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gf-core/lib/src/slovenian/ParadigmsSlv.gf

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resource ParadigmsSlv = open CatSlv, ResSlv, Prelude in {
oper
nominative : Case = Nom ;
genitive : Case = Gen ;
dative : Case = Dat ;
accusative : Case = Acc ;
locative : Case = Loc ;
instrumental:Case = Instr ;
mkPrep : Str -> Case -> Prep =
\s,c -> lin Prep {s=s; c=c};
masculine = Masc;
feminine = Fem;
neuter = Neut;
mkN : (_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_ : Str) -> Gender -> N =
\nomsg,gensg,datsg,accsg,locsg,instrsg,nomdl,gendl,datdl,accdl,locdl,instrdl,nompl,genpl,datpl,accpl,locpl,instrpl,g -> lin N {
s = table {
Nom => table {Sg=>nomsg; Dl=>nomdl; Pl=>nompl};
Gen => table {Sg=>gensg; Dl=>gendl; Pl=>genpl};
Dat => table {Sg=>datsg; Dl=>datdl; Pl=>datpl};
Acc => table {Sg=>accsg; Dl=>accdl; Pl=>accpl};
Loc => table {Sg=>locsg; Dl=>nomdl; Pl=>locpl};
Instr => table {Sg=>instrsg; Dl=>instrdl; Pl=>instrpl}
};
g = g
};
mkPN : (_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_ : Str) -> Gender -> PN =
\nomsg,nomdl,nompl,gensg,gendl,genpl,datsg,datdl,datpl,accsg,accdl,accpl,locsg,locdl,locpl,instrsg,instrdl,instrpl,g -> lin PN {
s = table {
Nom => table {Sg=>nomsg; Dl=>nomdl; Pl=>nompl};
Gen => table {Sg=>gensg; Dl=>gendl; Pl=>genpl};
Dat => table {Sg=>datsg; Dl=>datdl; Pl=>datpl};
Acc => table {Sg=>accsg; Dl=>accdl; Pl=>accpl};
Loc => table {Sg=>locsg; Dl=>nomdl; Pl=>locpl};
Instr => table {Sg=>instrsg; Dl=>instrdl; Pl=>instrpl}
};
g = g
};
mkV = overload {
mkV : (inf,stem : Str) -> V = regV ;
mkV : (inf,stem,lstem : Str) -> V = irregVa ;
mkV : (inf,stem,lstem,imp : Str) -> V = irregVb ;
mkV : (x1,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,x25 : Str) -> V = worstV ;
} ;
-- Regular verbs are formed from two forms. Infinitive and 3rd person singular presens.
regV : (_,_ : Str) -> V = \hoditi,hodi ->
let
imp = mkImp hodi
in
mkAllV hoditi hodi (hodi +"l") (hodi +"l") imp ;
-- Verbs with irregular l-forms are formed from three forms:
---The infinitive, 3rd person singular presens, and the l-form for Masc Sg.
-- L-form with that ends with "el" drops the e in all other conjugations.
irregVa : (_,_,_ : Str) -> V = \pisati,pise,pisal ->
let
imp = mkImp pise ;
pisl = looseVowel pisal
in
mkAllV pisati pise pisal pisl imp ;
--Verbs with irregular imperative-form takes the imperative base form as a final argument.
irregVb : (_,_,_,_ : Str) -> V = \gledati,gleda,gledal,glej ->
let
lfem = looseVowel gledal
in
mkAllV gledati gleda gledal lfem glej;
--The final paradigm-generator for all verbforms. Takes the infinitive,thirdpersonsingular in present tense,
--masculine l-form, feminine l-form and the imperative base form.
