--2 Implementations of Words, with English as example concrete WordsPol of Words = SentencesPol ** open SyntaxPol, ParadigmsPol, (L = LexiconPol), (P = ParadigmsPol), -- ExtraPol, Prelude in { lin -- Kinds; many of them are in the resource lexicon, others can be built by $mkN$. Apple = mkCN L.apple_N ; Beer = mkCN L.beer_N ; Bread = mkCN L.bread_N ; -- Cheese = mkCN (mkN "cheese") ; -- Chicken = mkCN (mkN "chicken") ; -- Coffee = mkCN (mkN "coffee") ; Fish = mkCN L.fish_N ; -- Meat = mkCN (mkN "meat") ; Milk = mkCN L.milk_N ; -- Pizza = mkCN (mkN "pizza") ; Salt = mkCN L.salt_N ; -- Tea = mkCN (mkN "tea") ; Water = mkCN L.water_N ; Wine = mkCN L.wine_N ; -- Properties; many of them are in the resource lexicon, others can be built by $mkA$. Bad = L.bad_A ; -- Boring = mkA "boring" ; -- Cheap = mkA "cheap" ; Cold = L.cold_A ; -- Delicious = mkA "delicious" ; -- Expensive = mkA "expensive" ; -- Fresh = mkA "fresh" ; Good = L.good_A ; -- Suspect = mkA "suspect" ; Warm = L.warm_A ; -- Places require different prepositions to express location; in some languages -- also the directional preposition varies, but in English we use $to$, as -- defined by $mkPlace$. -- Airport = mkPlace "airport" "at" ; -- Bar = mkPlace "bar" "in" ; -- Church = mkPlace "church" "in" ; -- Cinema = mkPlace "cinema" "at" ; -- Hospital = mkPlace "hospital" "in" ; -- Hotel = mkPlace "hotel" "in" ; -- Museum = mkPlace "museum" "in" ; -- Park = mkPlace "park" "in" ; -- Restaurant = mkPlace "restaurant" "in" ; -- School = mkPlace "school" "at" ; -- Shop = mkPlace "shop" "in" ; -- Station = mkPlace "station" "at" ; -- Theatre = mkPlace "theatre" "at" ; -- Toilet = mkPlace "toilet" "in" ; -- University = mkPlace "university" "at" ; -- Currencies; $crown$ is ambiguous between Danish and Swedish crowns. -- DanishCrown = mkCN (mkA "Danish") (mkN "crown") | mkCN (mkN "crown") ; -- Dollar = mkCN (mkN "dollar") ; -- Euro = mkCN (mkN "euro" "euros") ; -- to prevent euroes -- Lei = mkCN (mkN "leu" "lei") ; -- SwedishCrown = mkCN (mkA "Swedish") (mkN "crown") | mkCN (mkN "crown") ; -- Nationalities -- Belgian = mkA "Belgian" ; -- Belgium = mkNP (mkPN "Belgium") ; -- English = mkNat "English" "England" ; -- Finnish = mkNat "Finnish" "Finland" ; -- Flemish = mkNP (mkPN "Flemish") ; -- French = mkNat "French" "France" ; -- Italian = mkNat "Italian" "Italy" ; -- Romanian = mkNat "Romanian" "Romania" ; -- Swedish = mkNat "Swedish" "Sweden" ; -- Actions: the predication patterns are very often language-dependent. -- AHasAge p num = mkCl p.name (mkNP num L.year_N) ; AHasChildren p num = mkCl p.name have_V2 (mkNP num L.child_N) ; -- AHasRoom p num = mkCl p.name have_V2 -- (mkNP (mkNP a_Det (mkN "room")) (SyntaxPol.mkAdv for_Prep (mkNP num (mkN "person")))) ; -- AHasTable p num = mkCl p.name have_V2 -- (mkNP (mkNP a_Det (mkN "table")) (SyntaxPol.mkAdv for_Prep (mkNP num (mkN "person")))) ; -- AHasName p name = mkCl (nameOf p) name ; -- AHungry p = mkCl p.name (mkA "hungry") ; -- AIll p = mkCl p.name (mkA "ill") ; -- AKnow