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I
NP
ca
(S[dcl]\NP)/(S[b]\NP)
n't
(S\NP)\(S\NP)
(S[dcl]\NP)/(S[b]\NP)
<
1
×
make
(S[b]\NP)/NP
heads
N
NP
*
or
conj
tails
N/PP
of
PP/NP
it
NP
PP
>
0
.
.
PP
.
N
>
0
NP
*
NP\NP
∨
NP
<
0
S[b]\NP
>
0
S[dcl]\NP
>
0
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 lex" data-token="I" data-from="0" data-to="1" data-cat="NP"> <tr><td class="token">I</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 binaryrule" data-cat="(S[dcl]\NP)/(S[b]\NP)"> <tr class="daughters"> <td class="daughter daughter-left"><table class="constituent lex" data-token="ca" data-from="2" data-to="4" data-cat="(S[dcl]\NP)/(S[b]\NP)"> <tr><td class="token">ca</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 lex" data-token="n't" data-from="4" data-to="7" data-cat="(S\NP)\(S\NP)"> <tr><td class="token">n't</td></tr> <tr><td class="cat" tabindex="0">(S\NP)\(S\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[dcl]\NP)/(S[b]\NP)</div> <div class="rule" title="Backward Crossed Composition">< <sup>1</sup><sub>×</sub> </div> </div></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="make" data-from="8" data-to="12" data-cat="(S[b]\NP)/NP"> <tr><td class="token">make</td></tr> <tr><td class="cat" tabindex="0">(S[b]\NP)/NP</td></tr> <tr><td class="span-swiper"> </td></tr> </table></td> <td class="daughter daughter-right"><table class="constituent binaryrule" data-cat="NP"> <tr class="daughters"> <td class="daughter daughter-left"><table class="constituent unaryrule" data-cat="NP"> <tr class="daughters"><td class="daughter daughter-only"><table class="constituent lex" data-token="heads" data-from="13" data-to="18" data-cat="N"> <tr><td class="token">heads</td></tr> <tr><td class="cat" tabindex="0">N</td></tr> <tr><td class="span-swiper"> </td></tr> </table></td></tr> <tr><td class="rulecat"><div class="rulecat"> <div class="cat">NP</div> <div class="rule" title="Type Changing"> * </div> </div></td></tr> </table></td> <td class="daughter daughter-right"><table class="constituent binaryrule" data-cat="NP\NP"> <tr class="daughters"> <td class="daughter daughter-left"><table class="constituent lex" data-token="or" data-from="19" data-to="21" data-cat="conj"> <tr><td class="token">or</td></tr> <tr><td class="cat" tabindex="0">conj</td></tr> <tr><td class="span-swiper"> </td></tr> </table></td> <td class="daughter daughter-right"><table class="constituent unaryrule" data-cat="NP"> <tr class="daughters"><td class="daughter daughter-only"><table class="constituent binaryrule" data-cat="N"> <tr class="daughters"> <td class="daughter daughter-left"><table class="constituent lex" data-token="tails" data-from="22" data-to="27" data-cat="N/PP"> <tr><td class="token">tails</td></tr> <tr><td class="cat" tabindex="0">N/PP</td></tr> <tr><td class="span-swiper"> </td></tr> </table></td> <td class="daughter daughter-right"><table class="constituent binaryrule" data-cat="PP"> <tr class="daughters"> <td class="daughter daughter-left"><table class="constituent binaryrule" data-cat="PP"> <tr class="daughters"> <td class="daughter daughter-left"><table class="constituent lex" data-token="of" data-from="28" data-to="30" data-cat="PP/NP"> <tr><td class="token">of</td></tr> <tr><td class="cat" tabindex="0">PP/NP</td></tr> <tr><td class="span-swiper"> </td></tr> </table></td> <td class="daughter daughter-right"><table class="constituent lex" data-token="it" data-from="31" data-to="33" data-cat="NP"> <tr><td class="token">it</td></tr> <tr><td class="cat" tabindex="0">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">PP</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="." data-from="33" data-to="34" data-cat="."> <tr><td class="token">.</td></tr> <tr><td class="cat" tabindex="0">.</td></tr> <tr><td class="span-swiper"> </td></tr> </table></td> </tr> <tr><td colspan="2" class="rulecat"><div class="rulecat"> <div class="cat">PP</div> <div class="rule" title="Remove Punctuation">.</div> </div></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 class="rulecat"><div class="rulecat"> <div class="cat">NP</div> <div class="rule" title="Type Changing"> * </div> </div></td></tr> </table></td> </tr> <tr><td colspan="2" class="rulecat"><div class="rulecat"> <div class="cat">NP\NP</div> <div class="rule" title="Conjunction">∨</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="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="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]\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> </div>
Use with
der.css
.
\begin{tikzpicture}[ampersand replacement=\&] \matrix [column sep=9pt] at (0, 0) { \lexnode*{idm8}{I}{\catNP}{} \& \lexnode*{idm34}{ca}{(\catS[dcl]\?\catNP)/(\catS[b]\?\catNP)}{} \& \lexnode*{idm48}{n't}{(\catS\?\catNP)\?(\catS\?\catNP)}{} \& \lexnode*{idm69}{make}{(\catS[b]\?\catNP)/\catNP}{} \& \lexnode*{idm89}{heads}{\catN}{} \& \lexnode*{idm104}{or}{\catconj}{} \& \lexnode*{idm120}{tails}{\catN/\catPP}{} \& \lexnode*{idm140}{of}{\catPP/\catNP}{} \& \lexnode*{idm150}{it}{\catNP}{} \& \lexnode*{idm158}{.}{\cat.}{} \\ }; \binnode*{idm23}{idm34-cat}{idm48-cat}{\BXC{1}}{(\catS[dcl]\?\catNP)/(\catS[b]\?\catNP)}{} \unnode*{idm86}{idm89-cat}{*}{\catNP}{} \binnode*{idm135}{idm140-cat}{idm150-cat}{\FC{0}}{\catPP}{} \binnode*{idm130}{idm135}{idm158-cat}{.}{\catPP}{} \binnode*{idm115}{idm120-cat}{idm130}{\FC{0}}{\catN}{} \unnode*{idm112}{idm115}{*}{\catNP}{} \binnode*{idm97}{idm104-cat}{idm112}{\wedge}{\catNP\?\catNP}{} \binnode*{idm81}{idm86}{idm97}{\BC{0}}{\catNP}{} \binnode*{idm62}{idm69-cat}{idm81}{\FC{0}}{\catS[b]\?\catNP}{} \binnode*{idm16}{idm23}{idm62}{\FC{0}}{\catS[dcl]\?\catNP}{} \binnode*{idm3}{idm8-cat}{idm16}{\BC{0}}{\catS[dcl]}{} \end{tikzpicture}
Use with
ccgsym.sty
and
tikzlibraryccgder.code.tex
.
Translations
fra
Je n'y comprends rien.