mkAllV : (_,_,_,_,_ : Str) -> V = \infinitive,thirdpsg,lformmasc,lformfem,imp ->
let
sup = init infinitive --Supine is formed by dropping the last letter of the infinitive
in
worstV infinitive sup --VInf, Sup
lformmasc (lformfem + "a") (lformfem + "i") --VPastPart Masc Sg,Dl,Pl
(lformfem + "a") (lformfem + "i") (lformfem + "e") --VPastPart Fem Sg,Dl,Pl
(lformfem + "o") (lformfem + "i") (lformfem + "a") --VPastPart Neut Sg,Dl,Pl
(thirdpsg + "m") (thirdpsg + "š") thirdpsg --VPres Sg P1, P2, P3
(thirdpsg + "va") (thirdpsg + "ta") (thirdpsg + "ta") --VPres Dl P1, P2, P3
(thirdpsg + "mo") (thirdpsg + "te") (thirdpsg + "jo") --VPres Pl P1, P2, P3
imp (imp + "va") (imp+"mo") (imp +"ta") (imp + "te"); --Imper P1 Sg Dl Pl + P2 Dl Pl
worstV : (_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_ : Str) -> V =
\inf,sup,partsgm,partdlm,partplm,partsgf,partdlf,partplf,partsgn,partdln,partpln,pres1sg,pres2sg,pres3sg,pres1dl,pres2dl,pres3dl,pres1pl,pres2pl,pres3pl,imp1dl,imp1pl,imp2sg,imp2dl,imp2pl -> lin V {
s = table {
VInf => inf;
VSup => sup;
VPastPart Masc Sg => partsgm;
VPastPart Masc Dl => partdlm;
VPastPart Masc Pl => partplm;
VPastPart Fem Sg => partsgf;
VPastPart Fem Dl => partdlf;
VPastPart Fem Pl => partplf;
VPastPart Neut Sg => partsgn;
VPastPart Neut Dl => partdln;
VPastPart Neut Pl => partpln;
VPres Sg P1 => pres1sg;
VPres Sg P2 => pres2sg;
VPres Sg P3 => pres3sg;
VPres Dl P1 => pres1dl;
VPres Dl P2 => pres2dl;
VPres Dl P3 => pres3dl;
VPres Pl P1 => pres1pl;
VPres Pl P2 => pres2pl;
VPres Pl P3 => pres3pl;
VImper1Sg => imp1dl;
VImper1Dl => imp1pl;
VImper2 Sg => imp2sg;
VImper2 Dl => imp2dl;
VImper2 Pl => imp2pl
}
};
--Imperative forms are formed separetely. Pattern matching performed on thirdpersonsingular verbform.
mkImp : Str -> Str = \caka ->
case caka of {
_ + "a" => (caka+"j") ;
_ + ("je"|"ji") => let cak = init caka in cak ;
_ + "e" => let cak = init caka in (cak+"i") ;
_ + "i" => caka ;
_ => caka --this dummy is not grammatically correct. It's just a wild guess.
