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aarne
2005-12-06 22:19:43 +00:00
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lib/resource-1.0/scandinavian/ResScand.gf Normal file
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----1 Scandinavian auxiliary operations.
--
---- This module contains operations that are needed to make the
---- resource syntax work. To define everything that is needed to
---- implement $Test$, it moreover contains regular lexical
---- patterns needed for $Lex$.
--
resource ResScand = ParamScand ** open Prelude in {
flags optimize=all ;
oper
-- For $Lex$.
-- For each lexical category, here are the worst-case constructors.
--
-- But $mkNoun$ is fully defined only for each language, since
-- $Gender$ varies.
nounForms : (_,_,_,_ : Str) -> (Number => Species => Case => Str) =
\man,mannen,men,mennen -> \\n,d,c => case <n,d> of {
<Sg,Indef> => mkCase c man ;
<Sg,Def> => mkCase c mannen ;
<Pl,Indef> => mkCase c men ;
<Pl,Def> => mkCase c mennen
} ;
mkAdjective : (s1,_,_,_,_,_,s7 : Str) -> {s : AForm => Str} =
\liten, litet, lilla, sma, mindre, minst, minsta -> {
s = table {
AF (APosit a) c => mkCase c (mkAdjPos a liten litet lilla sma) ;
AF ACompar c => mkCase c mindre ;
AF (ASuperl SupStrong) c => mkCase c minst ;
AF (ASuperl SupWeak) c => mkCase c minsta
}
} ;
mkVerb : (x1,_,_,_,_,_,_,x8 : Str) -> {s : VForm => Str} =
\finna,finner,finn,fann,funnit,funnen,funnet,funna -> {
s = table {
VF (VPres Act) => finner ;
VF (VPres Pass) => mkVoice Pass finn ;
VF (VPret v) => mkVoice v fann ;
VF (VImper v) => mkVoice v finn ;
VI (VInfin v) => mkVoice v finna ;
VI (VSupin v) => mkVoice v funnit ;
VI (VPtPret a c) => mkCase c (mkAdjPos a funnen funnet funna funna)
}
} ;
-- These are useful auxiliaries.
mkCase : Case -> Str -> Str = \c,f -> case c of {
Nom => f ;
Gen => f + case last f of {
"s" | "x" => [] ;
_ => "s"
}
} ;
mkAdjPos : AFormPos -> (s1,_,_,s4 : Str) -> Str =
\a, liten, litet, lilla, sma ->
case a of {
Strong gn => case gn of {
SgUtr => liten ;
SgNeutr => litet ;
Plg => sma
} ;
Weak Sg => lilla ;
Weak Pl => sma
} ;
mkVoice : Voice -> Str -> Str = \v,s -> case v of {
Act => s ;
Pass => s + case last s of {
"s" => "es" ;
_ => "s"
}
} ;
-- mkAdjective : (_,_,_,_ : Str) -> {s : AForm => Str} =
-- \good,better,best,well -> {
-- s = table {
-- AAdj Posit => good ;
-- AAdj Compar => better ;
-- AAdj Superl => best ;
-- AAdv => well
-- }
-- } ;
--
-- mkVerb : (_,_,_,_,_ : Str) -> {s : VForm => Str} =
-- \go,goes,went,gone,going -> {
-- s = table {
-- VInf => go ;
-- VPres => goes ;
-- VPast => went ;
-- VPPart => gone ;
-- VPresPart => going
-- }
-- } ;
--
-- mkIP : (i,me,my : Str) -> Number -> {s : Case => Str ; n : Number} =
-- \i,me,my,n -> let who = mkNP i me my n P3 in {s = who.s ; n = n} ;
--
-- mkNP : (i,me,my : Str) -> Number -> Person -> {s : Case => Str ; a : Agr} =
-- \i,me,my,n,p -> {
-- s = table {
-- Nom => i ;
-- Acc => me ;
-- Gen => my
-- } ;
-- a = {
-- n = n ;
-- p = p
-- }
-- } ;
--
---- These functions cover many cases; full coverage inflectional patterns are
---- in $MorphoScand$.
