<tbody>
<tr>
<td class="snns capitalize italic gray">category</td>
- <td class="snns italic gray">objects</td>
+ <td class="snns italic gray">units</td>
<td class="snnn right italic gray">
<br />
</td>
</tr>
<tr>
<td class="snns capitalize italic water">sizes</td>
- <td class="snns italic water">files</td>
- <td class="snnn right italic water">301</td>
- <td class="snns italic water">characters</td>
- <td class="snnn right italic water">311322</td>
- <td class="snns italic water">nodes</td>
- <td class="ssnn right italic water">1450558</td>
+ <td class="snns italic water">characters (files)</td>
+ <td class="snnn right italic water">315581 (309)</td>
+ <td class="snns italic water">nodes (objects)</td>
+ <td class="snnn right italic water">1458870 (1431)</td>
+ <td class="snns italic water">intrinsic loss factor</td>
+ <td class="ssnn right italic water">4.6</td>
</tr>
<tr>
<td class="snns capitalize italic green">propositions</td>
<td class="snns italic green">theorems</td>
- <td class="snnn right italic green">93</td>
+ <td class="snnn right italic green">92</td>
<td class="snns italic green">lemmas</td>
- <td class="snnn right italic green">1054</td>
+ <td class="snnn right italic green">1085</td>
<td class="snns italic green">total</td>
- <td class="ssnn right italic green">1147</td>
+ <td class="ssnn right italic green">1177</td>
</tr>
<tr>
<td class="snss capitalize italic grass">concepts</td>
<td class="snss italic grass">declared</td>
<td class="snsn right italic grass">34</td>
<td class="snss italic grass">defined</td>
- <td class="snsn right italic grass">91</td>
+ <td class="snsn right italic grass">93</td>
<td class="snss italic grass">total</td>
- <td class="sssn right italic grass">125</td>
+ <td class="sssn right italic grass">127</td>
</tr>
</tbody>
</table>
<td class="nnns top capitalize italic sky">
<br />
</td>
- <td class="snns top italic sky">strongly normalizing on referred entries for lenvs</td>
+ <td class="snns top italic sky">strongly normalizing for lenvs on referred entries</td>
<td class="snns top sky">lfsx ( ? ⊢ ⬈*[?,?,?] 𝐒⦃?⦄ )</td>
<td class="ssnn top sky">lfsx_drops lfsx_fqup lfsx_lfpxs lfsx_lfsx</td>
</tr>
<td class="nnns top capitalize italic sky">
<br />
</td>
- <td class="snns top italic sky">on referred entries for lenvs</td>
+ <td class="snns top italic sky">for lenvs on referred entries</td>
<td class="snns top sky">lfpxs ( ⦃?,?⦄ ⊢ ⬈*[?,?] ? )</td>
- <td class="ssnn top sky">lfpxs_length lfpxs_drops lfpxs_fqup lfpxs_lfdeq lfpxs_aaa lfpxs_cpxs lfpxs_lfpxs</td>
+ <td class="ssnn top sky">lfpxs_length lfpxs_drops lfpxs_fqup lfpxs_lfdeq lfpxs_aaa lfpxs_cpxs lfpxs_lpxs lfpxs_lfpxs</td>
+ </tr>
+ <tr>
+ <td class="nnns top capitalize italic sky">
+ <br />
+ </td>
+ <td class="nnns top capitalize italic sky">
+ <br />
+ </td>
+ <td class="snns top italic sky">for lenvs on all entries</td>
+ <td class="snns top sky">lpxs ( ⦃?,?⦄ ⊢ ⬈*[?] ? )</td>
+ <td class="ssnn top sky">
+ <br />
+ </td>
</tr>
<tr>
<td class="nnns top capitalize italic sky">
</td>
<td class="snns top italic sky">for terms</td>
<td class="snns top sky">cpxs ( ⦃?,?⦄ ⊢ ? ⬈*[?] ? )</td>
- <td class="ssnn top sky">cpxs_tdeq cpxs_theq cpxs_theq_vector cpxs_drops cpxs_fqus cpxs_lsubr cpxs_lfdeq cpxs_aaa cpxs_lfpx cpxs_cnx cpxs_cpxs</td>
+ <td class="ssnn top sky">cpxs_tdeq cpxs_theq cpxs_theq_vector cpxs_drops cpxs_fqus cpxs_lsubr cpxs_lfdeq cpxs_aaa cpxs_lpx cpxs_lfpx cpxs_cnx cpxs_cpxs</td>
</tr>
<tr>
<td class="snns top capitalize italic cyan">rt-transition</td>
<td class="snns top cyan">lfpx ( ⦃?,?⦄ ⊢ ⬈[?,?] ? )</td>
