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gf-core/examples/SUMO/MergeEng.gf

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concrete MergeEng of Merge = BasicEng ** open DictLangEng, DictEng, ParadigmsEng, ResEng, ParamBasic,ExtensionEng in {
lin
-- single instances
AngularDegree = MassNP (AdjCN (PositA angular_A) (UseN degree_N)) ;
AtomGram = MassNP (ApposCN (UseN atom_N) (MassNP (UseN gram_N))) ;
Bit = MassNP (UseN bit_N) ;
Black = MassNP (UseN black_N) ;
Blue = MassNP (UseN blue_N) ;
BritishThermalUnit = MassNP (AdjCN (PositA british_A) (AdjCN (PositA thermal_A) (UseN unit_N))) ;
Calorie = MassNP (UseN calorie_N) ;
Ampere = MassNP (UseN ampere_N) ;
Joule = MassNP (UseN joule_N) ;
Watt = MassNP (UseN watt_N) ;
Volt = MassNP (UseN volt_N) ;
Ohm = MassNP (UseN ohm_N) ;
Gray = MassNP (UseN gray_N) ;
ElectronVolt = MassNP (ApposCN (UseN electron_N) (MassNP (UseN volt_N))) ;
Gram = MassNP (UseN gram_N) ;
Hertz = DetCN (DetQuant IndefArt NumSg) (UseN hertz_N) ;
Kilogram = MassNP (UseN kilogram_N) ;
Meter = MassNP (UseN meter_N) ;
Mole = MassNP (UseN mole_N) ;
SecondDuration = MassNP (AdjCN (AdjOrd (OrdNumeral (num (pot2as3 (pot1as2 (pot0as1 (pot0 n2))))))) (UseN duration_N)) ;
Left = MassNP (UseN left_N) ;
Right = MassNP (UseN right_N) ;
CentralTimeZone = MassNP (AdjCN (PositA central_A) (ApposCN (UseN time_N) (MassNP (UseN zone_N)))) ;
Cup = MassNP (UseN cup_N) ;
Damp = MassNP (UseN damp_N) ;
DayDuration = MassNP (ApposCN (UseN day_N) (MassNP (UseN duration_N))) ;
East = MassNP (UseN east_N) ;
EasternTimeZone = MassNP (AdjCN (PositA eastern_A) (ApposCN (UseN time_N) (MassNP (UseN zone_N)))) ;
ElectronVolt = MassNP (ApposCN (UseN electron_N) (MassNP (UseN volt_N))) ;
Female = MassNP (UseN female_N) ;
Fluid = MassNP (UseN fluid_N) ;
FootLength = MassNP (ApposCN (UseN foot_N) (MassNP (UseN length_N))) ;
Gas = MassNP (UseN gas_N) ;
Horsepower = DetCN (DetQuant IndefArt NumSg) (UseN horsepower_N) ;
HourDuration = MassNP (ApposCN (UseN hour_N) (MassNP (UseN duration_N))) ;
Inch = MassNP (UseN inch_N) ;
InchMercury = MassNP (ApposCN (UseN inch_N) (MassNP (UseN mercury_N))) ;
Liquid = MassNP (UseN liquid_N) ;
Living = DetCN (DetQuant IndefArt NumSg) (UseN2 (VerbToNounV2 live_V2)) ;
Male = MassNP (UseN male_N) ;
Mile = MassNP (UseN mile_N) ;
MinuteDuration = MassNP (AdjCN (PositA minute_A) (UseN duration_N)) ;
MmMercury = DetCN (DetQuant IndefArt NumSg) (ApposCN (UseN mm_N) (MassNP (UseN mercury_N))) ;
MonthDuration = MassNP (ApposCN (UseN month_N) (MassNP (UseN duration_N))) ;
MountainTimeZone = MassNP (ApposCN (ApposCN (UseN mountain_N) (MassNP (UseN time_N))) (MassNP (UseN zone_N))) ;
Necessity = MassNP (UseN necessity_N) ;
NegativeInfinity = MassNP (AdjCN (PositA negative_A) (UseN infinity_N)) ;
North = MassNP (UseN north_N) ;
NullList = MassNP (AdjCN (PositA null_A) (UseN list_N)) ;
Obligation = MassNP (UseN obligation_N) ;
Ounce = MassNP (UseN ounce_N) ;
PacificTimeZone = MassNP (AdjCN (PositA pacific_A) (ApposCN (UseN time_N) (MassNP (UseN zone_N)))) ;
Permission = MassNP (UseN permission_N) ;
Pi = MassNP (UseN pi_N) ;
Pint = MassNP (UseN pint_N) ;
Plasma = MassNP (UseN plasma_N) ;
PositiveInfinity = MassNP (AdjCN (PositA positive_A) (UseN infinity_N)) ;
Possibility = MassNP (UseN possibility_N) ;
PoundForce = MassNP (ApposCN (UseN pound_N) (MassNP (UseN force_N))) ;
PoundMass = MassNP (ApposCN (UseN pound_N) (MassNP (UseN mass_N))) ;
Prohibition = MassNP (UseN prohibition_N) ;
Quart = MassNP (UseN quart_N) ;
Red = MassNP (UseN red_N) ;
Rough = MassNP (UseN rough_N) ;
Sitting = DetCN (DetQuant IndefArt NumSg) (UseN2 (VerbToNounV2 sit_V2)) ;
Slug = MassNP (UseN slug_N) ;
Smooth = MassNP (UseN smooth_N) ;
Solid = MassNP (UseN solid_N) ;
South = MassNP (UseN south_N) ;
Standing = DetCN (DetQuant IndefArt NumSg) (UseN2 (VerbToNounV2 stand_V2)) ;
True = MassNP (UseN true_N) ;
Unconscious = MassNP (UseN unconscious_N) ;
UnitedKingdomGallon = MassNP (AdjCN (PositA united_A) (ApposCN (UseN kingdom_N) (MassNP (UseN gallon_N)))) ;
UnitedStatesCent = DetCN (DetQuant IndefArt NumSg) (AdjCN (PositA united_A) (ApposCN (UseN state_N) (MassNP (UseN cent_N)))) ;
UnitedStatesDollar = DetCN (DetQuant IndefArt NumSg) (AdjCN (PositA united_A) (ApposCN (UseN state_N) (MassNP (UseN dollar_N)))) ;
UnitedStatesGallon = DetCN (DetQuant IndefArt NumSg) (AdjCN (PositA united_A) (ApposCN (UseN state_N) (MassNP (UseN gallon_N)))) ;
Vertical = MassNP (UseN vertical_N) ;
WeekDuration = MassNP (ApposCN (UseN week_N) (MassNP (UseN duration_N))) ;
West = MassNP (UseN west_N) ;
Wet = MassNP (UseN wet_N) ;
White = MassNP (UseN white_N) ;
YearDuration = MassNP (ApposCN (UseN year_N) (MassNP (UseN duration_N))) ;
Yellow = MassNP (UseN yellow_N) ;
Law = MassNP (UseN law_N) ;
Promise = MassNP (UseN promise_N) ;
PurchaseContract = MassNP (ApposCN (UseN purchase_N) (MassNP (UseN contract_N))) ;
Warranty = MassNP (UseN warranty_N) ;
NakedPromise = MassNP (AdjCN (PositA naked_A) (UseN promise_N)) ;
-- subclass declarations :
AbnormalAnatomicalStructure = AdjCN (PositA abnormal_A) (AdjCN (PositA anatomical_A) (UseN structure_N)) ;
Abstract = AdjCN (PositA abstract_A) (UseN entity_N) ;
Adjective = UseN adjective_N ;
Adverb = UseN adverb_N ;
Advertising = UseN2 (VerbToNounV2 advertise_V2) ;
AgeGroup = ApposCN (UseN age_N) (MassNP (UseN group_N)) ;
Agent = UseN agent_N ;
Air = UseN air_N ;
Alga = UseN alga_N ;
Amphibian = UseN amphibian_N ;
AnatomicalStructure = AdjCN (PositA anatomical_A) (UseN structure_N) ;
AngleMeasure = ApposCN (UseN angle_N) (MassNP (UseN measure_N)) ;
Animal = UseN animal_N ;
AnimalAnatomicalStructure = ApposCN (UseN animal_N) (MassNP (AdjCN (PositA anatomical_A) (UseN structure_N))) ;
AnimalLanguage = ApposCN (UseN animal_N) (MassNP (UseN language_N)) ;
AnimalSubstance = ApposCN (UseN animal_N) (MassNP (UseN substance_N)) ;
Ape = UseN ape_N ;
April = UseN april_N ;
AquaticMammal = AdjCN (PositA aquatic_A) (UseN mammal_N) ;
Arachnid = UseN arachnid_N ;
AreaMeasure = ApposCN (UseN area_N) (MassNP (UseN measure_N)) ;
Argument = UseN argument_N ;
ArtWork = ApposCN (UseN art_N) (MassNP (UseN work_N)) ;
Article = UseN article_N ;
Artifact = UseN artifact_N ;
ArtificialLanguage = AdjCN (PositA artificial_A) (UseN language_N) ;
AsexualReproduction = AdjCN (PositA asexual_A) (UseN reproduction_N) ;
AstronomicalBody = AdjCN (PositA astronomical_A) (UseN body_N) ;
Atom = UseN atom_N ;
AtomicNucleus = AdjCN (PositA atomic_A) (UseN nucleus_N) ;
Attaching = UseN2 (VerbToNounV2 attach_V2) ;
AttachingDevice = ApposCN (UseN2 (VerbToNounV2 attach_V2)) (MassNP (UseN device_N)) ;
Attack = UseN attack_N ;
Attribute = UseN attribute_N ;
August = UseN august_N ;
Bacterium = UseN bacterium_N ;
Battle = UseN battle_N ;
BeliefGroup = ApposCN (UseN belief_N) (MassNP (UseN group_N)) ;
Betting = UseN2 (VerbToNounV2 bet_V2) ;
Beverage = UseN beverage_N ;
BinaryNumber = AdjCN (PositA binary_A) (UseN number_N) ;
BiologicalAttribute = AdjCN (PositA biological_A) (UseN attribute_N) ;
BiologicalProcess = AdjCN (PositA biological_A) (UseN process_N) ;
Bird = UseN bird_N ;
Birth = UseN birth_N ;
Blood = UseN blood_N ;
BodyCavity = ApposCN (UseN body_N) (MassNP (UseN cavity_N)) ;
BodyCovering = ApposCN (UseN body_N) (DetCN (DetQuant IndefArt NumSg) (UseN2 (VerbToNounV2 cover_V2))) ;
BodyJunction = ApposCN (UseN body_N) (MassNP (UseN junction_N)) ;
BodyMotion = ApposCN (UseN body_N) (MassNP (UseN motion_N)) ;
BodyPart = AdvCN (UseN body_N) part_Adv ;
BodyPosition = ApposCN (UseN body_N) (MassNP (UseN position_N)) ;
BodySubstance = ApposCN (UseN body_N) (MassNP (UseN substance_N)) ;
BodyVessel = ApposCN (UseN body_N) (MassNP (UseN vessel_N)) ;
Boiling = UseN2 (VerbToNounV2 boil_V2) ;
Bone = UseN bone_N ;
Book = UseN book_N ;
Borrowing = UseN2 (VerbToNounV2 borrow_V2) ;
Breathing = UseN breathing_N ;
Building = UseN building_N ;
Buying = UseN2 (VerbToNounV2 buy_V2) ;
Calculating = UseN2 (VerbToNounV2 calculate_V2) ;
Carbohydrate = UseN carbohydrate_N ;
Carnivore = UseN carnivore_N ;
Carrying = UseN2 (VerbToNounV2 carry_V2) ;
Cell = UseN cell_N ;
Certificate = UseN certificate_N ;
ChangeOfPossession = AdvCN (UseN change_N) (PrepNP part_Prep (MassNP (UseN possession_N))) ;
Character = UseN character_N ;
ChemicalDecomposition = AdjCN (PositA chemical_A) (UseN decomposition_N) ;
ChemicalProcess = AdjCN (PositA chemical_A) (UseN process_N) ;
ChemicalSynthesis = AdjCN (PositA chemical_A) (UseN synthesis_N) ;
Circle = UseN circle_N ;
City = UseN city_N ;
Classifying = UseN2 (VerbToNounV2 classify_V2) ;
ClosedTwoDimensionalFigure = AdjCN (PositA (VerbToParticipeA close_V)) (AdjCN (PositA (compoundA (regA "two-dimensional"))) (UseN figure_N)) ;
Clothing = UseN clothing_N ;
Cloud = UseN cloud_N ;
Collection = UseN collection_N ;
Combining = UseN2 (VerbToNounV2 combine_V2) ;
Combustion = UseN combustion_N ;
CommercialAgent = AdjCN (PositA commercial_A) (UseN agent_N) ;
CommercialService = AdjCN (PositA commercial_A) (UseN service_N) ;
Committing = UseN2 (VerbToNounV2 commit_V2) ;
Communication = UseN communication_N ;
Comparing = UseN2 (VerbToNounV2 compare_V2) ;
ComplexNumber = AdjCN (PositA complex_A) (UseN number_N) ;
CompositeUnitOfMeasure = AdjCN (PositA composite_A) (AdvCN (UseN unit_N) (PrepNP part_Prep (MassNP (UseN measure_N)))) ;
CompoundSubstance = AdjCN (PositA compound_A) (UseN substance_N) ;
ComputerLanguage = ApposCN (UseN computer_N) (MassNP (UseN language_N)) ;
ComputerProgram = ApposCN (UseN computer_N) (MassNP (UseN program_N)) ;
ComputerProgramming = ApposCN (UseN computer_N) (DetCN (DetQuant IndefArt NumSg) (UseN2 (VerbToNounV2 program_V2))) ;
