Difference between revisions of "Sevel ur c'houblad yezhoù nevez"

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Evel hoc'h eus gallet divinout dre anvioù ar restroù marteze, eo diazezet an dornlevr-mañ war skouerioù troidigezhioù eus ar serbkroateg d'ar saozneg, a-benn lakaat war-wel penaos krouiñ ur reizhiad diazez. N'eo ket hemañ ur c'houblad eus ar c'hentañ troc'h rak mont a ra gwelloc'h ar reizhiad en-dro gant koubladoù yezhoù kar-tost. Ne vern ket re koulskoude evit ar skouerioù eeun a vo roet amañ.
 
Evel hoc'h eus gallet divinout dre anvioù ar restroù marteze, eo diazezet an dornlevr-mañ war skouerioù troidigezhioù eus ar serbkroateg d'ar saozneg, a-benn lakaat war-wel penaos krouiñ ur reizhiad diazez. N'eo ket hemañ ur c'houblad eus ar c'hentañ troc'h rak mont a ra gwelloc'h ar reizhiad en-dro gant koubladoù yezhoù kar-tost. Ne vern ket re koulskoude evit ar skouerioù eeun a vo roet amañ.
   
==Un notennig diwar-benn termenoù==
+
==Notennig diwar-benn termenoù zo==
   
  +
Un toullad termenoù a rankit intent mat a-raok mont pelloc'h.
There are number of terms that will need to be understood before we continue.
 
   
The first is ''lemma''. A lemma is the citation form of a word. It is the word stripped of any grammatical information. For example, the lemma of the word cats is ''cat''. In English nouns this will typically be the singular form of the word in question. For verbs, the lemma is the infinitive stripped of to, e.g. the lemma of ''was'' would be ''be''.
+
Ar c'hentañ eo ''lemma''. Lemma a reer eus stumm ur ger n'eo ket deveret. Da skouer, lemma ar ger ''kizhier'' zo ''kazh''. Peurliesañ, e saozneg, ez eo lemma un anv-kadarn stumm ar ger en unander (e brezhoneg ivez). Evit ar verboù saoznek, e klot al lemma gant an anv-verb lamet outañ an ''to''; setu lemma ''was'' zo ''be''.
   
  +
An eil eo an termen ''arouez''. E reizhiad Apertium e ra dave an termen arouez d'un dikedenn yezhadurel. Un anv-kadarn lies eo ar ger cats (kizhier e saozneg), setu e vo merket gant div dikedenn (arouezioù) : anv-kadarn ha stumm lies. Evit ma c'hallfe ar c'heflusker mont en-dro eo merket an arouezioù etre balizennoù konkellek, evel a-is :
The second is ''symbol''. In the context of the Apertium system, symbol refers to a grammatical label. The word cats is a plural noun, therefore it will have the noun symbol and the plural symbol. In the input and output of Apertium modules these are typically given between angle brackets, as follows:
 
   
* <code><n></code>; for noun.
+
* <code><n></code>; evit noun (anv-kadarn).
* <code><pl></code>; for plural.
+
* <code><pl></code>; evit plural (liester).
   
Other examples of symbols are <sg>; singular, <p1> first person, <pri> present indicative, etc. When written in angle brackets, the symbols may also be referred to as tags. It is worth noting that in many of the currently available language pairs the symbol definitions are acronyms or contractions of words in Catalan. For example, vbhaver — from vb (verb) and haver ("to have" in Catalan). Symbols are defined in <sdef> tags and used in <nowiki><s></nowiki> tags.
+
Skouerioù arouezioù all zo, evel <sg>; unander, <p1> kentañ gour, <pri> amzer-vremañ, hag all. Gallout a reer ober tikedennoù eus an arouezioù skrivet etre konkelloù. Talvezout a ra ar boan notenniñ e klot termenadurioù ar c'houbladoù yezhoù hegerzh gant gwreskanvioù pe stummoù gerioù krennet e katalaneg alies (dre m'eo bet diorroet Apertium eno da gentañ). Da skouer, vbhaver — diwar vb (verb) hag haver ("kaout" e katalaneg). Termenet eo an arouezioù etre balizennoù <sdef> hag implijet etre balizennoù <nowiki><s></nowiki>.
   
  +
An trede termen eo ''paradigm''. E reizhiad Apertium, e ra dave ar paradigm da zeveradurioù skouer ur strollad gerioù bennak. Er geriadur morfologel eo liammet al lemmaoù (gwelet a-us) ouzh paradigmoù a c'haller deskrivañ drezo pere eo deveradurioù ul lemma hep bezañ rediet da skrivañ an holl zibennoù-ger bep tro.
The third word is ''paradigm''. In the context of the Apertium system, paradigm refers to an example of how a particular group of words inflect. In the morphological dictionary, lemmas (see above) are linked to paradigms that allow us to describe how a given lemma inflects without having to write out all of the endings.
 
