Datasets:

AshtonIsNotHere

/

nlp_pp_code_dataset

like 0

@CODE # Initialize next break point line. #var("break", 0) G("break") = 0; @@CODE @PATH _ROOT _experienceZone # If anchor is a breakpoint, starts a new instance. @CHECK if ( G("break") && G("break") == N("lineno", 1) ) succeed(); fail(); #GeqN("break", "lineno", 1); @POST # Compute the next breakpoint line. # Store it in global variable. if (N("next anchor", 1) # If there is a next anchor. && N("lineno", 1)) # and a line number. { N("tmp") = N("next anchor") - N("lineno") - 1; if (N("tmp") % 2) # If odd num of lines between anchors. N("tmp") = (N("tmp") / 2) + X("noprestuff") + 1; else N("tmp") = N("tmp") / 2 + 1; G("break") = N("lineno") + N("tmp"); } # else breakpoint won't be matched. single(); @RULES _expStart <- _ANCHOR [s] @@ # Anchor that is not a break point. @POST # Compute the next breakpoint line. # Store it in global variable. if (N("next anchor", 1) # If there is a next anchor. && N("lineno", 1)) # and a line number. { N("tmp") = N("next anchor") - N("lineno") - 1; if (N("tmp") % 2) # If odd num of lines between anchors. N("tmp") = (N("tmp") / 2) + X("noprestuff") + 1; else N("tmp") = N("tmp") / 2 + 1; G("break") = N("lineno") + N("tmp"); } # else breakpoint won't be matched. # noop() @RULES _xNIL <- _ANCHOR [s] @@ # A line that matches the breakpoint line number. @CHECK if ( G("break") && G("break") == N("lineno", 1) ) succeed(); fail(); # GeqN("break", "lineno", 1); @RULES _expStart <- _LINE [s] @@

@NODES _enum @POST noop(); @RULES _xNIL <- _itemMarker ### (1) _xWILD [group="_itemNum"] ### (2) _itemMarker [lookahead] ### (3) @@ _xNIL <- _itemMarker ### (1) _xWILD [group="_itemNum"] ### (2) _endEnum ### (3) @@ _xNIL <- _itemMarker ### (1) _xWILD [group="_itemNum"] ### (2) _xEND ### (3) @@

@NODES _LINE @PRE <2,2> length(1); @POST L("text") = N("$text"); if (L("text") != "(") { L("bullet") = getconcept(G("format"),"bullet"); L("con") = AddUniqueCon(L("bullet"),L("text")); IncrementCount(L("con"),"count"); single(); } @RULES _bullet <- _xSTART ### (1) _xWILD [one match=(_xCTRL _xPUNCT) fail=(\()] ### (2) @@

# Look only at cap phrases within lines within experience zones. @PATH _ROOT _experienceZone _LINE _Caps # Job title root word (eg, "programmer") at the end of phrase # gets a bonus. @POST ++X("jobtitleroots"); # Bump in _Caps context node. if (N("$end")) # If last node in caps phrase. ++X("end jobtitleroot"); # Bonus. Last word in cap phrase. # noop() # Implicit. @RULES _xNIL <- _jobTitleRoot [s] @@ @POST ++X("companyroots"); if (N("$end")) ++X("end companyroot"); @RULES _xNIL <- _companyRoot [s] @@ # Handling schools separately. # # _xNIL <- _CompleteSchoolName [s] @@ @POST ++X("companymodroots"); if (N("$end")) ++X("end companymodroot"); @RULES _xNIL <- _companyModroot [s] @@ @POST ++X("companymods"); @RULES _xNIL <- _companyMod [s] @@

@NODES _ROOT @PRE <1,1> var("code"); @POST if (N("type", 1) == "diagnosis") { L("con") = AddUniqueCon(G("diagnosis_codes"), N("code", 1)); addstrval(L("con"), "keywords", strclean(N("$treetext", 1))); } else if (N("type", 1) == "procedure") { L("con") = AddUniqueCon(G("procedure_codes"), N("code", 1)); L("attr") = addattr(L("con"), "keywords"); addstrval(L("con"), "keywords", strclean(N("$treetext", 1))); } noop(); @RULES _xNIL <- _term @@

