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richer extraction syntax

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aarne
2008-04-18 14:11:36 +00:00
parent 1858db942c
commit a41f4407d2
47 changed files with 4251 additions and 4 deletions
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7
lib/resource/english/VerbEng.gf
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@@ -4,15 +4,16 @@ concrete VerbEng of Verb = CatEng ** open ResEng in {
lin
UseV = predV ;
ComplV2 v np = insertObj (\\_ => v.c2 ++ np.s ! Acc) (predV v) ;
ComplV3 v np np2 =
insertObj (\\_ => v.c2 ++ np.s ! Acc ++ v.c3 ++ np2.s ! Acc) (predV v) ;
ComplVV v vp = insertObj (\\a => infVP v.isAux vp a) (predVV v) ;
ComplVS v s = insertObj (\\_ => conjThat ++ s.s) (predV v) ;
ComplVQ v q = insertObj (\\_ => q.s ! QIndir) (predV v) ;
ComplVA v ap = insertObj (ap.s) (predV v) ;
ComplV2 v np = insertObj (\\_ => v.c2 ++ np.s ! Acc) (predV v) ;
ComplV3 v np np2 =
insertObj (\\_ => v.c2 ++ np.s ! Acc ++ v.c3 ++ np2.s ! Acc) (predV v) ;
ComplV2V v np vp =
insertObj (\\a => infVP v.isAux vp a)
(insertObj (\\_ => v.c2 ++ np.s ! Acc) (predV v)) ;

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lib/resource/exper/abstract/Adjective.gf Normal file
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--1 Adjective: Adjectives and Adjectival Phrases
abstract Adjective = Cat ** {
fun
-- The principal ways of forming an adjectival phrase are
-- positive, comparative, relational, reflexive-relational, and
-- elliptic-relational.
-- (The superlative use is covered in [Noun Noun.html].$SuperlA$.)
PositA : A -> AP ; -- warm
ComparA : A -> NP -> AP ; -- warmer than Spain
ComplA2 : A2 -> NP -> AP ; -- divisible by 2
ReflA2 : A2 -> AP ; -- divisible by itself
UseA2 : A2 -> A ; -- divisible
-- Sentence and question complements defined for all adjectival
-- phrases, although the semantics is only clear for some adjectives.
SentAP : AP -> SC -> AP ; -- great that she won, uncertain if she did
-- An adjectival phrase can be modified by an *adadjective*, such as "very".
AdAP : AdA -> AP -> AP ; -- very uncertain
-- The formation of adverbs from adjective (e.g. "quickly") is covered
-- by [Adverb Adverb.html].
}

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lib/resource/exper/abstract/Adverb.gf Normal file
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--1 Adverb: Adverbs and Adverbial Phrases
abstract Adverb = Cat ** {
fun
-- The two main ways of forming adverbs are from adjectives and by
-- prepositions from noun phrases.
PositAdvAdj : A -> Adv ; -- quickly
PrepNP : Prep -> NP -> Adv ; -- in the house
-- Comparative adverbs have a noun phrase or a sentence as object of
-- comparison.
ComparAdvAdj : CAdv -> A -> NP -> Adv ; -- more quickly than John
ComparAdvAdjS : CAdv -> A -> S -> Adv ; -- more quickly than he runs
-- Adverbs can be modified by 'adadjectives', just like adjectives.
AdAdv : AdA -> Adv -> Adv ; -- very quickly
-- Subordinate clauses can function as adverbs.
SubjS : Subj -> S -> Adv ; -- when he arrives
AdvSC : SC -> Adv ; -- that he arrives ---- REMOVE?
-- Comparison adverbs also work as numeral adverbs.
AdnCAdv : CAdv -> AdN ; -- more (than five)
}

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lib/resource/exper/abstract/Cat.gf Normal file
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--1 Cat: the Category System
-- The category system is central to the library in the sense
-- that the other modules ($Adjective$, $Adverb$, $Noun$, $Verb$ etc)
-- communicate through it. This means that a e.g. a function using
-- $NP$s in $Verb$ need not know how $NP$s are constructed in $Noun$:
-- it is enough that both $Verb$ and $Noun$ use the same type $NP$,
-- which is given here in $Cat$.
--
-- Some categories are inherited from [``Common`` Common.html].
-- The reason they are defined there is that they have the same
-- implementation in all languages in the resource (typically,
-- just a string). These categories are
-- $AdA, AdN, AdV, Adv, Ant, CAdv, IAdv, PConj, Phr$,
-- $Pol, SC, Tense, Text, Utt, Voc$.
--
-- Moreover, the list categories $ListAdv, ListAP, ListNP, ListS$
-- are defined on $Conjunction$ and only used locally there.
abstract Cat = Common ** {
cat
--2 Sentences and clauses
-- Constructed in [Sentence Sentence.html], and also in
-- [Idiom Idiom.html].
S ; -- declarative sentence e.g. "she lived here"
QS ; -- question e.g. "where did she live"
RS ; -- relative e.g. "in which she lived"
Cl ; -- declarative clause, with all tenses e.g. "she looks at this"
Slash ; -- clause missing NP (S/NP in GPSG) e.g. "she looks at"
SSlash ;-- sentence missing NP e.g. "she has looked at"
Imp ; -- imperative e.g. "look at this"
--2 Questions and interrogatives
-- Constructed in [Question Question.html].
QCl ; -- question clause, with all tenses e.g. "why does she walk"
IP ; -- interrogative pronoun e.g. "who"
IComp ; -- interrogative complement of copula e.g. "where"
IDet ; -- interrogative determiner e.g. "which"
--2 Relative clauses and pronouns
-- Constructed in [Relative Relative.html].
RCl ; -- relative clause, with all tenses e.g. "in which she lives"
RP ; -- relative pronoun e.g. "in which"
--2 Verb phrases
-- Constructed in [Verb Verb.html].
VP ; -- verb phrase e.g. "is very warm"
Comp ; -- complement of copula, such as AP e.g. "very warm"
VPSlash ; -- verb phrase missing complement e.g. "give to John"
--2 Adjectival phrases
-- Constructed in [Adjective Adjective.html].
AP ; -- adjectival phrase e.g. "very warm"
--2 Nouns and noun phrases
-- Constructed in [Noun Noun.html].
-- Many atomic noun phrases e.g. "everybody"
-- are constructed in [Structural Structural.html].
-- The determiner structure is
-- ``` Predet (QuantSg | QuantPl Num) Ord
-- as defined in [Noun Noun.html].
CN ; -- common noun (without determiner) e.g. "red house"
NP ; -- noun phrase (subject or object) e.g. "the red house"
Pron ; -- personal pronoun e.g. "she"
Det ; -- determiner phrase e.g. "those seven"
Predet ; -- predeterminer (prefixed Quant) e.g. "all"
Quant ; -- quantifier ('nucleus' of Det) e.g. "this/these"
Num ; -- cardinal number (used with QuantPl) e.g. "seven"
Ord ; -- ordinal number (used in Det) e.g. "seventh"
--2 Numerals
-- Constructed in [Numeral Numeral.html].
Numeral ; -- cardinal or ordinal in words e.g. "five/fifth"
Digits ; -- cardinal or ordinal in digits e.g. "1,000/1,000th"
--2 Structural words
-- Constructed in [Structural Structural.html].
Conj ; -- conjunction e.g. "and"
DConj ; -- distributed conjunction e.g. "both - and"
Subj ; -- subjunction e.g. "if"
Prep ; -- preposition, or just case e.g. "in"
--2 Words of open classes
-- These are constructed in [Lexicon Lexicon.html] and in
-- additional lexicon modules.
V ; -- one-place verb e.g. "sleep"
V2 ; -- two-place verb e.g. "love"
V3 ; -- three-place verb e.g. "show"
VV ; -- verb-phrase-complement verb e.g. "want"
VS ; -- sentence-complement verb e.g. "claim"
VQ ; -- question-complement verb e.g. "wonder"
VA ; -- adjective-complement verb e.g. "look"
V2V ; -- verb with NP and V complement e.g. "cause"
V2S ; -- verb with NP and S complement e.g. "tell"
V2Q ; -- verb with NP and Q complement e.g. "ask"
V2A ; -- verb with NP and AP complement e.g. "paint"
A ; -- one-place adjective e.g. "warm"
A2 ; -- two-place adjective e.g. "divisible"
N ; -- common noun e.g. "house"
N2 ; -- relational noun e.g. "son"
N3 ; -- three-place relational noun e.g. "connection"
PN ; -- proper name e.g. "Paris"
-- DEPRECATED: QuantSg, QuantPl
--- QuantSg ;-- quantifier ('nucleus' of sing. Det) e.g. "every"
--- QuantPl ;-- quantifier ('nucleus' of plur. Det) e.g. "many"
}

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--1 Common: Structures with Common Implementations.
-- This module defines the categories that uniformly have the linearization
-- ${s : Str}$ in all languages.
-- Moreover, this module defines the abstract parameters of tense, polarity, and
-- anteriority, which are used in [``Phrase`` Phrase.html] to generate different
-- forms of sentences. Together they give 4 x 2 x 2 = 16 sentence forms.
-- These tenses are defined for all languages in the library. More tenses
-- can be defined in the language extensions, e.g. the "passé simple" of
-- Romance languages in [``ExtraRomance`` ../romance/ExtraRomance.gf].
abstract Common = {
cat
--2 Top-level units
-- Constructed in [``Text`` Text.html]: $Text$.
Text ; -- text consisting of several phrases e.g. "He is here. Why?"
-- Constructed in [``Phrase`` Phrase.html]:
Phr ; -- phrase in a text e.g. "but be quiet please"
Utt ; -- sentence, question, word... e.g. "be quiet"
Voc ; -- vocative or "please" e.g. "my darling"
PConj ; -- phrase-beginning conjunction e.g. "therefore"
-- Constructed in [``Sentence`` Sentence.html]:
SC ; -- embedded sentence or question e.g. "that it rains"
--2 Adverbs
-- Constructed in [``Adverb`` Adverb.html].
-- Many adverbs are constructed in [``Structural`` Structural.html].
Adv ; -- verb-phrase-modifying adverb e.g. "in the house"
AdV ; -- adverb directly attached to verb e.g. "always"
AdA ; -- adjective-modifying adverb e.g. "very"
AdN ; -- numeral-modifying adverb e.g. "more than"
IAdv ; -- interrogative adverb e.g. "why"
CAdv ; -- comparative adverb e.g. "more"
--2 Tense, polarity, and anteriority
Tense ; -- tense e.g. present, past, future
Pol ; -- polarity e.g. positive, negative
Ant ; -- anteriority e.g. simultaneous, anterior
fun
PPos, PNeg : Pol ; -- I sleep/don't sleep
TPres : Tense ;
ASimul : Ant ;
TPast, TFut, TCond : Tense ; -- I slept/will sleep/would sleep --# notpresent
AAnter : Ant ; -- I have slept --# notpresent
}

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lib/resource/exper/abstract/Conjunction.gf Normal file
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--1 Conjunction: Coordination
-- Coordination is defined for many different categories; here is
-- a sample. The rules apply to *lists* of two or more elements,
-- and define two general patterns:
-- - ordinary conjunction: X,...X and X
-- - distributed conjunction: both X,...,X and X
--
--
-- $VP$ conjunctions are not covered here, because their applicability
-- depends on language. Some special cases are defined in
-- [``Extra`` ../abstract/Extra.gf].
abstract Conjunction = Cat ** {
--2 Rules
fun
ConjS : Conj -> [S] -> S ; -- "John walks and Mary runs"
ConjAP : Conj -> [AP] -> AP ; -- "even and prime"
ConjNP : Conj -> [NP] -> NP ; -- "John or Mary"
ConjAdv : Conj -> [Adv] -> Adv ; -- "quickly or slowly"
DConjS : DConj -> [S] -> S ; -- "either John walks or Mary runs"
DConjAP : DConj -> [AP] -> AP ; -- "both even and prime"
DConjNP : DConj -> [NP] -> NP ; -- "either John or Mary"
DConjAdv : DConj -> [Adv] -> Adv; -- "both badly and slowly"
--2 Categories
-- These categories are only used in this module.
cat
[S]{2} ;
[Adv]{2} ;
[NP]{2} ;
[AP]{2} ;
--2 List constructors
-- The list constructors are derived from the list notation and therefore
-- not given explicitly. But here are their type signatures:
-- BaseC : C -> C -> [C] ; -- for C = S, AP, NP, Adv
-- ConsC : C -> [C] -> [C] ;
}
--.
-- *Note*. This module uses right-recursive lists. If backward
-- compatibility with API 0.9 is needed, use
-- [SeqConjunction SeqConjunction.html].

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--1 More syntax rules
-- This module defines syntax rules that are not implemented in all
-- languages, but in more than one, so that it makes sense to offer a
-- common API.
abstract Extra = Cat ** {
fun
GenNP : NP -> Quant ; -- this man's
ComplBareVS : VS -> S -> VP ; -- know you go
StrandRelSlash : RP -> Slash -> RCl ; -- that he lives in
EmptyRelSlash : RP -> Slash -> RCl ; -- he lives in
StrandQuestSlash : IP -> Slash -> QCl ; -- whom does John live with
-- $VP$ conjunction, which has different fragments implemented in
-- different languages - never a full $VP$, though.
cat
VPI ;
[VPI] {2} ;
fun
MkVPI : VP -> VPI ;
ConjVPI : Conj -> [VPI] -> VPI ;
ComplVPIVV : VV -> VPI -> VP ;
}

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lib/resource/exper/abstract/Grammar.gf Normal file
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--1 Grammar: the Main Module of the Resource Grammar
-- This grammar is a collection of the different grammar modules,
-- To test the resource, import [``Lang`` Lang.html], which also contains
-- a lexicon.
abstract Grammar =
Noun,
Verb,
Adjective,
Adverb,
Numeral,
Sentence,
Question,
Relative,
Conjunction,
Phrase,
Text,
Structural,
Idiom ;

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lib/resource/exper/abstract/Idiom.gf Normal file
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--1 Idiom: Idiomatic Expressions
abstract Idiom = Cat ** {
-- This module defines constructions that are formed in fixed ways,
-- often different even in closely related languages.
fun
ImpersCl : VP -> Cl ; -- it rains
GenericCl : VP -> Cl ; -- one sleeps
CleftNP : NP -> RS -> Cl ; -- it is you who did it
CleftAdv : Adv -> S -> Cl ; -- it is yesterday she arrived
ExistNP : NP -> Cl ; -- there is a house
ExistIP : IP -> QCl ; -- which houses are there
ProgrVP : VP -> VP ; -- be sleeping
ImpPl1 : VP -> Utt ; -- let's go
}

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lib/resource/exper/abstract/Lang.gf Normal file
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--1 Lang: a Test Module for the Resource Grammar
-- This grammar is for testing the resource as included in the
-- language-independent API, consisting of a grammar and a lexicon.
-- The grammar without a lexicon is [``Grammar`` Grammar.html],
-- which may be more suitable to open in applications.
abstract Lang =
Grammar,
Lexicon
** {
flags startcat=Phr ;
} ;