   
An example of the utility of this is, if we wanted to store the two adjectives ''happy'' and ''lazy'', instead of storing two lots of the same thing:
+
Da ziskouez pegen talvoudus eo kement-mañ, ma venner plediñ gant an daou anv-gwan ''happy'' ha ''lazy'', e-lec'h merkañ div wezh an hevelep tra :
   
 
* happy, happ (y, ier, iest)
 
* happy, happ (y, ier, iest)
 
* lazy, laz (y, ier, iest)
 
* lazy, laz (y, ier, iest)
   
We can simply store one, and then say "lazy, inflects like happy", or indeed "shy inflects like happy", "naughty inflects like happy", "friendly inflects like happy", etc. In this example, happy would be the paradigm, the model for how the others inflect. The precise description of how this is defined will be explained shortly. Paradigms are defined in <pardef> tags, and used in <par> tags.
+
E c'haller displegañ unan hepken ha neuze merkañ e teverer "lazy evel happy", "shy evel happy", "naughty evel", "friendly evel happy", hag all. Er skouer-mañ e vo happy ar paradigm, ar patrom a verk mod deverañ ar gerioù all. Displeget e vo berr-ha-berr deskrivadur pizh ar mod m'eo bet termenet. Termenet eo ar paradigmoù etre balizennoù <pardef>, hag implijet etre balizennoù <par>.
   
 
==Kregiñ ganti==
 
==Kregiñ ganti==

Revision as of 16:33, 9 November 2008

Dornlevr Apertium evit sevel koubladoù nevez etre yezhoù disheñvel.

Deskrivet e vo en teul-mañ ar pazennoù rekis a-benn sevel ur c'houblad yezhoù nevez evit meziant treiñ emgefre Apertium, adal ar penn-kentañ.

Estreget bezañ gouest da ziforc'hañ anvioù-kadarn diouzh verboù (ha diouzh araogennoù, hag all), n'eo ket ret bezañ desket-bras war ar yezhoniezh na war an treiñ emgefre.

Rakger

Ur savenn treiñ emgefre eo Apertium. Pourchas a ra ur c'heflusker hag ostilhoù a c'hallot drezo sevel ho reizhiad treiñ deoc'h-c'hwi hoc'h-unan. An dra nemetañ hoc'h eus da zegas eo ar roadennoù. Ar roadennoù zo anezho, da gregiñ ganti, tri geriadur hag un nebeud reolennoù (evit plediñ gant urzh ar gerioù ha reolennoù yezhadurel a seurt-se).

Evit lenn pelloc'h war ar penaos ez a en-dro ez eus teulioù a-zoare war lec'hienn ar raktres apertium.sourceforge.net.

Ezhomm ho po

  • lttoolbox (>= 3.0.0)
  • libxml utils (xmllint etc.)
  • apertium (>= 3.0.0)
  • ur skridtreterezh (pe un treter XML arbennikaet mar kavit gwell)

Ne vo ket displeget war an teul-mañ ar pazennoù da staliañ ar pakadoù-se; gwelit rann deuliaouiñ lec'hienn Apertium evit se.

Petra eo ur c'houblad yezhoù evit gwir ?

Ober a ra Apertium gant un doare treuzkas diwar-c'horre. Dre vras ez eo diazezet troidigezh ar c'hefluskler war geriadurioù ha brasreolennoù treuzkas. Disheñvel eo an doare treuzkas diwar-c'horre-se diouzh an treuzkas don pa ne gas ket da benn un dielfennadenn ereadurel klok. Savet eo ar reolennoù war strolladoù unanennoù geriadurel ha neket war un dielfennadenn dre wezennadur. Tri fenngeriadur zo savet an traoù diwarno :

  1. Ur geriadur morfologel evit ar yezh xx : ennañ reolennoù deverañ ar gerioù er yezh xx. Er skouer roet ganeomp e vo anvet : apertium-sh-en.sh.dix
  2. Ur geriadur morfologel evit ar yezh yy : ennañ reolennoù deverañ ar gerioù er yezh yy. Er skouer roet ganeomp e vo anvet : apertium-sh-en.en.dix
  3. Ur geriadur divyezhek : ennañ ar c'hevatalderioù etre gerioù hag arouezennoù en div yezh. Er skouer roet ganeomp e vo anvet : apertium-sh-en.sh-en.dix

En ur c'houblad treiñ e c'hall an div yezh bezañ yezh-tal pe yezh-kein tro-ha-tro. Termenoù relativel int, traken.

Div restr evit ar reolennoù teuzkas zo ivez. Enno emañ ar pennreolennoù evit merkañ urzh ar gerioù er frazennoù, evel petite chaise -> bihan kador -> kador vihan. Plediñ a ra ar reolennoù gant gour ha niver ar gerioù ivez. Gallout a reer ober gant ar reolennoù-se evit degas pe dilemel unanennoù geriadurel ivez, evel ma vo deskrivet traoñoc'h. Ar restroù-se zo :

  • reolennoù treuzkas ar yezh xx er yezh yy : er restr-mañ e kaver reolennoù war an doare da cheñch ar yezh xx er yezh yy. Er skouer roet ganeomp e vo anvet : apertium-sh-en.trules-sh-en.xml
  • reolennoù treuzkas ar yezh yy er yezh xx : er restr-mañ e kaver reolennoù war an doare da cheñch ar yezh yy er yezh xx. Er skouer roet ganeomp e vo anvet : apertium-sh-en.trules-en-sh.xml

Meur a goublad yezhoù a c'haller kaout dija a ra gant restroù all met ne vo ket graet anv anezho amañ. Ar re meneget amañ eo ar re nemeto zo ezhomm evit ma yafe ar reizhiad en-dro.