};
mkV2 = overload {
mkV2 : V -> V2 = \v -> v ** {c2 = lin Prep {s=""; c=Acc}} ;
mkV2 : V -> Case -> V2 = \v,c -> v ** {c2 = lin Prep {s=""; c=c}} ;
mkV2 : V -> Prep -> V2 = \v,p -> v ** {c2 = p} ;
} ;
mkVQ : V -> VQ ;
mkVQ v = v ;
mkVV : V -> VV ;
mkVV v = v ;
mkA : (_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_ : Str) -> A =
\positMSgNom,positMSgNomDef,positMSgGen,positMSgDat,positMSgAcc,positMSgAccIndef,positMSgAccDef,positMSgLoc,positMSgInstr,
positMDlNom,positMDlGen,positMDlDat,positMDlAcc,positMDlLoc,positMDlInstr,
positMPlNom,positMPlGen,positMPlDat,positMPlAcc,positMPlLoc,positMPlInstr,
positFSgNom,positFSgGen,positFSgDat,positFSgAcc,positFSgLoc,positFSgInstr,
positFDlNom,positFDlGen,positFDlDat,positFDlAcc,positFDlLoc,positFDlInstr,
positFPlNom,positFPlGen,positFPlDat,positFPlAcc,positFPlLoc,positFPlInstr,
positNSgNom,positNSgGen,positNSgDat,positNSgAcc,positNSgLoc,positNSgInstr,
positNDlNom,positNDlGen,positNDlDat,positNDlAcc,positNDlLoc,positNDlInstr,
positNPlNom,positNPlGen,positNPlDat,positNPlAcc,positNPlLoc,positNPlInstr,
comparMSgNom,comparMSgGen,comparMSgDat,comparMSgAcc,comparMSgAccDef,comparMSgLoc,comparMSgInstr,
comparMDlNom,comparMDlGen,comparMDlDat,comparMDlAcc,comparMDlLoc,comparMDlInstr,
comparMPlNom,comparMPlGen,comparMPlDat,comparMPlAcc,comparMPlLoc,comparMPlInstr,
comparFSgNom,comparFSgGen,comparFSgDat,comparFSgAcc,comparFSgLoc,comparFSgInstr,
comparFDlNom,comparFDlGen,comparFDlDat,comparFDlAcc,comparFDlLoc,comparFDlInstr,
comparFPlNom,comparFPlGen,comparFPlDat,comparFPlAcc,comparFPlLoc,comparFPlInstr,
comparNSgNom,comparNSgGen,comparNSgDat,comparNSgAcc,comparNSgLoc,comparNSgInstr,
comparNDlNom,comparNDlGen,comparNDlDat,comparNDlAcc,comparNDlLoc,comparNDlInstr,
comparNPlNom,comparNPlGen,comparNPlDat,comparNPlAcc,comparNPlLoc,comparNPlInstr,
superlMSgNom,superlMSgGen,superlMSgDat,superlMSgAcc,superlMSgAccDef,superlMSgLoc,superlMSgInstr,
superlMDlNom,superlMDlGen,superlMDlDat,superlMDlAcc,superlMDlLoc,superlMDlInstr,
superlMPlNom,superlMPlGen,superlMPlDat,superlMPlAcc,superlMPlLoc,superlMPlInstr,
superlFSgNom,superlFSgGen,superlFSgDat,superlFSgAcc,superlFSgLoc,superlFSgInstr,
superlFDlNom,superlFDlGen,superlFDlDat,superlFDlAcc,superlFDlLoc,superlFDlInstr,
superlFPlNom,superlFPlGen,superlFPlDat,superlFPlAcc,superlFPlLoc,superlFPlInstr,
superlNSgNom,superlNSgGen,superlNSgDat,superlNSgAcc,superlNSgLoc,superlNSgInstr,
superlNDlNom,superlNDlGen,superlNDlDat,superlNDlAcc,superlNDlLoc,superlNDlInstr,
superlNPlNom,superlNPlGen,superlNPlDat,superlNPlAcc,superlNPlLoc,superlNPlInstr -> lin A {
