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Ich
NP
muss
(S[dcl]\NP)/(S[b]\NP)
dir
NP
eine
NP/N
dumme
N/N
Frage
N
N
>
0
NP
>
0
stellen
((S[b]\NP)\NP)\NP
(S[b]\NP)\NP
<
0
S[b]\NP
<
0
S[dcl]\NP
>
0
S[dcl]
<
0
.
S[dcl]\S[dcl]
S[dcl]
<
0
<div class="der"> <table class="constituent binaryrule" data-cat="S[dcl]"> <tr class="daughters"> <td class="daughter daughter-left"><table class="constituent binaryrule" data-cat="S[dcl]"> <tr class="daughters"> <td class="daughter daughter-left"><table class="constituent lex" data-token="Ich" data-from="0" data-to="3" data-cat="NP"> <tr><td class="token">Ich</td></tr> <tr><td class="cat" tabindex="0">NP</td></tr> <tr><td class="span-swiper"> </td></tr> </table></td> <td class="daughter daughter-right"><table class="constituent binaryrule" data-cat="S[dcl]\NP"> <tr class="daughters"> <td class="daughter daughter-left"><table class="constituent lex" data-token="muss" data-from="4" data-to="8" data-cat="(S[dcl]\NP)/(S[b]\NP)"> <tr><td class="token">muss</td></tr> <tr><td class="cat" tabindex="0">(S[dcl]\NP)/(S[b]\NP)</td></tr> <tr><td class="span-swiper"> </td></tr> </table></td> <td class="daughter daughter-right"><table class="constituent binaryrule" data-cat="S[b]\NP"> <tr class="daughters"> <td class="daughter daughter-left"><table class="constituent lex" data-token="dir" data-from="9" data-to="12" data-cat="NP"> <tr><td class="token">dir</td></tr> <tr><td class="cat" tabindex="0">NP</td></tr> <tr><td class="span-swiper"> </td></tr> </table></td> <td class="daughter daughter-right"><table class="constituent binaryrule" data-cat="(S[b]\NP)\NP"> <tr class="daughters"> <td class="daughter daughter-left"><table class="constituent binaryrule" data-cat="NP"> <tr class="daughters"> <td class="daughter daughter-left"><table class="constituent lex" data-token="eine" data-from="13" data-to="17" data-cat="NP/N"> <tr><td class="token">eine</td></tr> <tr><td class="cat" tabindex="0">NP/N</td></tr> <tr><td class="span-swiper"> </td></tr> </table></td> <td class="daughter daughter-right"><table class="constituent binaryrule" data-cat="N"> <tr class="daughters"> <td class="daughter daughter-left"><table class="constituent lex" data-token="dumme" data-from="18" data-to="23" data-cat="N/N"> <tr><td class="token">dumme</td></tr> <tr><td class="cat" tabindex="0">N/N</td></tr> <tr><td class="span-swiper"> </td></tr> </table></td> <td class="daughter daughter-right"><table class="constituent lex" data-token="Frage" data-from="24" data-to="29" data-cat="N"> <tr><td class="token">Frage</td></tr> <tr><td class="cat" tabindex="0">N</td></tr> <tr><td class="span-swiper"> </td></tr> </table></td> </tr> <tr><td colspan="2" class="rulecat"><div class="rulecat"> <div class="cat">N</div> <div class="rule" title="Forward Application">> <sup>0</sup> </div> </div></td></tr> </table></td> </tr> <tr><td colspan="2" class="rulecat"><div class="rulecat"> <div class="cat">NP</div> <div class="rule" title="Forward Application">> <sup>0</sup> </div> </div></td></tr> </table></td> <td class="daughter daughter-right"><table class="constituent lex" data-token="stellen" data-from="30" data-to="37" data-cat="((S[b]\NP)\NP)\NP"> <tr><td class="token">stellen</td></tr> <tr><td class="cat" tabindex="0">((S[b]\NP)\NP)\NP</td></tr> <tr><td class="span-swiper"> </td></tr> </table></td> </tr> <tr><td colspan="2" class="rulecat"><div class="rulecat"> <div class="cat">(S[b]\NP)\NP</div> <div class="rule" title="Backward Application">< <sup>0</sup> </div> </div></td></tr> </table></td> </tr> <tr><td colspan="2" class="rulecat"><div class="rulecat"> <div class="cat">S[b]\NP</div> <div class="rule" title="Backward Application">< <sup>0</sup> </div> </div></td></tr> </table></td> </tr> <tr><td colspan="2" class="rulecat"><div class="rulecat"> <div class="cat">S[dcl]\NP</div> <div class="rule" title="Forward Application">> <sup>0</sup> </div> </div></td></tr> </table></td> </tr> <tr><td colspan="2" class="rulecat"><div class="rulecat"> <div class="cat">S[dcl]</div> <div class="rule" title="Backward Application">< <sup>0</sup> </div> </div></td></tr> </table></td> <td class="daughter daughter-right"><table class="constituent lex" data-token="." data-from="37" data-to="38" data-cat="S[dcl]\S[dcl]"> <tr><td class="token">.</td></tr> <tr><td class="cat" tabindex="0">S[dcl]\S[dcl]</td></tr> <tr><td class="span-swiper"> </td></tr> </table></td> </tr> <tr><td colspan="2" class="rulecat"><div class="rulecat"> <div class="cat">S[dcl]</div> <div class="rule" title="Backward Application">< <sup>0</sup> </div> </div></td></tr> </table> </div>
Use with
der.css
.
\begin{tikzpicture}[ampersand replacement=\&] \matrix [column sep=9pt] at (0, 0) { \lexnode*{idm13}{Ich}{\catNP}{} \& \lexnode*{idm28}{muss}{(\catS[dcl]\?\catNP)/(\catS[b]\?\catNP)}{} \& \lexnode*{idm49}{dir}{\catNP}{} \& \lexnode*{idm71}{eine}{\catNP/\catN}{} \& \lexnode*{idm86}{dumme}{\catN/\catN}{} \& \lexnode*{idm96}{Frage}{\catN}{} \& \lexnode*{idm104}{stellen}{((\catS[b]\?\catNP)\?\catNP)\?\catNP}{} \& \lexnode*{idm118}{.}{\catS[dcl]\?\catS[dcl]}{} \\ }; \binnode*{idm81}{idm86-cat}{idm96-cat}{\FC{0}}{\catN}{} \binnode*{idm66}{idm71-cat}{idm81}{\FC{0}}{\catNP}{} \binnode*{idm57}{idm66}{idm104-cat}{\BC{0}}{(\catS[b]\?\catNP)\?\catNP}{} \binnode*{idm42}{idm49-cat}{idm57}{\BC{0}}{\catS[b]\?\catNP}{} \binnode*{idm21}{idm28-cat}{idm42}{\FC{0}}{\catS[dcl]\?\catNP}{} \binnode*{idm8}{idm13-cat}{idm21}{\BC{0}}{\catS[dcl]}{} \binnode*{idm3}{idm8}{idm118-cat}{\BC{0}}{\catS[dcl]}{} \end{tikzpicture}
Use with
ccgsym.sty
and
tikzlibraryccgder.code.tex
.
Translations
eng
I need to ask you a silly question.
fra
Je dois te poser une question idiote.
ita
Devo farti una domanda stupida.
nld
Ik moet je een domme vraag stellen.
rus
Мне нужно задать тебе глупый вопрос.
spa
Necesito hacerte una pregunta tonta.
ukr
Мені потрібно поставити тобі дурне питання.