--
-- regN : Str -> {s : Number => Case => Str} = \car ->
-- mkNoun car (car + "'s") (car + "s") (car + "s'") ;
--
-- regA : Str -> {s : AForm => Str} = \warm ->
-- mkAdjective warm (warm + "er") (warm + "est") (warm + "ly") ;
--
-- regV : Str -> {s : VForm => Str} = \walk ->
-- mkVerb walk (walk + "s") (walk + "ed") (walk + "ed") (walk + "ing") ;
--
-- regNP : Str -> Number -> {s : Case => Str ; a : Agr} = \that,n ->
-- mkNP that that (that + "'s") n P3 ;
--
---- We have just a heuristic definition of the indefinite article.
---- There are lots of exceptions: consonantic "e" ("euphemism"), consonantic
---- "o" ("one-sided"), vocalic "u" ("umbrella").
--
-- artIndef = pre {
-- "a" ;
-- "an" / strs {"a" ; "e" ; "i" ; "o" ; "A" ; "E" ; "I" ; "O" }
-- } ;
--
-- artDef = "the" ;
--
---- For $Verb$.
--
-- Verb : Type = {
-- s : VForm => Str
-- } ;
--
-- VerbForms : Type =
-- Tense => Anteriority => Polarity => Ord => Agr => {fin, inf : Str} ;
--
-- VP : Type = {
-- s : VerbForms ;
-- s2 : Agr => Str
-- } ;
--
-- predV : Verb -> VP = \verb -> {
-- s = \\t,ant,b,ord,agr =>
-- let
-- inf = verb.s ! VInf ;
-- fin = presVerb verb agr ;
-- past = verb.s ! VPast ;
-- part = verb.s ! VPPart ;
-- vf : Str -> Str -> {fin, inf : Str} = \x,y ->
-- {fin = x ; inf = y} ;
-- in
-- case <t,ant,b,ord> of {
-- <Pres,Simul,Pos,ODir> => vf fin [] ;
-- <Pres,Simul,Pos,OQuest> => vf (does agr) inf ;
-- <Pres,Simul,Neg,_> => vf (doesnt agr) inf ;
-- <Pres,Anter,Pos,_> => vf (have agr) part ;
-- <Pres,Anter,Neg,_> => vf (havent agr) part ;
-- <Past,Simul,Pos,ODir> => vf past [] ;
-- <Past,Simul,Pos,OQuest> => vf "did" inf ;
-- <Past,Simul,Neg,_> => vf "didn't" inf ;
-- <Past,Anter,Pos,_> => vf "had" part ;
-- <Past,Anter,Neg,_> => vf "hadn't" part ;
-- <Fut, Simul,Pos,_> => vf "will" inf ;
-- <Fut, Simul,Neg,_> => vf "won't" inf ;
-- <Fut, Anter,Pos,_> => vf "will" ("have" ++ part) ;
-- <Fut, Anter,Neg,_> => vf "won't" ("have" ++ part) ;
-- <Cond,Simul,Pos,_> => vf "would" inf ;
-- <Cond,Simul,Neg,_> => vf "wouldn't" inf ;
-- <Cond,Anter,Pos,_> => vf "would" ("have" ++ part) ;
-- <Cond,Anter,Neg,_> => vf "wouldn't" ("have" ++ part)
-- } ;
-- s2 = \\_ => []
-- } ;
--
-- predAux : Aux -> VP = \verb -> {
-- s = \\t,ant,b,ord,agr =>
-- let
-- inf = verb.inf ;
-- fin = verb.pres ! b ! agr ;
-- past = verb.past ! b ! agr ;
-- part = verb.ppart ;
-- vf : Str -> Str -> {fin, inf : Str} = \x,y ->
-- {fin = x ; inf = y} ;
-- in
-- case <t,ant,b,ord> of {
-- <Pres,Simul,_, _> => vf fin [] ;
-- <Pres,Anter,Pos,_> => vf (have agr) part ;
-- <Pres,Anter,Neg,_> => vf (havent agr) part ;
-- <Past,Simul,_, _> => vf past [] ;
-- <Past,Anter,Pos,_> => vf "had" part ;
-- <Past,Anter,Neg,_> => vf "hadn't" part ;
-- <Fut, Simul,Pos,_> => vf "will" inf ;
-- <Fut, Simul,Neg,_> => vf "won't" inf ;
-- <Fut, Anter,Pos,_> => vf "will" ("have" ++ part) ;
-- <Fut, Anter,Neg,_> => vf "won't" ("have" ++ part) ;
-- <Cond,Simul,Pos,_> => vf "would" inf ;
-- <Cond,Simul,Neg,_> => vf "wouldn't" inf ;
-- <Cond,Anter,Pos,_> => vf "would" ("have" ++ part) ;
-- <Cond,Anter,Neg,_> => vf "wouldn't" ("have" ++ part)
-- } ;
-- s2 = \\_ => []
-- } ;
--
-- insertObj : (Agr => Str) -> VP -> VP = \obj,vp -> {
-- s = vp.s ;
-- s2 = \\a => vp.s2 ! a ++ obj ! a
-- } ;
--
----- This is not functional.