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lib/resource/exper/abstract/Lexicon.gf Normal file
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abstract Lexicon = Cat ** {
fun
add_V3 : V3 ;
airplane_N : N ;
already_Adv : Adv ;
animal_N : N ;
answer_V2S : V2S ;
apartment_N : N ;
apple_N : N ;
art_N : N ;
ashes_N : N ;
ask_V2Q : V2Q ;
baby_N : N ;
back_N : N ;
bad_A : A ;
bank_N : N ;
bark_N : N ;
beautiful_A : A ;
become_VA : VA ;
beer_N : N ;
beg_V2V : V2V ;
belly_N : N ;
big_A : A ;
bike_N : N ;
bird_N : N ;
bite_V2 : V2 ;
black_A : A ;
blood_N : N ;
blow_V : V ;
blue_A : A ;
boat_N : N ;
bone_N : N ;
book_N : N ;
boot_N : N ;
boss_N : N ;
boy_N : N ;
bread_N : N ;
break_V2 : V2 ;
breast_N : N ;
breathe_V : V ;
broad_A : A ;
brother_N2 : N2 ;
brown_A : A ;
burn_V : V ;
butter_N : N ;
buy_V2 : V2 ;
camera_N : N ;
cap_N : N ;
car_N : N ;
carpet_N : N ;
cat_N : N ;
ceiling_N : N ;
chair_N : N ;
cheese_N : N ;
child_N : N ;
church_N : N ;
city_N : N ;
clean_A : A ;
clever_A : A ;
close_V2 : V2 ;
cloud_N : N ;
coat_N : N ;
cold_A : A ;
come_V : V ;
computer_N : N ;
correct_A : A ;
country_N : N ;
count_V2 : V2 ;
cousin_N : N ;
cow_N : N ;
cut_V2 : V2 ;
day_N : N ;
die_V : V ;
dig_V : V ;
dirty_A : A ;
distance_N3 : N3 ;
doctor_N : N ;
dog_N : N ;
door_N : N ;
do_V2 : V2 ;
drink_V2 : V2 ;
drink_V2 : V2 ;
dry_A : A ;
dull_A : A ;
dust_N : N ;
ear_N : N ;
earth_N : N ;
easy_A2V : A2 ;
eat_V2 : V2 ;
eat_V2 : V2 ;
egg_N : N ;
empty_A : A ;
enemy_N : N ;
eye_N : N ;
factory_N : N ;
fall_V : V ;
far_Adv : Adv ;
father_N2 : N2 ;
fat_N : N ;
fear_VS : VS ;
fear_V2 : V2 ;
feather_N : N ;
fight_V2 : V2 ;
find_V2 : V2 ;
fingernail_N : N ;
fire_N : N ;
fish_N : N ;
float_V : V ;
floor_N : N ;
flower_N : N ;
flow_V : V ;
fly_V : V ;
fog_N : N ;
foot_N : N ;
forest_N : N ;
forget_V2 : V2 ;
freeze_V : V ;
fridge_N : N ;
friend_N : N ;
fruit_N : N ;
full_A : A ;
fun
fun_AV : A ;
garden_N : N ;
girl_N : N ;
give_V3 : V3 ;
glove_N : N ;
gold_N : N ;
good_A : A ;
go_V : V ;
grammar_N : N ;
grass_N : N ;
green_A : A ;
guts_N : N ;
hair_N : N ;
hand_N : N ;
harbour_N : N ;
hate_V2 : V2 ;
hat_N : N ;
have_V2 : V2 ;
head_N : N ;
heart_N : N ;
hear_V2 : V2 ;
hear_V2 : V2 ;
heavy_A : A ;
hill_N : N ;
hit_V2 : V2 ;
hold_V2 : V2 ;
hope_VS : VS ;
horn_N : N ;
horse_N : N ;
hot_A : A ;
house_N : N ;
hunt_V2 : V2 ;
husband_N : N ;
ice_N : N ;
important_A : A ;
industry_N : N ;
iron_N : N ;
john_PN : PN ;
jump_V : V ;
kill_V2 : V2 ;
king_N : N ;
knee_N : N ;
know_V2 : V2 ;
know_V2 : V2 ;
lake_N : N ;
lamp_N : N ;
language_N : N ;
laugh_V : V ;
leaf_N : N ;
learn_V2 : V2 ;
leather_N : N ;
leave_V2 : V2 ;
left_Ord : Ord ;
leg_N : N ;
lie_V : V ;
like_V2 : V2 ;
listen_V2 : V2 ;
liver_N : N ;
live_V : V ;
long_A : A ;
lose_V2 : V2 ;
louse_N : N ;
love_N : N ;
love_V2 : V2 ;
man_N : N ;
married_A2 : A2 ;
meat_N : N ;
milk_N : N ;
moon_N : N ;
mother_N2 : N2 ;
mountain_N : N ;
mouth_N : N ;
music_N : N ;
name_N : N ;
narrow_A : A ;
near_A : A ;
neck_N : N ;
new_A : A ;
newspaper_N : N ;
night_N : N ;
nose_N : N ;
now_Adv : Adv ;
number_N : N ;
oil_N : N ;
old_A : A ;
open_V2 : V2 ;
paint_V2A : V2A ;
paper_N : N ;
paris_PN : PN ;
peace_N : N ;
pen_N : N ;
person_N : N ;
planet_N : N ;
plastic_N : N ;
play_V2 : V2 ;
play_V : V ;
policeman_N : N ;
priest_N : N ;
probable_AS : A ;
pull_V2 : V2 ;
push_V2 : V2 ;
put_V2 : V2 ;
queen_N : N ;
question_N : N ;
radio_N : N ;
rain_N : N ;
rain_V0 : V ;
read_V2 : V2 ;
ready_A : A ;
reason_N : N ;
red_A : A ;
religion_N : N ;
restaurant_N : N ;
right_Ord : Ord ;
river_N : N ;
road_N : N ;
rock_N : N ;
roof_N : N ;
root_N : N ;
rope_N : N ;
rotten_A : A ;
round_A : A ;
rubber_N : N ;
rub_V2 : V2 ;
rule_N : N ;
run_V : V ;
salt_N : N ;
sand_N : N ;
say_VS : VS ;
school_N : N ;
science_N : N ;
scratch_V2 : V2 ;
sea_N : N ;
seed_N : N ;
seek_V2 : V2 ;
see_V2 : V2 ;
see_V2 : V2 ;
sell_V3 : V3 ;
send_V3 : V3 ;
sew_V : V ;
sharp_A : A ;
sheep_N : N ;
ship_N : N ;
shirt_N : N ;
shoe_N : N ;
shop_N : N ;
short_A : A ;
silver_N : N ;
sing_V : V ;
sister_N : N ;
sit_V : V ;
skin_N : N ;
sky_N : N ;
sleep_V : V ;
small_A : A ;
smell_V : V ;
smoke_N : N ;
smooth_A : A ;
snake_N : N ;
snow_N : N ;
sock_N : N ;
song_N : N ;
speak_V2 : V2 ;
spit_V : V ;
split_V2 : V2 ;
squeeze_V2 : V2 ;
stab_V2 : V2 ;
stand_V : V ;
star_N : N ;
steel_N : N ;
stick_N : N ;
stone_N : N ;
stop_V : V ;
stove_N : N ;
straight_A : A ;
student_N : N ;
stupid_A : A ;
suck_V2 : V2 ;
sun_N : N ;
swell_V : V ;
swim_V : V ;
switch8off_V2 : V2 ;
switch8on_V2 : V2 ;
table_N : N ;
tail_N : N ;
talk_V3 : V3 ;
teacher_N : N ;
teach_V2 : V2 ;
television_N : N ;
thick_A : A ;
thin_A : A ;
think_V : V ;
throw_V2 : V2 ;
tie_V2 : V2 ;
today_Adv : Adv ;
tongue_N : N ;
tooth_N : N ;
train_N : N ;
travel_V : V ;
tree_N : N ;
turn_V : V ;
ugly_A : A ;
uncertain_A : A ;
understand_V2 : V2 ;
university_N : N ;
village_N : N ;
vomit_V : V ;
wait_V2 : V2 ;
walk_V : V ;
warm_A : A ;
war_N : N ;
wash_V2 : V2 ;
watch_V2 : V2 ;
water_N : N ;
wet_A : A ;
white_A : A ;
wide_A : A ;
wife_N : N ;
wind_N : N ;
window_N : N ;
wine_N : N ;
wing_N : N ;
win_V2 : V2 ;
wipe_V2 : V2 ;
woman_N : N ;
wonder_VQ : VQ ;
wood_N : N ;
worm_N : N ;
write_V2 : V2 ;
year_N : N ;
yellow_A : A ;
young_A : A ;
}

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--1 Noun: Nouns, noun phrases, and determiners
abstract Noun = Cat ** {
--2 Noun phrases
-- The three main types of noun phrases are
-- - common nouns with determiners
-- - proper names
-- - pronouns
--
--
fun
DetCN : Det -> CN -> NP ; -- the man
UsePN : PN -> NP ; -- John
UsePron : Pron -> NP ; -- he
-- Pronouns are defined in the module [``Structural`` Structural.html].
-- A noun phrase already formed can be modified by a $Predet$erminer.
PredetNP : Predet -> NP -> NP; -- only the man
-- A noun phrase can also be postmodified by the past participle of a
-- verb or by an adverb.
PPartNP : NP -> V2 -> NP ; -- the number squared
AdvNP : NP -> Adv -> NP ; -- Paris at midnight
--2 Determiners
-- The determiner has a fine-grained structure, in which a 'nucleus'
-- quantifier and two optional parts can be discerned.
-- The cardinal numeral is only available for plural determiners.
-- (This is modified from CLE by further dividing their $Num$ into
-- cardinal and ordinal.)
DetSg : Quant -> Ord -> Det ; -- this best man
DetPl : Quant -> Num -> Ord -> Det ; -- these five best men
-- Notice that $DetPl$ can still result in a singular determiner, because
-- "one" is a numeral: "this one man".
-- Quantifiers that have both forms can be used in both ways.
--- DEPRECATED: no longer needed
--- SgQuant : Quant -> QuantSg ; -- this
--- PlQuant : Quant -> QuantPl ; -- these
-- Pronouns have possessive forms. Genitives of other kinds
-- of noun phrases are not given here, since they are not possible
-- in e.g. Romance languages. They can be found in
-- [``Extra`` ../abstract/Extra.gf].
PossPron : Pron -> Quant ; -- my (house)
-- All parts of the determiner can be empty, except $Quant$, which is
-- the "kernel" of a determiner.
NoNum : Num ;
NoOrd : Ord ;
-- $Num$ consists of either digits or numeral words.
NumInt : Int -> Num ; -- 51 (DEPRECATED)
NumDigits : Digits -> Num ; -- 51
NumNumeral : Numeral -> Num ; -- fifty-one
-- The construction of numerals is defined in [Numeral Numeral.html].
-- $Num$ can be modified by certain adverbs.
AdNum : AdN -> Num -> Num ; -- almost 51
-- $Ord$ consists of either digits or numeral words.
OrdInt : Int -> Ord ; -- 51st (DEPRECATED)
OrdDigits : Digits -> Ord ; -- 51st
OrdNumeral : Numeral -> Ord ; -- fifty-first
-- Superlative forms of adjectives behave syntactically in the same way as
-- ordinals.
OrdSuperl : A -> Ord ; -- largest
-- Definite and indefinite constructions are sometimes realized as
-- neatly distinct words (Spanish "un, unos ; el, los") but also without
-- any particular word (Finnish; Swedish definites).
DefArt : Quant ; -- the (house), the (houses)
IndefArt : Quant ; -- a (house), (houses)
-- Nouns can be used without an article as mass nouns. The resource does
-- not distinguish mass nouns from other common nouns, which can result
-- in semantically odd expressions.
MassDet : Quant ; -- (beer)
-- Other determiners are defined in [Structural Structural.html].
--2 Common nouns
-- Simple nouns can be used as nouns outright.
UseN : N -> CN ; -- house
-- Relational nouns take one or two arguments.
ComplN2 : N2 -> NP -> CN ; -- son of the king
ComplN3 : N3 -> NP -> N2 ; -- flight from Moscow (to Paris)
-- Relational nouns can also be used without their arguments.
-- The semantics is typically derivative of the relational meaning.
UseN2 : N2 -> CN ; -- son
UseN3 : N3 -> CN ; -- flight
-- Nouns can be modified by adjectives, relative clauses, and adverbs
-- (the last rule will give rise to many 'PP attachment' ambiguities
-- when used in connection with verb phrases).
AdjCN : AP -> CN -> CN ; -- big house
RelCN : CN -> RS -> CN ; -- house that John owns
AdvCN : CN -> Adv -> CN ; -- house on the hill
-- Nouns can also be modified by embedded sentences and questions.
-- For some nouns this makes little sense, but we leave this for applications
-- to decide. Sentential complements are defined in [Verb Verb.html].
SentCN : CN -> SC -> CN ; -- fact that John smokes, question if he does
--2 Apposition
-- This is certainly overgenerating.
ApposCN : CN -> NP -> CN ; -- number x, numbers x and y
} ;

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--1 Numerals
-- This grammar defines numerals from 1 to 999999.
-- The implementations are adapted from the
-- [numerals library http://www.cs.chalmers.se/~aarne/GF/examples/numerals/]
-- which defines numerals for 88 languages.
-- The resource grammar implementations add to this inflection (if needed)
-- and ordinal numbers.
--
-- *Note* 1. Number 1 as defined
-- in the category $Numeral$ here should not be used in the formation of
-- noun phrases, and should therefore be removed. Instead, one should use
-- [Structural Structural.html]$.one_Quant$. This makes the grammar simpler
-- because we can assume that numbers form plural noun phrases.
--
-- *Note* 2. The implementations introduce spaces between
-- parts of a numeral, which is often incorrect - more work on
-- (un)lexing is needed to solve this problem.
abstract Numeral = Cat ** {
cat
Digit ; -- 2..9
Sub10 ; -- 1..9
Sub100 ; -- 1..99
Sub1000 ; -- 1..999
Sub1000000 ; -- 1..999999
fun
num : Sub1000000 -> Numeral ;
n2, n3, n4, n5, n6, n7, n8, n9 : Digit ;
pot01 : Sub10 ; -- 1
pot0 : Digit -> Sub10 ; -- d * 1
pot110 : Sub100 ; -- 10
pot111 : Sub100 ; -- 11
pot1to19 : Digit -> Sub100 ; -- 10 + d
pot0as1 : Sub10 -> Sub100 ; -- coercion of 1..9
pot1 : Digit -> Sub100 ; -- d * 10
pot1plus : Digit -> Sub10 -> Sub100 ; -- d * 10 + n
pot1as2 : Sub100 -> Sub1000 ; -- coercion of 1..99
pot2 : Sub10 -> Sub1000 ; -- m * 100
pot2plus : Sub10 -> Sub100 -> Sub1000 ; -- m * 100 + n
pot2as3 : Sub1000 -> Sub1000000 ; -- coercion of 1..999
pot3 : Sub1000 -> Sub1000000 ; -- m * 1000
pot3plus : Sub1000 -> Sub1000 -> Sub1000000 ; -- m * 1000 + n
-- Numerals as sequences of digits have a separate, simpler grammar
cat
Dig ;
fun
IDig : Dig -> Digits ;
IIDig : Dig -> Digits -> Digits ;
D_0, D_1, D_2, D_3, D_4, D_5, D_6, D_7, D_8, D_9 : Dig ;
}

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--1 Phrase: Phrases and Utterances
abstract Phrase = Cat ** {
-- When a phrase is built from an utterance it can be prefixed
-- with a phrasal conjunction (such as "but", "therefore")
-- and suffixing with a vocative (typically a noun phrase).
fun
PhrUtt : PConj -> Utt -> Voc -> Phr ; -- But go home my friend.
-- Utterances are formed from sentences, questions, and imperatives.
UttS : S -> Utt ; -- John walks
UttQS : QS -> Utt ; -- is it good
UttImpSg : Pol -> Imp -> Utt; -- (don't) help yourself
UttImpPl : Pol -> Imp -> Utt; -- (don't) help yourselves
UttImpPol : Pol -> Imp -> Utt ; -- (don't) help (polite)
-- There are also 'one-word utterances'. A typical use of them is
-- as answers to questions.
-- *Note*. This list is incomplete. More categories could be covered.
-- Moreover, in many languages e.g. noun phrases in different cases
-- can be used.
UttIP : IP -> Utt ; -- who
UttIAdv : IAdv -> Utt ; -- why
UttNP : NP -> Utt ; -- this man
UttAdv : Adv -> Utt ; -- here
UttVP : VP -> Utt ; -- to sleep
-- The phrasal conjunction is optional. A sentence conjunction
-- can also used to prefix an utterance.
NoPConj : PConj ;
PConjConj : Conj -> PConj ; -- and
-- The vocative is optional. Any noun phrase can be made into vocative,
-- which may be overgenerating (e.g. "I").
NoVoc : Voc ;
VocNP : NP -> Voc ; -- my friend
}

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--1 Question: Questions and Interrogative Pronouns
abstract Question = Cat ** {
-- A question can be formed from a clause ('yes-no question') or
-- with an interrogative.
fun
QuestCl : Cl -> QCl ; -- does John walk
QuestVP : IP -> VP -> QCl ; -- who walks
QuestSlash : IP -> Slash -> QCl ; -- who does John love
QuestIAdv : IAdv -> Cl -> QCl ; -- why does John walk
QuestIComp : IComp -> NP -> QCl ; -- where is John
-- Interrogative pronouns can be formed with interrogative
-- determiners.
IDetCN : IDet -> Num -> Ord -> CN -> IP; -- which five best songs
AdvIP : IP -> Adv -> IP ; -- who in Europe
PrepIP : Prep -> IP -> IAdv ; -- with whom
CompIAdv : IAdv -> IComp ; -- where
-- More $IP$, $IDet$, and $IAdv$ are defined in
-- [``Structural`` Structural.html].
}

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--1 Relative clauses and pronouns
abstract Relative = Cat ** {
fun
-- The simplest way to form a relative clause is from a clause by
-- a pronoun similar to "such that".
RelCl : Cl -> RCl ; -- such that John loves her
-- The more proper ways are from a verb phrase
-- (formed in [``Verb`` Verb.html]) or a sentence
-- with a missing noun phrase (formed in [``Sentence`` Sentence.html]).
RelVP : RP -> VP -> RCl ; -- who loves John
RelSlash : RP -> Slash -> RCl ; -- whom John loves
-- Relative pronouns are formed from an 'identity element' by prefixing
-- or suffixing (depending on language) prepositional phrases.
IdRP : RP ; -- which
FunRP : Prep -> NP -> RP -> RP ; -- all the roots of which
}

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--1 Sentence: Sentences, Clauses, and Imperatives
abstract Sentence = Cat ** {
--2 Clauses
-- The $NP VP$ predication rule form a clause whose linearization
-- gives a table of all tense variants, positive and negative.
-- Clauses are converted to $S$ (with fixed tense) with the
-- $UseCl$ function below.
fun
PredVP : NP -> VP -> Cl ; -- John walks
-- Using an embedded sentence as a subject is treated separately.
-- This can be overgenerating. E.g. "whether you go" as subject
-- is only meaningful for some verb phrases.
PredSCVP : SC -> VP -> Cl ; -- that you go makes me happy
--2 Clauses missing object noun phrases
-- This category is a variant of the 'slash category' $S/NP$ of
-- GPSG and categorial grammars, which in turn replaces
-- movement transformations in the formation of questions
-- and relative clauses. Except $SlashV2$, the construction
-- rules can be seen as special cases of function composition, in
-- the style of CCG.
-- *Note* the set is not complete and lacks e.g. verbs with more than 2 places.
SlashVP : NP -> VPSlash -> Slash ; -- (whom) he sees
AdvSlash : Slash -> Adv -> Slash ; -- (whom) he sees tomorrow
SlashPrep : Cl -> Prep -> Slash ; -- (with whom) he walks
SlashVS : NP -> VS -> SSlash -> Slash ; -- (whom) he says that she loves
--2 Imperatives
-- An imperative is straightforwardly formed from a verb phrase.
-- It has variation over positive and negative, singular and plural.
-- To fix these parameters, see [Phrase Phrase.html].
ImpVP : VP -> Imp ; -- go
--2 Embedded sentences
-- Sentences, questions, and infinitival phrases can be used as
-- subjects and (adverbial) complements.
EmbedS : S -> SC ; -- that you go
EmbedQS : QS -> SC ; -- whether you go
EmbedVP : VP -> SC ; -- to go
--2 Sentences
-- These are the 2 x 4 x 4 = 16 forms generated by different
-- combinations of tense, polarity, and
-- anteriority, which are defined in [``Common`` Common.html].
fun
UseCl : Tense -> Ant -> Pol -> Cl -> S ;
UseQCl : Tense -> Ant -> Pol -> QCl -> QS ;
UseRCl : Tense -> Ant -> Pol -> RCl -> RS ;
UseSlash : Tense -> Ant -> Pol -> Slash -> SSlash ;
-- An adverb can be added to the beginning of a sentence.
AdvS : Adv -> S -> S ; -- today, I will go home
--- Obsolete
SlashV2 : NP -> V2 -> Slash ; -- (whom) he sees
SlashVVV2 : NP -> VV -> V2 -> Slash; -- (whom) he wants to see
}
--.
--- todo: tense of embedded Slash
-- SlashVSS : NP -> VS -> Slash -> Slash; -- (whom) I think he sees
-- Examples for English $S$/$Cl$:
{-
Pres Simul Pos ODir : he sleeps
Pres Simul Neg ODir : he doesn't sleep
Pres Anter Pos ODir : he has slept
Pres Anter Neg ODir : he hasn't slept
Past Simul Pos ODir : he slept
Past Simul Neg ODir : he didn't sleep
Past Anter Pos ODir : he had slept
Past Anter Neg ODir : he hadn't slept
Fut Simul Pos ODir : he will sleep
Fut Simul Neg ODir : he won't sleep
Fut Anter Pos ODir : he will have slept
Fut Anter Neg ODir : he won't have slept
Cond Simul Pos ODir : he would sleep
Cond Simul Neg ODir : he wouldn't sleep
Cond Anter Pos ODir : he would have slept
Cond Anter Neg ODir : he wouldn't have slept
-}

