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first experiments running Predication with the big lexicon and the other RGL modules

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aarne
2014-02-04 20:11:03 +00:00
parent 9e8be757d8
commit 56bda6bb09
3 changed files with 337 additions and 417 deletions
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lib/src/experimental/PredicationEng.gf
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@@ -6,45 +6,74 @@ concrete PredicationEng of Predication = open Prelude in {
-- - select from tables as soon as possible (first step from V to VP)
-- a question: would it make sense to make this into a functor?
---------------------
-- parameters -------
---------------------
-- standard general
param
Number = Sg | Pl ;
Person = P1 | P2 | P3 ;
Agr = Ag Number Person ;
VAgr = VASgP1 | VASgP3 | VAPl ;
Case = Nom | Acc ;
STense = Pres | Past | Fut | Cond ;
Anteriority = Simul | Anter ;
Polarity = Pos | Neg ;
VForm = VInf | VPres | VPast | VPastPart | VPresPart ;
STense = Pres | Past | Fut | Cond ;
Voice = Act | Pass ;
Unit = UUnit ;
-- predication specific
FocusType = NoFoc | FocSubj | FocObj ; -- sover hon/om hon sover, vem älskar hon/vem hon älskar, vem sover/vem som sover
Unit = UUnit ;
-- standard English
Gender = Neutr | Masc | Fem ;
Agr = AgP1 Number | AgP2 Number | AgP3Sg Gender | AgP3Pl ;
Case = Nom | Acc ;
NPCase = NCase Case | NPAcc | NPNomPoss ;
VForm = VInf | VPres | VPast | VPPart | VPresPart ;
-- language dependent
VAgr = VASgP1 | VASgP3 | VAPl ;
oper
subjCase : NPCase = NCase Nom ;
objCase : NPCase = NPAcc ;
agentCase : ComplCase = "by" ;
ComplCase = Str ; -- preposition
appComplCase : ComplCase -> NounPhrase -> Str = \p,np -> p ++ np.s ! objCase ;
noComplCase : ComplCase = [] ;
prepComplCase : Preposition -> ComplCase = \p -> p.s ;
noObj : Agr => Str = \\_ => [] ;
NAgr = Number ;
AAgr = Unit ;
IPAgr = Number ;
defaultAgr : Agr = Ag Sg P3 ;
ComplCase = Str ; -- preposition
defaultAgr : Agr = AgP3Sg Neutr ;
-- omitting rich Agr information
agr2vagr : Agr -> VAgr = \a -> case a of {
Ag Sg P1 => VASgP1 ;
Ag Sg P3 => VASgP3 ;
AgP1 Sg => VASgP1 ;
AgP3Sg _ => VASgP3 ;
_ => VAPl
} ;
agr2aagr : Agr -> AAgr = \n -> UUnit ;
agr2nagr : Agr -> NAgr = \a -> case a of {
Ag n _ => n
AgP1 n => n ;
AgP2 n => n ;
AgP3Sg _ => Sg ;
AgP3Pl => Pl
} ;
-- restoring full Agr
ipagr2agr : IPAgr -> Agr = \n -> Ag n P3 ;
ipagr2agr : IPAgr -> Agr = \n -> case n of {
Sg => AgP3Sg Neutr ; ---- gender
Pl => AgP3Pl
} ;
ipagr2vagr : IPAgr -> VAgr = \n -> case n of {
Sg => VASgP3 ;
@@ -53,35 +82,53 @@ oper
--- this is only needed in VPC formation
vagr2agr : VAgr -> Agr = \a -> case a of {
VASgP1 => Ag Sg P1 ;
VASgP3 => Ag Sg P3 ;
VAPl => Ag Pl P3
VASgP1 => AgP1 Sg ;
VASgP3 => AgP3Sg Neutr ;
VAPl => AgP3Pl
} ;
