CCGWeb - There's nothing to apologize for.

There

NP[thr]

(S[dcl]\NP[thr])/NP

nothing

S[dcl]\NP[thr]

> ⁰

(S[to]\NP)/(S[b]\NP)

apologize

S[b]\NP

S[to]\NP

> ⁰

S/S

for

(S\NP)\(S\NP)

> ⁿ

S[dcl]\NP[thr]

< 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="There" data-from="0" data-to="5" data-cat="NP[thr]">
<tr><td class="token">There</td></tr>
<tr><td class="cat" tabindex="0">NP[thr]</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[thr]">
<tr class="daughters">
<td class="daughter daughter-left"><table class="constituent binaryrule" data-cat="S[dcl]\NP[thr]">
<tr class="daughters">
<td class="daughter daughter-left"><table class="constituent lex" data-token="'s" data-from="5" data-to="7" data-cat="(S[dcl]\NP[thr])/NP">
<tr><td class="token">'s</td></tr>
<tr><td class="cat" tabindex="0">(S[dcl]\NP[thr])/NP</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 lex" data-token="nothing" data-from="8" data-to="15" data-cat="N">
<tr><td class="token">nothing</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>
</tr>
<tr><td colspan="2" class="rulecat"><div class="rulecat">
<div class="cat">S[dcl]\NP[thr]</div>
<div class="rule" title="Forward Application">&gt; <sup>0</sup>
</div>
</div></td></tr>
</table></td>
<td class="daughter daughter-right"><table class="constituent binaryrule" data-cat="(S\NP)\(S\NP)">
<tr class="daughters">
<td class="daughter daughter-left"><table class="constituent unaryrule" data-cat="S/S">
<tr class="daughters"><td class="daughter daughter-only"><table class="constituent binaryrule" data-cat="S[to]\NP">
<tr class="daughters">
<td class="daughter daughter-left"><table class="constituent lex" data-token="to" data-from="16" data-to="18" data-cat="(S[to]\NP)/(S[b]\NP)">
<tr><td class="token">to</td></tr>
<tr><td class="cat" tabindex="0">(S[to]\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="apologize" data-from="19" data-to="28" data-cat="S[b]\NP">
<tr><td class="token">apologize</td></tr>
<tr><td class="cat" tabindex="0">S[b]\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[to]\NP</div>
<div class="rule" title="Forward Application">&gt; <sup>0</sup>
</div>
</div></td></tr>
</table></td></tr>
<tr><td class="rulecat"><div class="rulecat">
<div class="cat">S/S</div>
<div class="rule" title="Type Changing">
									*
								</div>
</div></td></tr>
</table></td>
<td class="daughter daughter-right"><table class="constituent binaryrule" data-cat="(S\NP)\(S\NP)">
<tr class="daughters">
<td class="daughter daughter-left"><table class="constituent lex" data-token="for" data-from="29" data-to="32" data-cat="(S\NP)\(S\NP)">
<tr><td class="token">for</td></tr>
<tr><td class="cat" tabindex="0">(S\NP)\(S\NP)</td></tr>
<tr><td class="span-swiper"> </td></tr>
</table></td>
<td class="daughter daughter-right"><table class="constituent lex" data-token="." data-from="32" data-to="33" 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">(S\NP)\(S\NP)</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">(S\NP)\(S\NP)</div>
<div class="rule" title="Forward Crossed Composition">&gt; <sup><i>n</i></sup>
</div>
</div></td></tr>
</table></td>
</tr>
<tr><td colspan="2" class="rulecat"><div class="rulecat">
<div class="cat">S[dcl]\NP[thr]</div>
<div class="rule" title="Backward Application">&lt; <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">&lt; <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}{There}{\catNP[thr]}{} \&
		\lexnode*{idm30}{'s}{(\catS[dcl]\?\catNP[thr])/\catNP}{} \&
		\lexnode*{idm45}{nothing}{\catN}{} \&
		\lexnode*{idm76}{to}{(\catS[to]\?\catNP)/(\catS[b]\?\catNP)}{} \&
		\lexnode*{idm90}{apologize}{\catS[b]\?\catNP}{} \&
		\lexnode*{idm111}{for}{(\catS\?\catNP)\?(\catS\?\catNP)}{} \&
		\lexnode*{idm125}{.}{\cat.}{} \\
	};
	\unnode*{idm42}{idm45-cat}{*}{\catNP}{}
	\binnode*{idm23}{idm30-cat}{idm42}{\FC{0}}{\catS[dcl]\?\catNP[thr]}{}
	\binnode*{idm69}{idm76-cat}{idm90-cat}{\FC{0}}{\catS[to]\?\catNP}{}
	\unnode*{idm64}{idm69}{*}{\catS/\catS}{}
	\binnode*{idm100}{idm111-cat}{idm125-cat}{.}{(\catS\?\catNP)\?(\catS\?\catNP)}{}
	\binnode*{idm53}{idm64}{idm100}{\FXC{n}}{(\catS\?\catNP)\?(\catS\?\catNP)}{}
	\binnode*{idm16}{idm23}{idm53}{\BC{0}}{\catS[dcl]\?\catNP[thr]}{}
	\binnode*{idm3}{idm8-cat}{idm16}{\BC{0}}{\catS[dcl]}{}
\end{tikzpicture}

Use with ccgsym.sty and tikzlibraryccgder.code.tex.

Sentence

Parse

Translations