Condensing = UseN2 (VerbToNounV2 condense_V2) ;
Confining = UseN2 (VerbToNounV2 confine_V2) ;
ConsciousnessAttribute = ApposCN (UseN consciousness_N) (MassNP (UseN attribute_N)) ;
ConstantQuantity = AdjCN (PositA constant_A) (UseN quantity_N) ;
Constructing = UseN2 (VerbToNounV2 construct_V2) ;
ContentBearingObject = AdjCN (PositA (mkA "content-bearing")) (UseN object_N) ;
ContentBearingPhysical = AdjCN (PositA (mkA "content-bearing")) (AdjCN (PositA physical_A) (UseN entity_N)) ;
ContentBearingProcess = AdjCN (PositA (mkA "content-bearing")) (UseN process_N) ;
ContentDevelopment = AdjCN (PositA content_A) (UseN development_N) ;
Contest = UseN contest_N ;
ContestAttribute = ApposCN (UseN contest_N) (MassNP (UseN attribute_N)) ;
Continent = UseN continent_N ;
Cooking = UseN cooking_N ;
Cooling = UseN2 (VerbToNounV2 cool_V2) ;
Cooperation = UseN cooperation_N ;
Corporation = UseN corporation_N ;
Counting = UseN2 (VerbToNounV2 count_V2) ;
County = UseN county_N ;
Covering = UseN covering_N ;
Creation = UseN creation_N ;
Crustacean = UseN crustacean_N ;
Currency = UseN currency_N ;
CurrencyMeasure = ApposCN (UseN currency_N) (MassNP (UseN measure_N)) ;
Cutting = UseN cutting_N ;
Damaging = UseN2 (VerbToNounV2 damage_V2) ;
Dancing = UseN dancing_N ;
Day = UseN day_N ;
Death = UseN death_N ;
December = UseN december_N ;
Deciding = UseN2 (VerbToNounV2 decide_V2) ;
Declaring = UseN2 (VerbToNounV2 declare_V2) ;
Decoding = UseN2 (VerbToNounV2 decode_V2) ;
Decreasing = UseN2 (VerbToNounV2 decrease_V2) ;
DeductiveArgument = AdjCN (PositA deductive_A) (UseN argument_N) ;
Demonstrating = UseN2 (VerbToNounV2 demonstrate_V2) ;
Designing = UseN designing_N ;
Destruction = UseN destruction_N ;
Detaching = UseN2 (VerbToNounV2 detach_V2) ;
Device = UseN device_N ;
DiagnosticProcess = AdjCN (PositA diagnostic_A) (UseN process_N) ;
Digesting = UseN2 (VerbToNounV2 digest_V2) ;
DirectedGraph = AdjCN (PositA (VerbToParticipeA direct_V)) (UseN graph_N) ;
Directing = UseN2 (VerbToNounV2 direct_V2) ;
DirectionChange = ApposCN (UseN direction_N) (MassNP (UseN change_N)) ;
DirectionalAttribute = AdjCN (PositA directional_A) (UseN attribute_N) ;
Discovering = UseN2 (VerbToNounV2 discover_V2) ;
DiseaseOrSyndrome = ConjCN or_Conj (BaseCN (UseN disease_N) (UseN syndrome_N)) ;
Disseminating = UseN2 (VerbToNounV2 disseminate_V2) ;
Drinking = UseN drinking_N ;
Driving = UseN2 (VerbToNounV2 drive_V2) ;
Drying = UseN2 (VerbToNounV2 dry_V2) ;
DualObjectProcess = AdjCN (PositA dual_A) (ApposCN (UseN object_N) (MassNP (UseN process_N))) ;
Eating = UseN2 (VerbToNounV2 eat_V2) ;
EducationalOrganization = AdjCN (PositA educational_A) (UseN organization_N) ;
EducationalProcess = AdjCN (PositA educational_A) (UseN process_N) ;
Egg = UseN egg_N ;
Election = UseN election_N ;
Electron = UseN electron_N ;
ElementalSubstance = AdjCN (PositA elemental_A) (UseN substance_N) ;
EmotionalState = AdjCN (PositA emotional_A) (UseN state_N) ;
Encoding = UseN2 (VerbToNounV2 encode_V2) ;
EngineeringComponent = AdjCN (PositA (VerbToGerundA engineer_V)) (UseN component_N) ;
EngineeringConnection = AdjCN (PositA (VerbToGerundA engineer_V)) (UseN connection_N) ;
Entity = UseN entity_N ;
Enzyme = UseN enzyme_N ;
EthnicGroup = AdjCN (PositA ethnic_A) (UseN group_N) ;
Evaporating = UseN2 (VerbToNounV2 evaporate_V2) ;
EvenInteger = AdjCN (PositA even_A) (UseN integer_N) ;
Experimenting = UseN (VerbToNoun experiment_V) ;
Explanation = UseN explanation_N ;
Expressing = UseN2 (VerbToNounV2 express_V2) ;
Fabric = UseN fabric_N ;
FactualText = AdjCN (PositA factual_A) (UseN text_N) ;
Falling = UseN2 (VerbToNounV2 befall_V2) ;
FamilyGroup = ApposCN (UseN family_N) (MassNP (UseN group_N)) ;
FatTissue = AdjCN (PositA fat_A) (UseN tissue_N) ;
February = UseN february_N ;
Fern = UseN fern_N ;
FictionalText = AdjCN (PositA fictional_A) (UseN text_N) ;
FieldOfStudy = AdvCN (UseN field_N) (PrepNP part_Prep (MassNP (UseN study_N))) ;
FinancialInstrument = AdjCN (PositA financial_A) (UseN instrument_N) ;
FinancialTransaction = AdjCN (PositA financial_A) (UseN transaction_N) ;
FiniteSet = AdjCN (PositA finite_A) (UseN set_N) ;
Fish = UseN fish_N ;
FlowRegion = ApposCN (UseN flow_N) (MassNP (UseN region_N)) ;
FloweringPlant = AdjCN (PositA (VerbToGerundA flower_V)) (UseN plant_N) ;
Food = UseN food_N ;
Freezing = UseN2 (VerbToNounV2 deep_freeze_V2) ;
FrequencyMeasure = ApposCN (UseN frequency_N) (MassNP (UseN measure_N)) ;
FreshWaterArea = AdjCN (PositA fresh_A) (ApposCN (UseN water_N) (MassNP (UseN area_N))) ;
Friday = UseN friday_N ;
FruitOrVegetable = ConjCN or_Conj (BaseCN (UseN fruit_N) (UseN vegetable_N)) ;
FunctionQuantity = ApposCN (UseN function_N) (MassNP (UseN quantity_N)) ;
Funding = UseN2 (VerbToNounV2 fund_V2) ;
Fungus = UseN fungus_N ;
Game = UseN game_N ;
GasMixture = ApposCN (UseN gas_N) (MassNP (UseN mixture_N)) ;
GasMotion = ApposCN (UseN gas_N) (MassNP (UseN motion_N)) ;
GeologicalProcess = AdjCN (PositA geological_A) (UseN process_N) ;
GeometricFigure = AdjCN (PositA geometric_A) (UseN figure_N) ;
GeometricPoint = AdjCN (PositA geometric_A) (UseN point_N) ;
Gesture = UseN gesture_N ;
Getting = UseN2 (VerbToNounV2 beget_V2) ;
Giving = UseN2 (VerbToNounV2 give_V2) ;
GivingBack = AdjCN (PositA (VerbToGerundA give_V)) (UseN back_N) ;
Gland = UseN gland_N ;
Government = UseN government_N ;
GovernmentOrganization = ApposCN (UseN government_N) (MassNP (UseN organization_N)) ;
Grabbing = UseN2 (VerbToNounV2 grab_V2) ;
Graduation = UseN graduation_N ;
Graph = UseN graph_N ;
GraphArc = ApposCN (UseN graph_N) (MassNP (UseN arc_N)) ;
GraphCircuit = ApposCN (UseN graph_N) (MassNP (UseN circuit_N)) ;
GraphElement = ApposCN (UseN graph_N) (MassNP (UseN element_N)) ;
GraphLoop = ApposCN (UseN graph_N) (MassNP (UseN loop_N)) ;
GraphNode = ApposCN (UseN graph_N) (MassNP (UseN node_N)) ;
GraphPath = ApposCN (UseN graph_N) (MassNP (UseN path_N)) ;
Group = UseN group_N ;
GroupOfPeople = AdvCN (UseN group_N) (PrepNP part_Prep (MassNP (UseN people_N))) ;
Growth = UseN growth_N ;
Guiding = UseN2 (VerbToNounV2 guide_V2) ;
Hearing = UseN hearing_N ;
Heating = UseN heating_N ;
Hiring = UseN2 (VerbToNounV2 hire_V2) ;
Hole = UseN hole_N ;
Hormone = UseN hormone_N ;
Hour = UseN hour_N ;
House = UseN house_N ;
Human = UseN human_N ;
HumanLanguage = AdjCN (PositA human_A) (UseN language_N) ;
Hunting = UseN hunting_N ;
Icon = UseN icon_N ;
ImaginaryNumber = AdjCN (PositA imaginary_A) (UseN number_N) ;
Impacting = UseN2 (VerbToNounV2 impact_V2) ;
Impelling = UseN2 (VerbToNounV2 impel_V2) ;
Increasing = UseN2 (VerbToNounV2 increase_V2) ;
InductiveArgument = AdjCN (PositA inductive_A) (UseN argument_N) ;
InformationMeasure = ApposCN (UseN information_N) (MassNP (UseN measure_N)) ;
Ingesting = UseN2 (VerbToNounV2 ingest_V2) ;
Injecting = UseN2 (VerbToNounV2 inject_V2) ;
Injuring = UseN2 (VerbToNounV2 injure_V2) ;
Insect = UseN insect_N ;
Inserting = UseN2 (VerbToNounV2 insert_V2) ;
Integer = UseN integer_N ;
IntentionalProcess = AdjCN (PositA intentional_A) (UseN process_N) ;
IntentionalPsychologicalProcess = AdjCN (PositA intentional_A) (AdjCN (PositA psychological_A) (UseN process_N)) ;
InternalAttribute = AdjCN (PositA internal_A) (UseN attribute_N) ;
InternalChange = AdjCN (PositA internal_A) (UseN change_N) ;
Interpreting = UseN2 (VerbToNounV2 interpret_V2) ;
InvalidDeductiveArgument = AdjCN (PositA invalid_A) (AdjCN (PositA deductive_A) (UseN argument_N)) ;
Invertebrate = UseN invertebrate_N ;
Investigating = UseN2 (VerbToNounV2 investigate_V2) ;
IrrationalNumber = AdjCN (PositA irrational_A) (UseN number_N) ;
Island = UseN island_N ;
January = UseN january_N ;
JoiningAnOrganization = ApposCN (UseN2 (VerbToNounV2 join_V2)) (DetCN (DetQuant IndefArt NumSg) (UseN organization_N)) ;
Judging = UseN2 (VerbToNounV2 judge_V2) ;
JudicialOrganization = AdjCN (PositA judicial_A) (UseN organization_N) ;
JudicialProcess = AdjCN (PositA judicial_A) (UseN process_N) ;
July = UseN july_N ;
June = UseN june_N ;
Keeping = UseN keeping_N ;
Killing = UseN killing_N ;
LandArea = ApposCN (UseN land_N) (MassNP (UseN area_N)) ;
Language = UseN language_N ;
LeapYear = ApposCN (UseN leap_N) (MassNP (UseN year_N)) ;
Learning = UseN learning_N ;
LeavingAnOrganization = ApposCN (UseN2 (VerbToNounV2 leave_V2)) (DetCN (DetQuant IndefArt NumSg) (UseN organization_N)) ;
LegalAction = AdjCN (PositA legal_A) (UseN action_N) ;
LegalDecision = AdjCN (PositA legal_A) (UseN decision_N) ;
Lending = UseN2 (VerbToNounV2 lend_V2) ;
LengthMeasure = ApposCN (UseN length_N) (MassNP (UseN measure_N)) ;
LinguisticCommunication = AdjCN (PositA linguistic_A) (UseN communication_N) ;
LinguisticExpression = AdjCN (PositA linguistic_A) (UseN expression_N) ;
LiquidMixture = AdjCN (PositA liquid_A) (UseN mixture_N) ;
LiquidMotion = AdjCN (PositA liquid_A) (UseN motion_N) ;
List = UseN list_N ;
Listening = UseN (VerbToNoun listen_V) ;
LogicalOperator = AdjCN (PositA logical_A) (UseN operator_N) ;
Looking = UseN2 (VerbToNounV2 look_V2) ;
Machine = UseN machine_N ;
Maintaining = UseN2 (VerbToNounV2 maintain_V2) ;
Making = UseN making_N ;
Mammal = UseN mammal_N ;
Man = UseN man_N ;
Managing = UseN2 (VerbToNounV2 manage_V2) ;
ManualHumanLanguage = AdjCN (PositA manual_A) (AdjCN (PositA human_A) (UseN language_N)) ;
Manufacture = UseN manufacture_N ;
Manufacturer = UseN manufacturer_N ;
March = UseN march_N ;
Marsupial = UseN marsupial_N ;
MassMeasure = ApposCN (UseN mass_N) (MassNP (UseN measure_N)) ;
Matriculation = UseN matriculation_N ;
May = UseN may_N ;
Measuring = UseN2 (VerbToNounV2 measure_V2) ;
MeasuringDevice = AdjCN (PositA (VerbToGerundA measure_V)) (UseN device_N) ;