vPastPart : AAgr -> VForm = \_ -> VPPart ;
vPresPart : AAgr -> VForm = \_ -> VPresPart ;
------------------------------------
-- lincats
-------------------------------------
-- standard general
lincat
Tense = {s : Str ; t : STense} ;
Ant = {s : Str ; a : Anteriority} ;
Pol = {s : Str ; p : Polarity} ;
Utt = {s : Str} ;
IAdv = {s : Str} ;
-- predication-specific
Arg = {s : Str} ;
V = {
v : VForm => Str ;
v : VForm => Str ;
p : Str ; -- verb particle
c1 : ComplCase ;
c2 : ComplCase ;
isSubjectControl : Bool ;
isAux : Bool ;
isRefl : Bool ;
} ;
oper
VerbPhrase = {
v : VAgr => Str * Str * Str ; -- ska,ha,sovit
inf : Str * Str ; -- ha,sovit
v : VAgr => Str * Str * Str ; -- would,have,slept
inf : Str * Str ; -- have,slept
c1 : ComplCase ;
c2 : ComplCase ;
part : Str ; -- (look) up
adj : Agr => Str ;
obj1 : (Agr => Str) * Agr ;
obj2 : (Agr => Str) * Bool ; -- subject control = True
obj1 : (Agr => Str) * Agr ; -- agr for object control
obj2 : (Agr => Str) * Bool ; -- subject control = True
adv : Str ;
adV : Str ;
ext : Str ;
qforms : VAgr => Str * Str -- special Eng for introducing "do" in questions
qforms : VAgr => Str * Str -- special Eng for introducing "do" in questions
} ;
Clause = {
@@ -92,7 +139,7 @@ oper
adV : Str ;
ext : Str ;
subj : Str ;
c3 : ComplCase ; -- for a slashed adjunct, not belonging to the verb valency
c3 : ComplCase ; -- for a slashed adjunct, not belonging to the verb valency
qforms : Str * Str
} ;
@@ -101,8 +148,8 @@ lincat
Cl = Clause ;
QCl = Clause ** {
foc : Str ; -- the focal position at the beginning, e.g. *vem* älskar hon
focType : FocusType ; --- if already filled, then use other place: vem älskar *vem*
foc : Str ; -- the focal position at the beginning: *who* does she love
focType : FocusType ; --- if already filled, then use other place: who loves *who*
} ;
VPC = {
@@ -117,52 +164,63 @@ lincat
c3 : ComplCase ;
} ;
Tense = {s : Str ; t : STense} ;
Ant = {s : Str ; a : Anteriority} ;
Pol = {s : Str ; p : Polarity} ;
Adv = {s : Str ; isAdV : Bool} ;
S = {s : Str} ;
NP = {s : Case => Str ; a : Agr} ;
Adv = {s : Str ; isAdV : Bool} ;
S = {s : Str} ;
Utt = {s : Str} ;
AP = {
s : AAgr => Str ;
c1, c2 : ComplCase ;
obj1 : Agr => Str
} ;
CN = {
s : NAgr => Str ;
c1, c2 : ComplCase ;
obj1 : Agr => Str
} ;
IP = {s : Str ; a : IPAgr} ;
Prep = {s : Str} ;
Conj = {s : Str} ;
IAdv = {s : Str} ;
-- language specific
NP = NounPhrase ;
IP = {s : NPCase => Str ; n : IPAgr} ; ---- n : Number in Eng
Prep = Preposition ;
Conj = {s1,s2 : Str ; n : Number} ;
oper
NounPhrase = {s : NPCase => Str ; a : Agr} ;
Preposition = {s : Str} ;
----------------------------
--- linearization rules ----
----------------------------
-- standard general
lin
aNone, aS, aV, aA, aQ, aN = {s = []} ;
aNP a = a ;
TPres = {s = [] ; t = Pres} ;
