Partial hack for prefix inflection
This discussion page is deprecated as the functionality now exists.
This is a description of a partial hack for dealing with prefix inflection (see prefixes and infixes). Essentially it re-uses as much as possible components that we already have, although requires one more component, a pretagger module.
The first dictionary would be written in the normal manner, the second dictionary would be auto-generated from the first by means of lt-expand output coupled with the pretagger output.
Note: This is basically a hack on Mikel's suggestion #1 on the prefixes and infixes page.
One of the advantages of this system is that it is that the "normalisation" scheme (dictionary 2) can be generated from the dictionary + the pretagger and doesn't need to be hand-coded. Disadvantages are that it adds another layer, and probably misses a lot of nuances (e.g. multiwords, etc.).
Pipeline[edit]
$ echo "watu mtu" | lt-proc sw.automorf.bin ^watu/m<pl>tu<n>$ ^mtu/m<sg>tu<n>$ $ echo "watu mtu" | lt-proc sw.automorf.bin | pretagger.py ^watu/mtu<n><pl>$ ^mtu/mtu<n><sg>$ $ echo "watu mtu" | lt-proc sw.automorf.bin | pretagger.py | apertium-tagger -g sw.prob ^mtu<n><pl>$ ^mtu<n><sg>$ $ echo "watu mtu" | lt-proc sw.automorf.bin | pretagger.py | apertium-tagger -g sw.prob | lt-proc -g sw.automangle.bin m<pl>tu<n> m<sg>tu<n>
Then add the missing '^' and '$':
$ echo "^m<pl>tu<n>$ ^m<sg>tu<n>$" | lt-proc -g sw.autogen.bin watu mtu
Analysis[edit]
$ echo "watu" | lt-proc sw.automorf.bin ^watu/m<pl>tu<n>$
This would then be passed through the pretagger which would re-order the output thus:
^watu/mtu<n><pl>$
Basically just shunting all the tags to the end. This is now ready to be passed to the tagger.
Generation[edit]
Slightly more complicated. Out of final stage transfer you get:
^mtu<n><pl>$
This is then passed through the dictionary 2:
$ echo "^mtu<n><pl>$" | lt-proc -g sw.automangle.bin m<pl>tu<n>
Note: obviously we're missing the '^' and '$' here, but thats fairly straightforward to add.
Then it is passed through dictionary 1 in generation mode:
$ echo "^m<pl>tu<n>$" | lt-proc -g sw.autogen.bin watu
Dictionaries[edit]
Dictionary 1 (sw-1.dix)[edit]
- Compile
$ lt-comp lr sw.dix sw.automorf.bin $ lt-comp rl sw.dix sw.autogen.bin
<dictionary>
<alphabet>abcdefghijklmnopqrstuvwxyz</alphabet>
<sdefs>
<sdef n="n"/>
<sdef n="sg"/>
<sdef n="pl"/>
</sdefs>
<pardefs>
<pardef n="C__1_2__n">
<e><p><l>m</l><r>m<s n="sg"/></r></p></e>
<e><p><l>wa</l><r>m<s n="pl"/></r></p></e>
</pardef>
<pardef n="mtu__n">
<e><p><l/><r><s n="n"/></r></p></e>
</pardef>
</pardefs>
<section id="main" type="standard">
<e lm="mtu"><par n="C__1_2__n"/><i>tu</i><par n="mtu__n"/></e>
</section>
</dictionary>
Dictionary 2 (sw-2.dix)[edit]
- Compile
$ lt-comp lr sw-2.dix sw.automangle.bin
<dictionary>
<alphabet>abcdefghijklmnopqrstuvwxyz</alphabet>
<sdefs>
<sdef n="n"/>
<sdef n="sg"/>
<sdef n="pl"/>
</sdefs>
<section id="main" type="standard">
<e>
<p>
<l>mtu<s n="n"/><s n="sg"/></l>
<r>m<s n="sg"/>tu<s n="n"/></r>
</p>
</e>
<e>
<p>
<l>mtu<s n="n"/><s n="pl"/></l>
<r>m<s n="pl"/>tu<s n="n"/></r>
</p>
</e>
</section>
</dictionary>
Pretagger[edit]
A very rough 5 minute proof-of-concept:
#!/usr/bin/python
# coding=utf-8
# -*- encoding: utf-8 -*-
import sys, codecs, copy;
sys.stdout = codecs.getwriter('utf-8')(sys.stdout);
sys.stderr = codecs.getwriter('utf-8')(sys.stderr);
form = '';
tag = '';
tags = [];
lemma = '';
reading = '';
def pop_tags(tags, out): #{
if len(tags) < 1: #{
return out;
#}
out = out + tags.pop();
return pop_tags(tags, out);
#}
def pull_tags(tags, out): #{
for tag in tags: #{
out = out + tag;
#}
return out;
#}
for char in sys.stdin.read().decode('utf-8'): #{
if char == '^': #{
sys.stdout.write(char);
reading = 'form';
continue;
#}
if char == '/': #{
reading = 'lemma';
if len(form) < 1 and len(lemma) > 1: #{
sys.stdout.write(lemma + pop_tags(tags, ''));
lemma = '';
tags = [];
#}
sys.stdout.write(form);
sys.stdout.write(char);
form = '';
continue;
#}
if char == '#': #{
reading = 'pass';
if len(form) < 1 and len(lemma) > 1: #{
sys.stdout.write(lemma + pop_tags(tags, ''));
form = '';
lemma = '';
tags = [];
#}
sys.stdout.write(char);
continue;
#}
if char == '+': #{
reading = 'pass';
if len(form) < 1 and len(lemma) > 1: #{
sys.stdout.write(lemma + pull_tags(tags, ''));
form = '';
lemma = '';
tags = [];
#}
sys.stdout.write(char);
continue;
#}
if char == '<' and reading is not 'pass': #{
tag = '';
reading = 'tag';
#}
if char == '>' and reading is not 'pass': #{
tag = tag + char;
tags.append(tag);
reading = 'lemma';
continue;
#}
if char == '$': #{
if len(form) < 1 and len(lemma) > 1: #{
sys.stdout.write(lemma + pop_tags(tags, ''));
reading = 'lemma';
#}
tags = [];
form = '';
lemma = '';
sys.stdout.write(char);
reading = 'pass';
continue;
#}
if reading == 'form': #{
form = form + char;
continue;
#}
if reading == 'lemma': #{
lemma = lemma + char;
continue;
#}
if reading == 'tag': #{
tag = tag + char;
continue;
#}
if reading == 'pass': #{
sys.stdout.write(char);
continue;
#}
#}