Meat = UseN meat_N ;
Meeting = UseN meeting_N ;
Melting = UseN2 (VerbToNounV2 melt_V2) ;
MercantileOrganization = AdjCN (PositA mercantile_A) (UseN organization_N) ;
Metal = UseN metal_N ;
MilitaryForce = AdjCN (PositA military_A) (UseN force_N) ;
MilitaryOrganization = AdjCN (PositA military_A) (UseN organization_N) ;
MilitaryProcess = AdjCN (PositA military_A) (UseN process_N) ;
Mineral = UseN mineral_N ;
Minute = UseN minute_N ;
Mixture = UseN mixture_N ;
Molecule = UseN molecule_N ;
Monday = UseN monday_N ;
Monkey = UseN monkey_N ;
Month = UseN month_N ;
Morpheme = UseN morpheme_N ;
Moss = UseN moss_N ;
Motion = UseN motion_N ;
MotionDownward = AdvCN (UseN motion_N) downward_Adv ;
MotionPicture = ApposCN (UseN motion_N) (MassNP (UseN picture_N)) ;
MotionUpward = AdvCN (UseN motion_N) upward_Adv ;
Muscle = UseN muscle_N ;
Music = UseN music_N ;
MusicalInstrument = AdjCN (PositA musical_A) (UseN instrument_N) ;
Naming = UseN2 (VerbToNounV2 name_V2) ;
Nation = UseN nation_N ;
NaturalLanguage = AdjCN (PositA natural_A) (UseN language_N) ;
NaturalProcess = AdjCN (PositA natural_A) (UseN process_N) ;
NaturalSubstance = AdjCN (PositA natural_A) (UseN substance_N) ;
NegativeInteger = AdjCN (PositA negative_A) (UseN integer_N) ;
NegativeRealNumber = AdjCN (PositA negative_A) (AdjCN (PositA real_A) (UseN number_N)) ;
Neutron = UseN neutron_N ;
NormativeAttribute = AdjCN (PositA normative_A) (UseN attribute_N) ;
Noun = UseN noun_N ;
NounPhrase = ApposCN (UseN noun_N) (MassNP (UseN phrase_N)) ;
November = UseN november_N ;
NullSet = AdjCN (PositA null_A) (UseN set_N) ;
Number = UseN number_N ;
Nutrient = UseN nutrient_N ;
Object = UseN object_N ;
ObjectiveNorm = AdjCN (PositA objective_A) (UseN norm_N) ;
October = UseN october_N ;
OddInteger = AdjCN (PositA odd_A) (UseN integer_N) ;
Offering = UseN offering_N ;
OlfactoryAttribute = AdjCN (PositA olfactory_A) (UseN attribute_N) ;
OneDimensionalFigure = AdjCN (PositA (compoundA (regA "two-dimensional"))) (UseN figure_N) ;
OpenTwoDimensionalFigure = AdjCN (PositA open_A) (AdjCN (PositA (compoundA (regA "two-dimensional"))) (UseN figure_N)) ;
Ordering = UseN ordering_N ;
Organ = UseN organ_N ;
OrganOrTissueProcess = ApposCN (ConjCN or_Conj (BaseCN (UseN organ_N) (UseN tissue_N))) (MassNP (UseN process_N)) ;
OrganicObject = AdjCN (PositA organic_A) (UseN object_N) ;
Organism = UseN organism_N ;
OrganismProcess = ApposCN (UseN organism_N) (MassNP (UseN process_N)) ;
Organization = UseN organization_N ;
OrganizationalProcess = AdjCN (PositA organizational_A) (UseN process_N) ;
Oval = UseN oval_N ;
ParamilitaryOrganization = AdjCN (PositA paramilitary_A) (UseN organization_N) ;
ParticleWord = ApposCN (UseN particle_N) (MassNP (UseN word_N)) ;
Patent = UseN patent_N ;
Perception = UseN perception_N ;
PerceptualAttribute = AdjCN (PositA perceptual_A) (UseN attribute_N) ;
Periodical = UseN periodical_N ;
PermanentResidence = AdjCN (PositA permanent_A) (UseN residence_N) ;
Phrase = UseN phrase_N ;
Physical = AdjCN (PositA physical_A) (UseN entity_N) ;
PhysicalAttribute = AdjCN (PositA physical_A) (UseN attribute_N) ;
PhysicalQuantity = AdjCN (PositA physical_A) (UseN quantity_N) ;
PhysicalState = AdjCN (PositA physical_A) (UseN state_N) ;
PhysicalSystem = AdjCN (PositA physical_A) (UseN system_N) ;
Plan = UseN plan_N ;
PlaneAngleMeasure = ApposCN (ApposCN (UseN plane_N) (MassNP (UseN angle_N))) (MassNP (UseN measure_N)) ;
Planning = UseN2 (VerbToNounV2 plan_V2) ;
Plant = UseN plant_N ;
PlantAnatomicalStructure = ApposCN (UseN plant_N) (MassNP (AdjCN (PositA anatomical_A) (UseN structure_N))) ;
PlantSubstance = ApposCN (UseN plant_N) (MassNP (UseN substance_N)) ;
Poisoning = UseN2 (VerbToNounV2 poison_V2) ;
Poking = UseN2 (VerbToNounV2 poke_V2) ;
PoliticalOrganization = AdjCN (PositA political_A) (UseN organization_N) ;
PoliticalProcess = AdjCN (PositA political_A) (UseN process_N) ;
Pollen = UseN pollen_N ;
Position = UseN position_N ;
PositiveInteger = AdjCN (PositA positive_A) (UseN integer_N) ;
PositiveRealNumber = AdjCN (PositA positive_A) (AdjCN (PositA real_A) (UseN number_N)) ;
Precipitation = UseN precipitation_N ;
Predicting = UseN2 (VerbToNounV2 predict_V2) ;
PrepositionalPhrase = AdjCN (PositA prepositional_A) (UseN phrase_N) ;
Pretending = UseN2 (VerbToNounV2 pretend_V2) ;
PrimaryColor = AdjCN (PositA primary_A) (UseN colour_N) ;
Primate = UseN primate_N ;
PrimeNumber = AdjCN (PositA prime_A) (UseN number_N) ;
ProbabilityAttribute = ApposCN (UseN probability_N) (MassNP (UseN attribute_N)) ;
Procedure = UseN procedure_N ;
Process = UseN process_N ;
Product = UseN product_N ;
Proposition = UseN proposition_N ;
Protein = UseN protein_N ;
Proton = UseN proton_N ;
PseudoGraph = AdjCN (PositA pseudo_A) (UseN graph_N) ;
PsychologicalAttribute = AdjCN (PositA psychological_A) (UseN attribute_N) ;
PsychologicalProcess = AdjCN (PositA psychological_A) (UseN process_N) ;
Publication = UseN publication_N ;
PureSubstance = AdjCN (PositA pure_A) (UseN substance_N) ;
Pursuing = UseN2 (VerbToNounV2 pursue_V2) ;
Putting = UseN2 (VerbToNounV2 put_V2) ;
Quantity = UseN quantity_N ;
QuantityChange = ApposCN (UseN quantity_N) (MassNP (UseN change_N)) ;
Questioning = UseN2 (VerbToNounV2 question_V2) ;
Radiating = UseN2 (VerbToNounV2 radiate_V2) ;
RadiatingLight = AdjCN (PositA (VerbToGerundA radiate_V)) (UseN light_N) ;
RadiatingSound = AdjCN (PositA (VerbToGerundA radiate_V)) (UseN sound_N) ;
RationalNumber = AdjCN (PositA rational_A) (UseN number_N) ;
Reading = UseN reading_N ;
RealNumber = AdjCN (PositA real_A) (UseN number_N) ;
Reasoning = UseN reasoning_N ;
RecreationOrExercise = ConjCN or_Conj (BaseCN (UseN recreation_N) (UseN exercise_N)) ;
Region = UseN region_N ;
Releasing = UseN2 (VerbToNounV2 release_V2) ;
ReligiousOrganization = AdjCN (PositA religious_A) (UseN organization_N) ;
ReligiousProcess = AdjCN (PositA religious_A) (UseN process_N) ;
Remembering = UseN2 (VerbToNounV2 remember_V2) ;
Removing = UseN2 (VerbToNounV2 remove_V2) ;
Repairing = UseN2 (VerbToNounV2 repair_V2) ;
ReproductiveBody = AdjCN (PositA reproductive_A) (UseN body_N) ;
Reptile = UseN reptile_N ;
Requesting = UseN2 (VerbToNounV2 request_V2) ;
Residence = UseN residence_N ;
ResidentialBuilding = AdjCN (PositA residential_A) (UseN building_N) ;
Roadway = UseN roadway_N ;
Rodent = UseN rodent_N ;
Room = UseN room_N ;
Running = UseN running_N ;
SaltWaterArea = AdjCN (PositA salt_A) (ApposCN (UseN water_N) (MassNP (UseN area_N))) ;
SaturationAttribute = ApposCN (UseN saturation_N) (MassNP (UseN attribute_N)) ;
Saturday = UseN saturday_N ;
Second = UseN second_N ;
Seed = UseN seed_N ;
Seeing = UseN2 (VerbToNounV2 foresee_V2) ;
Selecting = UseN2 (VerbToNounV2 select_V2) ;
SelfConnectedObject = ApposCN (UseN self_N) (MassNP (AdjCN (PositA (VerbToParticipeA connect_V)) (UseN object_N))) ;
Selling = UseN selling_N ;
Sentence = UseN sentence_N ;
SentientAgent = AdjCN (PositA sentient_A) (UseN agent_N) ;
Separating = UseN2 (VerbToNounV2 separate_V2) ;
September = UseN september_N ;
Series = UseN series_N ;
ServiceProcess = ApposCN (UseN service_N) (MassNP (UseN process_N)) ;
Set = UseN set_N ;
SetOrClass = ConjCN or_Conj (BaseCN (UseN set_N) (UseN class_N)) ;
SexAttribute = ApposCN (UseN sex_N) (MassNP (UseN attribute_N)) ;
SexualReproduction = AdjCN (PositA sexual_A) (UseN reproduction_N) ;
ShapeAttribute = ApposCN (UseN shape_N) (MassNP (UseN attribute_N)) ;
ShapeChange = ApposCN (UseN shape_N) (MassNP (UseN change_N)) ;
Shooting = UseN shooting_N ;
ShoreArea = ApposCN (UseN shore_N) (MassNP (UseN area_N)) ;
Singing = UseN singing_N ;
SingleAgentProcess = AdjCN (PositA single_A) (ApposCN (UseN agent_N) (MassNP (UseN process_N))) ;
SingleFamilyResidence = AdjCN (PositA single_A) (ApposCN (UseN family_N) (MassNP (UseN residence_N))) ;
Smelling = UseN2 (VerbToNounV2 smell_V2) ;
Smoke = UseN smoke_N ;
SocialInteraction = AdjCN (PositA social_A) (UseN interaction_N) ;
SocialRole = AdjCN (PositA social_A) (UseN role_1_N) ;
SocialUnit = AdjCN (PositA social_A) (UseN unit_N) ;
SolidAngleMeasure = AdjCN (PositA solid_A) (ApposCN (UseN angle_N) (MassNP (UseN measure_N))) ;
Solution = UseN solution_N ;
SoundAttribute = AdjCN (PositA sound_A) (UseN attribute_N) ;
Speaking = UseN2 (VerbToNounV2 bespeak_V2) ;
SpokenHumanLanguage = AdjCN (PositA (VerbToParticipeA speak_V)) (AdjCN (PositA human_A) (UseN language_N)) ;
Spore = UseN spore_N ;
Sport = UseN sport_N ;
StateChange = ApposCN (UseN state_N) (MassNP (UseN change_N)) ;
StateOfMind = AdvCN (UseN state_N) (PrepNP part_Prep (MassNP (UseN mind_N))) ;
StateOrProvince = ConjCN or_Conj (BaseCN (UseN state_N) (UseN province_N)) ;
StaticWaterArea = AdjCN (PositA static_A) (ApposCN (UseN water_N) (MassNP (UseN area_N))) ;
Stating = UseN2 (VerbToNounV2 state_V2) ;
StationaryArtifact = AdjCN (PositA stationary_A) (UseN artifact_N) ;
StreamWaterArea = ApposCN (ApposCN (UseN stream_N) (MassNP (UseN water_N))) (MassNP (UseN area_N)) ;
SubatomicParticle = AdjCN (PositA subatomic_A) (UseN particle_N) ;
SubjectiveAssessmentAttribute = AdjCN (PositA subjective_A) (ApposCN (UseN assessment_N) (MassNP (UseN attribute_N))) ;
Substance = UseN substance_N ;
Substituting = UseN2 (VerbToNounV2 substitute_V2) ;
Summary = UseN summary_N ;
Sunday = UseN sunday_N ;
Supposing = UseN2 (VerbToNounV2 suppose_V2) ;
SurfaceChange = ApposCN (UseN surface_N) (MassNP (UseN change_N)) ;
Surgery = UseN surgery_N ;
Suspension = UseN suspension_N ;
Swimming = UseN swimming_N ;
SymbolicString = AdjCN (PositA symbolic_A) (UseN string_N) ;
SyntheticSubstance = AdjCN (PositA synthetic_A) (UseN substance_N) ;