TPast = {s = [] ; t = Past} ;
TFut = {s = [] ; t = Fut} ;
TCond = {s = [] ; t = Cond} ;
ASimul = {s = [] ; a = Simul} ;
AAnter = {s = [] ; a = Anter} ;
PPos = {s = [] ; p = Pos} ;
PNeg = {s = [] ; p = Neg} ;
-- predication specific
aNone, aS, aV, aA, aQ, aN = {s = []} ;
aNP a = a ;
UseV a t p _ v = {
v = \\agr => tenseV (a.s ++ t.s ++ p.s) t.t a.a p.p Act agr v ;
inf = tenseInfV a.s a.a p.p Act v ;
c1 = v.c1 ;
c2 = v.c2 ;
part = v.p ;
adj = noObj ;
obj1 = <noObj, defaultAgr> ; ---- not used, just default value
obj1 = <case v.isRefl of {True => \\a => reflPron ! a ; False => \\_ => []}, defaultAgr> ; ---- not used, just default value
obj2 = <noObj, v.isSubjectControl> ;
adV = negAdV p ;
adV = negAdV p ; --- just p.s in Eng
adv = [] ;
ext = [] ;
qforms = \\agr => qformsV (a.s ++ t.s ++ p.s) t.t a.a p.p agr v ;
@@ -173,6 +231,7 @@ lin
inf = tenseInfV a.s a.a p.p Pass v ;
c1 = v.c1 ;
c2 = v.c2 ;
part = v.p ;
adj = noObj ;
obj1 = <noObj, defaultAgr> ; ---- not used, just default value
obj2 = <noObj, True> ; -- becomes subject control even if object control otherwise "*she was promised by us to love ourselves"
@@ -187,11 +246,12 @@ lin
inf = tenseInfV a.s a.a p.p Pass v ;
c1 = v.c1 ;
c2 = v.c2 ;
part = v.p ;
adj = \\a => [] ;
obj1 = <noObj, defaultAgr> ;
obj2 = <noObj, True> ;
adV = negAdV p ;
adv = appComplCase agentCase np ; ---- add a specific field for agent?
adv = appComplCase agentCase np ;
ext = [] ;
qforms = \\agr => qformsBe (a.s ++ t.s ++ p.s) t.t a.a p.p agr ;
} ;
@@ -201,6 +261,7 @@ lin
inf = tenseInfV a.s a.a p.p Act be_V ;
c1 = ap.c1 ;
c2 = ap.c2 ;
part = [] ;
adj = \\a => ap.s ! agr2aagr a ;
obj1 = <ap.obj1, defaultAgr> ;
obj2 = <noObj, True> ; --- there are no A3's
@@ -211,10 +272,10 @@ lin
} ;
SlashV2 x vp np = vp ** {
obj1 : (Agr => Str) * Agr = <\\a => np.s ! Acc, np.a> -- np.a for object control ---- Acc to be abstracted
obj1 : (Agr => Str) * Agr = <\\a => np.s ! objCase, np.a> -- np.a for object control
} ;
SlashV3 x vp np = addObj2VP vp (\\a => np.s ! Acc) ; -- control is preserved ---- Acc to be abstracted
SlashV3 x vp np = addObj2VP vp (\\a => np.s ! objCase) ; -- control is preserved
ComplVS x vp cl = addExtVP vp (that_Compl ++ declSubordCl (lin Cl cl)) ; ---- sentence form
@@ -237,18 +298,18 @@ lin
SlashV2N x vp cn = addObj2VP vp (\\a => cn.s ! agr2nagr a ++ cn.obj1 ! a) ; ---- cn form
ReflVP x vp = vp ** {
obj1 : (Agr => Str) * Agr = <\\a => reflPron a, defaultAgr> ; --- hack: defaultAgr will not be used but subj.a instead
obj1 : (Agr => Str) * Agr = <\\a => reflPron ! a, defaultAgr> ; --- defaultAgr will not be used but subj.a instead
} ;
ReflVP2 x vp = vp ** {
obj2 : (Agr => Str) * Bool = <\\a => reflPron a, vp.obj2.p2> ; --- subj/obj control doesn't matter any more
obj2 : (Agr => Str) * Bool = <\\a => reflPron ! a, vp.obj2.p2> ; --- subj/obj control doesn't matter any more