s = table {
APosit Masc Sg Nom => positMSgNom;
APositDefNom => positMSgNomDef;
APosit Masc Sg Gen => positMSgGen;
APosit Masc Sg Dat => positMSgDat;
APosit Masc Sg Acc => positMSgAcc;
APositIndefAcc => positMSgAccIndef;
APositDefAcc => positMSgAccDef;
APosit Masc Sg Loc => positMSgLoc;
APosit Masc Sg Instr => positMSgInstr;
APosit Masc Dl Nom => positMDlNom;
APosit Masc Dl Gen => positMDlGen;
APosit Masc Dl Dat => positMDlDat;
APosit Masc Dl Acc => positMDlAcc;
APosit Masc Dl Loc => positMDlLoc;
APosit Masc Dl Instr => positMDlInstr;
APosit Masc Pl Nom => positMPlNom;
APosit Masc Pl Gen => positMPlGen;
APosit Masc Pl Dat => positMPlDat;
APosit Masc Pl Acc => positMPlAcc;
APosit Masc Pl Loc => positMPlLoc;
APosit Masc Pl Instr => positMPlInstr;
APosit Fem Sg Nom => positFSgNom;
APosit Fem Sg Gen => positFSgGen;
APosit Fem Sg Dat => positFSgDat;
APosit Fem Sg Acc => positFSgAcc;
APosit Fem Sg Loc => positFSgLoc;
APosit Fem Sg Instr => positFSgInstr;
APosit Fem Dl Nom => positFDlNom;
APosit Fem Dl Gen => positFDlGen;
APosit Fem Dl Dat => positFDlDat;
APosit Fem Dl Acc => positFDlAcc;
APosit Fem Dl Loc => positFDlLoc;
APosit Fem Dl Instr => positFDlInstr;
APosit Fem Pl Nom => positFPlNom;
APosit Fem Pl Gen => positFPlGen;
APosit Fem Pl Dat => positFPlDat;
APosit Fem Pl Acc => positFPlAcc;
APosit Fem Pl Loc => positFPlLoc;
APosit Fem Pl Instr => positFPlInstr;
APosit Neut Sg Nom => positNSgNom;
APosit Neut Sg Gen => positNSgGen;
APosit Neut Sg Dat => positNSgDat;
APosit Neut Sg Acc => positNSgAcc;
APosit Neut Sg Loc => positNSgLoc;
APosit Neut Sg Instr => positNSgInstr;
APosit Neut Dl Nom => positNDlNom;
APosit Neut Dl Gen => positNDlGen;
APosit Neut Dl Dat => positNDlDat;
APosit Neut Dl Acc => positNDlAcc;
APosit Neut Dl Loc => positNDlLoc;
APosit Neut Dl Instr => positNDlInstr;
APosit Neut Pl Nom => positNPlNom;
APosit Neut Pl Gen => positNPlGen;
APosit Neut Pl Dat => positNPlDat;
APosit Neut Pl Acc => positNPlAcc;
APosit Neut Pl Loc => positNPlLoc;
APosit Neut Pl Instr => positNPlInstr;
ACompar Masc Sg Nom => comparMSgNom;
ACompar Masc Sg Gen => comparMSgGen;
ACompar Masc Sg Dat => comparMSgDat;
ACompar Masc Sg Acc => comparMSgAcc;
AComparDefAcc => comparMSgAccDef;
ACompar Masc Sg Loc => comparMSgLoc;
ACompar Masc Sg Instr => comparMSgInstr;
ACompar Masc Dl Nom => comparMDlNom;
ACompar Masc Dl Gen => comparMDlGen;
ACompar Masc Dl Dat => comparMDlDat;
ACompar Masc Dl Acc => comparMDlAcc;
ACompar Masc Dl Loc => comparMDlLoc;
ACompar Masc Dl Instr => comparMDlInstr;
ACompar Masc Pl Nom => comparMPlNom;
ACompar Masc Pl Gen => comparMPlGen;
