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gf-core/lib/resource-0.6/german/MorphoGer.gf

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--1 A Simple German Resource Morphology
--
-- Aarne Ranta 2002
--
-- This resource morphology contains definitions needed in the resource
-- syntax. It moreover contains the most usual inflectional patterns.
--
-- We use the parameter types and word classes defined in $types.Deu.gf$.
resource MorphoGer = TypesGer ** open (Predef=Predef), Prelude in {
--2 Nouns
--
-- For conciseness and abstraction, we define a method for
-- generating a case-dependent table from a list of four forms.
oper
caselist : (_,_,_,_ : Str) -> Case => Str = \n,a,d,g -> table {
Nom => n ; Acc => a ; Dat => d ; Gen => g} ;
-- The *worst-case macro* for common nouns needs six forms: all plural forms
-- are always the same except for the dative.
mkNoun : (_,_,_,_,_,_ : Str) -> Gender -> CommNoun =
\mann, mannen, manne, mannes, männer, männern, g -> {s = table {
Sg => caselist mann mannen manne mannes ;
Pl => caselist männer männer männern männer
} ; g = g} ;
-- But we never need all the six forms at the same time. Often
-- we need just two, three, or four forms.
mkNoun4 : (_,_,_,_ : Str) -> Gender -> CommNoun = \kuh,kuhes,kühe,kühen ->
mkNoun kuh kuh kuh kuhes kühe kühen ;
mkNoun3 : (_,_,_ : Str) -> Gender -> CommNoun = \kuh,kühe,kühen ->
mkNoun kuh kuh kuh kuh kühe kühen ;
mkNoun2n : (_,_ : Str) -> Gender -> CommNoun = \zahl, zahlen ->
mkNoun3 zahl zahlen zahlen ;
mkNoun2es : (_,_ : Str) -> Gender -> CommNoun = \wort, wörter ->
mkNoun wort wort wort (wort + "es") wörter (wörter + "n") ;
mkNoun2s : (_,_ : Str) -> Gender -> CommNoun = \vater, väter ->
mkNoun vater vater vater (vater + "s") väter (väter + "n") ;
mkNoun2ses : (_,_ : Str) -> Gender -> CommNoun = \wort,wörter ->
mkNoun wort wort wort (wort + variants {"es" ; "s"}) wörter (wörter + "n") ;
-- Here are the school grammar declensions with their commonest variations.
-- Unfortunately we cannot define *Umlaut* in GF, but have to give two forms.
--
-- First declension, with plural "en"/"n", including weak masculins:
declN1 : Str -> CommNoun = \zahl ->
mkNoun2n zahl (zahl + "en") Fem ;
declN1e : Str -> CommNoun = \stufe ->
mkNoun2n stufe (stufe + "n") Fem ;
declN1M : Str -> CommNoun = \junge -> let {jungen = junge + "n"} in
mkNoun junge jungen jungen jungen jungen jungen Masc ;
declN1eM : Str -> CommNoun = \soldat -> let {soldaten = soldat + "en"} in
mkNoun soldat soldaten soldaten soldaten soldaten soldaten Masc ;
-- Second declension, with plural "e":
declN2 : Str -> CommNoun = \punkt ->
mkNoun2es punkt (punkt+"e") Masc ;
declN2i : Str -> CommNoun = \onkel ->
mkNoun2s onkel onkel Masc ;
declN2u : (_,_ : Str) -> CommNoun = \raum,räume ->
mkNoun2es raum räume Masc ;
declN2uF : (_,_ : Str) -> CommNoun = \kuh,kühe ->
mkNoun3 kuh kühe (kühe + "n") Fem ;
-- Third declension, with plural "er":
declN3 : Str -> CommNoun = \punkt ->
mkNoun2es punkt (punkt+"er") Neut ;
declN3u : (_,_ : Str) -> CommNoun = \buch,bücher ->
mkNoun2ses buch bücher Neut ;
declN3uS : (_,_ : Str) -> CommNoun = \haus,häuser ->
mkNoun2es haus häuser Neut ;
-- Plural with "s":
declNs : Str -> CommNoun = \restaurant ->
mkNoun3 restaurant (restaurant+"s") (restaurant+"s") Neut ;
--2 Pronouns
--
-- Here we define personal and relative pronouns.