} ;
PredVP x np vp = vp ** {
v = vp.v ! agr2vagr np.a ;
subj = np.s ! Nom ;
subj = np.s ! subjCase ;
adj = vp.adj ! np.a ;
obj1 = vp.c1 ++ vp.obj1.p1 ! np.a ; ---- apply complCase
obj1 = vp.part ++ vp.c1 ++ vp.obj1.p1 ! np.a ; ---- apply complCase ---- place of part depends on obj
obj2 = vp.c2 ++ vp.obj2.p1 ! (case vp.obj2.p2 of {True => np.a ; False => vp.obj1.p2}) ; ---- apply complCase
c3 = noComplCase ; -- for one more prep to build ClSlash
qforms = vp.qforms ! agr2vagr np.a ;
@@ -265,26 +326,26 @@ lin
-- QCl ::= Cl by just adding focus field
QuestCl x cl = cl ** {foc = [] ; focType = NoFoc} ; -- NoFoc implies verb first: älskar hon oss
QuestCl x cl = cl ** {foc = [] ; focType = NoFoc} ; -- NoFoc implies verb first: does she love us
QuestIAdv x iadv cl = cl ** {foc = iadv.s ; focType = FocObj} ; -- FocObj implies Foc + V + Subj: varför älskar hon oss
QuestIAdv x iadv cl = cl ** {foc = iadv.s ; focType = FocObj} ; -- FocObj implies Foc + V + Subj: why does she love us
QuestVP x ip vp = let ipa = ipagr2agr ip.a in
QuestVP x ip vp = let ipa = ipagr2agr ip.n in
vp ** {
v = vp.v ! ipagr2vagr ip.a ;
foc = ip.s ; -- vem älskar henne
v = vp.v ! ipagr2vagr ip.n ;
foc = ip.s ! subjCase ; -- who (loves her)
focType = FocSubj ;
subj = [] ;
adj = vp.adj ! ipa ;
obj1 = vp.c1 ++ vp.obj1.p1 ! ipa ; ---- appComplCase
obj1 = vp.part ++ vp.c1 ++ vp.obj1.p1 ! ipa ; ---- appComplCase
obj2 = vp.c2 ++ vp.obj2.p1 ! (case vp.obj2.p2 of {True => ipa ; False => vp.obj1.p2}) ; ---- appComplCase
c3 = noComplCase ; -- for one more prep to build ClSlash ---- ever needed for QCl?
qforms = vp.qforms ! ipagr2vagr ip.a ;
qforms = vp.qforms ! ipagr2vagr ip.n ;
} ;
QuestSlash x ip cl =
let
ips = cl.c3 ++ ip.s ; -- in Cl/NP, c3 is the only prep ---- appComplCase for ip
ips = cl.c3 ++ ip.s ! objCase ; -- in Cl/NP, c3 is the only prep ---- appComplCase for ip
focobj = case cl.focType of {
NoFoc => <ips, [], FocObj> ; -- put ip object to focus if there is no focus yet
t => <[], ips, t> -- put ip object in situ if there already is a focus
@@ -311,7 +372,7 @@ lin
PresPartAP x v = {
s = \\a => v.v ! vPresPart a ;
c1 = v.c1 ; -- tittande på henne
c1 = v.c1 ; -- looking at her
c2 = v.c2 ;
obj1 = noObj ;
} ;
@@ -339,11 +400,11 @@ lin
in
vv.p1 ++ v.adV ++ vv.p2 ++ vv.p3 ++ v.adj ! vpa ++
v.c1 ++ v.obj1.p1 ! vpa ++ v.c2 ++ v.obj2.p1 ! vpa ++ v.adv ++ v.ext ---- appComplCase
++ c.s ++
++ c.s2 ++
wv.p1 ++ w.adV ++ wv.p2 ++ wv.p3 ++ w.adj ! vpa ++ ---- appComplCase
w.c1 ++ w.obj1.p1 ! vpa ++ w.c2 ++ w.obj2.p1 ! vpa ++ w.adv ++ w.ext ;
inf = \\a =>
infVP a (lin VP v) ++ c.s ++ infVP a (lin VP w) ;
infVP a (lin VP v) ++ c.s2 ++ infVP a (lin VP w) ;
c1 = [] ; ---- w.c1 ? --- the full story is to unify v and w...
c2 = [] ; ---- w.c2 ?