TactilePerception = AdjCN (PositA tactile_A) (UseN perception_N) ;
TasteAttribute = ApposCN (UseN taste_N) (MassNP (UseN attribute_N)) ;
Tasting = UseN2 (VerbToNounV2 taste_V2) ;
TemperatureMeasure = ApposCN (UseN temperature_N) (MassNP (UseN measure_N)) ;
TemporaryResidence = AdjCN (PositA temporary_A) (UseN residence_N) ;
TerminatingEmployment = AdjCN (PositA (VerbToGerundA terminate_V)) (UseN employment_N) ;
Text = UseN text_N ;
TextureAttribute = ApposCN (UseN texture_N) (MassNP (UseN attribute_N)) ;
TherapeuticProcess = AdjCN (PositA therapeutic_A) (UseN process_N) ;
ThreeDimensionalFigure = AdjCN (PositA (compoundA (regA "three-dimensional"))) (UseN figure_N) ;
Thursday = UseN thursday_N ;
TimeDependentQuantity = ApposCN (ApposCN (UseN time_N) (MassNP (UseN dependent_N))) (MassNP (UseN quantity_N)) ;
TimeDuration = ApposCN (UseN time_N) (MassNP (UseN duration_N)) ;
TimeInterval = ApposCN (UseN time_N) (MassNP (UseN interval_N)) ;
TimeMeasure = ApposCN (UseN time_N) (MassNP (UseN measure_N)) ;
TimePoint = ApposCN (UseN time_N) (MassNP (UseN point_N)) ;
TimePosition = ApposCN (UseN time_N) (MassNP (UseN position_N)) ;
TimeZone = ApposCN (UseN time_N) (MassNP (UseN zone_N)) ;
Tissue = UseN tissue_N ;
Touching = UseN2 (VerbToNounV2 touch_V2) ;
TraitAttribute = ApposCN (UseN trait_N) (MassNP (UseN attribute_N)) ;
Transaction = UseN transaction_N ;
Transfer = UseN transfer_N ;
Translating = UseN2 (VerbToNounV2 translate_V2) ;
Transportation = UseN transportation_N ;
TransportationDevice = ApposCN (UseN transportation_N) (MassNP (UseN device_N)) ;
Tree = UseN tree_N ;
TruthValue = ApposCN (UseN truth_N) (MassNP (UseN value_N)) ;
Tuesday = UseN tuesday_N ;
TwoDimensionalAngle = AdjCN (PositA (compoundA (regA "two-dimensional"))) (UseN angle_N) ;
TwoDimensionalFigure = AdjCN (PositA (compoundA (regA "two-dimensional"))) (UseN figure_N) ;
Uncovering = UseN2 (VerbToNounV2 uncover_V2) ;
UnilateralGetting = AdjCN (PositA unilateral_A) (UseN2 (VerbToNounV2 beget_V2)) ;
UnilateralGiving = AdjCN (PositA unilateral_A) (UseN2 (VerbToNounV2 give_V2)) ;
UniqueList = AdjCN (PositA unique_A) (UseN list_N) ;
UnitOfAngularMeasure = AdvCN (UseN unit_N) (PrepNP part_Prep (MassNP (AdjCN (PositA angular_A) (UseN measure_N)))) ;
UnitOfArea = AdvCN (UseN unit_N) (PrepNP part_Prep (MassNP (UseN area_N))) ;
UnitOfAtmosphericPressure = AdvCN (UseN unit_N) (PrepNP part_Prep (MassNP (AdjCN (PositA atmospheric_A) (UseN pressure_N)))) ;
UnitOfCurrency = AdvCN (UseN unit_N) (PrepNP part_Prep (MassNP (UseN currency_N))) ;
UnitOfDuration = AdvCN (UseN unit_N) (PrepNP part_Prep (MassNP (UseN duration_N))) ;
UnitOfFrequency = AdvCN (UseN unit_N) (PrepNP part_Prep (MassNP (UseN frequency_N))) ;
UnitOfInformation = AdvCN (UseN unit_N) (PrepNP part_Prep (MassNP (UseN information_N))) ;
UnitOfLength = AdvCN (UseN unit_N) (PrepNP part_Prep (MassNP (UseN length_N))) ;
UnitOfMass = AdvCN (UseN unit_N) (PrepNP part_Prep (MassNP (UseN mass_N))) ;
UnitOfMeasure = AdvCN (UseN unit_N) (PrepNP part_Prep (MassNP (UseN measure_N))) ;
UnitOfTemperature = AdvCN (UseN unit_N) (PrepNP part_Prep (MassNP (UseN temperature_N))) ;
UnitOfVolume = AdvCN (UseN unit_N) (PrepNP part_Prep (MassNP (UseN volume_N))) ;
ValidDeductiveArgument = AdjCN (PositA valid_A) (AdjCN (PositA deductive_A) (UseN argument_N)) ;
Vehicle = UseN vehicle_N ;
Verb = UseN verb_N ;
VerbPhrase = ApposCN (UseN verb_N) (MassNP (UseN phrase_N)) ;
Vertebrate = UseN vertebrate_N ;
ViolentContest = AdjCN (PositA violent_A) (UseN contest_N) ;
Virus = UseN virus_N ;
VisualAttribute = AdjCN (PositA visual_A) (UseN attribute_N) ;
Vitamin = UseN vitamin_N ;
VocalCords = AdjCN (PositA vocal_A) (UseN cord_N) ;
Vocalizing = UseN2 (VerbToNounV2 vocalize_V2) ;
VolumeMeasure = ApposCN (UseN volume_N) (MassNP (UseN measure_N)) ;
Voting = UseN2 (VerbToNounV2 vote_V2) ;
Walking = UseN walking_N ;
War = UseN war_N ;
Water = UseN water_N ;
WaterArea = ApposCN (UseN water_N) (MassNP (UseN area_N)) ;
WaterCloud = ApposCN (UseN water_N) (MassNP (UseN cloud_N)) ;
WaterMotion = ApposCN (UseN water_N) (MassNP (UseN motion_N)) ;
Weapon = UseN weapon_N ;
WearableItem = AdjCN (PositA wearable_A) (UseN item_N) ;
WeatherProcess = ApposCN (UseN weather_N) (MassNP (UseN process_N)) ;
Wedding = UseN wedding_N ;
Wednesday = UseN wednesday_N ;
Week = UseN week_N ;
Wetting = UseN wetting_N ;
Wind = UseN wind_N ;
Woman = UseN woman_N ;
Word = UseN word_N ;
Worm = UseN worm_N ;
Writing = UseN writing_N ;
Year = UseN year_N ;
-- nullary functions
GreatestCommonDivisorFn ob = AdvNP (DetCN (DetQuantOrd DefArt NumSg (OrdSuperl great_A)) (AdjCN (PositA common_A) (UseN divisor_N))) (PrepNP part_Prep (ConjNP and_Conj ob)) ;
LeastCommonMultipleFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (AdjCN (PositA least_A) (AdjCN (PositA common_A) (UseN multiple_N)))) (PrepNP part_Prep (ConjNP and_Conj ob)) ;
ListFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (UseN list_N)) (PrepNP part_Prep (ConjNP and_Conj ob)) ;
-- unary functions
AbsoluteValueFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (AdjCN (PositA absolute_A) (UseN value_N))) (PrepNP part_Prep ob) ;
AbstractionFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (UseN abstraction_N)) (PrepNP part_Prep (MassNP ob)) ;
BackFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (UseN back_N)) (PrepNP part_Prep ob) ;
BeginFn ob = AdvNP (DetCN (DetQuant DefArt NumPl) (UseN2 (VerbToNounV2 begin_V2))) (PrepNP part_Prep ob) ;
BeginNodeFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (AdjCN (PositA initial_A) (UseN node_N))) (PrepNP part_Prep ob) ;
CeilingFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (UseN ceiling_N)) (PrepNP part_Prep ob) ;
CenterOfCircleFn ob = AdvNP (AdvNP (DetCN (DetQuant DefArt NumSg) (UseN centre_N)) (PrepNP part_Prep (MassNP (UseN circle_N)))) (PrepNP part_Prep ob) ;
ComplementFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (UseN complement_N)) (PrepNP part_Prep ob) ;
CosineFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (UseN cosine_N)) (PrepNP part_Prep ob) ;
CutSetFn ob = AdvCN (AdjCN (PositA (VerbToParticipeA cut_V)) (UseN set_N)) (PrepNP part_Prep ob) ;
DenominatorFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (UseN denominator_N)) (PrepNP part_Prep ob) ;
EndFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (UseN end_N)) (PrepNP part_Prep ob) ;
EndNodeFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (ApposCN (UseN end_N) (MassNP (UseN node_N)))) (PrepNP part_Prep ob) ;
ExtensionFn ob = AdvCN (UseN extension_N) (PrepNP part_Prep ob) ;
FloorFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (UseN floor_N)) (PrepNP part_Prep ob) ;
FrontFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (UseN front_N)) (PrepNP part_Prep ob) ;
FutureFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (UseN future_N)) (PrepNP part_Prep ob) ;
GeneralizedIntersectionFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (AdjCN (PositA (VerbToParticipeA generalize_V)) (UseN intersection_N))) (PrepNP part_Prep (MassNP ob)) ;
GeneralizedUnionFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (AdjCN (PositA (VerbToParticipeA generalize_V)) (UseN union_N))) (PrepNP part_Prep (MassNP ob)) ;
GovernmentFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (UseN government_N)) (PrepNP part_Prep ob) ;
HoleHostFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (ApposCN (UseN hole_N) (MassNP (UseN host_N)))) (PrepNP part_Prep ob) ;
HoleSkinFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (ApposCN (UseN hole_N) (MassNP (UseN skin_N)))) (PrepNP part_Prep ob) ;
ImaginaryPartFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (AdjCN (PositA imaginary_A) (UseN part_N))) (PrepNP part_Prep ob) ;
ImmediateFamilyFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (AdjCN (PositA immediate_A) (UseN family_N))) (PrepNP part_Prep ob) ;
ImmediateFutureFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (AdjCN (PositA immediate_A) (UseN future_N))) (PrepNP part_Prep ob) ;
ImmediatePastFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (AdjCN (PositA immediate_A) (UseN past_N))) (PrepNP part_Prep ob) ;
InitialNodeFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (AdjCN (PositA initial_A) (UseN node_N))) (PrepNP part_Prep ob) ;
IntegerSquareRootFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (ApposCN (AdvCN (UseN integer_N) square_Adv) (MassNP (UseN root_N)))) (PrepNP part_Prep ob) ;
MagnitudeFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (UseN magnitude_N)) (PrepNP part_Prep ob) ;
MinimalCutSetFn ob = AdvCN (AdjCN (PositA minimal_A) (AdjCN (PositA (VerbToParticipeA cut_V)) (UseN set_N))) (PrepNP part_Prep ob) ;
NumeratorFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (UseN numerator_N)) (PrepNP part_Prep ob) ;
PastFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (UseN past_N)) (PrepNP part_Prep ob) ;
PathWeightFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (ApposCN (UseN path_N) (MassNP (UseN weight_N)))) (PrepNP part_Prep ob) ;
PowerSetFn ob = AdvCN (ApposCN (UseN power_N) (MassNP (UseN set_N))) (PrepNP part_Prep ob) ;
PredecessorFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (UseN predecessor_N)) (PrepNP part_Prep ob) ;
PremisesFn ob = AdvNP (DetCN (DetQuant DefArt NumPl) (UseN premise_N)) (PrepNP part_Prep ob) ;
ProbabilityFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (UseN probability_N)) (PrepNP part_Prep (sentToNoun ob)) ;
PropertyFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (UseN property_N)) (PrepNP part_Prep ob) ;
RationalNumberFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (AdjCN (PositA rational_A) (UseN number_N))) (PrepNP part_Prep ob) ;
RealNumberFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (AdjCN (PositA real_A) (UseN number_N))) (PrepNP part_Prep ob) ;
ReciprocalFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (UseN reciprocal_N)) (PrepNP part_Prep ob) ;
RoundFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (AdjCN (PositA round_A) (UseN value_N))) (PrepNP part_Prep ob) ;
SineFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (UseN sine_N)) (PrepNP part_Prep ob) ;
SquareRootFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (AdjCN (PositA square_A) (UseN root_N))) (PrepNP part_Prep ob) ;
SuccessorFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (UseN successor_N)) (PrepNP part_Prep ob) ;
TangentFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (UseN tangent_N)) (PrepNP part_Prep ob) ;
TerminalNodeFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (AdjCN (PositA terminal_A) (UseN node_N))) (PrepNP part_Prep ob) ;
UnitFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (UseN unit_N)) (PrepNP part_Prep ob) ;
WealthFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (UseN wealth_N)) (PrepNP part_Prep ob) ;
WhenFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (UseN time_N)) (PrepNP part_Prep ob) ;
YearFn ob = AdvCN (UseN year_N) (PrepNP part_Prep ob) ;
KiloFn ob = AdvNP (MassNP (UseN kilo_N)) (PrepNP part_Prep ob) ;
ListLengthFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (UseN length_N)) (PrepNP part_Prep ob) ;
SignumFn ob = AdvNP (DetCN (DetQuant DefArt NumSg) (UseN sign_N)) (PrepNP part_Prep ob) ;
-- binary functions
AdditionFn ob1 ob2 = AdvNP (DetCN (DetQuant DefArt NumSg) (UseN addition_N)) (PrepNP part_Prep (ConjNP and_Conj (BaseNP ob1 ob2))) ;
DayFn ob1 ob2 = AdvCN (ApposCN (UseN day_N) ob1) (PrepNP part_Prep (MassNP ob2)) ;
DivisionFn ob1 ob2 = AdvNP (AdvNP (DetCN (DetQuant DefArt NumSg) (UseN division_N)) (PrepNP part_Prep ob1)) (PrepNP to_Prep ob2) ;
EditionFn ob1 ob2 = AdvCN (ApposCN (UseN edition_N) (MassNP ob1)) (PrepNP part_Prep ob2) ;
ExponentiationFn ob1 ob2 = AdvNP (AdvNP ob1 (PrepNP to_Prep (DetCN (DetQuant DefArt NumSg) (UseN power_N)))) (PrepNP part_Prep ob2) ;
GraphPathFn ob1 ob2 = AdvCN (UseN path_N) (PrepNP between_Prep (ConjNP and_Conj (BaseNP ob1 ob2))) ;
HourFn ob1 ob2 = AdvCN (ApposCN (UseN hour_N) ob1) (PrepNP part_Prep (MassNP ob2)) ;
IntersectionFn ob1 ob2 = AdvNP (DetCN (DetQuant DefArt NumSg) (UseN intersection_N)) (PrepNP part_Prep (ConjNP and_Conj (BaseNP ob1 ob2))) ;
IntervalFn ob1 ob2 = AdvCN (AdvCN (UseN interval_N) (PrepNP from_Prep ob1)) (PrepNP to_Prep ob2) ;
ListConcatenateFn ob1 ob2 = AdvNP (AdvNP (DetCN (DetQuant DefArt NumSg) (UseN concatenation_N)) (PrepNP part_Prep ob1)) (PrepNP to_Prep ob2) ;
ListOrderFn ob1 ob2 = AdvNP (AdvNP (DetCN (DetQuant DefArt NumSg) (UseN element_N)) (PrepNP with_Prep (MassNP (ApposCN (UseN number_N) ob2)))) (PrepNP in_Prep ob1) ;
LogFn ob1 ob2 = AdvNP (AdvNP (DetCN (DetQuant DefArt NumSg) (UseN logarithm_N)) (PrepNP part_Prep ob1)) (PrepNP in_Prep (DetCN (DetQuant DefArt NumSg) (ApposCN (UseN base_N) ob2))) ;
MaxFn ob1 ob2 = AdvNP (DetCN (DetQuant DefArt NumSg) (UseN maximum_N)) (PrepNP part_Prep (ConjNP and_Conj (BaseNP ob1 ob2))) ;
MaximalWeightedPathFn ob1 ob2 = AdvNP (AdvNP (DetCN (DetQuant DefArt NumSg) (UseN path_N)) (PrepNP part_Prep (MassNP (AdjCN (PositA maximal_A) (UseN weight_N))))) (PrepNP between_Prep (ConjNP and_Conj (BaseNP ob1 ob2))) ;
MinFn ob1 ob2 = AdvNP (DetCN (DetQuant DefArt NumSg) (UseN minimum_N)) (PrepNP part_Prep (ConjNP and_Conj (BaseNP ob1 ob2))) ;
MinimalWeightedPathFn ob1 ob2 = AdvNP (AdvNP (DetCN (DetQuant DefArt NumSg) (UseN path_N)) (PrepNP part_Prep (MassNP (AdjCN (PositA minimal_A) (UseN weight_N))))) (PrepNP between_Prep (ConjNP and_Conj (BaseNP ob1 ob2))) ;
MinuteFn ob1 ob2 = AdvCN (ApposCN (UseN minute_N) ob1) (PrepNP part_Prep (MassNP ob2)) ;
MonthFn ob1 ob2 = AdvCN (ApposCN (UseN month_N) (MassNP ob1)) (PrepNP part_Prep (MassNP ob2)) ;
MultiplicationFn ob1 ob2 = AdvNP (DetCN (DetQuant DefArt NumSg) (UseN multiplication_N)) (PrepNP part_Prep (ConjNP and_Conj (BaseNP ob1 ob2))) ;
PerFn ob1 ob2 = AdvNP ob1 (PrepNP per_Prep ob2) ;
PeriodicalIssueFn ob1 ob2 = AdvCN (AdvCN (AdjCN (PositA periodical_A) (UseN issue_N)) (PrepNP part_Prep (MassNP ob1))) (PrepNP with_Prep (DetCN (DetQuant DefArt NumSg) (ApposCN (UseN number_N) ob2))) ;
RecurrentTimeIntervalFn ob1 ob2 = AdvCN (AdjCN (PositA recurrent_A) (ApposCN (UseN time_N) (MassNP (UseN interval_N)))) (PrepNP between_Prep (ConjNP and_Conj (BaseNP (MassNP ob1) (MassNP ob2)))) ;
RelativeComplementFn ob1 ob2 = AdvNP (DetCN (DetQuant DefArt NumSg) (ApposCN (AdvCN (UseN complement_N) (PrepNP part_Prep ob2)) (MassNP (UseN relative_N)))) (PrepNP to_Prep ob1) ;
RelativeTimeFn ob1 ob2 = AdvNP (DetCN (DetQuant DefArt NumSg) (ApposCN (ApposCN (UseN time_N) ob1) (MassNP (UseN relative_N)))) (PrepNP to_Prep ob2) ;
RemainderFn ob1 ob2 = AdvNP (DetCN (DetQuant DefArt NumSg) (UseN remainder_N)) (PrepNP part_Prep (ConjNP and_Conj (BaseNP ob1 ob2))) ;
SecondFn ob1 ob2 = AdvCN (ApposCN (UseN second_N) ob1) (PrepNP part_Prep (MassNP ob2)) ;
SeriesVolumeFn ob1 ob2 = AdvCN (ApposCN (UseN volume_N) ob2) (PrepNP in_Prep (DetCN (DetQuant DefArt NumPl) (ApposCN (UseN series_N) (MassNP ob1)))) ;
SubtractionFn ob1 ob2 = AdvNP (AdvNP (DetCN (DetQuant DefArt NumSg) (UseN subtraction_N)) (PrepNP part_Prep ob2)) (PrepNP from_Prep ob1) ;
TemporalCompositionFn ob1 ob2 = AdvCN (AdjCN (PositA temporal_A) (UseN composition_N)) (PrepNP part_Prep (ConjNP and_Conj (BaseNP ob1 (MassNP ob2)))) ;
TimeIntervalFn ob1 ob2 = AdvNP (DetCN (DetQuant DefArt NumSg) (ApposCN (UseN time_N) (MassNP (UseN interval_N)))) (PrepNP between_Prep (ConjNP and_Conj (BaseNP ob1 ob2))) ;
UnionFn ob1 ob2 = AdvNP (DetCN (DetQuant DefArt NumSg) (UseN union_N)) (PrepNP part_Prep (ConjNP and_Conj (BaseNP ob1 ob2))) ;
WhereFn ob1 ob2 = AdvNP (AdvNP (DetCN (DetQuant DefArt NumSg) (UseN location_N)) (PrepNP part_Prep ob1)) (PrepNP at_Prep ob2) ;
DensityFn ob1 ob2 = AdvNP (AdvNP (DetCN (DetQuant IndefArt NumSg) (UseN density_N)) (PrepNP part_Prep ob1)) (PrepNP per_Prep ob2) ;
SpeedFn ob1 ob2 = AdvNP (AdvNP (DetCN (DetQuant IndefArt NumSg) (UseN speed_N)) (PrepNP part_Prep ob1)) (PrepNP per_Prep ob2) ;
-- quaternary functions
VelocityFn ob1 ob2 ob3 ob4 = AdvNP (AdvNP (AdvNP (AdvNP (DetCN (DetQuant DefArt NumSg) (UseN velocity_N)) (PrepNP part_Prep ob1)) (PrepNP per_Prep ob2)) (PrepNP part_Prep ob3)) (PrepNP to_Prep ob4) ;
-- nullary predicates
contraryAttribute ob1 = mkPolSent (PredVP (ConjNP and_Conj ob1) (UseComp (CompNP (MassNP (AdjCN (PositA contrary_A) (UseN attribute_N)))))) ;
exhaustiveAttribute ob1 ob2 = mkPolSent (PredVP (ConjNP and_Conj ob2) (AdvVP (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (AdjCN (PositA exhaustive_A) (UseN decomposition_N))))) (PrepNP part_Prep (MassNP ob1))) (PrepNP in_Prep (DetCN (DetQuant IndefArt NumPl) (UseN instance_N))))) ;
exhaustiveDecomposition ob1 ob2 = mkPolSent (PredVP (MassNP (ConjCN and_Conj ob2)) (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (AdjCN (PositA exhaustive_A) (UseN decomposition_N))))) (PrepNP part_Prep (MassNP ob1)))) ;
partition ob1 ob2 = mkPolSent (PredVP (MassNP (ConjCN and_Conj ob2)) (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN partition_N)))) (PrepNP part_Prep (MassNP ob1)))) ;
-- binary predicates
abstractCounterpart ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (AdjCN (PositA abstract_A) (UseN counterpart_N))))) (PrepNP part_Prep ob2))) ;
acquaintance ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (UseN acquaintance_N)))) (PrepNP part_Prep ob2))) ;
atomicNumber ob1 ob2 = mkPolSent (PredVP (MassNP ob1) (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (AdjCN (PositA atomic_A) (UseN number_N))))) (PrepNP part_Prep ob2))) ;
authors ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN author_N)))) (PrepNP part_Prep (MassNP ob2)))) ;
average ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN average_N)))) (PrepNP part_Prep ob2))) ;
barometricPressure ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (AdjCN (PositA barometric_A) (UseN pressure_N))))) (PrepNP part_Prep ob2))) ;
believes ob1 ob2 = mkPolSent (PredVP ob1 (ComplSlash (SlashV2a believe_V2) (sentToNoun ob2))) ;
boilingPoint ob1 ob2 = mkPolSent (PredVP (MassNP ob1) (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumPl) (ApposCN (UseN2 (VerbToNounV2 boil_V2)) (MassNP (UseN point_N)))))) (PrepNP part_Prep ob2))) ;
causes ob1 ob2 = mkPolSent (PredVP ob1 (ComplSlash (SlashV2a cause_V2) ob2)) ;
causesProposition ob1 ob2 = mkPolSent (PredVP (sentToNoun ob1) (ComplSlash (SlashV2a cause_V2) (sentToNoun ob2))) ;
causesSubclass ob1 ob2 = mkPolSent (PredVP (MassNP ob1) (AdvVP (ComplSlash (SlashV2a cause_V2) (DetCN (DetQuant IndefArt NumSg) (ApposCN (UseN sub_N) (MassNP (UseN class_N))))) (PrepNP part_Prep (MassNP ob2)))) ;
citizen ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (UseN citizen_N)))) (PrepNP part_Prep ob2))) ;
conclusion ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN conclusion_N)))) (PrepNP part_Prep ob2))) ;
connected ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (PassV2 connect_V2) (PrepNP to_Prep ob2))) ;
considers ob1 ob2 = mkPolSent (PredVP ob1 (ComplSlash (SlashV2a consider_V2) (sentToNoun ob2))) ;
consistent ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompAP (PositA consistent_A))) (PrepNP with_Prep ob2))) ;
containsInformation ob1 ob2 = mkPolSent (PredVP ob1 (ComplSlash (SlashV2a contain_V2) (DetCN (DetQuant DefArt NumSg) (ApposCN (UseN information_N) ob2)))) ;