<td class="ssnn top cyan">lfpx_length lfpx_drops lfpx_fqup lfpx_frees lfpx_lfdeq lfpx_aaa lfpx_cpx lfpx_lfpx</td>
</tr>
+ <tr>
+ <td class="nnns top capitalize italic cyan">
+ <br />
+ </td>
+ <td class="nnns top capitalize italic cyan">
+ <br />
+ </td>
+ <td class="snns top italic cyan">for lenvs on all entries</td>
+ <td class="snns top cyan">lpx ( ⦃?,?⦄ ⊢ ⬈[?] ? )</td>
+ <td class="ssnn top cyan">
+ <br />
+ </td>
+ </tr>
<tr>
<td class="nnns top capitalize italic cyan">
<br />
</td>
<td class="snns top italic cyan">for terms</td>
<td class="snns top cyan">cpx ( ⦃?,?⦄ ⊢ ? ⬈[?] ? )</td>
- <td class="ssnn top cyan">cpx_simple cpx_drops cpx_fqus cpx_lsubr cpx_lfxs</td>
+ <td class="ssnn top cyan">cpx_simple cpx_drops cpx_fqus cpx_lsubr cpx_lfxs cpx_lfeq</td>
</tr>
<tr>
<td class="nnns top capitalize italic cyan">
</tr>
<tr>
<td class="snns top capitalize italic water">iterated static typing</td>
- <td class="snns top capitalize italic water">iterated extension on referred entries</td>
- <td class="snns top italic water" />
+ <td class="snns top capitalize italic water">iterated generic extension of a context-sensitive relation</td>
+ <td class="snns top italic water">for lenvs on referred entries</td>
<td class="snns top water">tc_lfxs ( ? ⦻**[?,?] ? )</td>
<td class="ssnn top water">tc_lfxs_length tc_lfxs_lex tc_lfxs_drops tc_lfxs_fqup tc_lfxs_tc_lfxs</td>
</tr>
<tr>
<td class="snns top capitalize italic green">static typing</td>
<td class="snns top capitalize italic green">generic reducibility</td>
- <td class="snns top italic green" />
+ <td class="snns top italic green">restricted refinement for lenvs</td>
<td class="snns top green">lsubc ( ? ⊢ ? ⫃[?] ? )</td>
<td class="ssnn top green">lsubc_drops lsubc_lsubr lsubc_lsuba</td>
</tr>
<td class="nnns top capitalize italic green">
<br />
</td>
- <td class="snns top italic green" />
+ <td class="snns top italic green">candidates</td>
<td class="snns top green">gcp_cr ( ⦃?,?,?⦄ ϵ[?] 〚?〛 )</td>
<td class="ssnn top green">gcp_aaa</td>
</tr>
<td class="nnns top capitalize italic green">
<br />
</td>
- <td class="snns top italic green" />
+ <td class="snns top italic green">computation properties</td>
<td class="snns top green">gcp</td>
<td class="ssnn top green">
<br />
<br />
</td>
<td class="snns top capitalize italic green">atomic arity assignment</td>
- <td class="snns top italic green" />
+ <td class="snns top italic green">restricted refinement for lenvs</td>
<td class="snns top green">lsuba ( ? ⊢ ? ⫃⁝ ? )</td>
<td class="ssnn top green">lsuba_drops lsuba_lsubr lsuba_aaa lsuba_lsuba</td>
</tr>
<td class="nnns top capitalize italic green">
<br />
</td>
- <td class="snns top italic green" />
+ <td class="snns top italic green">for terms</td>
<td class="snns top green">aaa ( ⦃?,?⦄ ⊢ ? ⁝ ? )</td>
<td class="ssnn top green">aaa_drops aaa_fqus aaa_lfdeq aaa_aaa</td>
</tr>
<td class="nnns top capitalize italic green">
<br />
</td>
- <td class="snns top capitalize italic green">degree-based equivalence on referred entries</td>
- <td class="snns top italic green" />
+ <td class="snns top capitalize italic green">degree-based equivalence</td>
+ <td class="snns top italic green">for closures on referred entries</td>
<td class="snns top green">ffdeq ( ⦃?,?,?⦄ ≛[?,?] ⦃?,?,?⦄ )</td>
<td class="ssnn top green">ffdeq_fqup ffdeq_ffdeq</td>
</tr>
<td class="nnns top capitalize italic green">
<br />
</td>
- <td class="snns top italic green" />
+ <td class="snns top italic green">for lenvs on referred entries</td>
<td class="snns top green">lfdeq ( ? ≛[?,?,?] ? )</td>