ACompar Masc Pl Dat => comparMPlDat;
ACompar Masc Pl Acc => comparMPlAcc;
ACompar Masc Pl Loc => comparMPlLoc;
ACompar Masc Pl Instr => comparMPlInstr;
ACompar Fem Sg Nom => comparFSgNom;
ACompar Fem Sg Gen => comparFSgGen;
ACompar Fem Sg Dat => comparFSgDat;
ACompar Fem Sg Acc => comparFSgAcc;
ACompar Fem Sg Loc => comparFSgLoc;
ACompar Fem Sg Instr => comparFSgInstr;
ACompar Fem Dl Nom => comparFDlNom;
ACompar Fem Dl Gen => comparFDlGen;
ACompar Fem Dl Dat => comparFDlDat;
ACompar Fem Dl Acc => comparFDlAcc;
ACompar Fem Dl Loc => comparFDlLoc;
ACompar Fem Dl Instr => comparFDlInstr;
ACompar Fem Pl Nom => comparFPlNom;
ACompar Fem Pl Gen => comparFPlGen;
ACompar Fem Pl Dat => comparFPlDat;
ACompar Fem Pl Acc => comparFPlAcc;
ACompar Fem Pl Loc => comparFPlLoc;
ACompar Fem Pl Instr => comparFPlInstr;
ACompar Neut Sg Nom => comparNSgNom;
ACompar Neut Sg Gen => comparNSgGen;
ACompar Neut Sg Dat => comparNSgDat;
ACompar Neut Sg Acc => comparNSgAcc;
ACompar Neut Sg Loc => comparNSgLoc;
ACompar Neut Sg Instr => comparNSgInstr;
ACompar Neut Dl Nom => comparNDlNom;
ACompar Neut Dl Gen => comparNDlGen;
ACompar Neut Dl Dat => comparNDlDat;
ACompar Neut Dl Acc => comparNDlAcc;
ACompar Neut Dl Loc => comparNDlLoc;
ACompar Neut Dl Instr => comparNDlInstr;
ACompar Neut Pl Nom => comparNPlNom;
ACompar Neut Pl Gen => comparNPlGen;
ACompar Neut Pl Dat => comparNPlDat;
ACompar Neut Pl Acc => comparNPlAcc;
ACompar Neut Pl Loc => comparNPlLoc;
ACompar Neut Pl Instr => comparNPlInstr;
ASuperl Masc Sg Nom => superlMSgNom;
ASuperl Masc Sg Gen => superlMSgGen;
ASuperl Masc Sg Dat => superlMSgDat;
ASuperl Masc Sg Acc => superlMSgAcc;
ASuperl Masc Sg Loc => superlMSgLoc;
ASuperl Masc Sg Instr => superlMSgInstr;
ASuperl Masc Dl Nom => superlMDlNom;
ASuperl Masc Dl Gen => superlMDlGen;
ASuperl Masc Dl Dat => superlMDlDat;
ASuperl Masc Dl Acc => superlMDlAcc;
ASuperlDefAcc => superlMSgAccDef;
ASuperl Masc Dl Loc => superlMDlLoc;
ASuperl Masc Dl Instr => superlMDlInstr;
ASuperl Masc Pl Nom => superlMPlNom;
ASuperl Masc Pl Gen => superlMPlGen;
ASuperl Masc Pl Dat => superlMPlDat;
ASuperl Masc Pl Acc => superlMPlAcc;
ASuperl Masc Pl Loc => superlMPlLoc;
ASuperl Masc Pl Instr => superlMPlInstr;
ASuperl Fem Sg Nom => superlFSgNom;
ASuperl Fem Sg Gen => superlFSgGen;
ASuperl Fem Sg Dat => superlFSgDat;
ASuperl Fem Sg Acc => superlFSgAcc;
ASuperl Fem Sg Loc => superlFSgLoc;
ASuperl Fem Sg Instr => superlFSgInstr;
ASuperl Fem Dl Nom => superlFDlNom;
ASuperl Fem Dl Gen => superlFDlGen;
ASuperl Fem Dl Dat => superlFDlDat;