cooccur ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (AdvVP (UseV occur_V) (PositAdvAdj simultaneous_A)) (PrepNP with_Prep ob2))) ;
copy ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (UseN copy_N)))) (PrepNP part_Prep ob2))) ;
date ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN date_N)))) (PrepNP part_Prep ob2))) ;
decreasesLikelihood ob1 ob2 = mkPolSent (PredVP (sentToNoun ob1) (AdvVP (ComplSlash (SlashV2a decrease_V2) (DetCN (DetQuant DefArt NumSg) (UseN possibility_N))) (PrepNP part_Prep (sentToNoun ob2)))) ;
desires ob1 ob2 = mkPolSent (PredVP ob1 (ComplSlash (SlashV2a desire_V2) (sentToNoun ob2))) ;
diameter ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN diameter_N)))) (PrepNP part_Prep ob2))) ;
duration ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN duration_N)))) (PrepNP part_Prep ob2))) ;
earlier ob1 ob2 = mkPolSent (PredVP ob1 (UseComp (CompAP (ComparA early_A ob2)))) ;
editor ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN editor_N)))) (PrepNP part_Prep (MassNP ob2)))) ;
element ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (UseN element_N)))) (PrepNP part_Prep ob2))) ;
employs ob1 ob2 = mkPolSent (PredVP ob1 (ComplSlash (SlashV2a employ_V2) ob2)) ;
entails ob1 ob2 = mkPolSent (PredVP (sentToNoun ob1) (ComplSlash (SlashV2a entail_V2) (sentToNoun ob2))) ;
equal ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompAP (PositA equal_A))) (PrepNP to_Prep ob2))) ;
exploits ob1 ob2 = mkPolSent (PredVP ob1 (ComplSlash (SlashV2a exploit_V2) ob2)) ;
expressedInLanguage ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (PassV2 express_V2) (PrepNP in_Prep (DetCN (DetQuant DefArt NumSg) (ApposCN (UseN language_N) ob2))))) ;
faces ob1 ob2 = mkPolSent (PredVP ob1 (ComplSlash (SlashV2a face_V2) ob2)) ;
familyRelation ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (ApposCN (UseN family_N) (MassNP (UseN relation_N)))))) (PrepNP part_Prep ob2))) ;
frequency ob1 ob2 = mkPolSent (PredVP (MassNP ob1) (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN frequency_N)))) (PrepNP part_Prep ob2))) ;
geometricPart ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (AdjCN (PositA geometric_A) (UseN part_N))))) (PrepNP part_Prep ob2))) ;
graphMeasure ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN measure_N)))) (PrepNP part_Prep ob2))) ;
graphPart ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (UseN part_N)))) (PrepNP part_Prep ob2))) ;
hasPurpose ob1 ob2 = mkPolSent (PredVP ob1 (ComplSlash (SlashV2a have_V2) (DetCN (DetQuant DefArt NumSg) (ApposCN (UseN purpose_N) (sentToNoun ob2))))) ;
hasSkill ob1 ob2 = mkPolSent (PredVP (MassNP ob1) (ComplSlash (SlashV2a have_V2) (DetCN (DetQuant DefArt NumSg) (ApposCN (UseN skill_N) ob2)))) ;
holdsDuring ob1 ob2 = mkPolSent (PredVP (sentToNoun ob2) (AdvVP (UseV hold_V) (PrepNP during_Prep ob1))) ;
holdsObligation ob1 ob2 = mkPolSent (PredVP (sentToNoun ob1) (ComplSlash (SlashV2a behold_V2) (DetCN (DetQuant DefArt NumSg) (ApposCN (UseN obligation_N) ob2)))) ;
holdsRight ob1 ob2 = mkPolSent (PredVP (sentToNoun ob1) (ComplSlash (SlashV2a behold_V2) (DetCN (DetQuant DefArt NumSg) (ApposCN (UseN right_N) ob2)))) ;
hole ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (UseN hole_N)))) (PrepNP part_Prep ob2))) ;
identicalListItems ob1 ob2 = mkPolSent (PredVP (ConjNP and_Conj (BaseNP ob1 ob2)) (ComplSlash (SlashV2a have_V2) (DetCN (DetQuant IndefArt NumPl) (AdjCN (PositA identical_A) (UseN item_N))))) ;
inList ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (UseN element_N)))) (PrepNP part_Prep ob2))) ;
increasesLikelihood ob1 ob2 = mkPolSent (PredVP (sentToNoun ob1) (AdvVP (ComplSlash (SlashV2a increase_V2) (DetCN (DetQuant DefArt NumSg) (UseN possibility_N))) (PrepNP part_Prep (sentToNoun ob2)))) ;
independentProbability ob1 ob2 = mkPolSent (PredVP (ConjNP and_Conj (BaseNP (sentToNoun ob1) (sentToNoun ob2))) (ComplSlash (SlashV2a have_V2) (MassNP (AdjCN (PositA independent_A) (UseN probability_N))))) ;
inhabits ob1 ob2 = mkPolSent (PredVP ob1 (ComplSlash (SlashV2a inhabit_V2) ob2)) ;
inhibits ob1 ob2 = mkPolSent (PredVP (MassNP ob1) (ComplSlash (SlashV2a inhibit_V2) (MassNP ob2))) ;
knows ob1 ob2 = mkPolSent (PredVP ob1 (ComplSlash (SlashV2a know_V2) (sentToNoun ob2))) ;
larger ob1 ob2 = mkPolSent (PredVP ob1 (UseComp (CompAP (ComparA large_A ob2)))) ;
leader ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN leader_N)))) (PrepNP part_Prep ob2))) ;
legalRelation ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (AdjCN (PositA legal_A) (UseN relation_N))))) (PrepNP part_Prep ob2))) ;
lessThanOrEqualTo ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompAP (ConjAP or_Conj (BaseAP (PositA less_A) (PositA equal_A))))) (PrepNP to_Prep ob2))) ;
lineMeasure ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN measure_N)))) (PrepNP part_Prep ob2))) ;
material ob1 ob2 = mkPolSent (PredVP (MassNP ob1) (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN material_N)))) (PrepNP part_Prep ob2))) ;
measure ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN measure_N)))) (PrepNP part_Prep ob2))) ;
meltingPoint ob1 ob2 = mkPolSent (PredVP (MassNP ob1) (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumPl) (ApposCN (UseN2 (VerbToNounV2 melt_V2)) (MassNP (UseN point_N)))))) (PrepNP part_Prep ob2))) ;
multiplicativeFactor ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (UseN factor_N)))) (PrepNP part_Prep ob2))) ;
mutualAcquaintance ob1 ob2 = mkPolSent (PredVP (ConjNP and_Conj (BaseNP ob1 ob2)) (UseComp (CompNP (DetCN (DetQuant IndefArt NumPl) (AdjCN (PositA mutual_A) (UseN acquaintance_N)))))) ;
needs ob1 ob2 = mkPolSent (PredVP ob1 (ComplSlash (SlashV2a need_V2) ob2)) ;
parallel ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompAP (PositA parallel_A))) (PrepNP to_Prep ob2))) ;
parent ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN parent_N)))) (PrepNP part_Prep ob2))) ;
partialOrderingOn c p = mkPolSent (PredVP (sentToNoun p) (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (AdjCN (PositA partial_A) (UseN ordering_N))))) (PrepNP on_Prep (DetCN (DetQuant IndefArt NumSg) c)))) ;
pathLength ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN length_N)))) (PrepNP part_Prep (DetCN (DetQuant DefArt NumSg) (ApposCN (UseN path_N) ob2))))) ;
possesses ob1 ob2 = mkPolSent (PredVP ob1 (ComplSlash (SlashV2a possess_V2) ob2)) ;
precondition ob1 ob2 = mkPolSent (PredVP (MassNP ob1) (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (UseN precondition_N)))) (PrepNP part_Prep (MassNP ob2)))) ;
premise ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (UseN premise_N)))) (PrepNP part_Prep ob2))) ;
prevents ob1 ob2 = mkPolSent (PredVP (MassNP ob1) (ComplSlash (SlashV2a prevent_V2) (MassNP ob2))) ;
property ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (UseN property_N)))) (PrepNP part_Prep ob2))) ;
publishes ob1 ob2 = mkPolSent (PredVP ob1 (ComplSlash (SlashV2a publish_V2) (MassNP ob2))) ;
radius ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN radius_N)))) (PrepNP part_Prep ob2))) ;
refers ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseV refer_V) (PrepNP to_Prep ob2))) ;
reflexiveOn c p = mkPolSent (PredVP (sentToNoun p) (AdvVP (UseComp (CompAP (PositA reflexive_A))) (PrepNP on_Prep (DetCN (DetQuant IndefArt NumSg) c)))) ;
relatedEvent ob1 ob2 = mkPolSent (PredVP (ConjNP and_Conj (BaseNP ob1 ob2)) (UseComp (CompNP (DetCN (DetQuant IndefArt NumPl) (AdjCN (PositA (VerbToParticipeA relate_V)) (UseN event_N)))))) ;
relatedInternalConcept ob1 ob2 = mkPolSent (PredVP (ConjNP and_Conj (BaseNP ob1 ob2)) (UseComp (CompNP (DetCN (DetQuant IndefArt NumPl) (AdjCN (PositA (VerbToParticipeA relate_V)) (AdjCN (PositA internal_A) (UseN concept_N))))))) ;
relative ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (UseN relative_N)))) (PrepNP part_Prep ob2))) ;
sibling ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (UseN sibling_N)))) (PrepNP part_Prep ob2))) ;
smaller ob1 ob2 = mkPolSent (PredVP ob1 (UseComp (CompAP (ComparA small_A ob2)))) ;
subAttribute ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (ApposCN (UseN sub_N) (MassNP (UseN attribute_N)))))) (PrepNP part_Prep ob2))) ;
subCollection ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (ApposCN (UseN sub_N) (MassNP (UseN collection_N)))))) (PrepNP part_Prep ob2))) ;
subGraph ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (ApposCN (UseN sub_N) (MassNP (UseN graph_N)))))) (PrepNP part_Prep ob2))) ;
subList ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (ApposCN (UseN sub_N) (MassNP (UseN list_N)))))) (PrepNP part_Prep ob2))) ;
subProcess ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (ApposCN (UseN sub_N) (MassNP (UseN process_N)))))) (PrepNP part_Prep ob2))) ;
subProposition ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (ApposCN (UseN sub_N) (MassNP (UseN proposition_N)))))) (PrepNP part_Prep ob2))) ;
subSystem ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (ApposCN (UseN sub_N) (MassNP (UseN system_N)))))) (PrepNP part_Prep ob2))) ;
subclass ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (ApposCN (UseN sub_N) (MassNP (UseN class_N)))))) (PrepNP part_Prep ob2))) ;
subsumesContentClass ob1 ob2 = mkPolSent (PredVP (MassNP ob1) (AdvVP (ComplSlash (SlashV2a subsume_V2) (DetCN (DetQuant DefArt NumSg) (UseN content_N))) (PrepNP part_Prep (MassNP ob2)))) ;
subsumesContentInstance ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (ComplSlash (SlashV2a subsume_V2) (DetCN (DetQuant DefArt NumSg) (UseN content_N))) (PrepNP part_Prep ob2))) ;