<td class="ssnn top green">lfdeq_length lfdeq_drops lfdeq_fqup lfdeq_fqus lfdeq_lfdeq</td>
</tr>
<td class="nnns top capitalize italic green">
<br />
</td>
- <td class="snns top capitalize italic green">syntactic equivalence on referred entries</td>
- <td class="snns top italic green" />
+ <td class="snns top capitalize italic green">syntactic equivalence</td>
+ <td class="snns top italic green">for lenvs on referred entries</td>
<td class="snns top green">lfeq ( ? ≡[?] ? )</td>
<td class="ssnn top green">lfeq_fqup lfeq_lfeq</td>
</tr>
<td class="nnns top capitalize italic green">
<br />
</td>
- <td class="snns top capitalize italic green">generic extension on referred entries</td>
- <td class="snns top italic green" />
+ <td class="snns top capitalize italic green">generic extension of a context-sensitive relation</td>
+ <td class="snns top italic green">for lenvs on referred entries</td>
<td class="snns top green">lfxs ( ? ⦻*[?,?] ? )</td>
<td class="ssnn top green">lfxs_length lfxs_drops lfxs_fqup lfxs_lfxs</td>
</tr>
<br />
</td>
<td class="snns top capitalize italic green">context-sensitive free variables</td>
- <td class="snns top italic green" />
+ <td class="snns top italic green">restricted refinement for lenvs</td>
<td class="snns top green">lsubf ( ⦃?,?⦄ ⫃𝐅* ⦃?,?⦄ )</td>
<td class="ssnn top green">lsubf_lsubr lsubf_frees lsubf_lsubf</td>
</tr>
<td class="nnns top capitalize italic green">
<br />
</td>
- <td class="snns top italic green" />
+ <td class="snns top italic green">for terms</td>
<td class="snns top green">frees ( ? ⊢ 𝐅*⦃?⦄ ≡ ? )</td>
<td class="ssnn top green">frees_drops frees_fqup frees_frees</td>
</tr>
<td class="nnns top capitalize italic green">
<br />
</td>
- <td class="snns top capitalize italic green">restricted ref. for local env.</td>
- <td class="snns top italic green" />
+ <td class="snns top capitalize italic green">local environments</td>
+ <td class="snns top italic green">restricted refinement</td>
<td class="snns top green">lsubr ( ? ⫃ ? )</td>
<td class="ssnn top green">lsubr_length lsubr_drops lsubr_lsubr</td>
</tr>
<tr>
<td class="snns top capitalize italic grass">s-computation</td>
- <td class="snns top capitalize italic grass">iterated structural successor for closures</td>
- <td class="snns top italic grass" />
+ <td class="snns top capitalize italic grass">iterated structural successor</td>
+ <td class="snns top italic grass">for closures</td>
<td class="snns top grass">fqus ( ⦃?,?,?⦄ ⊐*[?] ⦃?,?,?⦄ ) ( ⦃?,?,?⦄ ⊐* ⦃?,?,?⦄ )</td>
<td class="ssnn top grass">fqus_weight fqus_drops fqus_fqup fqus_fqus</td>
</tr>
<td class="nnns top capitalize italic grass">
<br />
</td>
- <td class="snns top italic grass" />
+ <td class="snns top italic grass">proper for closures</td>
<td class="snns top grass">fqup ( ⦃?,?,?⦄ ⊐+[?] ⦃?,?,?⦄ ) ( ⦃?,?,?⦄ ⊐+ ⦃?,?,?⦄ )</td>
<td class="ssnn top grass">fqup_weight fqup_drops fqup_fqup</td>
</tr>
<tr>
<td class="snns top capitalize italic yellow">s-transition</td>
- <td class="snns top capitalize italic yellow">structural successor for closures</td>
- <td class="snns top italic yellow" />
+ <td class="snns top capitalize italic yellow">structural successor</td>
+ <td class="snns top italic yellow">for closures</td>
<td class="snns top yellow">fquq ( ⦃?,?,?⦄ ⊐⸮[?] ⦃?,?,?⦄ ) ( ⦃?,?,?⦄ ⊐⸮ ⦃?,?,?⦄ )</td>
<td class="ssnn top yellow">fquq_length fquq_weight</td>
</tr>
<td class="nnns top capitalize italic yellow">
<br />
</td>
- <td class="snns top italic yellow" />
+ <td class="snns top italic yellow">proper for closures</td>