} ;
@@ -353,6 +414,7 @@ lin
inf = <[], vpc.inf ! defaultAgr> ; ---- agreement
c1 = vpc.c1 ;
c2 = vpc.c2 ;
part = [] ;
adj = \\a => [] ;
obj1 = <noObj, defaultAgr> ;
obj2 = <noObj,True> ;
@@ -362,7 +424,7 @@ lin
} ;
StartClC c x a b = {
s = declCl (lin Cl a) ++ c.s ++ declCl (lin Cl b) ;
s = declCl (lin Cl a) ++ c.s2 ++ declCl (lin Cl b) ;
c3 = b.c3 ; ----
} ;
@@ -386,27 +448,27 @@ lin
---- the following may become parameters for a functor
oper
vPastPart : AAgr -> VForm = \_ -> VPastPart ;
vPresPart : AAgr -> VForm = \_ -> VPresPart ;
be_V : V = lin V {v = mkVerb "be" "is" "was" "been" "being" ; c1,c2 = [] ; isAux = True ; isSubjectControl = False} ;
be_V : V = lin V {v = mkVerb "be" "is" "was" "been" "being" ; p,c1,c2 = [] ; isAux = True ; isSubjectControl,isRefl = False} ;
negAdV : Pol -> Str = \p -> p.s ;
reflPron : Agr -> Str = \a -> case a of {
Ag Sg P1 => "myself" ;
Ag Sg P2 => "yourself" ;
Ag Sg P3 => "herself" | "himself" | "itself" ; ----
Ag Pl P1 => "ourselves" ;
Ag Pl P2 => "ourselves" ;
Ag Pl P3 => "yourselves"
reflPron : Agr => Str = table {
AgP1 Sg => "myself" ;
AgP2 Sg => "yourself" ;
AgP3Sg Masc => "himself" ;
AgP3Sg Fem => "herself" ;
AgP3Sg Neutr => "itself" ;
AgP1 Pl => "ourselves" ;
AgP2 Pl => "yourselves" ;
AgP3Pl => "themselves"
} ;
infVP : Agr -> VP -> Str = \a,vp ->
let
a2 = case vp.obj2.p2 of {True => a ; False => vp.obj1.p2}
in
vp.adV ++ vp.inf.p1 ++ vp.inf.p2 ++
vp.adV ++ vp.inf.p1 ++ vp.inf.p2 ++ vp.part ++
vp.adj ! a ++ vp.c1 ++ vp.obj1.p1 ! a ++ vp.c2 ++ vp.obj2.p1 ! a2 ++ vp.adv ++ vp.ext ;
qformsV : Str -> STense -> Anteriority -> Polarity -> VAgr -> V -> Str * Str =
@@ -432,13 +494,13 @@ oper
case o of {
Act => tenseActV sta t a p agr v ;
Pass => tensePassV sta t a p agr v
}
| ---- leaving out variants makes compilation time go down from 900ms to 300ms.
} {-
| ---- leaving out these variants makes compilation time go down from 900ms to 300ms.