successorAttribute ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (ApposCN (UseN successor_N) (MassNP (UseN attribute_N)))))) (PrepNP part_Prep ob2))) ;
systemPart ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN part_N)))) (PrepNP part_Prep ob2))) ;
temporalPart ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (AdjCN (PositA temporal_A) (UseN part_N))))) (PrepNP part_Prep ob2))) ;
time ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN time_N)))) (PrepNP part_Prep ob2))) ;
totalOrderingOn c p = mkPolSent (PredVP (sentToNoun p) (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (AdjCN (PositA total_A) (UseN ordering_N))))) (PrepNP on_Prep (DetCN (DetQuant IndefArt NumSg) c)))) ;
traverses ob1 ob2 = mkPolSent (PredVP ob1 (ComplSlash (SlashV2a traverse_V2) ob2)) ;
uses ob1 ob2 = mkPolSent (PredVP ob1 (ComplSlash (SlashV2a use_V2) ob2)) ;
version ob1 ob2 = mkPolSent (PredVP (MassNP ob1) (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (UseN version_N)))) (PrepNP part_Prep (MassNP ob2)))) ;
wants ob1 ob2 = mkPolSent (PredVP ob1 (ComplSlash (SlashV2a want_V2) ob2)) ;
wears ob1 ob2 = mkPolSent (PredVP ob1 (ComplSlash (SlashV2a outwear_V2) ob2)) ;
weight ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN weight_N)))) (PrepNP part_Prep ob2))) ;
age ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN age_N)))) (PrepNP part_Prep ob2))) ;
agent ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (UseN agent_N)))) (PrepNP part_Prep ob2))) ;
ancestor ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (UseN ancestor_N)))) (PrepNP part_Prep ob2))) ;
angleOfFigure ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (UseN angle_N)))) (PrepNP part_Prep (DetCN (DetQuant DefArt NumSg) (ApposCN (UseN figure_N) ob2))))) ;
attends ob1 ob2 = mkPolSent (PredVP ob1 (ComplSlash (SlashV2a attend_V2) ob2)) ;
attribute ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (UseN attribute_N)))) (PrepNP part_Prep ob2))) ;
before ob1 ob2 = mkPolSent (PredVP ob1 (UseComp (CompAdv (PrepNP before_Prep ob2)))) ;
bottom ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN bottom_N)))) (PrepNP part_Prep ob2))) ;
side ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (UseN side_N)))) (PrepNP part_Prep ob2))) ;
surface ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN surface_N)))) (PrepNP part_Prep ob2))) ;
top ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN top_N)))) (PrepNP part_Prep ob2))) ;
brother ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (UseN brother_N)))) (PrepNP part_Prep ob2))) ;
fills ob1 ob2 = mkPolSent (PredVP ob1 (ComplSlash (SlashV2a fill_V2) ob2)) ;
completelyFills ob1 ob2 = mkPolSent (PredVP (AdvNP ob1 (PositAdvAdj complete_A)) (ComplSlash (SlashV2a fill_V2) ob2)) ;
properlyFills ob1 ob2 = mkPolSent (PredVP (AdvNP ob1 (PositAdvAdj proper_A)) (ComplSlash (SlashV2a fill_V2) ob2)) ;
exactlyLocated ob1 ob2 = mkPolSent (PredVP ob2 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (AdjCN (PositA exact_A) (UseN location_N))))) (PrepNP part_Prep ob1))) ;
partiallyFills ob1 ob2 = mkPolSent (PredVP (AdvNP ob1 (PositAdvAdj partial_A)) (ComplSlash (SlashV2a fill_V2) ob2)) ;
component ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (UseN component_N)))) (PrepNP part_Prep ob2))) ;
contains ob1 ob2 = mkPolSent (PredVP ob1 (ComplSlash (SlashV2a contain_V2) ob2)) ;
crosses ob1 ob2 = mkPolSent (PredVP ob1 (ComplSlash (SlashV2a cross_V2) ob2)) ;
destination ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN destination_N)))) (PrepNP part_Prep ob2))) ;
direction ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN direction_N)))) (PrepNP part_Prep ob2))) ;
during ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseV happen_V) (PrepNP during_Prep ob2))) ;
equivalentContentClass ob1 ob2 = mkPolSent (PredVP (ConjNP and_Conj (BaseNP (MassNP ob1) (MassNP ob2))) (ComplSlash (SlashV2a have_V2) (DetCN (DetQuant IndefArt NumPl) (AdjCN (PositA equivalent_A) (UseN content_N))))) ;
finishes ob1 ob2 = mkPolSent (PredVP ob1 (ComplSlash (SlashV2a finish_V2) ob2)) ;
grasps ob1 ob2 = mkPolSent (PredVP ob1 (ComplSlash (SlashV2a grasp_V2) ob2)) ;
penetrates ob1 ob2 = mkPolSent (PredVP ob1 (ComplSlash (SlashV2a penetrate_V2) ob2)) ;
height ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN height_N)))) (PrepNP part_Prep ob2))) ;
length ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN length_N)))) (PrepNP part_Prep ob2))) ;
width ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN width_N)))) (PrepNP part_Prep ob2))) ;
home ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN home_N)))) (PrepNP part_Prep ob2))) ;
husband ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN husband_N)))) (PrepNP part_Prep ob2))) ;
wife ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN wife_N)))) (PrepNP part_Prep ob2))) ;
instrument ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN instrument_N)))) (PrepNP part_Prep ob2))) ;
result ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN result_N)))) (PrepNP part_Prep ob2))) ;
interiorPart ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN interior_N)))) part_Adv) (PrepNP part_Prep ob2))) ;
linearExtent ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (AdjCN (PositA linear_A) (UseN extent_N))))) (PrepNP part_Prep ob2))) ;
located ob1 ob2 = mkPolSent (PredVP ob2 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN location_N)))) (PrepNP part_Prep ob1))) ;
manner ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN manner_N)))) (PrepNP part_Prep ob2))) ;
member ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (UseN member_N)))) (PrepNP part_Prep ob2))) ;
monetaryValue ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (AdjCN (PositA monetary_A) (UseN value_N))))) (PrepNP part_Prep ob2))) ;
names ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (UseN name_N)))) (PrepNP part_Prep ob2))) ;
origin ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN origin_N)))) (PrepNP part_Prep ob2))) ;
part ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (UseN part_N)))) (PrepNP part_Prep ob2))) ;
path ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (UseN path_N)))) (PrepNP part_Prep ob2))) ;
mother ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN mother_N)))) (PrepNP part_Prep ob2))) ;
father ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN father_N)))) (PrepNP part_Prep ob2))) ;
daughter ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN daughter_N)))) (PrepNP part_Prep ob2))) ;
son ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN son_N)))) (PrepNP part_Prep ob2))) ;
patient ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (UseN patient_N)))) (PrepNP part_Prep ob2))) ;
piece ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (UseN piece_N)))) (PrepNP part_Prep ob2))) ;
pointOfFigure ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (UseN point_N)))) (PrepNP part_Prep (DetCN (DetQuant DefArt NumSg) (ApposCN (UseN figure_N) ob2))))) ;
properPart ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (AdjCN (PositA proper_A) (UseN part_N))))) (PrepNP part_Prep ob2))) ;
realization ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (UseN realization_N)))) (PrepNP part_Prep ob2))) ;
represents ob1 ob2 = mkPolSent (PredVP ob1 (ComplSlash (SlashV2a represent_V2) ob2)) ;
sister ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN sister_N)))) (PrepNP part_Prep ob2))) ;
spouse ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN spouse_N)))) (PrepNP part_Prep ob2))) ;
starts ob1 ob2 = mkPolSent (PredVP ob1 (ComplSlash (SlashV2a start_V2) ob2)) ;
stays ob1 ob2 = mkPolSent (PredVP ob1 (ComplSlash (SlashV2a stay_V2) ob2)) ;
subOrganization ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (ApposCN (UseN sub_N) (MassNP (UseN organization_N)))))) (PrepNP part_Prep ob2))) ;
subPlan ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (ApposCN (UseN sub_N) (MassNP (UseN plan_N)))))) (PrepNP part_Prep ob2))) ;
superficialPart ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (AdjCN (PositA superficial_A) (UseN part_N))))) (PrepNP part_Prep ob2))) ;
truth ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (ApposCN (UseN truth_N) (MassNP (UseN value_N)))))) (PrepNP part_Prep ob2))) ;
angularMeasure ob1 ob2 = mkPolSent (PredVP ob2 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (AdjCN (PositA angular_A) (UseN measure_N))))) (PrepNP part_Prep ob1))) ;
arcWeight ob1 ob2 = mkPolSent (PredVP ob2 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN weight_N)))) (PrepNP part_Prep (DetCN (DetQuant DefArt NumSg) (ApposCN (UseN arc_N) ob1))))) ;
geographicSubregion ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (ApposCN (UseN sub_N) (MassNP (UseN region_N)))))) (PrepNP part_Prep ob2))) ;
involvedInEvent ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (PassV2 involve_V2) (PrepNP in_Prep ob2))) ;
meetsTemporally ob1 ob2 = mkPolSent (PredVP (AdvNP ob1 (PositAdvAdj temporal_A)) (ComplSlash (SlashV2a meet_V2) ob2)) ;
partlyLocated ob1 ob2 = mkPolSent (PredVP ob2 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (AdjCN (PositA partial_A) (UseN location_N))))) (PrepNP part_Prep ob1))) ;
geopoliticalSubdivision ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (ApposCN (UseN sub_N) (MassNP (UseN division_N)))))) (PrepNP part_Prep ob2))) ;
immediateSubclass ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (AdjCN (PositA immediate_A) (ApposCN (UseN sub_N) (MassNP (UseN class_N))))))) (PrepNP part_Prep ob2))) ;
meetsSpatially ob1 ob2 = mkPolSent (PredVP (AdvNP ob1 (PositAdvAdj spatial_A)) (ComplSlash (SlashV2a meet_V2) ob2)) ;