-- All personal pronouns, except "ihr", conform to the simple
-- pattern $mkPronPers$.
ProPN = {s : NPForm => Str ; n : Number ; p : Person} ;
mkPronPers : (_,_,_,_,_ : Str) -> Number -> Person -> ProPN =
\ich,mich,mir,meines,mein,n,p -> {
s = table {
NPCase c => caselist ich mich mir meines ! c ;
NPPoss gn c => mein + pronEnding ! gn ! c
} ;
n = n ;
p = p
} ;
pronEnding : GenNum => Case => Str = table {
GSg Masc => caselist "" "en" "em" "es" ;
GSg Fem => caselist "e" "e" "er" "er" ;
GSg Neut => caselist "" "" "em" "es" ;
GPl => caselist "e" "e" "en" "er"
} ;
pronIch = mkPronPers "ich" "mich" "mir" "meines" "mein" Sg P1 ;
pronDu = mkPronPers "du" "dich" "dir" "deines" "dein" Sg P2 ;
pronEr = mkPronPers "er" "ihn" "ihm" "seines" "sein" Sg P3 ;
pronSie = mkPronPers "sie" "sie" "ihr" "ihres" "ihr" Sg P3 ;
pronEs = mkPronPers "es" "es" "ihm" "seines" "sein" Sg P3 ;
pronWir = mkPronPers "wir" "uns" "uns" "unser" "unser" Pl P1 ;
pronSiePl = mkPronPers "sie" "sie" "ihnen" "ihrer" "ihr" Pl P3 ;
pronSSie = mkPronPers "Sie" "Sie" "Ihnen" "Ihrer" "Ihr" Pl P3 ; ---
-- We still have wrong agreement with the complement of the polite "Sie":
-- it is in plural, like the verb, although it should be in singular.
-- The peculiarity with "ihr" is the presence of "e" in forms without an ending.
pronIhr =
{s = table {
NPPoss (GSg Masc) Nom => "euer" ;
NPPoss (GSg Neut) Nom => "euer" ;
NPPoss (GSg Neut) Acc => "euer" ;
pf => (mkPronPers "ihr" "euch" "euch" "euer" "eur" Pl P2).s ! pf
} ;
n = Pl ;
p = P2
} ;
-- Relative pronouns are like the definite article, except in the genitive and
-- the plural dative. The function $artDef$ will be defined right below.
RelPron : Type = {s : GenNum => Case => Str} ;
relPron : RelPron = {s = \\gn,c =>
case <gn,c> of {
<GSg Fem,Gen> => "deren" ;
<GSg g,Gen> => "dessen" ;
<GPl,Dat> => "denen" ;
<GPl,Gen> => "deren" ;
_ => artDef ! gn ! c
}
} ;
--2 Articles
--
-- Here are all forms the indefinite and definite article.
-- The indefinite article is like a large class of pronouns.
-- The definite article is more peculiar; we don't try to
-- subsume it to any general rule.
artIndef : Gender => Case => Str = \\g,c => "ein" + pronEnding ! GSg g ! c ;
artDef : GenNum => Case => Str = table {
GSg Masc => caselist "der" "den" "dem" "des" ;
GSg Fem => caselist "die" "die" "der" "der" ;
GSg Neut => caselist "das" "das" "dem" "des" ;
GPl => caselist "die" "die" "den" "der"
} ;
--2 Adjectives
--
-- As explained in $types.Deu.gf$, it
-- would be superfluous to use the cross product of gender and number,
-- since there is no gender distinction in the plural. But it is handy to have
-- a function that constructs gender-number complexes.