Koublad yezhoù

Evel hoc'h eus gallet divinout dre anvioù ar restroù marteze, eo diazezet an dornlevr-mañ war skouerioù troidigezhioù eus ar serbkroateg d'ar saozneg, a-benn lakaat war-wel penaos krouiñ ur reizhiad diazez. N'eo ket hemañ ur c'houblad eus ar c'hentañ troc'h rak mont a ra gwelloc'h ar reizhiad en-dro gant koubladoù yezhoù kar-tost. Ne vern ket re koulskoude evit ar skouerioù eeun a vo roet amañ.

Notennig diwar-benn termenoù zo

Un toullad termenoù a rankit intent mat a-raok mont pelloc'h.

Ar c'hentañ eo lemma. Lemma a reer eus stumm ur ger n'eo ket deveret. Da skouer, lemma ar ger kizhier zo kazh. Peurliesañ, e saozneg, ez eo lemma un anv-kadarn stumm ar ger en unander (e brezhoneg ivez). Evit ar verboù saoznek, e klot al lemma gant an anv-verb lamet outañ an to; setu lemma was zo be.

An eil eo an termen arouez. E reizhiad Apertium e ra dave an termen arouez d'un dikedenn yezhadurel. Un anv-kadarn lies eo ar ger cats (kizhier e saozneg), setu e vo merket gant div dikedenn (arouezioù) : anv-kadarn ha stumm lies. Evit ma c'hallfe ar c'heflusker mont en-dro eo merket an arouezioù etre balizennoù konkellek, evel a-is :

  • <n>; evit noun (anv-kadarn).
  • <pl>; evit plural (liester).

Skouerioù arouezioù all zo, evel <sg>; unander, <p1> kentañ gour, <pri> amzer-vremañ, hag all. Gallout a reer ober tikedennoù eus an arouezioù skrivet etre konkelloù. Talvezout a ra ar boan notenniñ e klot termenadurioù ar c'houbladoù yezhoù hegerzh gant gwreskanvioù pe stummoù gerioù krennet e katalaneg alies (dre m'eo bet diorroet Apertium eno da gentañ). Da skouer, vbhaver — diwar vb (verb) hag haver ("kaout" e katalaneg). Termenet eo an arouezioù etre balizennoù <sdef> hag implijet etre balizennoù <s>.

An trede termen eo paradigm. E reizhiad Apertium, e ra dave ar paradigm da zeveradurioù skouer ur strollad gerioù bennak. Er geriadur morfologel eo liammet al lemmaoù (gwelet a-us) ouzh paradigmoù a c'haller deskrivañ drezo pere eo deveradurioù ul lemma hep bezañ rediet da skrivañ an holl zibennoù-ger bep tro.

Da ziskouez pegen talvoudus eo kement-mañ, ma venner plediñ gant an daou anv-gwan happy ha lazy, e-lec'h merkañ div wezh an hevelep tra :

  • happy, happ (y, ier, iest)
  • lazy, laz (y, ier, iest)

E c'haller displegañ unan hepken ha neuze merkañ e teverer "lazy evel happy", "shy evel happy", "naughty evel", "friendly evel happy", hag all. Er skouer-mañ e vo happy ar paradigm, ar patrom a verk mod deverañ ar gerioù all. Displeget e vo berr-ha-berr deskrivadur pizh ar mod m'eo bet termenet. Termenet eo ar paradigmoù etre balizennoù <pardef>, hag implijet etre balizennoù <par>.

Kregiñ ganti

Geriadurioù unyezhek

See also: List of dictionaries and Incubator

Let's start by making our first source language dictionary. The dictionary is an XML file. Fire up your text editor and type the following:

<?xml version="1.0" encoding="UTF-8"?>
<dictionary>

</dictionary>

So, the file so far defines that we want to start a dictionary. In order for it to be useful, we need to add some more entries, the first is an alphabet. This defines the set of letters that may be used in the dictionary, for Serbo-Croatian. It will look something like the following, containing all the letters of the Serbo-Croatian alphabet:

<alphabet>ABCČĆDDžĐEFGHIJKLLjMNNjOPRSŠTUVZŽabcčćddžđefghijklljmnnjoprsštuvzž</alphabet>

Place the alphabet below the <dictionary> tag.

Next we need to define some symbols. Let's start off with the simple stuff, noun (n) in singular (sg) and plural (pl).

<sdefs>
   <sdef n="n"/>
   <sdef n="sg"/>
   <sdef n="pl"/>
</sdefs>

The symbol names do not have to be so small, in fact, they could just be written out in full, but as you'll be typing them a lot, it makes sense to abbreviate.