overlapsPartially ob1 ob2 = mkPolSent (PredVP (AdvNP ob1 (PositAdvAdj partial_A)) (ComplSlash (SlashV2a overlap_V2) ob2)) ;
overlapsSpatially ob1 ob2 = mkPolSent (PredVP (AdvNP ob1 (PositAdvAdj spatial_A)) (ComplSlash (SlashV2a overlap_V2) ob2)) ;
subset ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (ApposCN (UseN sub_N) (MassNP (UseN set_N)))))) (PrepNP part_Prep ob2))) ;
greaterThan ob1 ob2 = mkPolSent (PredVP ob1 (UseComp (CompAP (ComparA great_A ob2)))) ;
greaterThanOrEqualTo ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompAP (ConjAP or_Conj (BaseAP (UseComparA great_A) (PositA equal_A))))) (PrepNP to_Prep ob2))) ;
inScopeOfInterest ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (PassV2 interest_V2) (PrepNP in_Prep ob2))) ;
overlapsTemporally ob1 ob2 = mkPolSent (PredVP (AdvNP ob1 (PositAdvAdj temporal_A)) (ComplSlash (SlashV2a overlap_V2) ob2)) ;
engineeringSubcomponent ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (ApposCN (UseN sub_N) (MassNP (UseN component_N)))))) (PrepNP part_Prep ob2))) ;
equivalentContentInstance ob1 ob2 = mkPolSent (PredVP (ConjNP and_Conj (BaseNP ob1 ob2)) (ComplSlash (SlashV2a have_V2) (DetCN (DetQuant IndefArt NumPl) (AdjCN (PositA equivalent_A) (UseN content_N))))) ;
successorAttributeClosure ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (ApposCN (ApposCN (UseN successor_N) (MassNP (UseN attribute_N))) (MassNP (UseN closure_N)))))) (PrepNP part_Prep ob2))) ;
transactionAmount ob1 ob2 = mkPolSent (PredVP ob1 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN amount_N)))) (PrepNP part_Prep ob2))) ;
connectedEngineeringComponents ob1 ob2 = mkPolSent (PredVP (ConjNP and_Conj (BaseNP ob1 ob2)) (PassV2 connect_V2)) ;
-- ternary predicate
between ob1 ob2 ob3 = mkPolSent (PredVP ob2 (UseComp (CompAdv (PrepNP between_Prep (ConjNP and_Conj (BaseNP ob1 ob3)))))) ;
conditionalProbability ob1 ob2 ob3 = mkPolSent (PredVP ob3 (AdvVP (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN probability_N)))) (PrepNP part_Prep (PPartNP (sentToNoun ob1) condition_V2))) (PrepNP by8agent_Prep (sentToNoun ob2)))) ;
confersNorm ob1 ob2 ob3 = mkPolSent (PredVP ob1 (ComplSlash (SlashV2a confer_V2) (ConjNP and_Conj (BaseNP ob3 (sentToNoun ob2))))) ;
confersObligation ob1 ob2 ob3 = mkPolSent (PredVP (sentToNoun ob1) (AdvVP (AdvVP (ComplSlash (SlashV2a confer_V2) (DetCN (DetQuant DefArt NumSg) (UseN obligation_N))) (PrepNP part_Prep ob3)) (PrepNP to_Prep ob2))) ;
confersRight ob1 ob2 ob3 = mkPolSent (PredVP (sentToNoun ob1) (AdvVP (AdvVP (ComplSlash (SlashV2a confer_V2) (DetCN (DetQuant DefArt NumSg) (UseN right_N))) (PrepNP part_Prep ob3)) (PrepNP to_Prep ob2))) ;
connects ob1 ob2 ob3 = mkPolSent (PredVP ob1 (AdvVP (ComplSlash (SlashV2a connect_V2) ob2) (PrepNP to_Prep ob3))) ;
deprivesNorm ob1 ob2 ob3 = mkPolSent (PredVP ob1 (AdvVP (ComplSlash (SlashV2a deprive_V2) ob3) (PrepNP to_Prep ( sentToNoun ob2)))) ;
distance ob1 ob2 ob3 = mkPolSent (PredVP ob3 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN distance_N)))) (PrepNP between_Prep (ConjNP and_Conj (BaseNP ob1 ob2))))) ;
documentation ob1 ob2 ob3 = mkPolSent (PredVP ob2 (AdvVP (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN documentation_N)))) (PrepNP part_Prep ob1)) (PrepNP in_Prep (DetCN (DetQuant DefArt NumSg) (ApposCN (UseN language_N) ob2))))) ;
geometricDistance ob1 ob2 ob3 = mkPolSent (PredVP ob3 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (AdjCN (PositA geometric_A) (UseN distance_N))))) (PrepNP between_Prep (ConjNP and_Conj (BaseNP ob1 ob2))))) ;
hasPurposeForAgent ob1 ob2 ob3 = mkPolSent (PredVP ob1 (AdvVP (ComplSlash (SlashV2a have_V2) (DetCN (DetQuant DefArt NumSg) (ApposCN (UseN purpose_N) (sentToNoun ob2)))) (PrepNP for_Prep (MassNP (ApposCN (UseN agent_N) ob3))))) ;
links ob1 ob2 ob3 = mkPolSent (PredVP ob3 (ComplSlash (SlashV2a link_V2) (ConjNP and_Conj (BaseNP ob1 ob2)))) ;
occupiesPosition ob1 ob2 ob3 = mkPolSent (PredVP ob1 (AdvVP (ComplSlash (SlashV2a occupy_V2) (DetCN (DetQuant DefArt NumSg) (ApposCN (UseN position_N) ob2))) (PrepNP in_Prep ob3))) ;
orientation ob1 ob2 ob3 = mkPolSent (PredVP ob3 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN orientation_N)))) (PrepNP part_Prep (ConjNP and_Conj (BaseNP ob1 ob2))))) ;
pointOfIntersection ob1 ob2 ob3 = mkPolSent (PredVP ob3 (AdvVP (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN point_N)))) (PrepNP part_Prep (MassNP (UseN intersection_N)))) (PrepNP part_Prep (ConjNP and_Conj (BaseNP ob1 ob2))))) ;
relatedExternalConcept ob1 ob2 ob3 = mkPolSent (PredVP ob1 (AdvVP (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (AdjCN (PositA (VerbToParticipeA relate_V)) (AdjCN (PositA external_A) (UseN concept_N)))))) (PrepNP part_Prep ob2)) (PrepNP in_Prep (DetCN (DetQuant DefArt NumSg) (ApposCN (UseN language_N) ob3))))) ;
representsForAgent ob1 ob2 ob3 = mkPolSent (PredVP ob1 (AdvVP (ComplSlash (SlashV2a represent_V2) ob2) (PrepNP for_Prep ob3))) ;
representsInLanguage ob1 ob2 ob3 = mkPolSent (PredVP ob1 (AdvVP (ComplSlash (SlashV2a represent_V2) ob2) (PrepNP in_Prep (DetCN (DetQuant DefArt NumSg) (ApposCN (UseN language_N) ob3))))) ;
temporallyBetween ob1 ob2 ob3 = mkPolSent (PredVP ob2 (AdvVP (UseComp (CompAdv (PositAdvAdj temporal_A))) (PrepNP between_Prep (ConjNP and_Conj (BaseNP ob1 ob3))))) ;
temporallyBetweenOrEqual ob1 ob2 ob3 = mkPolSent (PredVP ob2 (AdvVP (AdvVP (UseComp (CompAdv (PositAdvAdj temporal_A))) (ConjAdv or_Conj (BaseAdv between_Adv (PrepNP in_Prep (DetCN (DetQuant DefArt NumSg) (AdjCN (PositA same_A) (UseN time_N))))))) (PrepNP with_Prep (ConjNP or_Conj (BaseNP ob1 ob3))))) ;
altitude ob1 ob2 ob3 = mkPolSent (PredVP ob3 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (ApposCN (AdvCN (UseN altitude_N) (PrepNP part_Prep ob1)) (MassNP (UseN relative_N)))))) (PrepNP to_Prep ob2))) ;
connectsEngineeringComponents ob1 ob2 ob3 = mkPolSent (PredVP ob3 (ComplSlash (SlashV2a connect_V2) (ConjNP and_Conj (BaseNP ob2 ob3)))) ;
depth ob1 ob2 ob3 = mkPolSent (PredVP ob3 (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (ApposCN (AdvCN (UseN depth_N) (PrepNP part_Prep ob1)) (MassNP (UseN relative_N)))))) (PrepNP to_Prep ob2))) ;
synonymousExternalConcept ob1 ob2 ob3 = mkPolSent (PredVP (ConjNP and_Conj (BaseNP ob1 ob2)) (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumPl) (AdjCN (PositA synonymous_A) (AdjCN (PositA external_A) (UseN concept_N)))))) (PrepNP in_Prep (DetCN (DetQuant DefArt NumSg) (ApposCN (UseN language_N) ob3))))) ;
greaterThanByQuality ob1 ob2 ob3 = mkPolSent (PredVP ob1 (AdvVP (AdvVP (AdvVP (UseV (mkV "have")) more_Adv) (PrepNP part_Prep (PPartNP ob3 compare_V2))) (PrepNP to_Prep ob2))) ;
prefers ob1 ob2 ob3 = mkPolSent (PredVP ob1 (AdvVP (ComplSlash (SlashV2a prefer_V2) (sentToNoun ob2)) (PrepNP to_Prep (sentToNoun ob3)))) ;
--relations
AsymmetricRelation c f = mkPolSent(PredVP (sentToNoun f) (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (AdjCN (PositA asymmetric_A) (UseN relation_N)))))) ;
EquivalenceRelation c f = mkPolSent(PredVP (sentToNoun f) (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (ApposCN (UseN equivalence_N) (MassNP (UseN relation_N))))))) ;
IntransitiveRelation c f = mkPolSent(PredVP (sentToNoun f) (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (AdjCN (PositA intransitive_A) (UseN relation_N)))))) ;
-- OneToOneFunction c1 c2 f = mkPolSent(PredVP f (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (AdvCN (UseN one_N) (PrepNP to_Prep (DetCN (DetQuant IndefArt (NumCard (NumNumeral (num (pot2as3 (pot1as2 (pot0as1 pot01))))))) (UseN function_N)))))))) ;
PartialOrderingRelation c f = mkPolSent(PredVP (sentToNoun f) (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (AdjCN (PositA partial_A) (ApposCN (UseN2 (VerbToNounV2 order_V2)) (MassNP (UseN relation_N)))))))) ;
SequenceFunction c f = mkPolSent(PredVP f (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (ApposCN (UseN sequence_N) (MassNP (UseN function_N))))))) ;
ReflexiveRelation c f = mkPolSent(PredVP (sentToNoun f) (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (AdjCN (PositA reflexive_A) (UseN relation_N)))))) ;
SymmetricRelation c f = mkPolSent(PredVP (sentToNoun f) (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (AdjCN (PositA symmetric_A) (UseN relation_N)))))) ;
TotalOrderingRelation c f = mkPolSent(PredVP (sentToNoun f) (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (AdjCN (PositA total_A) (ApposCN (UseN2 (VerbToNounV2 order_V2)) (MassNP (UseN relation_N)))))))) ;
TransitiveRelation c f = mkPolSent(PredVP (sentToNoun f) (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (AdjCN (PositA transitive_A) (UseN relation_N)))))) ;
IntentionalRelation c1 c2 f = mkPolSent(PredVP (sentToNoun f) (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (AdjCN (PositA intentional_A) (UseN relation_N)))))) ;
subRelation2El c1 c2 c3 c4 f g = mkPolSent (PredVP (sentToNoun f) (AdvVP (UseComp (CompNP (DetCN (DetQuant IndefArt NumSg) (ApposCN (UseN sub_N) (MassNP (UseN relation_N)))))) (PrepNP part_Prep (sentToNoun g)))) ;
identityElement c f elem = mkPolSent (PredVP elem (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (ApposCN (UseN identity_N) (MassNP (UseN element_N)))))) (PrepNP part_Prep f))) ;
inverse c f g = mkPolSent (PredVP (sentToNoun f) (AdvVP (UseComp (CompNP (DetCN (DetQuant DefArt NumSg) (UseN inverse_N)))) (PrepNP part_Prep (sentToNoun g)))) ;
--others
toInt x = {s = \\c => x.s; a = agrP3 Sg; lock_NP = <>} ;
toRealNum x = {s = \\c => x.s; a = agrP3 Sg; lock_NP = <>} ;
};
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