---- parsing time of "she sleeps" goes down from 300ms to 60ms. 4/2/2014
case o of {
Act => tenseActVContracted sta t a p agr v ;
Pass => tensePassVContracted sta t a p agr v
} ;
-} ;
tenseActV : Str -> STense -> Anteriority -> Polarity -> VAgr -> V -> Str * Str * Str = \sta,t,a,p,agr,v ->
let vt : VForm = case <t,agr> of {
@@ -457,9 +519,9 @@ oper
}
} ;
<Pres|Past, Anter> => <have_Aux vt Pos, not_Str p, sta ++ v.v ! VPastPart> ;
<Pres|Past, Anter> => <have_Aux vt Pos, not_Str p, sta ++ v.v ! VPPart> ;
<Fut|Cond, Simul> => <will_Aux vt Pos, not_Str p, sta ++ v.v ! VInf> ;
<Fut|Cond, Anter> => <will_Aux vt Pos, not_Str p ++ have_Aux VInf Pos, sta ++ v.v ! VPastPart>
<Fut|Cond, Anter> => <will_Aux vt Pos, not_Str p ++ have_Aux VInf Pos, sta ++ v.v ! VPPart>
} ;
tenseActVContracted : Str -> STense -> Anteriority -> Polarity -> VAgr -> V -> Str * Str * Str = \sta,t,a,p,agr,v ->
@@ -479,31 +541,31 @@ oper
Neg => <do_Aux vt p, [], sta ++ v.v ! VInf>
}
} ;
<Pres|Past, Anter> => <have_AuxC vt p, [], sta ++ v.v ! VPastPart>
| <have_AuxC vt Pos, not_Str p, sta ++ v.v ! VPastPart> ;
<Pres|Past, Anter> => <have_AuxC vt p, [], sta ++ v.v ! VPPart>
| <have_AuxC vt Pos, not_Str p, sta ++ v.v ! VPPart> ;
<Fut|Cond, Simul> => <will_AuxC vt p, [], sta ++ v.v ! VInf>
| <will_AuxC vt Pos, not_Str p, sta ++ v.v ! VInf> ;
<Fut|Cond, Anter> => <will_AuxC vt p, have_Aux VInf Pos, sta ++ v.v ! VPastPart>
| <will_AuxC vt Pos, not_Str p ++ have_Aux VInf Pos, sta ++ v.v ! VPastPart>
<Fut|Cond, Anter> => <will_AuxC vt p, have_Aux VInf Pos, sta ++ v.v ! VPPart>
| <will_AuxC vt Pos, not_Str p ++ have_Aux VInf Pos, sta ++ v.v ! VPPart>
} ;
tensePassV : Str -> STense -> Anteriority -> Polarity -> VAgr -> V -> Str * Str * Str = \sta,t,a,p,agr,v ->
let
be = be_AuxL sta t a p agr ;
done = v.v ! VPastPart
done = v.v ! VPPart
in
<be.p1, be.p2, be.p3 ++ done> ;
tensePassVContracted : Str -> STense -> Anteriority -> Polarity -> VAgr -> V -> Str * Str * Str = \sta,t,a,p,agr,v ->
let
be = be_AuxC sta t a p agr ;
done = v.v ! VPastPart
done = v.v ! VPPart
in
<be.p1, be.p2, be.p3 ++ done> ;
tenseInfV : Str -> Anteriority -> Polarity -> Voice -> V -> Str * Str = \sa,a,p,o,v ->
case a of {
Simul => <[], sa ++ v.v ! VInf> ; -- hon vill sova
Anter => <have_Aux VInf Pos, sa ++ v.v ! VPastPart> -- hon vill (ha) sovit
Simul => <[], sa ++ v.v ! VInf> ; -- (she wants to) sleep
Anter => <have_Aux VInf Pos, sa ++ v.v ! VPPart> -- (she wants to) have slept
} ;
----- dangerous variants for PMCFG generation - keep apart as long as possible
@@ -556,7 +618,7 @@ oper
questSubordCl : QCl -> Str = \cl ->
let
rest = cl.subj ++ cl.adV ++ cl.v.p1 ++ (cl.v.p2 | []) ++ restCl cl
rest = cl.subj ++ cl.adV ++ cl.v.p1 ++ cl.v.p2 ++ restCl cl