ASuperl Fem Dl Acc => superlFDlAcc;
ASuperl Fem Dl Loc => superlFDlLoc;
ASuperl Fem Dl Instr => superlFDlInstr;
ASuperl Fem Pl Nom => superlFPlNom;
ASuperl Fem Pl Gen => superlFPlGen;
ASuperl Fem Pl Dat => superlFPlDat;
ASuperl Fem Pl Acc => superlFPlAcc;
ASuperl Fem Pl Loc => superlFPlLoc;
ASuperl Fem Pl Instr => superlFPlInstr;
ASuperl Neut Sg Nom => superlNSgNom;
ASuperl Neut Sg Gen => superlNSgGen;
ASuperl Neut Sg Dat => superlNSgDat;
ASuperl Neut Sg Acc => superlNSgAcc;
ASuperl Neut Sg Loc => superlNSgLoc;
ASuperl Neut Sg Instr => superlNSgInstr;
ASuperl Neut Dl Nom => superlNDlNom;
ASuperl Neut Dl Gen => superlNDlGen;
ASuperl Neut Dl Dat => superlNDlDat;
ASuperl Neut Dl Acc => superlNDlAcc;
ASuperl Neut Dl Loc => superlNDlLoc;
ASuperl Neut Dl Instr => superlNDlInstr;
ASuperl Neut Pl Nom => superlNPlNom;
ASuperl Neut Pl Gen => superlNPlGen;
ASuperl Neut Pl Dat => superlNPlDat;
ASuperl Neut Pl Acc => superlNPlAcc;
ASuperl Neut Pl Loc => superlNPlLoc;
ASuperl Neut Pl Instr => superlNPlInstr
}
};
mkAdv : Str -> Adv = \s -> lin Adv {s=s} ;
mkAdV : Str -> AdV = \s -> lin AdV {s=s} ;
mkAdA : Str -> AdA = \s -> lin AdA {s=s} ;
mkPron : (_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_ : Str) -> Gender -> Number -> Person -> Pron =
\nom,acc,gen,dat,loc,instr,
mSgNom,mSgGen,mSgDat,mSgAcc,mSgLoc,mSgInstr,
mDlNom,mDlGen,mDlDat,mDlAcc,mDlLoc,mDlInstr,
mPlNom,mPlGen,mPlDat,mPlAcc,mPlLoc,mPlInstr,
fSgNom,fSgGen,fSgDat,fSgAcc,fSgLoc,fSgInstr,
fDlNom,fDlGen,fDlDat,fDlAcc,fDlLoc,fDlInstr,
fPlNom,fPlGen,fPlDat,fPlAcc,fPlLoc,fPlInstr,
nSgNom,nSgGen,nSgDat,nSgAcc,nSgLoc,nSgInstr,
nDlNom,nDlGen,nDlDat,nDlAcc,nDlLoc,nDlInstr,
nPlNom,nPlGen,nPlDat,nPlAcc,nPlLoc,nPlInstr,g,n,p -> lin Pron {
s = table { Nom => nom;
Acc => acc;
Gen => gen;
Dat => dat;
Loc => loc;
Instr=>instr
} ;
poss = table {
Masc => table {Nom => table Number [mSgNom; mDlNom; mPlNom];
Gen => table Number [mSgGen; mDlGen; mPlGen];
Dat => table Number [mSgDat; mDlDat; mPlDat];
Acc => table Number [mSgAcc; mDlAcc; mPlAcc];
Loc => table Number [mSgLoc; mDlLoc; mPlLoc];
Instr => table Number [mSgInstr; mDlInstr; mPlInstr]
};
Fem => table {Nom => table Number [fSgNom; fDlNom; fPlNom];
Gen => table Number [fSgGen; fDlGen; fPlGen];
Dat => table Number [fSgDat; fDlDat; fPlDat];
Acc => table Number [fSgAcc; fDlAcc; fPlAcc];
Loc => table Number [fSgLoc; fDlLoc; fPlLoc];
Instr => table Number [fSgInstr; fDlInstr; fPlInstr]
};
Neut => table {Nom => table Number [nSgNom; nDlNom; nPlNom];
Gen => table Number [nSgGen; nDlGen; nPlGen];
Dat => table Number [nSgDat; nDlDat; nPlDat];