<td class="snns top yellow">fqu ( ⦃?,?,?⦄ ⊐[?] ⦃?,?,?⦄ ) ( ⦃?,?,?⦄ ⊐ ⦃?,?,?⦄ )</td>
<td class="ssnn top yellow">fqu_length fqu_weight</td>
</tr>
<tr>
<td class="snns top capitalize italic orange">relocation</td>
- <td class="snns top capitalize italic orange">generic slicing for local environments</td>
- <td class="snns top italic orange" />
- <td class="snns top orange">drops_vector ( ⬇*[?,?] ? ≡ ? ) ( ⬇*[?] ? ≡ ? )</td>
- <td class="ssnn top orange">
- <br />
- </td>
- </tr>
- <tr>
- <td class="nnns top capitalize italic orange">
- <br />
- </td>
- <td class="nnns top capitalize italic orange">
- <br />
- </td>
- <td class="snns top italic orange" />
+ <td class="snns top capitalize italic orange">generic slicing</td>
+ <td class="snns top italic orange">for lenvs</td>
<td class="snns top orange">drops ( ⬇*[?,?] ? ≡ ? ) ( ⬇*[?] ? ≡ ? )</td>
- <td class="ssnn top orange">drops_lstar drops_weight drops_length drops_cext2 drops_lexs drops_lreq drops_drops</td>
+ <td class="ssnn top orange">drops_lstar drops_weight drops_length drops_cext2 drops_lexs drops_lreq drops_drops drops_vector</td>
</tr>
<tr>
<td class="nnns top capitalize italic orange">
<br />
</td>
<td class="snns top capitalize italic orange">generic relocation</td>
- <td class="snns top italic orange" />
+ <td class="snns top italic orange">for binders</td>
<td class="snns top orange">lifts_bind ( ⬆*[?] ? ≡ ? )</td>
<td class="ssnn top orange">lifts_weight_bind lifts_lifts_bind</td>
</tr>
<td class="nnns top capitalize italic orange">
<br />
</td>
- <td class="snns top italic orange" />
+ <td class="snns top italic orange">for term vectors</td>
<td class="snns top orange">lifts_vector ( ⬆*[?] ? ≡ ? )</td>
<td class="ssnn top orange">lifts_lifts_vector</td>
</tr>
<td class="nnns top capitalize italic orange">
<br />
</td>
- <td class="snns top italic orange" />
+ <td class="snns top italic orange">for terms</td>
<td class="snns top orange">lifts ( ⬆*[?] ? ≡ ? )</td>
<td class="ssnn top orange">lifts_simple lifts_weight lifts_tdeq lifts_lifts</td>
</tr>
<td class="nnns top capitalize italic orange">
<br />
</td>
- <td class="snns top capitalize italic orange">ranged equivalence for local environments</td>
- <td class="snns top italic orange" />
+ <td class="snns top capitalize italic orange">syntactic equivalence</td>
+ <td class="snns top italic orange">for lenvs on selected entries</td>
<td class="snns top orange">lreq ( ? ≡[?] ? )</td>
<td class="ssnn top orange">lreq_length lreq_lreq</td>
</tr>
<br />
</td>
<td class="snns top capitalize italic orange">generic entrywise extension</td>
- <td class="snns top italic orange" />
+ <td class="snns top italic orange">for lenvs of one contex-sensitive relation</td>
<td class="snns top orange">lex ( ? ⦻[?] ? )</td>
- <td class="ssnn top orange">
- <br />
- </td>
+ <td class="ssnn top orange">lex_tc</td>
</tr>
<tr>
<td class="nnns top capitalize italic orange">
<td class="nnns top capitalize italic orange">
<br />
</td>
- <td class="snns top italic orange" />
+ <td class="snns top italic orange">for lenvs of two contex-sensitive relations</td>
<td class="snns top orange">lexs ( ? ⦻*[?,?,?] ? )</td>
<td class="ssnn top orange">lexs_tc lexs_length lexs_lexs</td>
</tr>
<div xmlns:ld="http://lambdadelta.info/" class="spacer">
<br />
</div>
- <div xmlns:ld="http://lambdadelta.info/" class="spacer">Last update: Wed, 22 Nov 2017 22:20:05 +0100</div>
+ <div xmlns:ld="http://lambdadelta.info/" class="spacer">Last update: Fri, 24 Nov 2017 21:00:01 +0100</div>
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