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--1 Structural: Structural Words
--
-- Here we have some words belonging to closed classes and appearing
-- in all languages we have considered.
-- Sometimes more distinctions are needed, e.g. $we_Pron$ in Spanish
-- should be replaced by masculine and feminine variants, found in
-- [``ExtraSpa`` ../spanish/ExtraSpa.gf].
abstract Structural = Cat ** {
fun
-- This is an alphabetical list of structural words
above_Prep : Prep ;
after_Prep : Prep ;
all_Predet : Predet ;
almost_AdA : AdA ;
almost_AdN : AdN ;
although_Subj : Subj ;
always_AdV : AdV ;
and_Conj : Conj ;
because_Subj : Subj ;
before_Prep : Prep ;
behind_Prep : Prep ;
between_Prep : Prep ;
both7and_DConj : DConj ;
but_PConj : PConj ;
by8agent_Prep : Prep ;
by8means_Prep : Prep ;
can8know_VV : VV ;
can_VV : VV ;
during_Prep : Prep ;
either7or_DConj : DConj ;
every_Det : Det ;
everybody_NP : NP ;
everything_NP : NP ;
everywhere_Adv : Adv ;
--- first_Ord : Ord ; DEPRECATED
few_Det : Det ;
for_Prep : Prep ;
from_Prep : Prep ;
he_Pron : Pron ;
here_Adv : Adv ;
here7to_Adv : Adv ;
here7from_Adv : Adv ;
how_IAdv : IAdv ;
how8many_IDet : IDet ;
i_Pron : Pron ;
if_Subj : Subj ;
in8front_Prep : Prep ;
in_Prep : Prep ;
it_Pron : Pron ;
less_CAdv : CAdv ;
many_Det : Det ;
more_CAdv : CAdv ;
most_Predet : Predet ;
much_Det : Det ;
must_VV : VV ;
no_Phr : Phr ;
on_Prep : Prep ;
--- one_Quant : QuantSg ; DEPRECATED
only_Predet : Predet ;
or_Conj : Conj ;
otherwise_PConj : PConj ;
part_Prep : Prep ;
please_Voc : Voc ;
possess_Prep : Prep ;
quite_Adv : AdA ;
she_Pron : Pron ;
so_AdA : AdA ;
someSg_Det : Det ;
somePl_Det : Det ;
somebody_NP : NP ;
something_NP : NP ;
somewhere_Adv : Adv ;
that_Quant : Quant ;
that_NP : NP ;
there_Adv : Adv ;
there7to_Adv : Adv ;
there7from_Adv : Adv ;
therefore_PConj : PConj ;
these_NP : NP ;
they_Pron : Pron ;
this_Quant : Quant ;
this_NP : NP ;
those_NP : NP ;
through_Prep : Prep ;
to_Prep : Prep ;
too_AdA : AdA ;
under_Prep : Prep ;
very_AdA : AdA ;
want_VV : VV ;
we_Pron : Pron ;
whatPl_IP : IP ;
whatSg_IP : IP ;
when_IAdv : IAdv ;
when_Subj : Subj ;
where_IAdv : IAdv ;
whichPl_IDet : IDet ;
whichSg_IDet : IDet ;
whoPl_IP : IP ;
whoSg_IP : IP ;
why_IAdv : IAdv ;
with_Prep : Prep ;
without_Prep : Prep ;
yes_Phr : Phr ;
youSg_Pron : Pron ;
youPl_Pron : Pron ;
youPol_Pron : Pron ;
}

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--1 Text: Texts
-- Texts are built from an empty text by adding $Phr$ases,
-- using as constructors the punctuation marks ".", "?", and "!".
-- Any punctuation mark can be attached to any kind of phrase.
abstract Text = Common ** {
fun
TEmpty : Text ; --
TFullStop : Phr -> Text -> Text ; -- John walks. ...
TQuestMark : Phr -> Text -> Text ; -- Are you OK? ...
TExclMark : Phr -> Text -> Text ; -- John walks! ...
}

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--1 The construction of verb phrases
abstract Verb = Cat ** {
--2 Complementization rules
-- Verb phrases are constructed from verbs by providing their
-- complements. There is one rule for each verb category.
fun
UseV : V -> VP ; -- sleep
ComplVV : VV -> VP -> VP ; -- want to run
ComplVS : VS -> S -> VP ; -- know that she runs
ComplVQ : VQ -> QS -> VP ; -- wonder if she runs
ComplVA : VA -> AP -> VP ; -- look red
SlashV2a : V2 -> VPSlash ; -- use (it)
Slash2V3 : V3 -> NP -> VPSlash ; -- send it (to her)
Slash3V3 : V3 -> NP -> VPSlash ; -- send (it) to her
SlashV2V : V2V -> VP -> VPSlash ; -- cause (it) to burn
SlashV2S : V2S -> S -> VPSlash ; -- tell (me) that it rains
SlashV2Q : V2Q -> QS -> VPSlash ; -- ask (me) who came
SlashV2A : V2A -> AP -> VPSlash ; -- paint (it) red
ComplSlash : VPSlash -> NP -> VP ; -- use it
SlashVV : VV -> VPSlash -> VPSlash ; -- want to give her
SlashV2VNP : V2V -> NP -> VPSlash -> VPSlash ; -- want me to give her
--2 Other ways of forming verb phrases
-- Verb phrases can also be constructed reflexively and from
-- copula-preceded complements.
ReflV2 : V2 -> VP ; -- use itself
UseComp : Comp -> VP ; -- be warm
-- Passivization of two-place verbs is another way to use
-- them. In many languages, the result is a participle that
-- is used as complement to a copula ("is used"), but other
-- auxiliary verbs are possible (Ger. "wird angewendet", It.
-- "viene usato"), as well as special verb forms (Fin. "käytetään",
-- Swe. "används").
--
-- *Note*. the rule can be overgenerating, since the $V2$ need not
-- take a direct object.
PassV2 : V2 -> VP ; -- be used
-- Adverbs can be added to verb phrases. Many languages make
-- a distinction between adverbs that are attached in the end
-- vs. next to (or before) the verb.
AdvVP : VP -> Adv -> VP ; -- sleep here
AdVVP : AdV -> VP -> VP ; -- always sleep
-- *Agents of passives* are constructed as adverbs with the
-- preposition [Structural Structural.html]$.8agent_Prep$.
--2 Complements to copula
-- Adjectival phrases, noun phrases, and adverbs can be used.
CompAP : AP -> Comp ; -- (be) small
CompNP : NP -> Comp ; -- (be) a soldier
CompAdv : Adv -> Comp ; -- (be) here
--2 Coercions
-- Verbs can change subcategorization patterns in systematic ways,
-- but this is very much language-dependent. The following two
-- work in all the languages we cover.
UseVQ : VQ -> V2 ; -- ask (a question)
UseVS : VS -> V2 ; -- know (a secret)
--- Obsolete
ComplV2 : V2 -> NP -> VP ; -- use it
ComplV3 : V3 -> NP -> NP -> VP ; -- send a message to her
ComplV2V : V2V -> NP -> VP -> VP ; -- cause it to burn
ComplV2S : V2S -> NP -> S -> VP ; -- tell me that it rains
ComplV2Q : V2Q -> NP -> QS -> VP ; -- ask me who came
ComplV2A : V2A -> NP -> AP -> VP ; -- paint it red
}

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concrete AdjectiveEng of Adjective = CatEng ** open ResEng, Prelude in {
lin
PositA a = {
s = \\_ => a.s ! AAdj Posit ;
isPre = True
} ;
ComparA a np = {
s = \\_ => a.s ! AAdj Compar ++ "than" ++ np.s ! Nom ;
isPre = False
} ;
-- $SuperlA$ belongs to determiner syntax in $Noun$.
ComplA2 a np = {
s = \\_ => a.s ! AAdj Posit ++ a.c2 ++ np.s ! Acc ;
isPre = False
} ;
ReflA2 a = {
s = \\ag => a.s ! AAdj Posit ++ a.c2 ++ reflPron ! ag ;
isPre = False
} ;
SentAP ap sc = {
s = \\a => ap.s ! a ++ sc.s ;
isPre = False
} ;
AdAP ada ap = {
s = \\a => ada.s ++ ap.s ! a ;
isPre = ap.isPre
} ;
UseA2 a = a ;
}

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concrete AdverbEng of Adverb = CatEng ** open ResEng, Prelude in {
lin
PositAdvAdj a = {s = a.s ! AAdv} ;
ComparAdvAdj cadv a np = {
s = cadv.s ++ a.s ! AAdv ++ "than" ++ np.s ! Nom
} ;
ComparAdvAdjS cadv a s = {
s = cadv.s ++ a.s ! AAdv ++ "than" ++ s.s
} ;
PrepNP prep np = {s = prep.s ++ np.s ! Acc} ;
AdAdv = cc2 ;
SubjS = cc2 ;
AdvSC s = s ; --- this rule give stack overflow in ordinary parsing
AdnCAdv cadv = {s = cadv.s ++ "than"} ;
}

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concrete CatEng of Cat = CommonX ** open ResEng, Prelude in {
flags optimize=all_subs ;
lincat
-- Tensed/Untensed
S = {s : Str} ;
QS = {s : QForm => Str} ;
RS = {s : Agr => Str ; c : Case} ; -- c for it clefts
SSlash = {s : Str ; c2 : Str} ;
-- Sentence
Cl = {s : ResEng.Tense => Anteriority => CPolarity => Order => Str} ;
Slash = {
s : ResEng.Tense => Anteriority => CPolarity => Order => Str ;
c2 : Str
} ;
Imp = {s : CPolarity => ImpForm => Str} ;
-- Question
QCl = {s : ResEng.Tense => Anteriority => CPolarity => QForm => Str} ;
IP = {s : Case => Str ; n : Number} ;
IComp = {s : Str} ;
IDet = {s : Str ; n : Number} ;
-- Relative
RCl = {s : ResEng.Tense => Anteriority => CPolarity => Agr => Str ; c : Case} ;
RP = {s : RCase => Str ; a : RAgr} ;
-- Verb
VP = ResEng.VP ;
VPSlash = ResEng.VP ** {c2 : Str} ;
Comp = {s : Agr => Str} ;
-- Adjective
AP = {s : Agr => Str ; isPre : Bool} ;
-- Noun
CN = {s : Number => Case => Str} ;
NP, Pron = {s : Case => Str ; a : Agr} ;
Det = {s : Str ; n : Number} ;
Predet, Ord = {s : Str} ;
Num = {s : Str; n : Number } ;
Quant = {s : Number => Str} ;
-- Numeral
Numeral = {s : CardOrd => Str ; n : Number} ;
Digits = {s : CardOrd => Str ; n : Number ; tail : DTail} ;
-- Structural
Conj = {s : Str ; n : Number} ;
DConj = {s1,s2 : Str ; n : Number} ;
Subj = {s : Str} ;
Prep = {s : Str} ;
-- Open lexical classes, e.g. Lexicon
V, VS, VQ, VA = Verb ; -- = {s : VForm => Str} ;
V2, V2A, V2Q, V2S = Verb ** {c2 : Str} ;
V3 = Verb ** {c2, c3 : Str} ;
VV = {s : VVForm => Str ; isAux : Bool} ;
V2V = Verb ** {c2 : Str ; isAux : Bool} ;
A = {s : AForm => Str} ;
A2 = {s : AForm => Str ; c2 : Str} ;
N = {s : Number => Case => Str} ;
N2 = {s : Number => Case => Str} ** {c2 : Str} ;
N3 = {s : Number => Case => Str} ** {c2,c3 : Str} ;
PN = {s : Case => Str} ;
}

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concrete ConjunctionEng of Conjunction =
CatEng ** open ResEng, Coordination, Prelude in {
flags optimize=all_subs ;
lin
ConjS = conjunctSS ;
DConjS = conjunctDistrSS ;
ConjAdv = conjunctSS ;
DConjAdv = conjunctDistrSS ;
ConjNP conj ss = conjunctTable Case conj ss ** {
a = {n = conjNumber conj.n ss.a.n ; p = ss.a.p}
} ;
DConjNP conj ss = conjunctDistrTable Case conj ss ** {
a = {n = conjNumber conj.n ss.a.n ; p = ss.a.p}
} ;
ConjAP conj ss = conjunctTable Agr conj ss ** {
isPre = ss.isPre
} ;
DConjAP conj ss = conjunctDistrTable Agr conj ss ** {
isPre = ss.isPre
} ;
-- These fun's are generated from the list cat's.
BaseS = twoSS ;
ConsS = consrSS comma ;
BaseAdv = twoSS ;
ConsAdv = consrSS comma ;
BaseNP x y = twoTable Case x y ** {a = conjAgr x.a y.a} ;
ConsNP xs x = consrTable Case comma xs x ** {a = conjAgr xs.a x.a} ;
BaseAP x y = twoTable Agr x y ** {isPre = andB x.isPre y.isPre} ;
ConsAP xs x = consrTable Agr comma xs x ** {isPre = andB xs.isPre x.isPre} ;
lincat
[S] = {s1,s2 : Str} ;
[Adv] = {s1,s2 : Str} ;
[NP] = {s1,s2 : Case => Str ; a : Agr} ;
[AP] = {s1,s2 : Agr => Str ; isPre : Bool} ;
}

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--# -path=.:../abstract:../common:prelude
concrete English of EnglishAbs =
LangEng,
IrregEng-[
blow_V,burn_V,come_V,dig_V,fall_V,fly_V,freeze_V,go_V,lie_V,run_V,
sew_V,sing_V,sit_V,sleep_V,spit_V,stand_V,swell_V,swim_V,think_V],
ExtraEng
** {} ;

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--# -path=.:../abstract:../common:prelude
abstract EnglishAbs =
Lang,
IrregEngAbs-[
blow_V,burn_V,come_V,dig_V,fall_V,fly_V,freeze_V,go_V,lie_V,run_V,
sew_V,sing_V,sit_V,sleep_V,spit_V,stand_V,swell_V,swim_V,think_V],
ExtraEngAbs
** {} ;

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concrete ExtraEng of ExtraEngAbs = CatEng **
open ResEng, Coordination, Prelude in {
lin
GenNP np = {s = \\_ => np.s ! Gen} ;
ComplBareVS v s = insertObj (\\_ => s.s) (predV v) ;
StrandRelSlash rp slash = {
s = \\t,a,p,_ => rp.s ! RC Acc ++ slash.s ! t ! a ! p ! ODir ++ slash.c2 ;
c = Acc
} ;
EmptyRelSlash rp slash = {
s = \\t,a,p,_ => slash.s ! t ! a ! p ! ODir ++ slash.c2 ;
c = Acc
} ;
StrandQuestSlash ip slash =
{s = \\t,a,b,q =>
(mkQuestion (ss (ip.s ! Acc)) slash).s ! t ! a ! b ! q ++ slash.c2
};
lincat
VPI = {s : VPIForm => Agr => Str} ;
[VPI] = {s1,s2 : VPIForm => Agr => Str} ;
lin
BaseVPI = twoTable2 VPIForm Agr ;
ConsVPI = consrTable2 VPIForm Agr comma ;
MkVPI vp = {
s = \\v,a => vp.ad ++ vp.inf ++ vp.s2 ! a
} ;
ConjVPI = conjunctTable2 VPIForm Agr ;
ComplVPIVV vv vpi =
insertObj (\\a => (if_then_Str vv.isAux [] "to") ++ vpi.s ! VPIInf ! a) (predVV vv) ;
UncNegCl t a cl = {s = t.s ++ a.s ++ cl.s ! t.t ! a.a ! neg ! ODir} ;
UncNegQCl t a cl = {s = \\q => t.s ++ a.s ++ cl.s ! t.t ! a.a ! neg !q} ;
UncNegRCl t a cl = {
s = \\r => t.s ++ a.s ++ cl.s ! t.t ! a.a ! neg ! r ;
c = cl.c
} ;
UncNegImpSg imp = {s = imp.s ! neg ! ImpF Sg False} ;
UncNegImpPl imp = {s = imp.s ! neg ! ImpF Pl False} ;
CompoundCN a b = {s = \\n,c => a.s ! Sg ! Nom ++ b.s ! n ! c} ;
oper
neg = CNeg False ;
}

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abstract ExtraEngAbs = Extra ** {
-- uncontracted negations; contracted are the default
fun
UncNegCl : Tense -> Ant -> Cl -> S ;
UncNegQCl : Tense -> Ant -> QCl -> QS ;
UncNegRCl : Tense -> Ant -> RCl -> RS ;
UncNegImpSg : Imp -> Utt; -- do not help yourself
UncNegImpPl : Imp -> Utt; -- do not help yourselves
-- freely compounded nouns
CompoundCN : CN -> CN -> CN ; -- rock album
}