Unfortunately, it isn't quite so simple, nouns in Serbo-Croatian inflect for more than just number, they also inflect for gender and case. However, we'll assume for the purposes of this example that the noun is masculine and in the nominative case (a full example may be found at the end of this document).

The next thing is to define a section for the paradigms,

<pardefs>

</pardefs>

and a dictionary section:

<section id="main" type="standard">

</section>

There are two types of sections, the first is a standard section, that contains words, enclitics, etc. The second type is an inconditional section which typically contains punctuation, and so forth. We don't have an inconditional section here, although it will be demonstrated later.

So, our file should now look something like:

<?xml version="1.0" encoding="UTF-8"?>
<dictionary>
   <sdefs>
     <sdef n="n"/>
     <sdef n="sg"/>
     <sdef n="pl"/>
   </sdefs>
   <pardefs>

   </pardefs>
   <section id="main" type="standard">

   </section>
</dictionary>

Now we've got the skeleton in place, we can start by adding a noun. The noun in question will be 'gramofon' (which means 'gramophone' or 'record player').

The first thing we need to do, as we have no prior paradigms, is to define a paradigm.

Remember, we're assuming masculine gender and nominative case. The singular form of the noun is 'gramofon', and the plural is 'gramofoni'. So:

<pardef n="gramofon__n">
   <e>
     <p>
       <l/>
       <r><s n="n"/><s n="sg"/></r>
     </p>
   </e>
   <e>
     <p>
       <l>i</l>
       <r><s n="n"/><s n="pl"/></r>
     </p>
   </e>
</pardef>

Note: the '<l/>' (equivalent to <l></l>) denotes that there is no extra material to be added to the stem for the singular.

This may seem like a rather verbose way of describing it, but there are reasons for this and it quickly becomes second nature. You're probably wondering what the <e>,

, <l> and <r> stand for. Well,

  • e, is for entry.
  • p, is for pair.
  • l, is for left.
  • r, is for right.

Why left and right? Well, the morphological dictionaries will later be compiled into finite state machines. Compiling them left to right produces analyses from words, and from right to left produces words from analyses. For example:

* gramofoni (left to right) gramofon<n><pl> (analysis)
* gramofon<n><pl> (right to left) gramofoni (generation)

Now we've defined a paradigm, we need to link it to its lemma, gramofon. We put this in the section that we've defined.

The entry to put in the </dictionary>

Now we need to add an entry to translate between the two words. Something like:

<e><p><l>gramofon<s n="n"/></l><r>gramophone<s n="n"/></r></p></e>

Because there are a lot of these entries, they're typically written on one line to facilitate easier reading of the file. Again with the 'l' and 'r' right? Well, we compile it left to right to produce the Serbo-Croatian → English dictionary, and right to left to produce the English → Serbo-Croatian dictionary.

So, once this is done, run the following commands:

$ lt-comp lr apertium-sh-en.sh.dix sh-en.automorf.bin
$ lt-comp rl apertium-sh-en.sh.dix sh-en.autogen.bin

$ lt-comp lr apertium-sh-en.en.dix en-sh.automorf.bin
$ lt-comp rl apertium-sh-en.en.dix en-sh.autogen.bin

$ lt-comp lr apertium-sh-en.sh-en.dix sh-en.autobil.bin
$ lt-comp rl apertium-sh-en.sh-en.dix en-sh.autobil.bin

To generate the morphological analysers (automorf), the morphological generators (autogen) and the word lookups (autobil), the bil is for "bilingual".

Treuzkas reolennoù

So, now we have two morphological dictionaries, and a bilingual dictionary. All that we need now is a transfer rule for nouns. Transfer rule files have their own DTD (transfer.dtd) which can be found in the Apertium package. If you need to implement a rule it is often a good idea to look in the rule files of other language pairs first. Many rules can be recycled/reused between languages. For example the one described below would be useful for any null-subject language.

Start out like all the others with a basic skeleton:

<?xml version="1.0" encoding="UTF-8"?>
<transfer>

</transfer>

At the moment, because we're ignoring case, we just need to make a rule that takes the grammatical symbols input and outputs them again.

We first need to define categories and attributes. Categories and attributes both allow us to group grammatical symbols. Categories allow us to group symbols for the purposes of matching (for example 'n.*' is all nouns). Attributes allow us to group a set of symbols that can be chosen from. For example ('sg' and 'pl' may be grouped a an attribute 'number').

Lets add the necessary sections:

<section-def-cats>

</section-def-cats>
<section-def-attrs>

</section-def-attrs>

As we're only inflecting, nouns in singular and plural then we need to add a category for nouns, and with an attribute of number. Something like the following will suffice:

Into section-def-cats add:

<def-cat n="nom">
   <cat-item tags="n.*"/>
</def-cat>

This catches all nouns (lemmas followed by <n> then anything) and refers to them as "nom" (we'll see how thats used later).