p = mkCl p.name IrregPol.know_V ; -- ALike p item = mkCl p.name (mkV2 (mkV "like")) item ; -- ALive p co = mkCl p.name (mkVP (mkVP (mkV "live")) (SyntaxPol.mkAdv in_Prep co)) ; -- ALove p q = mkCl p.name (mkV2 (mkV "love")) q.name ; -- AMarried p = mkCl p.name (mkA "married") ; -- AReady p = mkCl p.name (mkA "ready") ; -- AScared p = mkCl p.name (mkA "scared") ; -- ASpeak p lang = mkCl p.name (mkV2 IrregPol.speak_V) lang ; -- AThirsty p = mkCl p.name (mkA "thirsty") ; -- ATired p = mkCl p.name (mkA "tired") ; -- AUnderstand p = mkCl p.name IrregPol.understand_V ; -- AWant p obj = mkCl p.name (mkV2 (mkV "want")) obj ; -- AWantGo p place = mkCl p.name want_VV (mkVP (mkVP IrregPol.go_V) place.to) ; -- miscellaneous -- QWhatName p = mkQS (mkQCl whatSg_IP (mkVP (nameOf p))) ; -- QWhatAge p = mkQS (mkQCl (ICompAP (mkAP L.old_A)) p.name) ; -- HowMuchCost item = mkQS (mkQCl how8much_IAdv (mkCl item IrregPol.cost_V)) ; -- ItCost item price = mkCl item (mkV2 IrregPol.cost_V) price ; -- PropOpen p = mkCl p.name open_Adv ; -- PropClosed p = mkCl p.name closed_Adv ; -- PropOpenDate p d = mkCl p.name (mkVP (mkVP open_Adv) d) ; -- PropClosedDate p d = mkCl p.name (mkVP (mkVP closed_Adv) d) ; -- PropOpenDay p d = mkCl p.name (mkVP (mkVP open_Adv) d.habitual) ; -- PropClosedDay p d = mkCl p.name (mkVP (mkVP closed_Adv) d.habitual) ; -- Building phrases from strings is complicated: the solution is to use -- mkText : Text -> Text -> Text ; -- PSeeYou d = mkText (lin Text (ss ("see you"))) (mkPhrase (mkUtt d)) ; -- PSeeYouPlace p d = -- mkText (lin Text (ss ("see you"))) -- (mkText (mkPhrase (mkUtt p.at)) (mkPhrase (mkUtt d))) ; -- Relations are expressed as "my wife" or "my son's wife", as defined by $xOf$ -- below. Languages without productive genitives must use an equivalent of -- "the wife of my son" for non-pronouns. -- Wife = xOf sing (mkN "wife") ; -- Husband = xOf sing (mkN "husband") ; -- Son = xOf sing (mkN "son") ; -- Daughter = xOf sing (mkN "daughter") ; -- Children = xOf plur L.child_N ; -- week days -- Monday = mkDay "Monday" ; -- Tuesday = mkDay "Tuesday" ; -- Wednesday = mkDay "Wednesday" ; -- Thursday = mkDay "Thursday" ; -- Friday = mkDay "Friday" ; -- Saturday = mkDay "Saturday" ; -- Sunday = mkDay "Sunday" ; -- Tomorrow = P.mkAdv "tomorrow" ; -- auxiliaries -- oper -- mkNat : Str -> Str -> NPNationality = \nat,co -> -- mkNPNationality (mkNP (mkPN nat)) (mkNP (mkPN co)) (mkA nat) ; -- mkDay : Str -> {name : NP ; point : Adv ; habitual : Adv} = \d -> -- let day = mkNP (mkPN d) in -- mkNPDay day (SyntaxPol.mkAdv on_Prep day) -- (SyntaxPol.mkAdv on_Prep (mkNP a_Quant plNum (mkCN (mkN d)))) ; -- mkPlace : Str -> Str -> {name : CN ; at : Prep ; to : Prep} = \p,i -> -- mkCNPlace (mkCN (mkN p)) (P.mkPrep i) to_Prep ; -- open_Adv = P.mkAdv "open" ; -- closed_Adv = P.mkAdv "closed" ; -- xOf : GNumber -> N -> NPPerson -> NPPerson = \n,x,p -> -- relativePerson n (mkCN x) (\a,b,c -> mkNP (GenNP b) a c) p ; -- nameOf : NPPerson -> NP = \p -> (xOf sing (mkN "name") p).name ; --} }