in case cl.focType of {
NoFoc => "if" ++ cl.foc ++ rest ; -- om she sleeps
FocObj => cl.foc ++ rest ; -- who she loves / why she sleeps
@@ -568,15 +630,6 @@ oper
-- this part is usually the same in all reconfigurations
restCl : Clause -> Str = \cl -> cl.v.p3 ++ cl.adj ++ cl.obj1 ++ cl.obj2 ++ cl.adv ++ cl.ext ++ cl.c3 ;
agentCase : ComplCase = "by" ;
appComplCase : ComplCase -> NP -> Str = \p,np -> p ++ np.s ! Acc ;
noComplCase : ComplCase = [] ;
prepComplCase : Prep -> ComplCase = \p -> p.s ;
noObj : Agr => Str = \\_ => [] ;
addObj2VP : VerbPhrase -> (Agr => Str) -> VerbPhrase = \vp,obj -> vp ** {
obj2 = <\\a => vp.obj2.p1 ! a ++ obj ! a, vp.obj2.p2> ;
@@ -617,34 +670,34 @@ lin
professor_N = {s = table {Sg => "professor" ; Pl => "professors"} ; c1 = [] ; c2 = [] ; obj1 = \\_ => []} ;
manager_N2 = {s = table {Sg => "manager" ; Pl => "managers"} ; c1 = "for" ; c2 = [] ; obj1 = \\_ => []} ;
she_NP = {s = table {Nom => "she" ; Acc => "her"} ; a = Ag Sg P3} ;
we_NP = {s = table {Nom => "we" ; Acc => "us"} ; a = Ag Pl P1} ;
she_NP = {s = table {NCase Nom => "she" ; _ => "her"} ; a = AgP3Sg Fem} ;
we_NP = {s = table {NCase Nom => "we" ; _ => "us"} ; a = AgP1 Pl} ;
today_Adv = {s = "today" ; isAdV = False} ;
always_AdV = {s = "always" ; isAdV = True} ;
who_IP = {s = "who" ; a = Sg} ;
who_IP = {s = \\_ => "who" ; n = Sg} ;
PrepNP p np = {s = p.s ++ np.s ! Acc ; isAdV = False} ;
PrepNP p np = {s = p.s ++ np.s ! objCase ; isAdV = False} ;
with_Prep = {s = "with"} ;
and_Conj = {s = "and"} ;
and_Conj = {s1 = [] ; s2 = "and" ; n = Pl} ;
why_IAdv = {s = "why"} ;
oper
mkV = overload {
mkV : Str -> V = \s -> lin V {v = mkVerb s (s + "s") (edV s) (edV s) (ingV s) ; c1 = [] ; c2 = [] ; isAux,isSubjectControl = False} ;
mkV : Str -> Str -> Str -> V = \s,p,q -> lin V {v = mkVerb s (s + "s") (edV s) (edV s) (ingV s) ; c1 = p ; c2 = q ; isAux,isSubjectControl = False} ;
mkV : Str -> Str -> Str -> Str -> Str -> V = \s,t,u,p,q -> lin V {v = mkVerb s (s + "s") t u (ingV s) ; c1 = p ; c2 = q ; isAux,isSubjectControl = False} ;
mkV : Str -> V = \s -> lin V {v = mkVerb s (s + "s") (edV s) (edV s) (ingV s) ; p,c1,c2 = [] ; isAux,isSubjectControl,isRefl = False} ;
mkV : Str -> Str -> Str -> V = \s,p,q -> lin V {v = mkVerb s (s + "s") (edV s) (edV s) (ingV s) ; p = [] ; c1 = p ; c2 = q ; isAux,isSubjectControl,isRefl = False} ;
mkV : Str -> Str -> Str -> Str -> Str -> V = \s,t,u,p,q -> lin V {v = mkVerb s (s + "s") t u (ingV s) ; p = [] ; c1 = p ; c2 = q ; isAux,isSubjectControl,isRefl = False} ;
} ;
mkVerb : Str -> Str -> Str -> Str -> Str -> VForm => Str = \go,goes,went,gone,going -> table {
VInf => go ;
VPres => goes ;
VPast => went ;
VPastPart => gone ;
VPPart => gone ;
VPresPart => going
} ;