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--# -path=.:../abstract:../common:prelude
concrete GrammarEng of Grammar =
NounEng,
VerbEng,
AdjectiveEng,
AdverbEng,
NumeralEng,
SentenceEng,
QuestionEng,
RelativeEng,
ConjunctionEng,
PhraseEng,
TextX,
StructuralEng,
IdiomEng
** {
flags startcat = Phr ; unlexer = text ; lexer = text ;
} ;

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concrete IdiomEng of Idiom = CatEng ** open Prelude, ResEng in {
flags optimize=all_subs ;
lin
ImpersCl vp = mkClause "it" (agrP3 Sg) vp ;
GenericCl vp = mkClause "one" (agrP3 Sg) vp ;
CleftNP np rs = mkClause "it" (agrP3 Sg)
(insertObj (\\_ => rs.s ! np.a)
(insertObj (\\_ => np.s ! rs.c) (predAux auxBe))) ;
CleftAdv ad s = mkClause "it" (agrP3 Sg)
(insertObj (\\_ => conjThat ++ s.s)
(insertObj (\\_ => ad.s) (predAux auxBe))) ;
ExistNP np =
mkClause "there" (agrP3 np.a.n)
(insertObj (\\_ => np.s ! Acc) (predAux auxBe)) ;
ExistIP ip =
mkQuestion (ss (ip.s ! Nom))
(mkClause "there" (agrP3 ip.n) (predAux auxBe)) ;
ProgrVP vp = insertObj (\\a => vp.ad ++ vp.prp ++ vp.s2 ! a) (predAux auxBe) ;
ImpPl1 vp = {s = "let's" ++ infVP True vp {n = Pl ; p = P1}} ;
}

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--# -path=.:prelude:../abstract:../common
concrete IrregEng of IrregEngAbs = CatEng ** open ParadigmsEng in {
flags optimize=values ;
lin
awake_V = irregV "awake" "awoke" "awoken" ;
bear_V = irregV "bear" "bore" "born" ;
beat_V = irregV "beat" "beat" "beat" ;
become_V = irregV "become" "became" "become" ;
begin_V = irregV "begin" "began" "begun" ;
bend_V = irregV "bend" "bent" "bent" ;
beset_V = irregV "beset" "beset" "beset" ;
bet_V = irregDuplV "bet" "bet" "bet" ;
bid_V = irregDuplV "bid" (variants {"bid" ; "bade"}) (variants {"bid" ; "bidden"}) ;
bind_V = irregV "bind" "bound" "bound" ;
bite_V = irregV "bite" "bit" "bitten" ;
bleed_V = irregV "bleed" "bled" "bled" ;
blow_V = irregV "blow" "blew" "blown" ;
break_V = irregV "break" "broke" "broken" ;
breed_V = irregV "breed" "bred" "bred" ;
bring_V = irregV "bring" "brought" "brought" ;
broadcast_V = irregV "broadcast" "broadcast" "broadcast" ;
build_V = irregV "build" "built" "built" ;
burn_V = irregV "burn" (variants {"burned" ; "burnt"}) (variants {"burned" ; "burnt"}) ;
burst_V = irregV "burst" "burst" "burst" ;
buy_V = irregV "buy" "bought" "bought" ;
cast_V = irregV "cast" "cast" "cast" ;
catch_V = irregV "catch" "caught" "caught" ;
choose_V = irregV "choose" "chose" "chosen" ;
cling_V = irregV "cling" "clung" "clung" ;
come_V = irregV "come" "came" "come" ;
cost_V = irregV "cost" "cost" "cost" ;
creep_V = irregV "creep" "crept" "crept" ;
cut_V = irregDuplV "cut" "cut" "cut" ;
deal_V = irregV "deal" "dealt" "dealt" ;
dig_V = irregDuplV "dig" "dug" "dug" ;
dive_V = irregV "dive" (variants {"dived" ; "dove"}) "dived" ;
do_V = mk5V "do" "does" "did" "done" "doing" ;
draw_V = irregV "draw" "drew" "drawn" ;
dream_V = irregV "dream" (variants {"dreamed" ; "dreamt"}) (variants {"dreamed" ; "dreamt"}) ;
drive_V = irregV "drive" "drove" "driven" ;
drink_V = irregV "drink" "drank" "drunk" ;
eat_V = irregV "eat" "ate" "eaten" ;
fall_V = irregV "fall" "fell" "fallen" ;
feed_V = irregV "feed" "fed" "fed" ;
feel_V = irregV "feel" "felt" "felt" ;
fight_V = irregV "fight" "fought" "fought" ;
find_V = irregV "find" "found" "found" ;
fit_V = irregDuplV "fit" "fit" "fit" ;
flee_V = irregV "flee" "fled" "fled" ;
fling_V = irregV "fling" "flung" "flung" ;
fly_V = irregV "fly" "flew" "flown" ;
forbid_V = irregDuplV "forbid" "forbade" "forbidden" ;
forget_V = irregDuplV "forget" "forgot" "forgotten" ;
forgive_V = irregV "forgive" "forgave" "forgiven" ;
forsake_V = irregV "forsake" "forsook" "forsaken" ;
freeze_V = irregV "freeze" "froze" "frozen" ;
get_V = irregDuplV "get" "got" "gotten" ;
give_V = irregV "give" "gave" "given" ;
go_V = mk5V "go" "goes" "went" "gone" "going" ;
grind_V = irregV "grind" "ground" "ground" ;
grow_V = irregV "grow" "grew" "grown" ;
hang_V = irregV "hang" "hung" "hung" ;
have_V = mk5V "have" "has" "had" "had" "having" ;
hear_V = irregV "hear" "heard" "heard" ;
hide_V = irregV "hide" "hid" "hidden" ;
hit_V = irregDuplV "hit" "hit" "hit" ;
hold_V = irregV "hold" "held" "held" ;
hurt_V = irregV "hurt" "hurt" "hurt" ;
keep_V = irregV "keep" "kept" "kept" ;
kneel_V = irregV "kneel" "knelt" "knelt" ;
knit_V = irregDuplV "knit" "knit" "knit" ;
know_V = irregV "know" "knew" "know" ;
lay_V = irregV "lay" "laid" "laid" ;
lead_V = irregV "lead" "led" "led" ;
leap_V = irregV "leap" (variants {"leaped" ; "lept"}) (variants {"leaped" ; "lept"}) ;
learn_V = irregV "learn" (variants {"learned" ; "learnt"}) (variants {"learned" ; "learnt"}) ;
leave_V = irregV "leave" "left" "left" ;
lend_V = irregV "lend" "lent" "lent" ;
let_V = irregDuplV "let" "let" "let" ;
lie_V = irregV "lie" "lay" "lain" ;
light_V = irregV "light" (variants {"lighted" ; "lit"}) "lighted" ;
lose_V = irregV "lose" "lost" "lost" ;
make_V = irregV "make" "made" "made" ;
mean_V = irregV "mean" "meant" "meant" ;
meet_V = irregV "meet" "met" "met" ;
misspell_V = irregV "misspell" (variants {"misspelled" ; "misspelt"}) (variants {"misspelled" ; "misspelt"}) ;
mistake_V = irregV "mistake" "mistook" "mistaken" ;
mow_V = irregV "mow" "mowed" (variants {"mowed" ; "mown"}) ;
overcome_V = irregV "overcome" "overcame" "overcome" ;
overdo_V = mk5V "overdo" "overdoes" "overdid" "overdone" "overdoing" ;
overtake_V = irregV "overtake" "overtook" "overtaken" ;
overthrow_V = irregV "overthrow" "overthrew" "overthrown" ;
pay_V = irregV "pay" "paid" "paid" ;
plead_V = irregV "plead" "pled" "pled" ;
prove_V = irregV "prove" "proved" (variants {"proved" ; "proven"}) ;
put_V = irregDuplV "put" "put" "put" ;
quit_V = irregDuplV "quit" "quit" "quit" ;
read_V = irregV "read" "read" "read" ;
rid_V = irregDuplV "rid" "rid" "rid" ;
ride_V = irregV "ride" "rode" "ridden" ;
ring_V = irregV "ring" "rang" "rung" ;
rise_V = irregV "rise" "rose" "risen" ;
run_V = irregDuplV "run" "ran" "run" ;
saw_V = irregV "saw" "sawed" (variants {"sawed" ; "sawn"}) ;
say_V = irregV "say" "said" "said" ;
see_V = irregV "see" "saw" "seen" ;
seek_V = irregV "seek" "sought" "sought" ;
sell_V = irregV "sell" "sold" "sold" ;
send_V = irregV "send" "sent" "sent" ;
set_V = irregDuplV "set" "set" "set" ;
sew_V = irregV "sew" "sewed" (variants {"sewed" ; "sewn"}) ;
shake_V = irregV "shake" "shook" "shaken" ;
shave_V = irregV "shave" "shaved" (variants {"shaved" ; "shaven"}) ;
shear_V = irregV "shear" "shore" "shorn" ;
shed_V = irregDuplV "shed" "shed" "shed" ;
shine_V = irregV "shine" "shone" "shone" ;
shoe_V = irregV "shoe" "shoed" (variants {"shoed" ; "shod"}) ;
shoot_V = irregV "shoot" "shot" "shot" ;
show_V = irregV "show" "showed" (variants {"showed" ; "shown"}) ;
shrink_V = irregV "shrink" "shrank" "shrunk" ;
shut_V = irregDuplV "shut" "shut" "shut" ;
sing_V = irregV "sing" "sang" "sung" ;
sink_V = irregV "sink" "sank" "sunk" ;
sit_V = irregDuplV "sit" "sat" "sat" ;
sleep_V = irregV "sleep" "slept" "slept" ;
slay_V = irregV "slay" "slew" "slain" ;
slide_V = irregV "slide" "slid" "slid" ;
sling_V = irregV "sling" "slung" "slung" ;
slit_V = irregDuplV "slit" "slit" "slit" ;
smite_V = irregV "smite" "smote" "smitten" ;
sow_V = irregV "sow" "sowed" (variants {"sowed" ; "sown"}) ;
speak_V = irregV "speak" "spoke" "spoken" ;
speed_V = irregV "speed" "sped" "sped" ;
spend_V = irregV "spend" "spent" "spent" ;
spill_V = irregV "spill" (variants {"spilled" ; "spilt"}) (variants {"spilled" ; "spilt"}) ;
spin_V = irregDuplV "spin" "spun" "spun" ;
spit_V = irregDuplV "spit" (variants {"spit" ; "spat"}) "spit" ;
split_V = irregDuplV "split" "split" "split" ;
spread_V = irregV "spread" "spread" "spread" ;
spring_V = irregV "spring" (variants {"sprang" ; "sprung"}) "sprung" ;
stand_V = irregV "stand" "stood" "stood" ;
steal_V = irregV "steal" "stole" "stolen" ;
stick_V = irregV "stick" "stuck" "stuck" ;
sting_V = irregV "sting" "stung" "stung" ;
stink_V = irregV "stink" "stank" "stunk" ;
stride_V = irregV "stride" "strod" "stridden" ;
strike_V = irregV "strike" "struck" "struck" ;
string_V = irregV "string" "strung" "strung" ;
strive_V = irregV "strive" "strove" "striven" ;
swear_V = irregV "swear" "swore" "sworn" ;
sweep_V = irregV "sweep" "swept" "swept" ;
swell_V = irregV "swell" "swelled" (variants {"swelled" ; "swollen"}) ;
swim_V = irregDuplV "swim" "swam" "swum" ;
swing_V = irregV "swing" "swung" "swung" ;
take_V = irregV "take" "took" "taken" ;
teach_V = irregV "teach" "taught" "taught" ;
tear_V = irregV "tear" "tore" "torn" ;
tell_V = irregV "tell" "told" "told" ;
think_V = irregV "think" "thought" "thought" ;
thrive_V = irregV "thrive" (variants {"thrived" ; "throve"}) "thrived" ;
throw_V = irregV "throw" "threw" "thrown" ;
thrust_V = irregV "thrust" "thrust" "thrust" ;
tread_V = irregV "tread" "trod" "trodden" ;
understand_V = irregV "understand" "understood" "understood" ;
uphold_V = irregV "uphold" "upheld" "upheld" ;
upset_V = irregDuplV "upset" "upset" "upset" ;
wake_V = irregV "wake" "woke" "woken" ;
wear_V = irregV "wear" "wore" "worn" ;
weave_V = irregV "weave" (variants {"weaved" ; "wove"}) (variants {"weaved" ; "woven"}) ;
wed_V = irregDuplV "wed" "wed" "wed" ;
weep_V = irregV "weep" "wept" "wept" ;
wind_V = irregV "wind" "wound" "wound" ;
win_V = irregDuplV "win" "won" "won" ;
withhold_V = irregV "withhold" "withheld" "withheld" ;
withstand_V = irregV "withstand" "withstood" "withstood" ;
wring_V = irregV "wring" "wrung" "wrung" ;
write_V = irregV "write" "wrote" "written" ;
}

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abstract IrregEngAbs = Cat ** {
fun
awake_V : V ;
bear_V : V ;
beat_V : V ;
become_V : V ;
begin_V : V ;
bend_V : V ;
beset_V : V ;
bet_V : V ;
bid_V : V ;
bind_V : V ;
bite_V : V ;
bleed_V : V ;
blow_V : V ;
break_V : V ;
breed_V : V ;
bring_V : V ;
broadcast_V : V ;
build_V : V ;
burn_V : V ;
burst_V : V ;
buy_V : V ;
cast_V : V ;
catch_V : V ;
choose_V : V ;
cling_V : V ;
come_V : V ;
cost_V : V ;
creep_V : V ;
cut_V : V ;
deal_V : V ;
dig_V : V ;
dive_V : V ;
do_V : V ;
draw_V : V ;
dream_V : V ;
drive_V : V ;
drink_V : V ;
eat_V : V ;
fall_V : V ;
feed_V : V ;
feel_V : V ;
fight_V : V ;
find_V : V ;
fit_V : V ;
flee_V : V ;
fling_V : V ;
fly_V : V ;
forbid_V : V ;
forget_V : V ;
forgive_V : V ;
forsake_V : V ;
freeze_V : V ;
get_V : V ;
give_V : V ;
go_V : V ;
grind_V : V ;
grow_V : V ;
hang_V : V ;
have_V : V ;
hear_V : V ;
hide_V : V ;
hit_V : V ;
hold_V : V ;
hurt_V : V ;
keep_V : V ;
kneel_V : V ;
knit_V : V ;
know_V : V ;
lay_V : V ;
lead_V : V ;
leap_V : V ;
learn_V : V ;
leave_V : V ;
lend_V : V ;
let_V : V ;
lie_V : V ;
light_V : V ;
lose_V : V ;
make_V : V ;
mean_V : V ;
meet_V : V ;
misspell_V : V ;
mistake_V : V ;
mow_V : V ;
overcome_V : V ;
overdo_V : V ;
overtake_V : V ;
overthrow_V : V ;
pay_V : V ;
plead_V : V ;
prove_V : V ;
put_V : V ;
quit_V : V ;
read_V : V ;
rid_V : V ;
ride_V : V ;
ring_V : V ;
rise_V : V ;
run_V : V ;
saw_V : V ;
say_V : V ;
see_V : V ;
seek_V : V ;
sell_V : V ;
send_V : V ;
set_V : V ;
sew_V : V ;
shake_V : V ;
shave_V : V ;
shear_V : V ;
shed_V : V ;
shine_V : V ;
shoe_V : V ;
shoot_V : V ;
show_V : V ;
shrink_V : V ;
shut_V : V ;
sing_V : V ;
sink_V : V ;
sit_V : V ;
sleep_V : V ;
slay_V : V ;
slide_V : V ;
sling_V : V ;
slit_V : V ;
smite_V : V ;
sow_V : V ;
speak_V : V ;
speed_V : V ;
spend_V : V ;
spill_V : V ;
spin_V : V ;
spit_V : V ;
split_V : V ;
spread_V : V ;
spring_V : V ;
stand_V : V ;
steal_V : V ;
stick_V : V ;
sting_V : V ;
stink_V : V ;
stride_V : V ;
strike_V : V ;
string_V : V ;
strive_V : V ;
swear_V : V ;
sweep_V : V ;
swell_V : V ;
swim_V : V ;
swing_V : V ;
take_V : V ;
teach_V : V ;
tear_V : V ;
tell_V : V ;
think_V : V ;
thrive_V : V ;
throw_V : V ;
thrust_V : V ;
tread_V : V ;
understand_V : V ;
uphold_V : V ;
upset_V : V ;
wake_V : V ;
wear_V : V ;
weave_V : V ;
wed_V : V ;
weep_V : V ;
wind_V : V ;
win_V : V ;
withhold_V : V ;
withstand_V : V ;
wring_V : V ;
write_V : V ;
}

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--# -path=.:abstract:../common:prelude
concrete LangEng of Lang =
GrammarEng,
LexiconEng
** {
flags startcat = Phr ; unlexer = text ; lexer = text ;
} ;