Acc => table Number [nSgAcc; nDlAcc; nPlAcc];
Loc => table Number [nSgLoc; nDlLoc; nPlLoc];
Instr => table Number [nSgInstr; nDlInstr; nPlInstr]
}
} ;
a = {g=g; n=n; p=p}
} ;
mkQuant : (_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_ : Str) -> Species -> Quant =
\mSgNom,mSgGen,mSgDat,mSgAcc,mSgLoc,mSgInstr,
mDlNom,mDlGen,mDlDat,mDlAcc,mDlLoc,mDlInstr,
mPlNom,mPlGen,mPlDat,mPlAcc,mPlLoc,mPlInstr,
fSgNom,fSgGen,fSgDat,fSgAcc,fSgLoc,fSgInstr,
fDlNom,fDlGen,fDlDat,fDlAcc,fDlLoc,fDlInstr,
fPlNom,fPlGen,fPlDat,fPlAcc,fPlLoc,fPlInstr,
nSgNom,nSgGen,nSgDat,nSgAcc,nSgLoc,nSgInstr,
nDlNom,nDlGen,nDlDat,nDlAcc,nDlLoc,nDlInstr,
nPlNom,nPlGen,nPlDat,nPlAcc,nPlLoc,nPlInstr,spec -> lin Quant {
s = table {
Masc => table {Nom => table Number [mSgNom; mDlNom; mPlNom];
Gen => table Number [mSgGen; mDlGen; mPlGen];
Dat => table Number [mSgDat; mDlDat; mPlDat];
Acc => table Number [mSgAcc; mDlAcc; mPlAcc];
Loc => table Number [mSgLoc; mDlLoc; mPlLoc];
Instr => table Number [mSgInstr; mDlInstr; mPlInstr]
};
Fem => table {Nom => table Number [fSgNom; fDlNom; fPlNom];
Gen => table Number [fSgGen; fDlGen; fPlGen];
Dat => table Number [fSgDat; fDlDat; fPlDat];
Acc => table Number [fSgAcc; fDlAcc; fPlAcc];
Loc => table Number [fSgLoc; fDlLoc; fPlLoc];
Instr => table Number [fSgInstr; fDlInstr; fPlInstr]
};
Neut => table {Nom => table Number [nSgNom; nDlNom; nPlNom];
Gen => table Number [nSgGen; nDlGen; nPlGen];
Dat => table Number [nSgDat; nDlDat; nPlDat];
Acc => table Number [nSgAcc; nDlAcc; nPlAcc];
Loc => table Number [nSgLoc; nDlLoc; nPlLoc];
Instr => table Number [nSgInstr; nDlInstr; nPlInstr]
}
} ;
spec = spec
};
mkNP : (_,_,_,_,_,_ : Str) -> Gender -> Number -> NP =
\nom,acc,gen,dat,loc,instr,g,n ->
lin NP {s = table {
Nom => nom;
Acc => acc;
Gen => gen;
Dat => dat;
Loc => loc;
Instr=>instr
} ;
a = {g=Neut; n=n; p=P3}
} ;
mkInterj : Str -> Interj =
\s -> lin Interj {s=s} ;
mkConj : Str -> Number -> Conj =
\s,n -> lin Conj {s=s; n=n} ;
--Helper function that drops the loose vowel that has to go in many conjugations.
looseVowel : (_:Str) -> Str = \vowel ->
case vowel of {
_ + "sak" => vowel ;
_ + "er" => Predef.tk 2 vowel + "r" ;
_ + "an" => Predef.tk 2 vowel + "n" ;
--_ + "en" => Predef.tk 2 vowel + "n" ; --this is wrong, right?
_ + "el" => Predef.tk 2 vowel + "l" ;
_ + "ek" => Predef.tk 2 vowel + "k" ;
_ + "ak" => Predef.tk 2 vowel + "k" ;
_ + #vowel => init vowel ;
_ => vowel
} ;
vowel : pattern Str = #("a"|"e"|"i"|"o"|"u") ;
consonant : pattern Str = #("b"|"d"|"g"|"m"|"n"|"p"|"t") ;
}
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