gNumber : Gender -> Number -> GenNum = \g,n ->
case n of {
Sg => GSg g ;
Pl => GPl
} ;
-- It's also handy to have a function that finds out the number from such a complex.
numGenNum : GenNum -> Number = \gn ->
case gn of {
GSg _ => Sg ;
GPl => Pl
} ;
-- This function costructs parameters in the complex type of adjective forms.
aMod : Adjf -> Gender -> Number -> Case -> AForm = \a,g,n,c ->
AMod a (gNumber g n) c ;
-- The worst-case macro for adjectives (positive degree) only needs
-- two forms.
mkAdjective : (_,_ : Str) -> Adjective = \böse,bös -> {s = table {
APred => böse ;
AMod Strong (GSg Masc) c =>
caselist (bös+"er") (bös+"en") (bös+"em") (bös+"es") ! c ;
AMod Strong (GSg Fem) c =>
caselist (bös+"e") (bös+"e") (bös+"er") (bös+"er") ! c ;
AMod Strong (GSg Neut) c =>
caselist (bös+"es") (bös+"es") (bös+"em") (bös+"es") ! c ;
AMod Strong GPl c =>
caselist (bös+"e") (bös+"e") (bös+"en") (bös+"er") ! c ;
AMod Weak (GSg g) c => case <g,c> of {
<_,Nom> => bös+"e" ;
<Masc,Acc> => bös+"en" ;
<_,Acc> => bös+"e" ;
_ => bös+"en" } ;
AMod Weak GPl c => bös+"en"
}} ;
-- Here are some classes of adjectives:
adjReg : Str -> Adjective = \gut -> mkAdjective gut gut ;
adjE : Str -> Adjective = \bös -> mkAdjective (bös+"e") bös ;
adjEr : Str -> Adjective = \teu -> mkAdjective (teu+"er") (teu+"r") ;
adjInvar : Str -> Adjective = \prima -> {s = table {_ => prima}} ;
-- The first three classes can be recognized from the end of the word, depending
-- on if it is "e", "er", or something else.
adjGen : Str -> Adjective = \gut -> let {
er = Predef.dp 2 gut ;
teu = Predef.tk 2 gut ;
e = Predef.dp 1 gut ;
bös = Predef.tk 1 gut
} in
ifTok Adjective er "er" (adjEr teu) (
ifTok Adjective e "e" (adjE bös) (
(adjReg gut))) ;
-- The comparison of adjectives needs three adjectives in the worst case.
mkAdjComp : (_,_,_ : Adjective) -> AdjComp = \gut,besser,best ->
{s = table {Pos => gut.s ; Comp => besser.s ; Sup => best.s}} ;
-- It can be done by just three strings, if each of the comparison
-- forms taken separately is a regular adjective.
adjCompReg3 : (_,_,_ : Str) -> AdjComp = \gut,besser,best ->
mkAdjComp (adjReg gut) (adjReg besser) (adjReg best) ;
-- If also the comparison forms are regular, one string is enough.
adjCompReg : Str -> AdjComp = \billig ->
adjCompReg3 billig (billig+"er") (billig+"st") ;
--2 Verbs
--
-- We limit ourselves to verbs in present tense infinitive, indicative,
-- and imperative, and past participle. Other forms will be introduced later.
--
-- The worst-case macro needs three forms: the infinitive, the third person
-- singular indicative, and the second person singular imperative.
-- We take care of the special cases "ten", "sen", "ln", "rn".