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--# -path=.:prelude
concrete LexiconEng of Lexicon = CatEng **
open ParadigmsEng, IrregEng, Prelude in {
flags
optimize=values ;
lin
airplane_N = regN "airplane" ;
answer_V2S = mkV2S (regV "answer") toP ;
apartment_N = regN "apartment" ;
apple_N = regN "apple" ;
art_N = regN "art" ;
ask_V2Q = mkV2Q (regV "ask") noPrep ;
baby_N = regN "baby" ;
bad_A = mkADeg "bad" "worse" "worst" "badly" ;
bank_N = regN "bank" ;
beautiful_A = compoundADeg (regA "beautiful") ;
become_VA = mkVA (irregV "become" "became" "become") ;
beer_N = regN "beer" ;
beg_V2V = mkV2V (regDuplV "beg") noPrep toP ;
big_A = duplADeg "big" ;
bike_N = regN "bike" ;
bird_N = regN "bird" ;
black_A = regADeg "black" ;
blue_A = regADeg "blue" ;
boat_N = regN "boat" ;
book_N = regN "book" ;
boot_N = regN "boot" ;
boss_N = regN "boss" ;
boy_N = regN "boy" ;
bread_N = regN "bread" ;
break_V2 = dirV2 (irregV "break" "broke" "broken") ;
broad_A = regADeg "broad" ;
brother_N2 = regN2 "brother" ;
brown_A = regADeg "brown" ;
butter_N = regN "butter" ;
buy_V2 = dirV2 (irregV "buy" "bought" "bought") ;
camera_N = regN "camera" ;
cap_N = regN "cap" ;
car_N = regN "car" ;
carpet_N = regN "carpet" ;
cat_N = regN "cat" ;
ceiling_N = regN "ceiling" ;
chair_N = regN "chair" ;
cheese_N = regN "cheese" ;
child_N = mk2N "child" "children" ;
church_N = regN "church" ;
city_N = regN "city" ;
clean_A = regADeg "clean" ;
clever_A = regADeg "clever" ;
close_V2 = dirV2 (regV "close") ;
coat_N = regN "coat" ;
cold_A = regADeg "cold" ;
come_V = (irregV "come" "came" "come") ;
computer_N = regN "computer" ;
country_N = regN "country" ;
cousin_N = regN "cousin" ;
cow_N = regN "cow" ;
die_V = (regV "die") ;
dirty_A = regADeg "dirty" ;
distance_N3 = mkN3 (regN "distance") fromP toP ;
doctor_N = regN "doctor" ;
dog_N = regN "dog" ;
door_N = regN "door" ;
drink_V2 = dirV2 (irregV "drink" "drank" "drunk") ;
easy_A2V = mkA2V (regA "easy") forP ;
eat_V2 = dirV2 (irregV "eat" "ate" "eaten") ;
empty_A = regADeg "empty" ;
enemy_N = regN "enemy" ;
factory_N = regN "factory" ;
father_N2 = regN2 "father" ;
fear_VS = mkVS (regV "fear") ;
find_V2 = dirV2 (irregV "find" "found" "found") ;
fish_N = mk2N "fish" "fish" ;
floor_N = regN "floor" ;
forget_V2 = dirV2 (irregDuplV "forget" "forgot" "forgotten") ;
fridge_N = regN "fridge" ;
friend_N = regN "friend" ;
fruit_N = regN "fruit" ;
fun_AV = mkAV (regA "fun") ;
garden_N = regN "garden" ;
girl_N = regN "girl" ;
glove_N = regN "glove" ;
gold_N = regN "gold" ;
good_A = mkADeg "good" "better" "best" "well" ;
go_V = mk5V "go" "goes" "went" "gone" "going" ;
green_A = regADeg "green" ;
harbour_N = regN "harbour" ;
hate_V2 = dirV2 (regV "hate") ;
hat_N = regN "hat" ;
have_V2 = dirV2 (mk5V "have" "has" "had" "had" "having") ;
hear_V2 = dirV2 (irregV "hear" "heard" "heard") ;
hill_N = regN "hill" ;
hope_VS = mkVS (regV "hope") ;
horse_N = regN "horse" ;
hot_A = duplADeg "hot" ;
house_N = regN "house" ;
important_A = compoundADeg (regA "important") ;
industry_N = regN "industry" ;
iron_N = regN "iron" ;
king_N = regN "king" ;
know_V2 = dirV2 (irregV "know" "knew" "known") ;
lake_N = regN "lake" ;
lamp_N = regN "lamp" ;
learn_V2 = dirV2 (regV "learn") ;
leather_N = regN "leather" ;
leave_V2 = dirV2 (irregV "leave" "left" "left") ;
like_V2 = dirV2 (regV "like") ;
listen_V2 = prepV2 (regV "listen") toP ;
live_V = (regV "live") ;
long_A = regADeg "long" ;
lose_V2 = dirV2 (irregV "lose" "lost" "lost") ;
love_N = regN "love" ;
love_V2 = dirV2 (regV "love") ;
man_N = mk2N "man" "men" ;
married_A2 = mkA2 (regA "married") toP ;
meat_N = regN "meat" ;
milk_N = regN "milk" ;
moon_N = regN "moon" ;
mother_N2 = regN2 "mother" ;
mountain_N = regN "mountain" ;
music_N = regN "music" ;
narrow_A = regADeg "narrow" ;
new_A = regADeg "new" ;
newspaper_N = regN "newspaper" ;
oil_N = regN "oil" ;
old_A = regADeg "old" ;
open_V2 = dirV2 (regV "open") ;
paint_V2A = mkV2A (regV "paint") noPrep ;
paper_N = regN "paper" ;
paris_PN = regPN "Paris" ;
peace_N = regN "peace" ;
pen_N = regN "pen" ;
planet_N = regN "planet" ;
plastic_N = regN "plastic" ;
play_V2 = dirV2 (regV "play") ;
policeman_N = regN "policeman" ;
priest_N = regN "priest" ;
probable_AS = mkAS (regA "probable") ;
queen_N = regN "queen" ;
radio_N = regN "radio" ;
rain_V0 = mkV0 (regV "rain") ;
read_V2 = dirV2 (irregV "read" "read" "read") ;
red_A = duplADeg "red" ;
religion_N = regN "religion" ;
restaurant_N = regN "restaurant" ;
river_N = regN "river" ;
rock_N = regN "rock" ;
roof_N = regN "roof" ;
rubber_N = regN "rubber" ;
run_V = (irregDuplV "run" "ran" "run") ;
say_VS = mkVS (irregV "say" "said" "said") ;
school_N = regN "school" ;
science_N = regN "science" ;
sea_N = regN "sea" ;
seek_V2 = dirV2 (irregV "seek" "sought" "sought") ;
see_V2 = dirV2 (irregV "see" "saw" "seen") ;
sell_V3 = dirV3 (irregV "sell" "sold" "sold") toP ;
send_V3 = dirV3 (irregV "send" "sent" "sent") toP ;
sheep_N = mk2N "sheep" "sheep" ;
ship_N = regN "ship" ;
shirt_N = regN "shirt" ;
shoe_N = regN "shoe" ;
shop_N = regN "shop" ;
short_A = regADeg "short" ;
silver_N = regN "silver" ;
sister_N = regN "sister" ;
sleep_V = (irregV "sleep" "slept" "slept") ;
small_A = regADeg "small" ;
snake_N = regN "snake" ;
sock_N = regN "sock" ;
speak_V2 = dirV2 (irregV "speak" "spoke" "spoken") ;
star_N = regN "star" ;
steel_N = regN "steel" ;
stone_N = regN "stone" ;
stove_N = regN "stove" ;
student_N = regN "student" ;
stupid_A = regADeg "stupid" ;
sun_N = regN "sun" ;
switch8off_V2 = dirV2 (partV (regV "switch") "off") ;
switch8on_V2 = dirV2 (partV (regV "switch") "on") ;
table_N = regN "table" ;
talk_V3 = mkV3 (regV "talk") toP aboutP ;
teacher_N = regN "teacher" ;
teach_V2 = dirV2 (irregV "teach" "taught" "taught") ;
television_N = regN "television" ;
thick_A = regADeg "thick" ;
thin_A = duplADeg "thin" ;
train_N = regN "train" ;
travel_V = (regDuplV "travel") ;
tree_N = regN "tree" ;
---- trousers_N = regN "trousers" ;
ugly_A = regADeg "ugly" ;
understand_V2 = dirV2 (irregV "understand" "understood" "understood") ;
university_N = regN "university" ;
village_N = regN "village" ;
wait_V2 = prepV2 (regV "wait") forP ;
walk_V = (regV "walk") ;
warm_A = regADeg "warm" ;
war_N = regN "war" ;
watch_V2 = dirV2 (regV "watch") ;
water_N = regN "water" ;
white_A = regADeg "white" ;
window_N = regN "window" ;
wine_N = regN "wine" ;
win_V2 = dirV2 (irregDuplV "win" "won" "won") ;
woman_N = mk2N "woman" "women" ;
wonder_VQ = mkVQ (regV "wonder") ;
wood_N = regN "wood" ;
write_V2 = dirV2 (irregV "write" "wrote" "written") ;
yellow_A = regADeg "yellow" ;
young_A = regADeg "young" ;
do_V2 = dirV2 (mk5V "do" "does" "did" "done" "doing") ;
now_Adv = mkAdv "now" ;
already_Adv = mkAdv "already" ;
song_N = regN "song" ;
add_V3 = dirV3 (regV "add") toP ;
number_N = regN "number" ;
put_V2 = prepV2 (irregDuplV "put" "put" "put") noPrep ;
stop_V = regDuplV "stop" ;
jump_V = regV "jump" ;
left_Ord = ss "left" ;
right_Ord = ss "right" ;
far_Adv = mkAdv "far" ;
correct_A = (regA "correct") ;
dry_A = regA "dry" ;
dull_A = regA "dull" ;
full_A = regA "full" ;
heavy_A = regA "heavy" ;
near_A = regA "near" ;
rotten_A = (regA "rotten") ;
round_A = regA "round" ;
sharp_A = regA "sharp" ;
smooth_A = regA "smooth" ;
straight_A = regA "straight" ;
wet_A = regA "wet" ; ----
wide_A = regA "wide" ;
animal_N = regN "animal" ;
ashes_N = regN "ash" ; -- FIXME: plural only?
back_N = regN "back" ;
bark_N = regN "bark" ;
belly_N = regN "belly" ;
blood_N = regN "blood" ;
bone_N = regN "bone" ;
breast_N = regN "breast" ;
cloud_N = regN "cloud" ;
day_N = regN "day" ;
dust_N = regN "dust" ;
ear_N = regN "ear" ;
earth_N = regN "earth" ;
egg_N = regN "egg" ;
eye_N = regN "eye" ;
fat_N = regN "fat" ;
feather_N = regN "feather" ;
fingernail_N = regN "fingernail" ;
fire_N = regN "fire" ;
flower_N = regN "flower" ;
fog_N = regN "fog" ;
foot_N = mk2N "foot" "feet" ;
forest_N = regN "forest" ;
grass_N = regN "grass" ;
guts_N = regN "gut" ; -- FIXME: no singular
hair_N = regN "hair" ;
hand_N = regN "hand" ;
head_N = regN "head" ;
heart_N = regN "heart" ;
horn_N = regN "horn" ;
husband_N = genderN masculine (regN "husband") ;
ice_N = regN "ice" ;
knee_N = regN "knee" ;
leaf_N = mk2N "leaf" "leaves" ;
leg_N = regN "leg" ;
liver_N = regN "liver" ;
louse_N = mk2N "louse" "lice" ;
mouth_N = regN "mouth" ;
name_N = regN "name" ;
neck_N = regN "neck" ;
night_N = regN "night" ;
nose_N = regN "nose" ;
person_N = genderN human (regN "person") ;
rain_N = regN "rain" ;
road_N = regN "road" ;
root_N = regN "root" ;
rope_N = regN "rope" ;
salt_N = regN "salt" ;
sand_N = regN "sand" ;
seed_N = regN "seed" ;
skin_N = regN "skin" ;
sky_N = regN "sky" ;
smoke_N = regN "smoke" ;
snow_N = regN "snow" ;
stick_N = regN "stick" ;
tail_N = regN "tail" ;
tongue_N = regN "tongue" ;
tooth_N = mk2N "tooth" "teeth" ;
wife_N = genderN feminine (mk2N "wife" "wives") ;
wind_N = regN "wind" ;
wing_N = regN "wing" ;
worm_N = regN "worm" ;
year_N = regN "year" ;
blow_V = IrregEng.blow_V ;
breathe_V = dirV2 (regV "breathe") ;
burn_V = IrregEng.burn_V ;
dig_V = IrregEng.dig_V ;
fall_V = IrregEng.fall_V ;
float_V = regV "float" ;
flow_V = regV "flow" ;
fly_V = IrregEng.fly_V ;
freeze_V = IrregEng.freeze_V ;
give_V3 = dirV3 give_V toP ;
laugh_V = regV "laugh" ;
lie_V = IrregEng.lie_V ;
play_V = regV "play" ;
sew_V = IrregEng.sew_V ;
sing_V = IrregEng.sing_V ;
sit_V = IrregEng.sit_V ;
smell_V = regV "smell" ;
spit_V = IrregEng.spit_V ;
stand_V = IrregEng.stand_V ;
swell_V = IrregEng.swell_V ;
swim_V = IrregEng.swim_V ;
think_V = IrregEng.think_V ;
turn_V = regV "turn" ;
vomit_V = regV "vomit" ;
bite_V2 = dirV2 IrregEng.bite_V ;
count_V2 = dirV2 (regV "count") ;
cut_V2 = dirV2 IrregEng.cut_V ;
fear_V2 = dirV2 (regV "fear") ;
fight_V2 = dirV2 fight_V ;
hit_V2 = dirV2 hit_V ;
hold_V2 = dirV2 hold_V ;
hunt_V2 = dirV2 (regV "hunt") ;
kill_V2 = dirV2 (regV "kill") ;
pull_V2 = dirV2 (regV "pull") ;
push_V2 = dirV2 (regV "push") ;
rub_V2 = dirV2 (regDuplV "rub") ;
scratch_V2 = dirV2 (regV "scratch") ;
split_V2 = dirV2 split_V ;
squeeze_V2 = dirV2 (regV "squeeze") ;
stab_V2 = dirV2 (regDuplV "stab") ;
suck_V2 = dirV2 (regV "suck") ;
throw_V2 = dirV2 throw_V ;
tie_V2 = dirV2 (regV "tie") ;
wash_V2 = dirV2 (regV "wash") ;
wipe_V2 = dirV2 (regV "wipe") ;
-- other_A = regA "other" ;
grammar_N = regN "grammar" ;
language_N = regN "language" ;
rule_N = regN "rule" ;
-- added 4/6/2007
john_PN = regPN "John" ;
question_N = regN "question" ;
ready_A = regA "ready" ;
reason_N = regN "reason" ;
today_Adv = mkAdv "today" ;
uncertain_A = regA "uncertain" ;
oper
aboutP = mkPrep "about" ;
atP = mkPrep "at" ;
forP = mkPrep "for" ;
fromP = mkPrep "from" ;
inP = mkPrep "in" ;
onP = mkPrep "on" ;
toP = mkPrep "to" ;
} ;

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--# -path=.:../../prelude
--1 A Simple English Resource Morphology
--
-- Aarne Ranta 2002 -- 2005
--
-- This resource morphology contains definitions needed in the resource
-- syntax. To build a lexicon, it is better to use $ParadigmsEng$, which
-- gives a higher-level access to this module.
resource MorphoEng = ResEng ** open Prelude, (Predef=Predef) in {
flags optimize=all ;
--2 Phonology
--
-- To regulate the use of endings for both nouns, adjectives, and verbs:
oper
y2ie : Str -> Str -> Str = \fly,s ->
let y = last (init fly) in
case y of {
"a" => fly + s ;
"e" => fly + s ;
"o" => fly + s ;
"u" => fly + s ;
_ => init fly + "ie" + s
} ;
--2 Nouns
--
-- For conciseness and abstraction, we define a worst-case macro for
-- noun inflection. It is used for defining special case that
-- only need one string as argument.
oper
CommonNoun : Type = {s : Number => Case => Str} ;
nounGen : Str -> CommonNoun = \dog -> case last dog of {
"y" => nounY "dog" ;
"s" => nounS (init "dog") ;
_ => nounReg "dog"
} ;
-- These are auxiliaries to $nounGen$.
nounReg : Str -> CommonNoun = \dog ->
mkNoun dog (dog + "s") (dog + "'s") (dog + "s'");
nounS : Str -> CommonNoun = \kiss ->
mkNoun kiss (kiss + "es") (kiss + "'s") (kiss + "es'") ;
nounY : Str -> CommonNoun = \fl ->
mkNoun (fl + "y") (fl + "ies") (fl + "y's") (fl + "ies'") ;
--3 Proper names
--
-- Regular proper names are inflected with "'s" in the genitive.
nameReg : Str -> Gender -> {s : Case => Str} = \john,g ->
{s = table {Gen => john + "'s" ; _ => john} ; g = g} ;
--2 Determiners
mkDeterminer : Number -> Str -> {s : Str ; n : Number} = \n,s ->
{s = s ; n = n} ;
--2 Pronouns
--
-- Here we define personal pronouns.
--
-- We record the form "mine" and the gender for later use.
Pronoun : Type =
{s : Case => Str ; a : Agr ; g : Gender} ;
mkPronoun : (_,_,_,_ : Str) -> Number -> Person -> Gender -> Pronoun =
\I,me,my,mine,n,p,g ->
{s = table {Nom => I ; Acc => me ; Gen => my} ;
a = {n = n ; p = p} ;
g = g
} ;
human : Gender = Masc ; --- doesn't matter
pronI = mkPronoun "I" "me" "my" "mine" Sg P1 human ;
pronYouSg = mkPronoun "you" "you" "your" "yours" Sg P2 human ; -- verb agr OK
pronHe = mkPronoun "he" "him" "his" "his" Sg P3 Masc ;
pronShe = mkPronoun "she" "her" "her" "hers" Sg P3 Fem ;
pronIt = mkPronoun "it" "it" "its" "it" Sg P3 Neutr ;
pronWe = mkPronoun "we" "us" "our" "ours" Pl P1 human ;
pronYouPl = mkPronoun "you" "you" "your" "yours" Pl P2 human ;
pronThey = mkPronoun "they" "them" "their" "theirs" Pl P3 human ; ---
--2 Adjectives
--
-- To form the adjectival and the adverbial forms, two strings are needed
-- in the worst case. (First without degrees.)
Adjective = {s : AForm => Str} ;
-- However, most adjectives can be inflected using the final character.
-- N.B. this is not correct for "shy", but $mkAdjective$ has to be used.
regAdjective : Str -> Adjective = \free ->
let
e = last free ;
fre = init free ;
freely = case e of {
"y" => fre + "ily" ;
_ => free + "ly"
} ;
fre = case e of {
"e" => fre ;
"y" => fre + "i" ;
_ => free
}
in
mkAdjective free (fre + "er") (fre + "est") freely ;
-- Many adjectives are 'inflected' by adding a comparison word.
adjDegrLong : Str -> Adjective = \ridiculous ->
mkAdjective
ridiculous
("more" ++ ridiculous)
("most" ++ ridiculous)
((regAdjective ridiculous).s ! AAdv) ;
--3 Verbs
--
-- The worst case needs five forms. (The verb "be" is treated separately.)
mkVerb4 : (_,_,_,_: Str) -> Verb = \go,goes,went,gone ->
let going = case last go of {
"e" => init go + "ing" ;
_ => go + "ing"
}
in
mkVerb go goes went gone going ;
-- This is what we use to derive the irregular forms in almost all cases
mkVerbIrreg : (_,_,_ : Str) -> Verb = \bite,bit,bitten ->
let bites = case last bite of {
"y" => y2ie bite "s" ;
"s" => init bite + "es" ;
_ => bite + "s"
}
in mkVerb4 bite bites bit bitten ;
-- This is used to derive regular forms.
mkVerbReg : Str -> Verb = \soak ->
let
soaks = case last soak of {
"y" => y2ie soak "s" ;
"s" => init soak + "es" ;
_ => soak + "s"
} ;
soaked = case last soak of {
"e" => init soak + "s" ;
_ => soak + "ed"
}
in
mkVerb4 soak soaks soaked soaked ;
verbGen : Str -> Verb = \kill -> case last kill of {
"y" => verbP3y (init kill) ;
"e" => verbP3e (init kill) ;
"s" => verbP3s (init kill) ;
_ => regVerbP3 kill
} ;
-- These are just auxiliary to $verbGen$.
regVerbP3 : Str -> Verb = \walk ->
mkVerbIrreg walk (walk + "ed") (walk + "ed") ;
verbP3s : Str -> Verb = \kiss ->
mkVerb4 kiss (kiss + "es") (kiss + "ed") (kiss + "ed") ;
verbP3e : Str -> Verb = \love ->
mkVerb4 love (love + "s") (love + "d") (love + "d") ;
verbP3y : Str -> Verb = \cr ->
mkVerb4 (cr + "y") (cr + "ies") (cr + "ied") (cr + "ied") ;
--- The particle always appears right after the verb.
verbPart : Verb -> Str -> Verb = \v,p ->
{s = \\f => v.s ! f ++ p ; isRefl = v.isRefl} ;
verbNoPart : Verb -> Verb = \v -> verbPart v [] ;
} ;