--
-- insertAdV : Str -> VP -> VP = \adv,vp -> {
-- s = vp.s ;
-- s2 = vp.s2
-- } ;
--
-- presVerb : {s : VForm => Str} -> Agr -> Str = \verb ->
-- agrVerb (verb.s ! VPres) (verb.s ! VInf) ;
--
-- infVP : VP -> Agr -> Str = \vp,a ->
-- (vp.s ! Fut ! Simul ! Neg ! ODir ! a).inf ++ vp.s2 ! a ;
--
-- agrVerb : Str -> Str -> Agr -> Str = \has,have,agr ->
-- case agr of {
-- {n = Sg ; p = P3} => has ;
-- _ => have
-- } ;
--
-- have = agrVerb "has" "have" ;
-- havent = agrVerb "hasn't" "haven't" ;
-- does = agrVerb "does" "do" ;
-- doesnt = agrVerb "doesn't" "don't" ;
--
-- Aux = {pres,past : Polarity => Agr => Str ; inf,ppart : Str} ;
--
-- auxBe : Aux = {
-- pres = \\b,a => case <b,a> of {
-- <Pos,{n = Sg ; p = P1}> => "am" ;
-- <Neg,{n = Sg ; p = P1}> => ["am not"] ; --- am not I
-- _ => agrVerb (posneg b "is") (posneg b "are") a
-- } ;
-- past = \\b,a => agrVerb (posneg b "was") (posneg b "were") a ;
-- inf = "be" ;
-- ppart = "been"
-- } ;
--
-- posneg : Polarity -> Str -> Str = \p,s -> case p of {
-- Pos => s ;
-- Neg => s + "n't"
-- } ;
--
-- conjThat : Str = "that" ;
--
-- reflPron : Agr => Str = table {
-- {n = Sg ; p = P1} => "myself" ;
-- {n = Sg ; p = P2} => "yourself" ;
-- {n = Sg ; p = P3} => "itself" ; ----
-- {n = Pl ; p = P1} => "ourselves" ;
-- {n = Pl ; p = P2} => "yourselves" ;
-- {n = Pl ; p = P3} => "themselves"
-- } ;
--
---- For $Sentence$.
--
-- Clause : Type = {
-- s : Tense => Anteriority => Polarity => Ord => Str
-- } ;
--
-- mkS : Str -> Agr -> VerbForms -> (Agr => Str) -> Clause =
-- \subj,agr,verb,compl0 -> {
-- s = \\t,a,b,o =>
-- let
-- verb = verb ! t ! a ! b ! o ! agr ;
-- compl = compl0 ! agr
-- in
-- case o of {
-- ODir => subj ++ verb.fin ++ verb.inf ++ compl ;
-- OQuest => verb.fin ++ subj ++ verb.inf ++ compl
-- }
-- } ;
--
--
---- For $Numeral$.
--
-- mkNum : Str -> Str -> Str -> Str -> {s : DForm => CardOrd => Str} =
-- \two, twelve, twenty, second ->
-- {s = table {
-- unit => table {NCard => two ; NOrd => second} ;
-- teen => \\c => mkCard c twelve ;
-- ten => \\c => mkCard c twenty
-- }
-- } ;
--
-- regNum : Str -> {s : DForm => CardOrd => Str} =
-- \six -> mkNum six (six + "teen") (six + "ty") (regOrd six) ;
--
-- regCardOrd : Str -> {s : CardOrd => Str} = \ten ->
-- {s = table {NCard => ten ; NOrd => regOrd ten}} ;
--
-- mkCard : CardOrd -> Str -> Str = \c,ten ->
-- (regCardOrd ten).s ! c ;
--
-- regOrd : Str -> Str = \ten ->
-- case last ten of {
-- "y" => init ten + "ieth" ;
-- _ => ten + "th"
-- } ;
--
}