Into the section section-def-attrs, add:

<def-attr n="nbr">
   <attr-item tags="sg"/>
   <attr-item tags="pl"/>
</def-attr>

and then

<def-attr n="a_nom">
   <attr-item tags="n"/>
</def-attr>

The first defines the attribute nbr (number), which can be either singular (sg) or plural (pl).

The second defines the attribute a_nom (attribute noun).

Next we need to add a section for global variables:

<section-def-vars>

</section-def-vars>

These variables are used to store or transfer attributes between rules. We need only one for now,

<def-var n="number"/>

Finally, we need to add a rule, to take in the noun and then output it in the correct form. We'll need a rules section...

<section-rules>

</section-rules>

Changing the pace from the previous examples, I'll just paste this rule, then go through it, rather than the other way round.

<rule>
   <pattern>
     <pattern-item n="nom"/>
   </pattern>
   <action>
     <out>
       <lu>
         <clip pos="1" side="tl" part="lem"/>
         <clip pos="1" side="tl" part="a_nom"/>
         <clip pos="1" side="tl" part="nbr"/>
       </lu>
     </out>
   </action>
</rule>

The first tag is obvious, it defines a rule. The second tag, pattern basically says: "apply this rule, if this pattern is found". In this example the pattern consists of a single noun (defined by the category item nom). Note that patterns are matched in a longest-match first. So if you have three rules, the first catches "<prn><vblex><n>", the second catches "<prn><vblex>" and the third catches "<n>", the pattern matched, and rule executed will be the first.

For each pattern, there is an associated action, which produces an associated output, out. The output, is a lexical unit (lu).

The clip tag allows a user to select and manipulate attributes and parts of the source language (side="sl"), or target language (side="tl") lexical item.

Let's compile it and test it. Transfer rules are compiled with:

$ apertium-preprocess-transfer apertium-sh-en.trules-sh-en.xml trules-sh-en.bin

Which will generate a trules-sh-en.bin file.

Now we're ready to test our machine translation system. There is one crucial part missing, the part-of-speech (PoS) tagger, but that will be explained shortly. In the meantime we can test it as is:

First, lets analyse a word, gramofoni:

$ echo "gramofoni" | lt-proc sh-en.automorf.bin 
^gramofon/gramofon<n><pl>$

Now, normally here the POS tagger would choose the right version based on the part of speech, but we don't have a POS tagger yet, so we can use this little gawk script (thanks to Sergio) that will just output the first item retrieved.

$ echo "gramofoni" | lt-proc sh-en.automorf.bin | \
  gawk 'BEGIN{RS="$"; FS="/";}{nf=split($1,COMPONENTS,"^"); for(i = 1; i<nf; i++) printf COMPONENTS[i]; if($2 != "") printf("^%s$",$2);}' | \
^gramofon<n><pl>$

Now let's process that with the transfer rule:

$ echo "gramofoni" | lt-proc sh-en.automorf.bin | \
  gawk 'BEGIN{RS="$"; FS="/";}{nf=split($1,COMPONENTS,"^"); for(i = 1; i<nf; i++) printf COMPONENTS[i]; if($2 != "") printf("^%s$",$2);}' | \
  apertium-transfer apertium-sh-en.trules-sh-en.xml trules-sh-en.bin sh-en.autobil.bin

It will output:

^gramophone<n><pl>$^@
  • 'gramophone' is the target language (side="tl") lemma (lem) at position 1 (pos="1").
  • '<n>' is the target language a_nom at position 1.
  • '<pl>' is the target language attribute of number (nbr) at position 1.

Try commenting out one of these clip statements, recompiling and seeing what happens.

So, now we have the output from the transfer, the only thing that remains is to generate the target-language inflected forms. For this, we use lt-proc, but in generation (-g), not analysis mode.

$ echo "gramofoni" | lt-proc sh-en.automorf.bin | \
  gawk 'BEGIN{RS="$"; FS="/";}{nf=split($1,COMPONENTS,"^"); for(i = 1; i<nf; i++) printf COMPONENTS[i]; if($2 != "") printf("^%s$",$2);}' | \
  apertium-transfer apertium-sh-en.trules-sh-en.xml trules-sh-en.bin sh-en.autobil.bin | \
  lt-proc -g sh-en.autogen.bin

gramophones\@

And c'est ca. You now have a machine translation system that translates a Serbo-Croatian noun into an English noun. Obviously this isn't very useful, but we'll get onto the more complex stuff soon. Oh, and don't worry about the '@' symbol, I'll explain that soon too.

Think of a few other words that inflect the same as gramofon. How about adding those. We don't need to add any paradigms, just the entries in the main section of the monolingual and bilingual dictionaries.

Degas ar verboù

Ok, so we have a system that translates nouns, but thats pretty useless, we want to translate verbs too, and even whole sentences! How about we start with the verb to see. In Serbo-Croatian this is videti. Serbo-Croatian is a null-subject language, this means that it doesn't typically use personal pronouns before the conjugated form of the verb. English is not. So for example: I see in English would be translated as vidim in Serbo-Croatian.

