vblex><ger>$ ^job<n><pl>$ ^away<adv>$” ^from<pr>$ ^american<adj>$ ^citizen<n><pl>$^.<sent>$^.<sent>$
This is the output of feeding the output above through lsx-proc
:
^thus<adv>$^,<cm>$ ^prpers<prn><subj><p3><nt><sg>$ ^be<vbser><past><p3><sg>$ ^assert<vblex><pp>$ ^that<prn><tn><mf><sg>$ ^a<det><ind><sg>$ ^tax<n><sg>$ ^on<pr>$ ^foreign<adj>$ ^worker<n><pl>$ ^would<vaux><inf>$ ^reduce<vblex><inf>$ ^the<det><def><sp>$ ^number<vblex><pri><p3><sg>$ ^come<vblex><ger># in$ ^and<cnjcoo>$ “^take# away<vblex><sep><ger>$ ^job<n><pl>$” ^from<pr>$ ^american<adj>$ ^citizen<n><pl>$^.<sent>$^.<sent>$
Usage
Make a dictionary file:
<dictionary type="separable"> <alphabet>ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz</alphabet> <sdefs> <sdef n="adj"/> <sdef n="adv"/> <sdef n="n"/> <sdef n="sep"/> <sdef n="vblex"/> </sdefs> <pardefs> <pardef n="adj"> <e><i><w/><s n="adj"/><j/></i></e> <e><i><w/><s n="adj"/><t/><j/></i></e> </pardef> <pardef n="n"> <e><i><w/><s n="n"/><t/><j/></i></e> </pardef> <pardef n="SN"> <e><par n="n"/></e> <e><par n="adj"/><par n="n"/></e> <e><par n="adj"/><par n="adj"/><par n="n"/></e> </pardef> <pardef n="freq-adv"> <e><i>always<s n="adv"/><j/></i></e> <e><i>anually<s n="adv"/><j/></i></e> <e><i>bianually<s n="adv"/><j/></i></e> </pardef> </pardefs> <section id="main" type="standard"> <e lm="be late" c="llegar tarde"> <p><l>be<s n="vblex"/></l><r>be<g><b/>late</g><s n="vblex"/><s n="sep"/></r></p><i><t/><j/></i> <par n="freq-adv"/><p><l>late<t/></l><r></r></p> </e> <e lm="take away" c="sacar, quitar"> <p><l>take<s n="vblex"/></l><r>take<g><b/>away</g><s n="vblex"/><s n="sep"/></r></p><i><t/><j/></i> <par n="SN"/><p><l>away<t/></l><r></r></p> </e> </section> </dictionary>
Then compile it:
$ lsx-comp dictionary.xml english.bin main@standard 61 73
The input to lsx-proc
is the output of apertium-tagger
,
$ echo '^thus<adv>$^,<cm>$ ^prpers<prn><subj><p3><nt><sg>$ ^be<vbser><past><p3><sg>$ ^assert<vblex><pp>$ ^that<prn><tn><mf><sg>$ ^a<det><ind><sg>$ ^tax<n><sg>$ ^on<pr>$ ^foreign<adj>$ ^worker<n><pl>$ ^would<vaux><inf>$ ^reduce<vblex><inf>$ ^the<det><def><sp>$ ^number<vblex><pri><p3><sg>$ ^come<vblex><ger># in$ ^and<cnjcoo>$ <b>“^take<vblex><ger>$ ^job<n><pl>$ ^away<adv>$”</b> ^from<pr>$ ^american<adj>$ ^citizen<n><pl>$^.<sent>$^.<sent>$' | lsx-proc english.bin
Dictionary format
A paradigm is made up of:
A dictionary entry is made up of:
Preparedness of languages
Language | entries |
---|---|
apertium-eng |
18,563 |