94
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concrete NounEng of Noun = CatEng ** open ResEng, Prelude in {
flags optimize=all_subs ;
lin
DetCN det cn = {
s = \\c => det.s ++ cn.s ! det.n ! c ;
a = agrP3 det.n
} ;
UsePN pn = pn ** {a = agrP3 Sg} ;
UsePron p = p ;
PredetNP pred np = {
s = \\c => pred.s ++ np.s ! c ;
a = np.a
} ;
PPartNP np v2 = {
s = \\c => np.s ! c ++ v2.s ! VPPart ;
a = np.a
} ;
AdvNP np adv = {
s = \\c => np.s ! c ++ adv.s ;
a = np.a
} ;
DetSg quant ord = {
s = quant.s ! Sg ++ ord.s ;
n = Sg
} ;
DetPl quant num ord = {
s = quant.s ! num.n ++ num.s ++ ord.s ;
n = num.n
} ;
--- SgQuant quant = {s = quant.s ! Sg} ; DEPRECATED
--- PlQuant quant = {s = quant.s ! Pl} ;
PossPron p = {s = \\_ => p.s ! Gen} ;
NoNum = {s = []; n = Pl } ;
NoOrd = {s = []} ;
NumDigits n = {s = n.s ! NCard ; n = n.n} ;
NumInt n = {s = n.s ; n = Pl} ;
--table (Predef.Ints 1 * Predef.Ints 9) {
-- <0,1> => Sg ;
-- _ => Pl -- DEPRECATED
-- } ! <1,2> ---- parser bug (AR 2/6/2007)
-- ---- <n.size,n.last>
-- } ;
OrdInt n = {s = n.s ++ "th"} ; --- DEPRECATED
OrdDigits n = {s = n.s ! NOrd} ;
NumNumeral numeral = {s = numeral.s ! NCard; n = numeral.n} ;
OrdNumeral numeral = {s = numeral.s ! NOrd} ;
AdNum adn num = {s = adn.s ++ num.s; n = num.n } ;
OrdSuperl a = {s = a.s ! AAdj Superl} ;
DefArt = {s = \\_ => artDef} ;
IndefArt = {
s = table {
Sg => artIndef ;
Pl => []
}
} ;
MassDet = {s = \\_ => []} ;
UseN n = n ;
UseN2 n = n ;
UseN3 n = n ;
ComplN2 f x = {s = \\n,c => f.s ! n ! Nom ++ f.c2 ++ x.s ! c} ;
ComplN3 f x = {s = \\n,c => f.s ! n ! Nom ++ f.c2 ++ x.s ! c ; c2 = f.c3} ;
AdjCN ap cn = {
s = \\n,c => preOrPost ap.isPre (ap.s ! agrP3 n) (cn.s ! n ! c)
} ;
RelCN cn rs = {s = \\n,c => cn.s ! n ! c ++ rs.s ! {n = n ; p = P3}} ;
AdvCN cn ad = {s = \\n,c => cn.s ! n ! c ++ ad.s} ;
SentCN cn sc = {s = \\n,c => cn.s ! n ! c ++ sc.s} ;
ApposCN cn np = {s = \\n,c => cn.s ! n ! Nom ++ np.s ! c} ;
}

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concrete NumeralEng of Numeral = CatEng ** open ResEng in {
lincat
Digit = {s : DForm => CardOrd => Str} ;
Sub10 = {s : DForm => CardOrd => Str ; n : Number} ;
Sub100 = {s : CardOrd => Str ; n : Number} ;
Sub1000 = {s : CardOrd => Str ; n : Number} ;
Sub1000000 = {s : CardOrd => Str ; n : Number} ;
lin num x = x ;
lin n2 = let two = mkNum "two" "twelve" "twenty" "second" in
{s = \\f,c => case <f,c> of {
<teen,NOrd> => "twelfth" ;
_ => two.s ! f ! c
}
} ;
lin n3 = mkNum "three" "thirteen" "thirty" "third" ;
lin n4 = mkNum "four" "fourteen" "forty" "fourth" ;
lin n5 = mkNum "five" "fifteen" "fifty" "fifth" ;
lin n6 = regNum "six" ;
lin n7 = regNum "seven" ;
lin n8 = mkNum "eight" "eighteen" "eighty" "eighth" ;
lin n9 = mkNum "nine" "nineteen" "ninety" "ninth" ;
lin pot01 = mkNum "one" "eleven" "ten" "first" ** {n = Sg} ;
lin pot0 d = d ** {n = Pl} ;
lin pot110 = regCardOrd "ten" ** {n = Pl} ;
lin pot111 = regCardOrd "eleven" ** {n = Pl} ;
lin pot1to19 d = {s = d.s ! teen} ** {n = Pl} ;
lin pot0as1 n = {s = n.s ! unit} ** {n = n.n} ;
lin pot1 d = {s = d.s ! ten} ** {n = Pl} ;
lin pot1plus d e = {
s = \\c => d.s ! ten ! NCard ++ "-" ++ e.s ! unit ! c ; n = Pl} ;
lin pot1as2 n = n ;
lin pot2 d = {s = \\c => d.s ! unit ! NCard ++ mkCard c "hundred"} ** {n = Pl} ;
lin pot2plus d e = {
s = \\c => d.s ! unit ! NCard ++ "hundred" ++ "and" ++ e.s ! c ; n = Pl} ;
lin pot2as3 n = n ;
lin pot3 n = {
s = \\c => n.s ! NCard ++ mkCard c "thousand" ; n = Pl} ;
lin pot3plus n m = {
s = \\c => n.s ! NCard ++ "thousand" ++ m.s ! c ; n = Pl} ;
-- numerals as sequences of digits
lincat
Dig = TDigit ;
lin
IDig d = d ** {tail = T1} ;
IIDig d i = {
s = \\o => d.s ! NCard ++ commaIf i.tail ++ i.s ! o ;
n = Pl ;
tail = inc i.tail
} ;
D_0 = mkDig "0" ;
D_1 = mk3Dig "1" "1st" Sg ;
D_2 = mk2Dig "2" "2nd" ;
D_3 = mk2Dig "3" "3rd" ;
D_4 = mkDig "4" ;
D_5 = mkDig "5" ;
D_6 = mkDig "6" ;
D_7 = mkDig "7" ;
D_8 = mkDig "8" ;
D_9 = mkDig "9" ;
oper
commaIf : DTail -> Str = \t -> case t of {
T3 => "," ;
_ => []
} ;
inc : DTail -> DTail = \t -> case t of {
T1 => T2 ;
T2 => T3 ;
T3 => T1
} ;
mk2Dig : Str -> Str -> TDigit = \c,o -> mk3Dig c o Pl ;
mkDig : Str -> TDigit = \c -> mk2Dig c (c + "th") ;
mk3Dig : Str -> Str -> Number -> TDigit = \c,o,n -> {
s = table {NCard => c ; NOrd => o} ;
n = n
} ;
TDigit = {
n : Number ;
s : CardOrd => Str
} ;
}

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resource OverloadEng = Overload with (Grammar = GrammarEng) ;