--
-- A famous law about Germanic languages says that plural first and third person
-- are similar.
mkVerbum : (_,_,_,_ : Str) -> Verbum = \geben, gib, gb, gegeben ->
let {
en = Predef.dp 2 geben ;
geb = ifTok Tok (Predef.tk 1 en) "e" (Predef.tk 2 geben)(Predef.tk 1 geben) ;
gebt = ifTok Tok (Predef.dp 1 geb) "t" (geb + "et") (geb + "t") ;
gibst = ifTok Tok (Predef.dp 1 gib) "s" (gib + "t") (gib + "st") ;
gegebener = (adjReg gegeben).s
} in table {
VInf => geben ;
VInd Sg P1 => geb + "e" ;
VInd Sg P2 => gibst ;
VInd Sg P3 => gib + "t" ;
VInd Pl P2 => gebt ;
VInd Pl _ => geben ; -- the famous law
VImp Sg => gb ;
VImp Pl => gebt ;
VPart a => gegebener ! a
} ;
-- Regular verbs:
regVerb : Str -> Verbum = \legen ->
let {lege = ifTok Tok (Predef.dp 3 legen) "ten" (Predef.tk 1 legen) (
ifTok Tok (Predef.dp 2 legen) "en" (Predef.tk 2 legen) (
Predef.tk 1 legen))} in
mkVerbum legen lege lege ("ge" + (lege + "t")) ;
-- Verbs ending with "t"; now recognized in $mkVerbum$.
verbWarten : Str -> Verbum = regVerb ;
-- Verbs with Umlaut in the second and third person singular and imperative:
verbSehen : Str -> Str -> Str -> Verbum = \sehen, sieht, gesehen ->
let {sieh = Predef.tk 1 sieht} in mkVerbum sehen sieh sieh gesehen ;
-- Verbs with Umlaut in the second and third person singular but not imperative:
verbLaufen : Str -> Str -> Str -> Verbum = \laufen, läuft, gelaufen ->
let {läuf = Predef.tk 1 läuft ; laufe = Predef.tk 1 laufen}
in mkVerbum laufen läuf laufe gelaufen ;
-- The verb "be":
verbumSein : Verbum = let {
gewesen = (adjReg "gewesen").s
} in
table {
VInf => "sein" ;
VInd Sg P1 => "bin" ;
VInd Sg P2 => "bist" ;
VInd Sg P3 => "ist" ;
VInd Pl P2 => "seid" ;
VInd Pl _ => "sind" ;
VImp Sg => "sei" ;
VImp Pl => "seiet" ;
VPart a => gewesen ! a
} ;
-- The verb "have":
verbumHaben : Verbum = let {
haben = (regVerb "haben")
} in
table {
VInd Sg P2 => "hast" ;
VInd Sg P3 => "hat" ;
v => haben ! v
} ;
-- The verb "become", used as the passive auxiliary:
verbumWerden : Verbum = let {
werden = regVerb "werden" ;
geworden = (adjReg "geworden").s
} in
table {
VInd Sg P2 => "wirst" ;
VInd Sg P3 => "wird" ;
VPart a => geworden ! a ;
v => werden ! v
} ;
-- A *full verb* ($Verb$) consists of the inflection forms ($Verbum$) and
-- a *particle* (e.g. "aus-sehen"). Simple verbs are the ones that have no
-- such particle.
mkVerb : Verbum -> Particle -> Verb = \v,p -> {s = v ; s2 = p} ;
mkVerbSimple : Verbum -> Verb = \v -> mkVerb v [] ;
verbSein = mkVerbSimple verbumSein ;
verbHaben = mkVerbSimple verbumHaben ;
verbWerden = mkVerbSimple verbumWerden ;
verbGeben = mkVerbSimple (verbSehen "geben" "gibt" "gegeben") ;
{-
-- tests for optimizer
verbumSein2 : Verbum =
table {
VInf => "sein" ;
VInd Sg P1 => "bin" ;
VInd Sg P2 => "bist" ;
VInd Sg P3 => "ist" ;
VInd Pl P2 => "seid" ;
VInd Pl _ => "sind" ;
VImp Sg => "sei" ;
VImp Pl => "seiet" ;
VPart a => (adjReg "gewesen").s ! a
} ;
verbumHaben2 : Verbum =
table {
VInd Sg P2 => "hast" ;
VInd Sg P3 => "hat" ;
v => regVerb "haben" ! v
} ;
-}
} ;
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