  • Vidim
  • see<p1><sg>
  • I see

Note: <p1> denotes first person

This will be important when we come to write the transfer rule for verbs. Other examples of null-subject languages include: Spanish, Romanian and Polish. The also has the effect that while we only need to add the verb in the Serbo-Croatian morphological dictionary, we need to add both the verb, and the personal pronouns in the English morpohlogical dictionary. We'll go through both of these.

The other forms of the verb videti are: vidiš, vidi, vidimo, vidite, and vide; which correspond to: you see (singular), he sees, we see, you see (plural), and they see.

There are two forms of you see, one is plural and formal singular (vidite) and the other is singular and informal (vidiš).

We're going to try and translate the sentence: "Vidim gramofoni" into "I see gramophones". In the interests of space, we'll just add enough information to do the translation and will leave filling out the paradigms (adding the other conjugations of the verb) as an exercise to the reader.

The astute reader will have realised by this point that we can't just translate vidim gramofoni because it is not a grammatically correct sentence in Serbo-Croatian. The correct sentence would be vidim gramofone, as the noun takes the accusative case. We'll have to add that form too, no need to add the case information for now though, we just add it as another option for plural. So, just copy the 'e' block for 'i' and change the 'i' to 'e' there.

First thing we need to do is add some more symbols. We need to first add a symbol for 'verb', which we'll call "vblex" (this means lexical verb, as opposed to modal verbs and other types). Verbs have 'person', and 'tense' along with number, so lets add a couple of those aswell. We need to translate "I see", so for person we should add "p1", or 'first person', and for tense "pri", or 'present indicative'.

<sdef n="vblex"/>
<sdef n="p1"/>
<sdef n="pri"/>

After we've done this, the same with the nouns, we add a paradigm for the verb conjugation. The first line will be:

<pardef n="vid/eti__vblex">

The '/' is used to demarcate where the stems (the parts between the <l> </l> tags) are added to.

Then the inflection for first person singular:

<e>
   <p>
     <l>im</l>
     <r>eti<s n="vblex"/><s n="pri"/><s n="p1"/><s n="sg"/></r>
   </p>
</e>

The 'im' denotes the ending (as in 'vidim'), it is necessary to add 'eti' to the <r> section, as this will be chopped off by the definition. The rest is fairly straightforward, 'vblex' is lexical verb, 'pri' is present indicative tense, 'p1' is first person and 'sg' is singular. We can also add the plural which will be the same, except 'imo' instead of 'im' and 'pl' instead of 'sg'.

After this we need to add a lemma, paradigm mapping to the main section:

<e lm="videti"><i>vid</i><par n="vid/eti__vblex"/></e>

Note: the content of is the root, not the lemma.

Thats the work on the Serbo-Croatian dictionary done for now. Lets compile it then test it.

$ lt-comp lr apertium-sh-en.sh.dix sh-en.automorf.bin
main@standard 23 25
$ echo "vidim" | lt-proc sh-en.automorf.bin
^vidim/videti<vblex><pri><p1><sg>$
$ echo "vidimo" | lt-proc sh-en.automorf.bin
^vidimo/videti<vblex><pri><p1><pl>$

Ok, so now we do the same for the English dictionary (remember to add the same symbol definitions here as you added to the Serbo-Croatian one).

The paradigm is:

<pardef n="s/ee__vblex">

because the past tense is 'saw'. Now, we can do one of two things, we can add both first and second person, but they are the same form. In fact, all forms (except third person singular) of the verb 'to see' are 'see'. So instead we make one entry for 'see' and give it only the 'pri' symbol.

<e>
   <p>
     <l>ee</l>
     <r>ee<s n="vblex"/><s n="pri"/></r>
   </p>
</e>

and as always, an entry in the main section:

<e lm="see"><i>s</i><par n="s/ee__vblex"/></e>

Then lets save, recompile and test:

$ lt-comp lr apertium-sh-en.en.dix en-sh.automorf.bin main@standard 18 19

$ echo "see" | lt-proc en-sh.automorf.bin ^see/see<vblex><pri>$

Now for the obligatory entry in the bilingual dictionary:

<e><p><l>videti<s n="vblex"/></l><r>see<s n="vblex"/></r></p></e>

(again, don't forget to add the sdefs from earlier)

And recompile:

$ lt-comp lr apertium-sh-en.sh-en.dix sh-en.autobil.bin
main@standard 18 18
$ lt-comp rl apertium-sh-en.sh-en.dix en-sh.autobil.bin
main@standard 18 18

Now to test:

$ echo "vidim" | lt-proc sh-en.automorf.bin | \
  gawk 'BEGIN{RS="$"; FS="/";}{nf=split($1,COMPONENTS,"^"); for(i = 1; i<nf; i++) printf COMPONENTS[i]; if($2 != "") printf("^%s$",$2);}' | \
  apertium-transfer apertium-sh-en.trules-sh-en.xml trules-sh-en.bin sh-en.autobil.bin 

^see<vblex><pri><p1><sg>$^@

We get the analysis passed through correctly, but when we try and generate a surface form from this, we get a '#', like below:

$ echo "vidim" | lt-proc sh-en.automorf.bin | \
  gawk 'BEGIN{RS="$"; FS="/";}{nf=split($1,COMPONENTS,"^"); for(i = 1; i<nf; i++) printf COMPONENTS[i]; if($2 != "") printf("^%s$",$2);}' | \
  apertium-transfer apertium-sh-en.trules-sh-en.xml trules-sh-en.bin sh-en.autobil.bin | \
  lt-proc -g sh-en.autogen.bin
#see\@

This '#' means that the generator cannot generate the correct lexical form because it does not contain it. Why is this?