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lib/resource/exper/english/ParadigmsEng.gf Normal file
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--# -path=.:../abstract:../../prelude:../common
--1 English Lexical Paradigms
--
-- Aarne Ranta 2003--2005
--
-- This is an API for the user of the resource grammar
-- for adding lexical items. It gives functions for forming
-- expressions of open categories: nouns, adjectives, verbs.
--
-- Closed categories (determiners, pronouns, conjunctions) are
-- accessed through the resource syntax API, $Structural.gf$.
--
-- The main difference with $MorphoEng.gf$ is that the types
-- referred to are compiled resource grammar types. We have moreover
-- had the design principle of always having existing forms, rather
-- than stems, as string arguments of the paradigms.
--
-- The structure of functions for each word class $C$ is the following:
-- first we give a handful of patterns that aim to cover all
-- regular cases. Then we give a worst-case function $mkC$, which serves as an
-- escape to construct the most irregular words of type $C$.
-- However, this function should only seldom be needed: we have a
-- separate module [``IrregEng`` ../../english/IrregEng.gf],
-- which covers irregular verbss.
resource ParadigmsEng = open
(Predef=Predef),
Prelude,
MorphoEng,
CatEng
in {
--2 Parameters
--
-- To abstract over gender names, we define the following identifiers.
oper
Gender : Type ;
human : Gender ;
nonhuman : Gender ;
masculine : Gender ;
-- To abstract over number names, we define the following.
Number : Type ;
singular : Number ;
plural : Number ;
-- To abstract over case names, we define the following.
Case : Type ;
nominative : Case ;
genitive : Case ;
-- Prepositions are used in many-argument functions for rection.
-- The resource category $Prep$ is used.
--2 Nouns
-- Nouns are constructed by the function $mkN$, which takes a varying
-- number of arguments.
mkN : overload {
-- The regular function captures the variants for nouns ending with
-- "s","sh","x","z" or "y": "kiss - kisses", "flash - flashes";
-- "fly - flies" (but "toy - toys"),
mkN : (flash : Str) -> N ;
-- In practice the worst case is to give singular and plural nominative.
mkN : (man,men : Str) -> N ;
-- The theoretical worst case: give all four forms.
mkN : (man,men,man's,men's : Str) -> N ;
--3 Compound nouns
--
-- A compound noun is an uninflected string attached to an inflected noun,
-- such as "baby boom", "chief executive officer".
mkN : Str -> N -> N
} ;
--3 Relational nouns
--
-- Relational nouns ("daughter of x") need a preposition.
mkN2 : N -> Prep -> N2 ;
-- The most common preposition is "of", and the following is a
-- shortcut for regular relational nouns with "of".
regN2 : Str -> N2 ;
-- Use the function $mkPrep$ or see the section on prepositions below to
-- form other prepositions.
--
-- Three-place relational nouns ("the connection from x to y") need two prepositions.
mkN3 : N -> Prep -> Prep -> N3 ;
--3 Proper names and noun phrases
--
-- Proper names, with a regular genitive, are formed from strings.
mkPN : overload {
mkPN : Str -> PN ;
-- Sometimes a common noun can be reused as a proper name, e.g. "Bank"
mkPN : N -> PN
} ;
--2 Adjectives
mkA : overload {
-- For regular adjectives, the adverbial and comparison forms are derived. This holds
-- even for cases with the variations "happy - happily - happier - happiest",
-- "free - freely - freer - freest", and "rude - rudest".
mkA : (happy : Str) -> A ;
-- However, the duplication of the final consonant cannot be predicted,
-- but a separate case is used to give the comparative
mkA : (fat,fatter : Str) -> A ;
-- As many as four forms may be needed.
mkA : (good,better,best,well : Str) -> A
} ;
-- To force comparison to be formed by "more - most",
-- the following function is used:
compoundA : A -> A ; -- -/more/most ridiculous
--3 Two-place adjectives
--
-- Two-place adjectives need a preposition for their second argument.
mkA2 : A -> Prep -> A2 ;
--2 Adverbs
-- Adverbs are not inflected. Most lexical ones have position
-- after the verb. Some can be preverbal (e.g. "always").
mkAdv : Str -> Adv ;
mkAdV : Str -> AdV ;
-- Adverbs modifying adjectives and sentences can also be formed.
mkAdA : Str -> AdA ;
--2 Prepositions
--
-- A preposition as used for rection in the lexicon, as well as to
-- build $PP$s in the resource API, just requires a string.
mkPrep : Str -> Prep ;
noPrep : Prep ;
-- (These two functions are synonyms.)
--2 Verbs
--
-- Verbs are constructed by the function $mkV$, which takes a varying
-- number of arguments.
mkV : overload {
-- The regular verb function recognizes the special cases where the last
-- character is "y" ("cry-cries" but "buy-buys") or a sibilant
-- ("kiss-"kisses", "jazz-jazzes", "rush-rushes", "munch - munches",
-- "fix - fixes").
mkV : (cry : Str) -> V ;
-- Give the present and past forms for regular verbs where
-- the last letter is duplicated in some forms,
-- e.g. "rip - ripped - ripping".
mkV : (stop, stopped : Str) -> V ;
-- There is an extensive list of irregular verbs in the module $IrregularEng$.
-- In practice, it is enough to give three forms,
-- e.g. "drink - drank - drunk".
mkV : (drink, drank, drunk : Str) -> V ;
-- Irregular verbs with duplicated consonant in the present participle.
mkV : (run, ran, run, running : Str) -> V ;
-- Except for "be", the worst case needs five forms: the infinitive and
-- the third person singular present, the past indicative, and the
-- past and present participles.
mkV : (go, goes, went, gone, going : Str) -> V
};
-- Verbs with a particle.
-- The particle, such as in "switch on", is given as a string.
partV : V -> Str -> V ;
-- Reflexive verbs.
-- By default, verbs are not reflexive; this function makes them that.
reflV : V -> V ;
--3 Two-place verbs
--
-- Two-place verbs need a preposition, except the special case with direct object.
-- (transitive verbs). Notice that a particle comes from the $V$.
mkV2 : overload {
mkV2 : V -> Prep -> V2 ; -- believe in
mkV2 : V -> V2 -- kill
};
--3 Three-place verbs
--
-- Three-place (ditransitive) verbs need two prepositions, of which
-- the first one or both can be absent.
mkV3 : V -> Prep -> Prep -> V3 ; -- speak, with, about
dirV3 : V -> Prep -> V3 ; -- give,_,to
dirdirV3 : V -> V3 ; -- give,_,_
--3 Other complement patterns
--
-- Verbs and adjectives can take complements such as sentences,
-- questions, verb phrases, and adjectives.
mkV0 : V -> V0 ;
mkVS : V -> VS ;
mkV2S : V -> Prep -> V2S ;
mkVV : V -> VV ;
mkV2V : V -> Prep -> Prep -> V2V ;
mkVA : V -> VA ;
mkV2A : V -> Prep -> V2A ;
mkVQ : V -> VQ ;
mkV2Q : V -> Prep -> V2Q ;
mkAS : A -> AS ;
mkA2S : A -> Prep -> A2S ;
mkAV : A -> AV ;
mkA2V : A -> Prep -> A2V ;
-- Notice: Categories $V0, AS, A2S, AV, A2V$ are just $A$.
-- $V0$ is just $V$; the second argument is treated as adverb.
V0 : Type ;
AS, A2S, AV, A2V : Type ;
--.
--2 Definitions of paradigms
--
-- The definitions should not bother the user of the API. So they are
-- hidden from the document.
Gender = MorphoEng.Gender ;
Number = MorphoEng.Number ;
Case = MorphoEng.Case ;
human = Masc ;
nonhuman = Neutr ;
masculine = Masc ;
feminine = Fem ;
singular = Sg ;
plural = Pl ;
nominative = Nom ;
genitive = Gen ;
Preposition : Type = Str ; -- obsolete
regN = \ray ->
let rays = add_s ray
in
mk2N ray rays ;
add_s : Str -> Str = \w -> case w of {
_ + ("io" | "oo") => w + "s" ; -- radio, bamboo
_ + ("s" | "z" | "x" | "sh" | "ch" | "o") => w + "es" ; -- bus, hero
_ + ("a" | "o" | "u" | "e") + "y" => w + "s" ; -- boy
x + "y" => x + "ies" ; -- fly
_ => w + "s" -- car
} ;
mk2N = \man,men ->
let mens = case last men of {
"s" => men + "'" ;
_ => men + "'s"
}
in
mk4N man men (man + "'s") mens ;
mk4N = \man,men,man's,men's ->
mkNoun man man's men men's ** {g = Neutr ; lock_N = <>} ;
genderN g man = {s = man.s ; g = g ; lock_N = <>} ;
compoundN s n = {s = \\x,y => s ++ n.s ! x ! y ; g=n.g ; lock_N = <>} ;
mkPN = overload {
mkPN : Str -> PN = regPN ;
mkPN : N -> PN = nounPN
} ;
mkN2 = \n,p -> n ** {lock_N2 = <> ; c2 = p.s} ;
regN2 n = mkN2 (regN n) (mkPrep "of") ;
mkN3 = \n,p,q -> n ** {lock_N3 = <> ; c2 = p.s ; c3 = q.s} ;
--3 Relational common noun phrases
--
-- In some cases, you may want to make a complex $CN$ into a
-- relational noun (e.g. "the old town hall of").
cnN2 : CN -> Prep -> N2 ;
cnN3 : CN -> Prep -> Prep -> N3 ;
-- This is obsolete.
cnN2 = \n,p -> n ** {lock_N2 = <> ; c2 = p.s} ;
cnN3 = \n,p,q -> n ** {lock_N3 = <> ; c2 = p.s ; c3 = q.s} ;
regPN n = regGenPN n human ;
regGenPN n g = nameReg n g ** {lock_PN = <>} ;
nounPN n = {s = n.s ! singular ; g = n.g ; lock_PN = <>} ;
mk2A a b = mkAdjective a a a b ** {lock_A = <>} ;
regA a = regADeg a ** {lock_A = <>} ;
mkA2 a p = a ** {c2 = p.s ; lock_A2 = <>} ;
ADeg = A ; ----
mkADeg a b c d = mkAdjective a b c d ** {lock_A = <>} ;
regADeg happy =
let
happ = init happy ;
y = last happy ;
happie = case y of {
"y" => happ + "ie" ;
"e" => happy ;
_ => happy + "e"
} ;
happily : Str = case happy of {
_ + "y" => happ + "ily" ;
_ + "ll" => happy + "y" ;
_ => happy + "ly"
} ;
in mkADeg happy (happie + "r") (happie + "st") happily ;
duplADeg fat =
mkADeg fat
(fat + last fat + "er") (fat + last fat + "est") (fat + "ly") ;
compoundADeg a =
let ad = (a.s ! AAdj Posit)
in mkADeg ad ("more" ++ ad) ("most" ++ ad) (a.s ! AAdv) ;
adegA a = a ;
mkAdv x = ss x ** {lock_Adv = <>} ;
mkAdV x = ss x ** {lock_AdV = <>} ;
mkAdA x = ss x ** {lock_AdA = <>} ;
mkPrep p = ss p ** {lock_Prep = <>} ;
noPrep = mkPrep [] ;
mk5V a b c d e = mkVerb a b c d e ** {s1 = [] ; lock_V = <>} ;
regV cry =
let
cr = init cry ;
y = last cry ;
cries = (regN cry).s ! Pl ! Nom ; -- !
crie = init cries ;
cried = case last crie of {
"e" => crie + "d" ;
_ => crie + "ed"
} ;
crying = case y of {
"e" => case last cr of {
"e" => cry + "ing" ;
_ => cr + "ing"
} ;
_ => cry + "ing"
}
in mk5V cry cries cried cried crying ;
reg2V fit fitted =
let fitt = Predef.tk 2 fitted ;
in mk5V fit (fit + "s") (fitt + "ed") (fitt + "ed") (fitt + "ing") ;
regDuplV fit =
case last fit of {
("a" | "e" | "i" | "o" | "u" | "y") =>
Predef.error (["final duplication makes no sense for"] ++ fit) ;
t =>
let fitt = fit + t in
mk5V fit (fit + "s") (fitt + "ed") (fitt + "ed") (fitt + "ing")
} ;
irregV x y z = let reg = (regV x).s in
mk5V x (reg ! VPres) y z (reg ! VPresPart) ** {s1 = [] ; lock_V = <>} ;
irreg4V x y z w = let reg = (regV x).s in
mk5V x (reg ! VPres) y z w ** {s1 = [] ; lock_V = <>} ;
irregDuplV fit y z =
let
fitting = (regDuplV fit).s ! VPresPart
in
mk5V fit (fit + "s") y z fitting ;
partV v p = verbPart v p ** {lock_V = <>} ;
reflV v = {s = v.s ; part = v.part ; lock_V = v.lock_V ; isRefl = True} ;
prepV2 v p = v ** {s = v.s ; s1 = v.s1 ; c2 = p.s ; lock_V2 = <>} ;
dirV2 v = prepV2 v noPrep ;
mkV3 v p q = v ** {s = v.s ; s1 = v.s1 ; c2 = p.s ; c3 = q.s ; lock_V3 = <>} ;
dirV3 v p = mkV3 v noPrep p ;
dirdirV3 v = dirV3 v noPrep ;
mkVS v = v ** {lock_VS = <>} ;
mkVV v = {
s = table {VVF vf => v.s ! vf ; _ => variants {}} ;
isAux = False ; lock_VV = <>
} ;
mkVQ v = v ** {lock_VQ = <>} ;
V0 : Type = V ;
-- V2S, V2V, V2Q : Type = V2 ;
AS, A2S, AV : Type = A ;
A2V : Type = A2 ;
mkV0 v = v ** {lock_V = <>} ;
mkV2S v p = prepV2 v p ** {lock_V2S = <>} ;
mkV2V v p t = prepV2 v p ** {isAux = False ; lock_V2V = <>} ;
mkVA v = v ** {lock_VA = <>} ;
mkV2A v p = prepV2 v p ** {lock_V2A = <>} ;
mkV2Q v p = prepV2 v p ** {lock_V2Q = <>} ;
mkAS v = v ** {lock_A = <>} ;
mkA2S v p = mkA2 v p ** {lock_A = <>} ;
mkAV v = v ** {lock_A = <>} ;
mkA2V v p = mkA2 v p ** {lock_A2 = <>} ;
-- pre-overload API and overload definitions
mk4N : (man,men,man's,men's : Str) -> N ;
regN : Str -> N ;
mk2N : (man,men : Str) -> N ;
genderN : Gender -> N -> N ;
compoundN : Str -> N -> N ;
mkN = overload {
mkN : (man,men,man's,men's : Str) -> N = mk4N ;
mkN : Str -> N = regN ;
mkN : (man,men : Str) -> N = mk2N ;
mkN : Gender -> N -> N = genderN ;
mkN : Str -> N -> N = compoundN
} ;
mk2A : (free,freely : Str) -> A ;
regA : Str -> A ;
mkA = overload {
mkA : Str -> A = regA ;
mkA : (fat,fatter : Str) -> A = \fat,fatter ->
mkAdjective fat fatter (init fatter + "st") (fat + "ly") ** {lock_A = <>} ;
mkA : (good,better,best,well : Str) -> A = \a,b,c,d ->
mkAdjective a b c d ** {lock_A = <>}
} ;
compoundA = compoundADeg ;
mk5V : (go, goes, went, gone, going : Str) -> V ;
regV : (cry : Str) -> V ;
reg2V : (stop, stopped : Str) -> V;
irregV : (drink, drank, drunk : Str) -> V ;
irreg4V : (run, ran, run, running : Str) -> V ;
-- Use reg2V instead
regDuplV : Str -> V ;
-- Use irreg4V instead
irregDuplV : (get, got, gotten : Str) -> V ;
mkV = overload {
mkV : (cry : Str) -> V = regV ;
mkV : (stop, stopped : Str) -> V = reg2V ;
mkV : (drink, drank, drunk : Str) -> V = irregV ;
mkV : (run, ran, run, running : Str) -> V = irreg4V ;
mkV : (go, goes, went, gone, going : Str) -> V = mk5V
};
prepV2 : V -> Prep -> V2 ;
dirV2 : V -> V2 ;
mkV2 = overload {
mkV2 : V -> Prep -> V2 = prepV2;
mkV2 : V -> V2 = dirV2
};
---- obsolete
-- Comparison adjectives may two more forms.
ADeg : Type ;
mkADeg : (good,better,best,well : Str) -> ADeg ;
-- The regular pattern recognizes two common variations:
-- "-e" ("rude" - "ruder" - "rudest") and
-- "-y" ("happy - happier - happiest - happily")
regADeg : Str -> ADeg ; -- long, longer, longest
-- However, the duplication of the final consonant is nor predicted,
-- but a separate pattern is used:
duplADeg : Str -> ADeg ; -- fat, fatter, fattest
-- If comparison is formed by "more", "most", as in general for
-- long adjective, the following pattern is used:
compoundADeg : A -> ADeg ; -- -/more/most ridiculous
-- From a given $ADeg$, it is possible to get back to $A$.
adegA : ADeg -> A ;
regPN : Str -> PN ;
regGenPN : Str -> Gender -> PN ; -- John, John's
-- Sometimes you can reuse a common noun as a proper name, e.g. "Bank".
nounPN : N -> PN ;
} ;

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concrete PhraseEng of Phrase = CatEng ** open Prelude, ResEng in {
lin
PhrUtt pconj utt voc = {s = pconj.s ++ utt.s ++ voc.s} ;
UttS s = s ;
UttQS qs = {s = qs.s ! QDir} ;
UttImpSg pol imp = {s = pol.s ++ imp.s ! contrNeg True pol.p ! ImpF Sg False} ;
UttImpPl pol imp = {s = pol.s ++ imp.s ! contrNeg True pol.p ! ImpF Pl False} ;
UttImpPol pol imp = {s = pol.s ++ imp.s ! contrNeg True pol.p ! ImpF Sg True} ;
UttIP ip = {s = ip.s ! Nom} ; --- Acc also
UttIAdv iadv = iadv ;
UttNP np = {s = np.s ! Nom} ;
UttVP vp = {s = infVP False vp (agrP3 Sg)} ;
UttAdv adv = adv ;
NoPConj = {s = []} ;
PConjConj conj = conj ;
NoVoc = {s = []} ;
VocNP np = {s = "," ++ np.s ! Nom} ;
}

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concrete QuestionEng of Question = CatEng ** open ResEng, Prelude in {
flags optimize=all_subs ;
lin
QuestCl cl = {
s = \\t,a,p =>
let cls = cl.s ! t ! a ! p
in table {
QDir => cls ! OQuest ;
QIndir => "if" ++ cls ! ODir
} ---- "whether" in ExtEng
} ;
QuestVP qp vp =
let cl = mkClause (qp.s ! Nom) {n = qp.n ; p = P3} vp
in {s = \\t,a,b,_ => cl.s ! t ! a ! b ! ODir} ;
QuestSlash ip slash =
mkQuestion (ss (slash.c2 ++ ip.s ! Acc)) slash ;
--- stranding in ExratEng
QuestIAdv iadv cl = mkQuestion iadv cl ;
QuestIComp icomp np =
mkQuestion icomp (mkClause (np.s ! Nom) np.a (predAux auxBe)) ;
PrepIP p ip = {s = p.s ++ ip.s ! Nom} ;
AdvIP ip adv = {
s = \\c => ip.s ! c ++ adv.s ;
n = ip.n
} ;
IDetCN idet num ord cn = {
s = \\c => idet.s ++ num.s ++ ord.s ++ cn.s ! idet.n ! c ;
n = idet.n
} ;
CompIAdv a = a ;
}

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concrete RelativeEng of Relative = CatEng ** open ResEng in {
flags optimize=all_subs ;
lin
RelCl cl = {
s = \\t,a,p,_ => "such" ++ "that" ++ cl.s ! t ! a ! p ! ODir ;
c = Nom
} ;
RelVP rp vp = {
s = \\t,ant,b,ag =>
let
agr = case rp.a of {
RNoAg => ag ;
RAg a => a
} ;
cl = mkClause (rp.s ! RC Nom) agr vp
in
cl.s ! t ! ant ! b ! ODir ;
c = Nom
} ;
-- Pied piping: "at which we are looking". Stranding and empty
-- relative are defined in $ExtraEng.gf$ ("that we are looking at",
-- "we are looking at").
RelSlash rp slash = {
s = \\t,a,p,_ => slash.c2 ++ rp.s ! RPrep ++ slash.s ! t ! a ! p ! ODir ;
c = Acc
} ;
FunRP p np rp = {
s = \\c => np.s ! Acc ++ p.s ++ rp.s ! RPrep ;
a = RAg np.a
} ;
IdRP = {
s = table {
RC Gen => "whose" ;
RC _ => "that" ;
RPrep => "which"
} ;
a = RNoAg
} ;
}