Basically the analyses don't match, the 'see' in the dictionary is see<vblex><pri>, but the see delivered by the transfer is see<vblex><pri><p1><sg>. The Serbo-Croatian side has more information than the English side requires. You can test this by adding the missing symbols to the English dictionary, and then recompiling, and testing again.

However, a more paradigmatic way of taking care of this is by writing a rule. So, we open up the rules file (apertium-sh-en.trules-sh-en.xml in case you forgot).

We need to add a new category for 'verb'.

<def-cat n="vrb">
   <cat-item tags="vblex.*"/>
</def-cat>

We also need to add attributes for tense and for person. We'll make it really simple for now, you can add p2 and p3, but I won't in order to save space.

<def-attr n="temps">
   <attr-item tags="pri"/>
</def-attr>

<def-attr n="pers">
   <attr-item tags="p1"/>
</def-attr>

We should also add an attribute for verbs.

<def-attr n="a_verb">
   <attr-item tags="vblex"/>
</def-attr>

Now onto the rule:

<rule>
   <pattern>
     <pattern-item n="vrb"/>
   </pattern>
   <action>
     <out>
       <lu>
         <clip pos="1" side="tl" part="lem"/>
         <clip pos="1" side="tl" part="a_verb"/>
         <clip pos="1" side="tl" part="temps"/>
       </lu>
     </out>
   </action>
</rule>

Remember when you tried commenting out the 'clip' tags in the previous rule example and they disappeared from the transfer, well, thats pretty much what we're doing here. We take in a verb with a full analysis, but only output a partial analysis (lemma + verb tag + tense tag).

So now, if we recompile that, we get:

$ echo "vidim" | lt-proc sh-en.automorf.bin | \
  gawk 'BEGIN{RS="$"; FS="/";}{nf=split($1,COMPONENTS,"^"); for(i = 1; i<nf; i++) printf COMPONENTS[i]; if($2 != "") printf("^%s$",$2);}' | \
  apertium-transfer apertium-sh-en.trules-sh-en.xml trules-sh-en.bin sh-en.autobil.bin
^see<vblex><pri>$^@

and:

$ echo "vidim" | lt-proc sh-en.automorf.bin  | \
  gawk 'BEGIN{RS="$"; FS="/";}{nf=split($1,COMPONENTS,"^"); for(i = 1; i<nf; i++) printf COMPONENTS[i]; if($2 != "") printf("^%s$",$2);}' | \
  apertium-transfer apertium-sh-en.trules-sh-en.xml trules-sh-en.bin sh-en.autobil.bin | \
  lt-proc -g sh-en.autogen.bin
see\@

Try it with 'vidimo' (we see) to see if you get the correct output.

Now try it with "vidim gramofone":

$ echo "vidim gramofoni" | lt-proc sh-en.automorf.bin | \
  gawk 'BEGIN{RS="$"; FS="/";}{nf=split($1,COMPONENTS,"^"); for(i = 1; i<nf; i++) printf COMPONENTS[i]; if($2 != "") printf("^%s$",$2);}' | \
  apertium-transfer apertium-sh-en.trules-sh-en.xml trules-sh-en.bin sh-en.autobil.bin | \
  lt-proc -g sh-en.autogen.bin
see gramophones\@

Hag ar raganvioù-gour ?

Well, thats great, but we're still missing the personal pronoun that is necessary in English. In order to add it in, we first need to edit the English morphological dictionary.

As before, the first thing to do is add the necessary symbols:

<sdef n="prn"/>
<sdef n="subj"/>

Of the two symbols, prn is pronoun, and subj is subject (as in the subject of a sentence).

Because there is no root, or 'lemma' for personal subject pronouns, we just add the pardef as follows:

<pardef n="prsubj__prn">
   <e>
     <p>
       <l>I</l>
       <r>prpers<s n="prn"/><s n="subj"/><s n="p1"/><s n="sg"/></r>
     </p>
   </e>
</pardef>

With 'prsubj' being 'personal subject'. The rest of them (You, We etc.) are left as an exercise to the reader.

We can add an entry to the main section as follows:

<e lm="personal subject pronouns"><i/><par n="prsubj__prn"/></e>

So, save, recompile and test, and we should get something like:

$ echo "I" | lt-proc en-sh.automorf.bin
^I/PRPERS<prn><subj><p1><sg>$

(Note: its in capitals because 'I' is in capitals).

Now we need to amend the 'verb' rule to output the subject personal pronoun along with the correct verb form.