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--# -path=.:../abstract:../common:../../prelude
--1 English 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 ResEng = ParamX ** open Prelude in {
flags optimize=all ;
-- Some parameters, such as $Number$, are inherited from $ParamX$.
--2 For $Noun$
-- This is the worst-case $Case$ needed for pronouns.
param
Case = Nom | Acc | Gen ;
-- Agreement of $NP$ is a record. We'll add $Gender$ later.
oper
Agr = {n : Number ; p : Person} ;
param
Gender = Neutr | Masc | Fem ;
--2 For $Verb$
-- Only these five forms are needed for open-lexicon verbs.
param
VForm =
VInf
| VPres
| VPPart
| VPresPart
| VPast --# notpresent
;
-- Auxiliary verbs have special negative forms.
VVForm =
VVF VForm
| VVPresNeg
| VVPastNeg --# notpresent
;
-- The order of sentence is needed already in $VP$.
Order = ODir | OQuest ;
--2 For $Adjective$
AForm = AAdj Degree | AAdv ;
--2 For $Relative$
RAgr = RNoAg | RAg {n : Number ; p : Person} ;
RCase = RPrep | RC Case ;
--2 For $Numeral$
CardOrd = NCard | NOrd ;
DForm = unit | teen | ten ;
--2 Transformations between parameter types
oper
agrP3 : Number -> Agr = \n ->
{n = n ; p = P3} ;
conjAgr : Agr -> Agr -> Agr = \a,b -> {
n = conjNumber a.n b.n ;
p = conjPerson a.p b.p
} ;
-- For $Lex$.
-- For each lexical category, here are the worst-case constructors.
mkNoun : (_,_,_,_ : Str) -> {s : Number => Case => Str} =
\man,mans,men,mens -> {
s = table {
Sg => table {
Gen => mans ;
_ => man
} ;
Pl => table {
Gen => mens ;
_ => men
}
}
} ;
mkAdjective : (_,_,_,_ : Str) -> {s : AForm => Str} =
\good,better,best,well -> {
s = table {
AAdj Posit => good ;
AAdj Compar => better ;
AAdj Superl => best ;
AAdv => well
}
} ;
mkVerb : (_,_,_,_,_ : Str) -> Verb =
\go,goes,went,gone,going -> {
s = table {
VInf => go ;
VPres => goes ;
VPast => went ; --# notpresent
VPPart => gone ;
VPresPart => going
} ;
isRefl = False
} ;
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 $MorphoEng$.
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 -> Verb = \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 ;
isRefl : Bool
} ;
param
CPolarity =
CPos
| CNeg Bool ; -- contracted or not
oper
contrNeg : Bool -> Polarity -> CPolarity = \b,p -> case p of {
Pos => CPos ;
Neg => CNeg b
} ;
VerbForms : Type =
Tense => Anteriority => CPolarity => Order => Agr =>
{aux, adv, fin, inf : Str} ; -- would, not, sleeps, slept
VP : Type = {
s : VerbForms ;
prp : Str ; -- present participle
inf : Str ; -- the infinitive form ; VerbForms would be the logical place
ad : Str ; -- sentence adverb
s2 : Agr => Str -- complement
} ;
SlashVP = VP ** {c2 : Str} ;
predVc : (Verb ** {c2 : Str}) -> SlashVP = \verb ->
predV verb ** {c2 = verb.c2} ;
predV : Verb -> VP = \verb -> {
s = \\t,ant,b,ord,agr =>
let
inf = verb.s ! VInf ;
fin = presVerb verb agr ;
part = verb.s ! VPPart ;
in
case <t,ant,b,ord> of {
<Pres,Simul,CPos,ODir> => vff fin [] ;
<Pres,Simul,CPos,OQuest> => vf (does agr) inf ;
<Pres,Anter,CPos,_> => vf (have agr) part ; --# notpresent
<Pres,Anter,CNeg c,_> => vfn c (have agr) (havent agr) part ; --# notpresent
<Past,Simul,CPos,ODir> => vff (verb.s ! VPast) [] ; --# notpresent
<Past,Simul,CPos,OQuest> => vf "did" inf ; --# notpresent
<Past,Simul,CNeg c,_> => vfn c "did" "didn't" inf ; --# notpresent
<Past,Anter,CPos,_> => vf "had" part ; --# notpresent
<Past,Anter,CNeg c,_> => vfn c "had" "hadn't" part ; --# notpresent
<Fut, Simul,CPos,_> => vf "will" inf ; --# notpresent
<Fut, Simul,CNeg c,_> => vfn c "will" "won't" inf ; --# notpresent
<Fut, Anter,CPos,_> => vf "will" ("have" ++ part) ; --# notpresent
<Fut, Anter,CNeg c,_> => vfn c "will" "won't"("have" ++ part) ; --# notpresent
<Cond,Simul,CPos,_> => vf "would" inf ; --# notpresent
<Cond,Simul,CNeg c,_> => vfn c "would" "wouldn't" inf ; --# notpresent
<Cond,Anter,CPos,_> => vf "would" ("have" ++ part) ; --# notpresent
<Cond,Anter,CNeg c,_> => vfn c "would" "wouldn't" ("have" ++ part) ; --# notpresent
<Pres,Simul,CNeg c,_> => vfn c (does agr) (doesnt agr) inf
} ;
prp = verb.s ! VPresPart ;
inf = verb.s ! VInf ;
ad = [] ;
s2 = \\a => if_then_Str verb.isRefl (reflPron ! a) []
} ;
predAux : Aux -> VP = \verb -> {
s = \\t,ant,cb,ord,agr =>
let
b = case cb of {
CPos => Pos ;
_ => Neg
} ;
inf = verb.inf ;
fin = verb.pres ! b ! agr ;
finp = verb.pres ! Pos ! agr ;
part = verb.ppart ;
in
case <t,ant,cb,ord> of {
<Pres,Anter,CPos,_> => vf (have agr) part ; --# notpresent
<Pres,Anter,CNeg c,_> => vfn c (have agr) (havent agr) part ; --# notpresent
<Past,Simul,CPos, _> => vf (verb.past ! b ! agr) [] ; --# notpresent
<Past,Simul,CNeg c, _> => vfn c (verb.past!Pos!agr)(verb.past!Neg!agr) [] ; --# notpresent
<Past,Anter,CPos,_> => vf "had" part ; --# notpresent
<Past,Anter,CNeg c,_> => vfn c "had" "hadn't" part ; --# notpresent
<Fut, Simul,CPos,_> => vf "will" inf ; --# notpresent
<Fut, Simul,CNeg c,_> => vfn c "will" "won't" inf ; --# notpresent
<Fut, Anter,CPos,_> => vf "will" ("have" ++ part) ; --# notpresent
<Fut, Anter,CNeg c,_> => vfn c "will" "won't"("have" ++ part) ; --# notpresent
<Cond,Simul,CPos,_> => vf "would" inf ; --# notpresent
<Cond,Simul,CNeg c,_> => vfn c "would" "wouldn't" inf ; --# notpresent
<Cond,Anter,CPos,_> => vf "would" ("have" ++ part) ; --# notpresent
<Cond,Anter,CNeg c,_> => vfn c "would" "wouldn't" ("have" ++ part) ; --# notpresent
<Pres,Simul,CPos, _> => vf fin [] ;
<Pres,Simul,CNeg c, _> => vfn c finp fin []
} ;
prp = verb.prpart ;
inf = verb.inf ;
ad = [] ;
s2 = \\_ => []
} ;
vff : Str -> Str -> {aux, adv, fin, inf : Str} = \x,y ->
{aux = [] ; adv = [] ; fin = x ; inf = y} ;
vf : Str -> Str -> {aux, adv, fin, inf : Str} = \x,y -> vfn True x x y ;
vfn : Bool -> Str -> Str -> Str -> {aux, fin, adv, inf : Str} =
\contr,x,y,z ->
case contr of {
True => {aux = y ; adv = [] ; fin = [] ; inf = z} ;
False => {aux = x ; adv = "not" ; fin = [] ; inf = z}
} ;
insertObj : (Agr => Str) -> VP -> VP = \obj,vp -> {
s = vp.s ;
prp = vp.prp ;
inf = vp.inf ;
ad = vp.ad ;
s2 = \\a => vp.s2 ! a ++ obj ! a
} ;
insertObjPre : (Agr => Str) -> VP -> VP = \obj,vp -> {
s = vp.s ;
prp = vp.prp ;
inf = vp.inf ;
ad = vp.ad ;
s2 = \\a => obj ! a ++ vp.s2 ! a
} ;
insertObjc : (Agr => Str) -> SlashVP -> SlashVP = \obj,vp ->
insertObj obj vp ** {c2 = vp.c2} ;
--- The adverb should be before the finite verb.
insertAdV : Str -> VP -> VP = \ad,vp -> {
s = vp.s ;
prp = vp.prp ;
inf = vp.inf ;
ad = vp.ad ++ ad ;
s2 = \\a => vp.s2 ! a
} ;
--
predVV : {s : VVForm => Str ; isAux : Bool} -> VP = \verb ->
let verbs = verb.s
in
case verb.isAux of {
True => predAux {
pres = table {
Pos => \\_ => verbs ! VVF VPres ;
Neg => \\_ => verbs ! VVPresNeg
} ;
past = table { --# notpresent
Pos => \\_ => verbs ! VVF VPast ; --# notpresent
Neg => \\_ => verbs ! VVPastNeg --# notpresent
} ; --# notpresent
inf = verbs ! VVF VInf ;
ppart = verbs ! VVF VPPart ;
prpart = verbs ! VVF VPresPart ;
} ;
_ => predV {s = \\vf => verbs ! VVF vf ; isRefl = False}
} ;
presVerb : {s : VForm => Str} -> Agr -> Str = \verb ->
agrVerb (verb.s ! VPres) (verb.s ! VInf) ;
infVP : Bool -> VP -> Agr -> Str = \isAux,vp,a ->
vp.ad ++
case isAux of {True => [] ; False => "to"} ++
vp.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 : Polarity => Agr => Str ;
past : Polarity => Agr => Str ; --# notpresent
inf,ppart,prpart : 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 => case a of { --# notpresent
{n = Sg ; p = P1|P3} => (posneg b "was") ; --# notpresent
_ => (posneg b "were") --# notpresent
} ; --# notpresent
inf = "be" ;
ppart = "been" ;
prpart = "being"
} ;
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 => CPolarity => Order => Str
} ;
mkClause : Str -> Agr -> VP -> Clause =
\subj,agr,vp -> {
s = \\t,a,b,o =>
let
verb = vp.s ! t ! a ! b ! o ! agr ;
compl = vp.s2 ! agr
in
case o of {
ODir => subj ++ verb.aux ++ verb.adv ++ vp.ad ++ verb.fin ++ verb.inf ++ compl ;
OQuest => verb.aux ++ subj ++ verb.adv ++ vp.ad ++ verb.fin ++ 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"
} ;
mkQuestion :
{s : Str} -> Clause ->
{s : Tense => Anteriority => CPolarity => QForm => Str} = \wh,cl ->
{
s = \\t,a,p =>
let
cls = cl.s ! t ! a ! p ;
why = wh.s
in table {
QDir => why ++ cls ! OQuest ;
QIndir => why ++ cls ! ODir
}
} ;
-- for VP conjunction
param
VPIForm = VPIInf | VPIPPart ;
}

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concrete SentenceEng of Sentence = CatEng ** open Prelude, ResEng in {
flags optimize=all_subs ;
lin
PredVP np vp = mkClause (np.s ! Nom) np.a vp ;
PredSCVP sc vp = mkClause sc.s (agrP3 Sg) vp ;
ImpVP vp = {
s = \\pol,n =>
let
agr = {n = numImp n ; p = P2} ;
verb = infVP True vp agr ;
dont = case pol of {
CNeg True => "don't" ;
CNeg False => "do" ++ "not" ;
_ => []
}
in
dont ++ verb
} ;
SlashVP np vp =
mkClause (np.s ! Nom) np.a vp ** {c2 = vp.c2} ;
SlashVVV2 np vv v2 =
mkClause (np.s ! Nom) np.a
(insertObj (\\a => infVP vv.isAux (predV v2) a) (predVV vv)) **
{c2 = v2.c2} ;
AdvSlash slash adv = {
s = \\t,a,b,o => slash.s ! t ! a ! b ! o ++ adv.s ;
c2 = slash.c2
} ;
SlashPrep cl prep = cl ** {c2 = prep.s} ;
SlashVS np vs slash =
mkClause (np.s ! Nom) np.a
(insertObj (\\_ => conjThat ++ slash.s) (predV vs)) **
{c2 = slash.c2} ;
EmbedS s = {s = conjThat ++ s.s} ;
EmbedQS qs = {s = qs.s ! QIndir} ;
EmbedVP vp = {s = infVP False vp (agrP3 Sg)} ; --- agr
UseCl t a p cl = {
s = t.s ++ a.s ++ p.s ++ cl.s ! t.t ! a.a ! ctr p.p ! ODir
} ;
UseQCl t a p cl = {
s = \\q => t.s ++ a.s ++ p.s ++ cl.s ! t.t ! a.a ! ctr p.p ! q
} ;
UseRCl t a p cl = {
s = \\r => t.s ++ a.s ++ p.s ++ cl.s ! t.t ! a.a ! ctr p.p ! r ;
c = cl.c
} ;
UseSlash t a p cl = {
s = t.s ++ a.s ++ p.s ++ cl.s ! t.t ! a.a ! ctr p.p ! ODir ;
c2 = cl.c2
} ;
AdvS a s = {s = a.s ++ "," ++ s.s} ;
oper
ctr = contrNeg True ; -- contracted negations
-- obsolete
lin
SlashV2 np v2 =
mkClause (np.s ! Nom) np.a (predV v2) ** {c2 = v2.c2} ;
SlashVVV2 np vv v2 =
mkClause (np.s ! Nom) np.a
(insertObj (\\a => infVP vv.isAux (predV v2) a) (predVV vv)) **
{c2 = v2.c2} ;
}
{-
--- todo: tense of embedded Slash
SlashVSS np vs s =
mkClause (np.s ! Nom) np.a
(insertObj (\\_ => conjThat ++ s.s) (predV vs)) **
{c2 = s.c2} ;
-}

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concrete StructuralEng of Structural = CatEng **
open MorphoEng, (P = ParadigmsEng), Prelude in {
flags optimize=all ;
lin
above_Prep = ss "above" ;
after_Prep = ss "after" ;
all_Predet = ss "all" ;
almost_AdA, almost_AdN = ss "almost" ;
although_Subj = ss "although" ;
always_AdV = ss "always" ;
and_Conj = ss "and" ** {n = Pl} ;
because_Subj = ss "because" ;
before_Prep = ss "before" ;
behind_Prep = ss "behind" ;
between_Prep = ss "between" ;
both7and_DConj = sd2 "both" "and" ** {n = Pl} ;
but_PConj = ss "but" ;
by8agent_Prep = ss "by" ;
by8means_Prep = ss "by" ;
can8know_VV, can_VV = {
s = table {
VVF VInf => ["be able to"] ;
VVF VPres => "can" ;
VVF VPPart => ["been able to"] ;
VVF VPresPart => ["being able to"] ;
VVF VPast => "could" ; --# notpresent
VVPastNeg => "couldn't" ; --# notpresent
VVPresNeg => "can't"
} ;
isAux = True
} ;
during_Prep = ss "during" ;
either7or_DConj = sd2 "either" "or" ** {n = Sg} ;
everybody_NP = regNP "everybody" Sg ;
every_Det = mkDeterminer Sg "every" ;
everything_NP = regNP "everything" Sg ;
everywhere_Adv = ss "everywhere" ;
few_Det = mkDeterminer Pl "few" ;
--- first_Ord = ss "first" ; DEPRECATED
for_Prep = ss "for" ;
from_Prep = ss "from" ;
he_Pron = mkNP "he" "him" "his" Sg P3 ;
here_Adv = ss "here" ;
here7to_Adv = ss ["to here"] ;
here7from_Adv = ss ["from here"] ;
how_IAdv = ss "how" ;
how8many_IDet = mkDeterminer Pl ["how many"] ;
if_Subj = ss "if" ;
in8front_Prep = ss ["in front of"] ;
i_Pron = mkNP "I" "me" "my" Sg P1 ;
in_Prep = ss "in" ;
it_Pron = mkNP "it" "it" "its" Sg P3 ;
less_CAdv = ss "less" ;
many_Det = mkDeterminer Pl "many" ;
more_CAdv = ss "more" ;
most_Predet = ss "most" ;
much_Det = mkDeterminer Sg "much" ;
must_VV = {
s = table {
VVF VInf => ["have to"] ;
VVF VPres => "must" ;
VVF VPPart => ["had to"] ;
VVF VPresPart => ["having to"] ;
VVF VPast => ["had to"] ; --# notpresent
VVPastNeg => ["hadn't to"] ; --# notpresent
VVPresNeg => "mustn't"
} ;
isAux = True
} ;
no_Phr = ss "no" ;
on_Prep = ss "on" ;
---- one_Quant = mkDeterminer Sg "one" ; -- DEPRECATED
only_Predet = ss "only" ;
or_Conj = ss "or" ** {n = Sg} ;
otherwise_PConj = ss "otherwise" ;
part_Prep = ss "of" ;
please_Voc = ss "please" ;
possess_Prep = ss "of" ;
quite_Adv = ss "quite" ;
she_Pron = mkNP "she" "her" "her" Sg P3 ;
so_AdA = ss "so" ;
somebody_NP = regNP "somebody" Sg ;
someSg_Det = mkDeterminer Sg "some" ;
somePl_Det = mkDeterminer Pl "some" ;
something_NP = regNP "something" Sg ;
somewhere_Adv = ss "somewhere" ;
that_Quant = mkQuant "that" "those" ;
that_NP = regNP "that" Sg ;
there_Adv = ss "there" ;
there7to_Adv = ss "there" ;
there7from_Adv = ss ["from there"] ;
therefore_PConj = ss "therefore" ;
these_NP = regNP "these" Pl ;
they_Pron = mkNP "they" "them" "their" Pl P3 ;
this_Quant = mkQuant "this" "these" ;
this_NP = regNP "this" Sg ;
those_NP = regNP "those" Pl ;
through_Prep = ss "through" ;
too_AdA = ss "too" ;
to_Prep = ss "to" ;
under_Prep = ss "under" ;
very_AdA = ss "very" ;
want_VV = P.mkVV (P.regV "want") ;
we_Pron = mkNP "we" "us" "our" Pl P1 ;
whatPl_IP = mkIP "what" "what" "what's" Sg ;
whatSg_IP = mkIP "what" "what" "what's" Sg ;
when_IAdv = ss "when" ;
when_Subj = ss "when" ;
where_IAdv = ss "where" ;
whichPl_IDet = mkDeterminer Pl ["which"] ;
whichSg_IDet = mkDeterminer Sg ["which"] ;
whoSg_IP = mkIP "who" "whom" "whose" Sg ;
whoPl_IP = mkIP "who" "whom" "whose" Pl ;
why_IAdv = ss "why" ;
without_Prep = ss "without" ;
with_Prep = ss "with" ;
yes_Phr = ss "yes" ;
youSg_Pron = mkNP "you" "you" "your" Sg P2 ;
youPl_Pron = mkNP "you" "you" "your" Pl P2 ;
youPol_Pron = mkNP "you" "you" "your" Sg P2 ;
oper
mkQuant : Str -> Str -> {s : Number => Str} = \x,y -> {
s = table Number [x ; y]
} ;
}

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concrete VerbEng of Verb = CatEng ** open ResEng in {
flags optimize=all_subs ;
lin
UseV = predV ;
SlashV2a v = predVc v ;
Slash2V3 v np =
insertObjc (\\_ => v.c2 ++ np.s ! Acc) (predV v ** {c2 = v.c3}) ;
Slash3V3 v np =
insertObjc (\\_ => v.c3 ++ np.s ! Acc) (predVc v) ; ----
ComplVV v vp = insertObj (\\a => infVP v.isAux vp a) (predVV v) ;
ComplVS v s = insertObj (\\_ => conjThat ++ s.s) (predV v) ;
ComplVQ v q = insertObj (\\_ => q.s ! QIndir) (predV v) ;
ComplVA v ap = insertObj (ap.s) (predV v) ;
SlashV2V v vp = insertObjc (\\a => infVP v.isAux vp a) (predVc v) ;
SlashV2S v s = insertObjc (\\_ => conjThat ++ s.s) (predVc v) ;
SlashV2Q v q = insertObjc (\\_ => q.s ! QIndir) (predVc v) ;
SlashV2A v ap = insertObjc (\\a => ap.s ! a) (predVc v) ; ----
ComplSlash vp np = insertObjPre (\\_ => vp.c2 ++ np.s ! Acc) vp ;
SlashVV vv vp =
insertObj (\\a => infVP vv.isAux vp a) (predVV vv) **
{c2 = vp.c2} ;
SlashV2VNP vv np vp =
insertObjPre (\\_ => vp.c2 ++ np.s ! Acc)
(insertObjc (\\a => infVP vv.isAux vp a) (predVc vv)) **
{c2 = vp.c2} ;
UseComp comp = insertObj comp.s (predAux auxBe) ;
AdvVP vp adv = insertObj (\\_ => adv.s) vp ;
AdVVP adv vp = insertAdV adv.s vp ;
ReflV2 v = insertObj (\\a => v.c2 ++ reflPron ! a) (predV v) ;
PassV2 v = insertObj (\\_ => v.s ! VPPart) (predAux auxBe) ;
UseVS, UseVQ = \vv -> {s = vv.s ; c2 = [] ; isRefl = vv.isRefl} ; -- no "to"
CompAP ap = ap ;
CompNP np = {s = \\_ => np.s ! Acc} ;
CompAdv a = {s = \\_ => a.s} ;
-- obsolete, just creating spurious ambiguity now
ComplV2 v np = insertObj (\\_ => v.c2 ++ np.s ! Acc) (predV v) ;
ComplV3 v np np2 =
insertObj (\\_ => v.c2 ++ np.s ! Acc ++ v.c3 ++ np2.s ! Acc) (predV v) ;
ComplV2V v np vp =
insertObj (\\a => infVP v.isAux vp a)
(insertObj (\\_ => v.c2 ++ np.s ! Acc) (predV v)) ;
ComplV2S v np s =
insertObj (\\_ => conjThat ++ s.s)
(insertObj (\\_ => v.c2 ++ np.s ! Acc) (predV v)) ;
ComplV2Q v np q =
insertObj (\\_ => q.s ! QIndir)
(insertObj (\\_ => v.c2 ++ np.s ! Acc) (predV v)) ;
ComplV2A v np ap =
insertObj (\\_ => v.c2 ++ np.s ! Acc ++ ap.s ! np.a) (predV v) ;
}

2
lib/resource/scandinavian/CatScand.gf
View File

@@ -10,7 +10,7 @@ incomplete concrete CatScand of Cat =
S = {s : Order => Str} ;
QS = {s : QForm => Str} ;
RS = {s : Agr => Str ; c : NPForm} ;
SlashS = {s : Order => Str} ** {c2 : Str} ;
SSlash = {s : Order => Str} ** {c2 : Str} ;
-- Sentence