First, add a category (this must be getting pretty pedestrian by now):

<def-cat n="prpers">
   <cat-item lemma="prpers" tags="prn.*"/>
</def-cat>

Now add the types of pronoun as attributes, we might as well add the 'obj' type as we're at it, although we won't need to use it for now:

<def-attr n="tipus_prn">
   <attr-item tags="prn.subj"/>
   <attr-item tags="prn.obj"/>
</def-attr>

And now to input the rule:

<rule>
   <pattern>
     <pattern-item n="vrb"/>
   </pattern>
   <action>
     <out>
       <lu>
         <lit v="prpers"/>
         <lit-tag v="prn"/>
         <lit-tag v="subj"/>
         <clip pos="1" side="tl" part="pers"/>
         <clip pos="1" side="tl" part="nbr"/>
       </lu>
       <b/>
       <lu>
         <clip pos="1" side="tl" part="lem"/>
         <clip pos="1" side="tl" part="a_verb"/>
         <clip pos="1" side="tl" part="temps"/>
       </lu>
     </out>
   </action>
</rule>

This is pretty much the same rule as before, only we made a couple of small changes.

We needed to output:

^prpers<prn><subj><p1><sg>$ ^see<vblex><pri>$

so that the generator could choose the right pronoun and the right form of the verb.

So, a quick rundown:

  • <lit>, prints a literal string, in this case "prpers"
  • <lit-tag>, prints a literal tag, because we can't get the tags from the verb, we add these ourself, "prn" for pronoun, and "subj" for subject.
  • , prints a blank, a space.

Note that we retrieved the information for number and tense directly from the verb.

So, now if we recompile and test that again:

$ echo "vidim gramofone" | lt-proc sh-en.automorf.bin  | \
  gawk 'BEGIN{RS="$"; FS="/";}{nf=split($1,COMPONENTS,"^"); for(i = 1; i<nf; i++) printf COMPONENTS[i]; if($2 != "") printf("^%s$",$2);}' | \
  apertium-transfer apertium-sh-en.trules-sh-en.xml trules-sh-en.bin sh-en.autobil.bin | \
  lt-proc -g sh-en.autogen.bin
I see gramophones

Which, while it isn't exactly prize-winning prose (much like this HOWTO), is a fairly accurate translation.

Ha petra gant ar sonenskriver (Liesgerioù)

While gramophone is an English word, it isn't the best translation. Gramophone is typically used for the very old kind, you know with the needle instead of the stylus, and no amplification. A better translation would be 'record player'. Although this is more than one word, we can treat it as if it is one word by using multiword (multipalabra) constructions.

We don't need to touch the Serbo-Croatian dictionary, just the English one and the bilingual one this, so open it up.

The plural of 'record player' is 'record players', so it takes the same paradigm as gramophone (gramophone__n) — in that we just add 's'. All we need to do is add a new element to the main section.

<e lm="record player"><i>record<b/>player</i><par n="gramophone__n"/></e>

The only thing different about this is the use of the tag, although this isn't entirely new as we saw it in use in the rules file.

So, recompile and test in the orthodox fashion:

$ echo "vidim gramofone" | lt-proc sh-en.automorf.bin | \
  gawk 'BEGIN{RS="$"; FS="/";}{nf=split($1,COMPONENTS,"^"); for(i = 1; i<nf; i++) printf COMPONENTS[i]; if($2 != "") printf("^%s$",$2);}' | \
  apertium-transfer apertium-sh-en.trules-sh-en.xml trules-sh-en.bin sh-en.autobil.bin  | \
  lt-proc -g sh-en.autogen.bin
I see record players

Perfect. A big benefit of using multiwords is that you can translate idiomatic expressions verbatim, without having to do word-by-word translation. For example the English phrase, "at the moment" would be translated into Serbo-Croatian as "trenutno" (trenutak = moment, trenutno being adverb of that) — it would not be possible to translate this English phrase word-by-word into Serbo-Croatian.

Merañ an diforc'hioù munut

Serbo-Croatian typically has a few ways of writing each word because of dialectal variation. It has a cool phonetic writing system so you write how you speak. For example, people speaking in Ijekavian would say "rječnik", while someone speaking Ekavian would say "rečnik", which reflects the differences in pronunciation of the proto-Slavic vowel yat.

Dielfennañ

There should be a fairly easy way of dealing with this, and there is, using paradigms again. Paradigms aren't only used for adding grammatical symbols, but they can also be used to replace any character/symbol with another. For example, here is a paradigm for accepting both "e" and "je" in the analysis. The paradigm should, as with the others go into the monolingual dictionary for Serbo-Croatian.

  <pardef n="e_je__yat">
    <e>
      <p>
        <l>e</l>
        <r>e</r>
      </p>
    </e>
    <e>
      <p>
        <l>je</l>
        <r>e</r>
      </p>
    </e>
  </pardef>

Then in the "main section":

    <e lm="rečnik"><i>r</i><par n="e_je__yat"/><i>čni</i><par n="rečni/k__n"/></e>

This only allows us to analyse both forms however... more work is necessary if we want to generate both forms.

Krouiñ

Gwelet ivez