@NODES _LINE @PRE <1,1> cap(); <3,3> cap(); @RULES # Ex: Digital\_Equipment _companyPhrase [layer=(_Caps )] <- Digital [s] _xWHITE [star s] Equipment [s] @@ @PRE <1,1> cap(); @RULES # Ex: Canon _companyPhrase [layer=(_Caps )] <- Canon [s] @@ # Ex: Fujitsi _companyPhrase [layer=(_Caps )] <- Fujitsi [s] @@ # Ex: Mitsubishi _companyPhrase [layer=(_Caps )] <- Mitsubishi [s] @@ # Ex: Honda _companyPhrase [layer=(_Caps )] <- Honda [s] @@ # Ex: Toyota _companyPhrase [layer=(_Caps )] <- Toyota [s] @@ # Ex: Suzuki _companyPhrase [layer=(_Caps )] <- Suzuki [s] @@ # Ex: Lloyds _companyPhrase [layer=(_Caps )] <- Lloyds [s] @@ # Ex: Nokia _companyPhrase [layer=(_Caps )] <- Nokia [s] @@ # Ex: Ericsson _companyPhrase [layer=(_Caps )] <- Ericsson [s] @@ @PRE <2,2> cap(); @RULES # Ex: 3Com _companyPhrase [layer=(_Caps )] <- 3 [s] Com [s] @@ # Ex: 3M _companyPhrase [layer=(_Caps )] <- 3 [s] M [s] @@ @PRE <1,1> cap(); <3,3> cap(); @RULES # Ex: A&P _companyPhrase [layer=(_Caps )] <- A [s] \& [s] P [s] @@ @PRE <1,1> cap(); @RULES # Ex: Abbott _companyPhrase [layer=(_Caps )] <- Abbott [s] @@ # Ex: ABC _companyPhrase [layer=(_Caps )] <- ABC [s] @@ # Ex: Ace _companyPhrase [layer=(_Caps )] <- Ace [s] @@ # Ex: Adecco _companyPhrase [layer=(_Caps )] <- Adecco [s] @@ # Ex: Aerospace _companyPhrase [layer=(_Caps )] <- Aerospace [s] @@ # Ex: Aerospatiale _companyPhrase [layer=(_Caps )] <- Aerospatiale [s] @@ # Ex: Aetna _companyPhrase [layer=(_Caps )] <- Aetna [s] @@ # Ex: AFLAC _companyPhrase [layer=(_Caps )] <- AFLAC [s] @@ # Ex: AGCO _companyPhrase [layer=(_Caps )] <- AGCO [s] @@ # Ex: Airborne _companyPhrase [layer=(_Caps )] <- Airborne [s] @@ # Ex: Airlines _companyPhrase [layer=(_Caps )] <- Airlines [s] @@ # Ex: AirTouch _companyPhrase [layer=(_Caps )] <- AirTouch [s] @@ # Ex: Airways _companyPhrase [layer=(_Caps )] <- Airways [s] @@ # Ex: Albertson's _companyPhrase [layer=(_Caps )] <- Albertson [s] \' [s] s [s] @@ # Ex: Alcoa _companyPhrase [layer=(_Caps )] <- Alcoa [s] @@ # Ex: Allegheny _companyPhrase [layer=(_Caps )] <- Allegheny [s] @@ # Ex: Allegiance _companyPhrase [layer=(_Caps )] <- Allegiance [s] @@ # Ex: AlliedSignal _companyPhrase [layer=(_Caps )] <- AlliedSignal [s] @@ # Ex: Allmerica _companyPhrase [layer=(_Caps )] <- Allmerica [s] @@ # Ex: Allstate _companyPhrase [layer=(_Caps )] <- Allstate [s] @@ # Ex: Alltel _companyPhrase [layer=(_Caps )] <- Alltel [s] @@ # Ex: Alstom _companyPhrase [layer=(_Caps )] <- Alstom [s] @@ # Ex: Amazon.com _companyPhrase [layer=(_Caps )] <- Amazon [s] \. [s] com [s] @@ # Ex: Amerada _companyPhrase [layer=(_Caps )] <- Amerada [s] @@ # Ex: Ameren _companyPhrase [layer=(_Caps )] <- Ameren [s] @@ # Ex: America _companyPhrase [layer=(_Caps )] <- America [s] @@ # Ex: American _companyPhrase [layer=(_Caps )] <- American [s] @@ # Ex: AmeriSource _companyPhrase [layer=(_Caps )] <- AmeriSource [s] @@ # Ex: Ameritech _companyPhrase [layer=(_Caps )] <- Ameritech [s] @@ # Ex: AMEX _companyPhrase [layer=(_Caps )] <- AMEX [s] @@ # Ex: Amoco _companyPhrase [layer=(_Caps )] <- Amoco [s] @@ # Ex: AMP _companyPhrase [layer=(_Caps )] <- AMP [s] @@ # Ex: AMR _companyPhrase [layer=(_Caps )] <- AMR [s] @@ @PRE <1,1> cap(); <3,3> cap(); @RULES # Ex: Anheuser-Busch _companyPhrase [layer=(_Caps )] <- Anheuser [s] \- [s] Busch [s] @@ @PRE <1,1> cap(); @RULES # Ex: Anixter _companyPhrase [layer=(_Caps )] <- Anixter [s] @@ # Ex: Anthem _companyPhrase [layer=(_Caps )] <- Anthem [s] @@ # Ex: AOL _companyPhrase [layer=(_Caps )] <- AOL [s] @@ # Ex: Aon _companyPhrase [layer=(_Caps )] <- Aon [s] @@ # Ex: Apple _companyPhrase [layer=(_Caps )] <- Apple [s] @@ # Ex: Applications _companyPhrase [layer=(_Caps )] <- Applications [s] @@ # Ex: Applied _companyPhrase [layer=(_Caps )] <- Applied [s] @@ # Ex: Aramark _companyPhrase [layer=(_Caps )] <- Aramark [s] @@ # Ex: Arbed _companyPhrase [layer=(_Caps )] <- Arbed [s] @@ # Ex: Archer _companyPhrase [layer=(_Caps )] <- Archer [s] @@ # Ex: ARCO _companyPhrase [layer=(_Caps )] <- ARCO [s] @@ # Ex: Arrow _companyPhrase [layer=(_Caps )] <- Arrow [s] @@ # Ex: Asahi _companyPhrase [layer=(_Caps )] <- Asahi [s] @@ # Ex: ASDA _companyPhrase [layer=(_Caps )] <- ASDA [s] @@ # Ex: Astra _companyPhrase [layer=(_Caps )] <- Astra [s] @@ @PRE <1,1> cap(); <3,3> cap(); @RULES # Ex: AT&T _companyPhrase [layer=(_Caps )] <- AT [s] \& [s] T [s] @@ @PRE <1,1> cap(); @RULES # Ex: Atlantic _companyPhrase [layer=(_Caps )] <- Atlantic [s] @@ # Ex: Autoliv _companyPhrase [layer=(_Caps )] <- Autoliv [s] @@ # Ex: AutoNation _companyPhrase [layer=(_Caps )] <- AutoNation [s] @@ # Ex: AutoZone _companyPhrase [layer=(_Caps )] <- AutoZone [s] @@ # Ex: Avery _companyPhrase [layer=(_Caps )] <- Avery [s] @@ # Ex: Avista _companyPhrase [layer=(_Caps )] <- Avista [s] @@ # Ex: Avnet _companyPhrase [layer=(_Caps )] <- Avnet [s] @@ # Ex: Avon _companyPhrase [layer=(_Caps )] <- Avon [s] @@ # Ex: Baker _companyPhrase [layer=(_Caps )] <- Baker [s] @@ # Ex: Bakeries _companyPhrase [layer=(_Caps )] <- Bakeries [s] @@ # Ex: Ball _companyPhrase [layer=(_Caps )] <- Ball [s] @@ # Ex: Banc _companyPhrase [layer=(_Caps )] <- Banc [s] @@ # Ex: Banca _companyPhrase [layer=(_Caps )] <- Banca [s] @@ # Ex: Bancorp _companyPhrase [layer=(_Caps )] <- Bancorp [s] @@ # Ex: BankBoston _companyPhrase [layer=(_Caps )] <- BankBoston [s] @@ # Ex: Bankers _companyPhrase [layer=(_Caps )] <- Bankers [s] @@ # Ex: Barnes _companyPhrase [layer=(_Caps )] <- Barnes [s] @@ # Ex: Baxter _companyPhrase [layer=(_Caps )] <- Baxter [s] @@ @PRE <1,1> cap(); <3,3> cap(); @RULES # Ex: BB&T _companyPhrase [layer=(_Caps )] <- BB [s] \& [s] T [s] @@ @PRE <1,1> cap(); @RULES # Ex: BBN _companyPhrase [layer=(_Caps )] <- BBN [s] @@ # Ex: Bear _companyPhrase [layer=(_Caps )] <- Bear [s] @@ # Ex: Becton _companyPhrase [layer=(_Caps )] <- Becton [s] @@ # Ex: Bell _companyPhrase [layer=(_Caps )] <- Bell [s] @@ # Ex: BellSouth _companyPhrase [layer=(_Caps )] <- BellSouth [s] @@ # Ex: Bergen _companyPhrase [layer=(_Caps )] <- Bergen [s] @@ # Ex: Berkshire _companyPhrase [layer=(_Caps )] <- Berkshire [s] @@ # Ex: Best _companyPhrase [layer=(_Caps )] <- Best [s] @@ # Ex: Bestfoods _companyPhrase [layer=(_Caps )] <- Bestfoods [s] @@ # Ex: Bethlehem _companyPhrase [layer=(_Caps )] <- Bethlehem [s] @@ # Ex: BF _companyPhrase [layer=(_Caps )] <- BF [s] @@ # Ex: Bindley _companyPhrase [layer=(_Caps )] <- Bindley [s] @@ # Ex: BJ's _companyPhrase [layer=(_Caps )] <- BJ [s] \' [s] s [s] @@ # Ex: Black _companyPhrase [layer=(_Caps )] <- Black [s] @@ # Ex: Boeing _companyPhrase [layer=(_Caps )] <- Boeing [s] @@ # Ex: BofA _companyPhrase [layer=(_Caps )] <- BofA [s] @@ # Ex: Boise _companyPhrase [layer=(_Caps )] <- Boise [s] @@ # Ex: Bowes _companyPhrase [layer=(_Caps )] <- Bowes [s] @@ # Ex: Brand _companyPhrase [layer=(_Caps )] <- Brand [s] @@ # Ex: Brands _companyPhrase [layer=(_Caps )] <- Brands [s] @@ @PRE <1,1> cap(); <3,3> cap(); @RULES # Ex: Bristol-Myers _companyPhrase [layer=(_Caps )] <- Bristol [s] \- [s] Myers [s] @@ @PRE <1,1> cap(); @RULES # Ex: British _companyPhrase [layer=(_Caps )] <- British [s] @@ # Ex: Brotherhood _companyPhrase [layer=(_Caps )] <- Brotherhood [s] @@ # Ex: Brothers _companyPhrase [layer=(_Caps )] <- Brothers [s] @@ @PRE <1,1> cap(); <3,3> cap(); @RULES # Ex: Browning-Ferris _companyPhrase [layer=(_Caps )] <- Browning [s] \- [s] Ferris [s] @@ @PRE <1,1> cap(); @RULES # Ex: Brunswig _companyPhrase [layer=(_Caps )] <- Brunswig [s] @@ # Ex: Bureau _companyPhrase [layer=(_Caps )] <- Bureau [s] @@ # Ex: Burlington _companyPhrase [layer=(_Caps )] <- Burlington [s] @@ # Ex: Business _companyPhrase [layer=(_Caps )] <- Business [s] @@ # Ex: Buy _companyPhrase [layer=(_Caps )] <- Buy [s] @@ # Ex: Cablevision _companyPhrase [layer=(_Caps )] <- Cablevision [s] @@ # Ex: CAI _companyPhrase [layer=(_Caps )] <- CAI [s] @@ # Ex: Camp _companyPhrase [layer=(_Caps )] <- Camp [s] @@ # Ex: Campbell _companyPhrase [layer=(_Caps )] <- Campbell [s] @@ # Ex: Carbide _companyPhrase [layer=(_Caps )] <- Carbide [s] @@ # Ex: Cardinal _companyPhrase [layer=(_Caps )] <- Cardinal [s] @@ # Ex: Carolina _companyPhrase [layer=(_Caps )] <- Carolina [s] @@ # Ex: Cascade _companyPhrase [layer=(_Caps )] <- Cascade [s] @@ # Ex: Case _companyPhrase [layer=(_Caps )] <- Case [s] @@ # Ex: Caterpillar _companyPhrase [layer=(_Caps )] <- Caterpillar [s] @@ # Ex: Cathay _companyPhrase [layer=(_Caps )] <- Cathay [s] @@ # Ex: CBS _companyPhrase [layer=(_Caps )] <- CBS [s] @@ # Ex: Cendant _companyPhrase [layer=(_Caps )] <- Cendant [s] @@ # Ex: Centex _companyPhrase [layer=(_Caps )] <- Centex [s] @@ # Ex: Central _companyPhrase [layer=(_Caps )] <- Central [s] @@ # Ex: Centrica _companyPhrase [layer=(_Caps )] <- Centrica [s] @@ # Ex: Century _companyPhrase [layer=(_Caps )] <- Century [s] @@ # Ex: Champion _companyPhrase [layer=(_Caps )] <- Champion [s] @@ # Ex: Charles _companyPhrase [layer=(_Caps )] <- Charles [s] @@ # Ex: Chase _companyPhrase [layer=(_Caps )] <- Chase [s] @@ # Ex: Chemical _companyPhrase [layer=(_Caps )] <- Chemical [s] @@ # Ex: Chemicals _companyPhrase [layer=(_Caps )] <- Chemicals [s] @@ # Ex: Chevron _companyPhrase [layer=(_Caps )] <- Chevron [s] @@ # Ex: Chinese _companyPhrase [layer=(_Caps )] <- Chinese [s] @@ # Ex: Chiyoda _companyPhrase [layer=(_Caps )] <- Chiyoda [s] @@ # Ex: Chrysler _companyPhrase [layer=(_Caps )] <- Chrysler [s] @@ # Ex: CHS _companyPhrase [layer=(_Caps )] <- CHS [s] @@ # Ex: Chubb _companyPhrase [layer=(_Caps )] <- Chubb [s] @@ # Ex: Cigna _companyPhrase [layer=(_Caps )] <- Cigna [s] @@ # Ex: Cinergy _companyPhrase [layer=(_Caps )] <- Cinergy [s] @@ # Ex: Circuit _companyPhrase [layer=(_Caps )] <- Circuit [s] @@ # Ex: Cisco _companyPhrase [layer=(_Caps )] <- Cisco [s] @@ # Ex: Citicorp _companyPhrase [layer=(_Caps )] <- Citicorp [s] @@ # Ex: Citigroup _companyPhrase [layer=(_Caps )] <- Citigroup [s] @@ # Ex: City _companyPhrase [layer=(_Caps )] <- City [s] @@ # Ex: Clark _companyPhrase [layer=(_Caps )] <- Clark [s] @@ # Ex: Club _companyPhrase [layer=(_Caps )] <- Club [s] @@ # Ex: CMS _companyPhrase [layer=(_Caps )] <- CMS [s] @@ # Ex: CNF _companyPhrase [layer=(_Caps )] <- CNF [s] @@ # Ex: Coastal _companyPhrase [layer=(_Caps )] <- Coastal [s] @@ @PRE <1,1> cap(); <3,3> cap(); @RULES # Ex: Coca-Cola _companyPhrase [layer=(_Caps )] <- Coca [s] \- [s] Cola [s] @@ @PRE <1,1> cap(); @RULES # Ex: COFCO _companyPhrase [layer=(_Caps )] <- COFCO [s] @@ @PRE <1,1> cap(); <3,3> cap(); @RULES # Ex: Colgate-Palmolive _companyPhrase [layer=(_Caps )] <- Colgate [s] \- [s] Palmolive [s] @@ @PRE <1,1> cap(); @RULES # Ex: Columbia _companyPhrase [layer=(_Caps )] <- Columbia [s] @@ @PRE <1,1> cap(); <3,3> cap(); @RULES # Ex: Columbia/HCA _companyPhrase [layer=(_Caps )] <- Columbia [s] \/ [s] HCA [s] @@ @PRE <1,1> cap(); @RULES # Ex: Comcast _companyPhrase [layer=(_Caps )] <- Comcast [s] @@ # Ex: Comdisco _companyPhrase [layer=(_Caps )] <- Comdisco [s] @@ # Ex: Comerica _companyPhrase [layer=(_Caps )] <- Comerica [s] @@ # Ex: Commerciale _companyPhrase [layer=(_Caps )] <- Commerciale [s] @@ # Ex: Communications _companyPhrase [layer=(_Caps )] <- Communications [s] @@ # Ex: Compaq _companyPhrase [layer=(_Caps )] <- Compaq [s] @@ # Ex: CompUSA _companyPhrase [layer=(_Caps )] <- CompUSA [s] @@ # Ex: Computer _companyPhrase [layer=(_Caps )] <- Computer [s] @@ # Ex: ConAgra _companyPhrase [layer=(_Caps )] <- ConAgra [s] @@ # Ex: Conectiv _companyPhrase [layer=(_Caps )] <- Conectiv [s] @@ # Ex: Conseco _companyPhrase [layer=(_Caps )] <- Conseco [s] @@ # Ex: Consolidated _companyPhrase [layer=(_Caps )] <- Consolidated [s] @@ # Ex: Constellation _companyPhrase [layer=(_Caps )] <- Constellation [s] @@ # Ex: Container _companyPhrase [layer=(_Caps )] <- Container [s] @@ # Ex: Continental _companyPhrase [layer=(_Caps )] <- Continental [s] @@ # Ex: Controls _companyPhrase [layer=(_Caps )] <- Controls [s] @@ # Ex: Cooper _companyPhrase [layer=(_Caps )] <- Cooper [s] @@ # Ex: Cork _companyPhrase [layer=(_Caps )] <- Cork [s] @@ # Ex: Corp _companyPhrase [layer=(_Caps )] <- Corp [s] @@ # Ex: Corporate _companyPhrase [layer=(_Caps )] <- Corporate [s] @@ # Ex: Costco _companyPhrase [layer=(_Caps )] <- Costco [s] @@ # Ex: Crown _companyPhrase [layer=(_Caps )] <- Crown [s] @@ # Ex: CSX _companyPhrase [layer=(_Caps )] <- CSX [s] @@ # Ex: Cummins _companyPhrase [layer=(_Caps )] <- Cummins [s] @@ # Ex: Dai _companyPhrase [layer=(_Caps )] <- Dai [s] @@ # Ex: Daido _companyPhrase [layer=(_Caps )] <- Daido [s] @@ @PRE <1,1> cap(); <3,3> cap(); @RULES # Ex: Daimler-Chrysler _companyPhrase [layer=(_Caps )] <- Daimler [s] \- [s] Chrysler [s] @@ @PRE <1,1> cap(); @RULES # Ex: Dana _companyPhrase [layer=(_Caps )] <- Dana [s] @@ # Ex: Danaher _companyPhrase [layer=(_Caps )] <- Danaher [s] @@ # Ex: Daniels _companyPhrase [layer=(_Caps )] <- Daniels [s] @@ # Ex: Darden _companyPhrase [layer=(_Caps )] <- Darden [s] @@ # Ex: Data _companyPhrase [layer=(_Caps )] <- Data [s] @@ # Ex: Dayton _companyPhrase [layer=(_Caps )] <- Dayton [s] @@ # Ex: DDI _companyPhrase [layer=(_Caps )] <- DDI [s] @@ # Ex: Dean _companyPhrase [layer=(_Caps )] <- Dean [s] @@ # Ex: Decker _companyPhrase [layer=(_Caps )] <- Decker [s] @@ # Ex: Deere _companyPhrase [layer=(_Caps )] <- Deere [s] @@ # Ex: Dell _companyPhrase [layer=(_Caps )] <- Dell [s] @@ # Ex: Delta _companyPhrase [layer=(_Caps )] <- Delta [s] @@ # Ex: Dennison _companyPhrase [layer=(_Caps )] <- Dennison [s] @@ # Ex: Dentsu _companyPhrase [layer=(_Caps )] <- Dentsu [s] @@ # Ex: Department _companyPhrase [layer=(_Caps )] <- Department [s] @@ # Ex: Depot _companyPhrase [layer=(_Caps )] <- Depot [s] @@ # Ex: Deutsche _companyPhrase [layer=(_Caps )] <- Deutsche [s] @@ # Ex: Diamond _companyPhrase [layer=(_Caps )] <- Diamond [s] @@ # Ex: Dickinson _companyPhrase [layer=(_Caps )] <- Dickinson [s] @@ # Ex: Digital _companyPhrase [layer=(_Caps )] <- Digital [s] @@ # Ex: Dillard's _companyPhrase [layer=(_Caps )] <- Dillard [s] \' [s] s [s] @@ # Ex: Disney _companyPhrase [layer=(_Caps )] <- Disney [s] @@ # Ex: Dodge _companyPhrase [layer=(_Caps )] <- Dodge [s] @@ # Ex: Dole _companyPhrase [layer=(_Caps )] <- Dole [s] @@ # Ex: Dollar _companyPhrase [layer=(_Caps )] <- Dollar [s] @@ # Ex: Dominion _companyPhrase [layer=(_Caps )] <- Dominion [s] @@ # Ex: Donnelley _companyPhrase [layer=(_Caps )] <- Donnelley [s] @@ # Ex: Dow _companyPhrase [layer=(_Caps )] <- Dow [s] @@ # Ex: Drug _companyPhrase [layer=(_Caps )] <- Drug [s] @@ # Ex: DTE _companyPhrase [layer=(_Caps )] <- DTE [s] @@ # Ex: Duke _companyPhrase [layer=(_Caps )] <- Duke [s] @@ # Ex: DuPont _companyPhrase [layer=(_Caps )] <- DuPont [s] @@ # Ex: Dynamics _companyPhrase [layer=(_Caps )] <- Dynamics [s] @@ # Ex: Dynegy _companyPhrase [layer=(_Caps )] <- Dynegy [s] @@ # Ex: Dynergy _companyPhrase [layer=(_Caps )] <- Dynergy [s] @@ # Ex: Eastman _companyPhrase [layer=(_Caps )] <- Eastman [s] @@ # Ex: Eaton _companyPhrase [layer=(_Caps )] <- Eaton [s] @@ # Ex: Edeka _companyPhrase [layer=(_Caps )] <- Edeka [s] @@ # Ex: Edison _companyPhrase [layer=(_Caps )] <- Edison [s] @@ # Ex: EDS _companyPhrase [layer=(_Caps )] <- EDS [s] @@ # Ex: Electric _companyPhrase [layer=(_Caps )] <- Electric [s] @@ # Ex: Electron _companyPhrase [layer=(_Caps )] <- Electron [s] @@ # Ex: Electronic _companyPhrase [layer=(_Caps )] <- Electronic [s] @@ # Ex: Electronics _companyPhrase [layer=(_Caps )] <- Electronics [s] @@ # Ex: Eli _companyPhrase [layer=(_Caps )] <- Eli [s] @@ # Ex: EMC _companyPhrase [layer=(_Caps )] <- EMC [s] @@ # Ex: Emerson _companyPhrase [layer=(_Caps )] <- Emerson [s] @@ # Ex: Energies _companyPhrase [layer=(_Caps )] <- Energies [s] @@ # Ex: Energy _companyPhrase [layer=(_Caps )] <- Energy [s] @@ # Ex: Engelhard _companyPhrase [layer=(_Caps )] <- Engelhard [s] @@ # Ex: Engine _companyPhrase [layer=(_Caps )] <- Engine [s] @@ # Ex: Enron _companyPhrase [layer=(_Caps )] <- Enron [s] @@ # Ex: Enso _companyPhrase [layer=(_Caps )] <- Enso [s] @@ # Ex: Entergy _companyPhrase [layer=(_Caps )] <- Entergy [s] @@ # Ex: Enterprise _companyPhrase [layer=(_Caps )] <- Enterprise [s] @@ # Ex: Estee _companyPhrase [layer=(_Caps )] <- Estee [s] @@ # Ex: Evans _companyPhrase [layer=(_Caps )] <- Evans [s] @@ # Ex: Express _companyPhrase [layer=(_Caps )] <- Express [s] @@ # Ex: Exxon _companyPhrase [layer=(_Caps )] <- Exxon [s] @@ # Ex: Family _companyPhrase [layer=(_Caps )] <- Family [s] @@ # Ex: Fannie _companyPhrase [layer=(_Caps )] <- Fannie [s] @@ # Ex: Fargo _companyPhrase [layer=(_Caps )] <- Fargo [s] @@ # Ex: Farm _companyPhrase [layer=(_Caps )] <- Farm [s] @@ # Ex: Farmland _companyPhrase [layer=(_Caps )] <- Farmland [s] @@ # Ex: FDX _companyPhrase [layer=(_Caps )] <- FDX [s] @@ # Ex: Federal _companyPhrase [layer=(_Caps )] <- Federal [s] @@ @PRE <1,1> cap(); <3,3> cap(); @RULES # Ex: Federal-Mogul _companyPhrase [layer=(_Caps )] <- Federal [s] \- [s] Mogul [s] @@ @PRE <1,1> cap(); @RULES # Ex: Federated _companyPhrase [layer=(_Caps )] <- Federated [s] @@ # Ex: Film _companyPhrase [layer=(_Caps )] <- Film [s] @@ # Ex: Filter _companyPhrase [layer=(_Caps )] <- Filter [s] @@ # Ex: Financial _companyPhrase [layer=(_Caps )] <- Financial [s] @@ # Ex: Finch _companyPhrase [layer=(_Caps )] <- Finch [s] @@ # Ex: Fire _companyPhrase [layer=(_Caps )] <- Fire [s] @@ # Ex: First _companyPhrase [layer=(_Caps )] <- First [s] @@ # Ex: Firstar _companyPhrase [layer=(_Caps )] <- Firstar [s] @@ # Ex: FirstEnergy _companyPhrase [layer=(_Caps )] <- FirstEnergy [s] @@ # Ex: Fleet _companyPhrase [layer=(_Caps )] <- Fleet [s] @@ # Ex: Fleetwood _companyPhrase [layer=(_Caps )] <- Fleetwood [s] @@ # Ex: Fleming _companyPhrase [layer=(_Caps )] <- Fleming [s] @@ # Ex: Florida _companyPhrase [layer=(_Caps )] <- Florida [s] @@ # Ex: Flowers _companyPhrase [layer=(_Caps )] <- Flowers [s] @@ # Ex: Fluor _companyPhrase [layer=(_Caps )] <- Fluor [s] @@ # Ex: FMC _companyPhrase [layer=(_Caps )] <- FMC [s] @@ # Ex: Food _companyPhrase [layer=(_Caps )] <- Food [s] @@ # Ex: Foods _companyPhrase [layer=(_Caps )] <- Foods [s] @@ # Ex: Foodservice _companyPhrase [layer=(_Caps )] <- Foodservice [s] @@ # Ex: Ford _companyPhrase [layer=(_Caps )] <- Ford [s] @@ # Ex: Fort _companyPhrase [layer=(_Caps )] <- Fort [s] @@ # Ex: Fortum _companyPhrase [layer=(_Caps )] <- Fortum [s] @@ # Ex: Fortune _companyPhrase [layer=(_Caps )] <- Fortune [s] @@ # Ex: Foster _companyPhrase [layer=(_Caps )] <- Foster [s] @@ # Ex: Foundation _companyPhrase [layer=(_Caps )] <- Foundation [s] @@ # Ex: FPL _companyPhrase [layer=(_Caps )] <- FPL [s] @@ # Ex: Fred _companyPhrase [layer=(_Caps )] <- Fred [s] @@ # Ex: Freddie _companyPhrase [layer=(_Caps )] <- Freddie [s] @@ # Ex: Freight _companyPhrase [layer=(_Caps )] <- Freight [s] @@ # Ex: Fuji _companyPhrase [layer=(_Caps )] <- Fuji [s] @@ # Ex: Fund _companyPhrase [layer=(_Caps )] <- Fund [s] @@ # Ex: Gamble _companyPhrase [layer=(_Caps )] <- Gamble [s] @@ # Ex: Gannett _companyPhrase [layer=(_Caps )] <- Gannett [s] @@ # Ex: Gap _companyPhrase [layer=(_Caps )] <- Gap [s] @@ # Ex: Gas _companyPhrase [layer=(_Caps )] <- Gas [s] @@ # Ex: Gateway _companyPhrase [layer=(_Caps )] <- Gateway [s] @@ # Ex: Gaz _companyPhrase [layer=(_Caps )] <- Gaz [s] @@ # Ex: GE _companyPhrase [layer=(_Caps )] <- GE [s] @@ # Ex: GenAmerica _companyPhrase [layer=(_Caps )] <- GenAmerica [s] @@ # Ex: General _companyPhrase [layer=(_Caps )] <- General [s] @@ # Ex: Genossenschaftsbank _companyPhrase [layer=(_Caps )] <- Genossenschaftsbank [s] @@ # Ex: Genuine _companyPhrase [layer=(_Caps )] <- Genuine [s] @@ # Ex: George _companyPhrase [layer=(_Caps )] <- George [s] @@ @PRE <1,1> cap(); <3,3> cap(); @RULES # Ex: Georgia-Pacific _companyPhrase [layer=(_Caps )] <- Georgia [s] \- [s] Pacific [s] @@ @PRE <1,1> cap(); @RULES # Ex: Giant _companyPhrase [layer=(_Caps )] <- Giant [s] @@ # Ex: Glass _companyPhrase [layer=(_Caps )] <- Glass [s] @@ # Ex: Global _companyPhrase [layer=(_Caps )] <- Global [s] @@ # Ex: GM _companyPhrase [layer=(_Caps )] <- GM [s] @@ # Ex: Golden _companyPhrase [layer=(_Caps )] <- Golden [s] @@ # Ex: Goodrich _companyPhrase [layer=(_Caps )] <- Goodrich [s] @@ # Ex: Goodyear _companyPhrase [layer=(_Caps )] <- Goodyear [s] @@ # Ex: GPU _companyPhrase [layer=(_Caps )] <- GPU [s] @@ # Ex: Grainger _companyPhrase [layer=(_Caps )] <- Grainger [s] @@ # Ex: Graybar _companyPhrase [layer=(_Caps )] <- Graybar [s] @@ # Ex: Great _companyPhrase [layer=(_Caps )] <- Great [s] @@ # Ex: Group _companyPhrase [layer=(_Caps )] <- Group [s] @@ # Ex: Groupe _companyPhrase [layer=(_Caps )] <- Groupe [s] @@ # Ex: Grumman _companyPhrase [layer=(_Caps )] <- Grumman [s] @@ # Ex: GTE _companyPhrase [layer=(_Caps )] <- GTE [s] @@ # Ex: Guardian _companyPhrase [layer=(_Caps )] <- Guardian [s] @@ # Ex: Haas _companyPhrase [layer=(_Caps )] <- Haas [s] @@ # Ex: Halliburton _companyPhrase [layer=(_Caps )] <- Halliburton [s] @@ # Ex: Hancock _companyPhrase [layer=(_Caps )] <- Hancock [s] @@ # Ex: Handels _companyPhrase [layer=(_Caps )] <- Handels [s] @@ # Ex: Hannaford _companyPhrase [layer=(_Caps )] <- Hannaford [s] @@ # Ex: Hannifin _companyPhrase [layer=(_Caps )] <- Hannifin [s] @@ # Ex: Harcourt _companyPhrase [layer=(_Caps )] <- Harcourt [s] @@ # Ex: Hardware _companyPhrase [layer=(_Caps )] <- Hardware [s] @@ # Ex: Harris _companyPhrase [layer=(_Caps )] <- Harris [s] @@ # Ex: Hartford _companyPhrase [layer=(_Caps )] <- Hartford [s] @@ # Ex: Hasbro _companyPhrase [layer=(_Caps )] <- Hasbro [s] @@ # Ex: Hathaway _companyPhrase [layer=(_Caps )] <- Hathaway [s] @@ # Ex: HBOC _companyPhrase [layer=(_Caps )] <- HBOC [s] @@ # Ex: Health _companyPhrase [layer=(_Caps )] <- Health [s] @@ # Ex: HealthCare _companyPhrase [layer=(_Caps )] <- HealthCare [s] @@ # Ex: Healthcare _companyPhrase [layer=(_Caps )] <- Healthcare [s] @@ # Ex: Healthsouth _companyPhrase [layer=(_Caps )] <- Healthsouth [s] @@ # Ex: Hechinger _companyPhrase [layer=(_Caps )] <- Hechinger [s] @@ # Ex: Heinz _companyPhrase [layer=(_Caps )] <- Heinz [s] @@ # Ex: Henkel _companyPhrase [layer=(_Caps )] <- Henkel [s] @@ # Ex: Hershey _companyPhrase [layer=(_Caps )] <- Hershey [s] @@ # Ex: Hess _companyPhrase [layer=(_Caps )] <- Hess [s] @@ @PRE <1,1> cap(); <3,3> cap(); @RULES # Ex: Hewlett-Packard _companyPhrase [layer=(_Caps )] <- Hewlett [s] \- [s] Packard [s] @@ @PRE <1,1> cap(); @RULES # Ex: Hilton _companyPhrase [layer=(_Caps )] <- Hilton [s] @@ # Ex: Holding _companyPhrase [layer=(_Caps )] <- Holding [s] @@ # Ex: Holdings _companyPhrase [layer=(_Caps )] <- Holdings [s] @@ # Ex: Home _companyPhrase [layer=(_Caps )] <- Home [s] @@ # Ex: Hormel _companyPhrase [layer=(_Caps )] <- Hormel [s] @@ # Ex: Host _companyPhrase [layer=(_Caps )] <- Host [s] @@ # Ex: Hotels _companyPhrase [layer=(_Caps )] <- Hotels [s] @@ # Ex: House _companyPhrase [layer=(_Caps )] <- House [s] @@ # Ex: Household _companyPhrase [layer=(_Caps )] <- Household [s] @@ # Ex: Houston _companyPhrase [layer=(_Caps )] <- Houston [s] @@ # Ex: Hudson _companyPhrase [layer=(_Caps )] <- Hudson [s] @@ # Ex: Hughes _companyPhrase [layer=(_Caps )] <- Hughes [s] @@ # Ex: Humana _companyPhrase [layer=(_Caps )] <- Humana [s] @@ # Ex: IBP _companyPhrase [layer=(_Caps )] <- IBP [s] @@ # Ex: Idemitsu _companyPhrase [layer=(_Caps )] <- Idemitsu [s] @@ # Ex: Ikon _companyPhrase [layer=(_Caps )] <- Ikon [s] @@ # Ex: Illinois _companyPhrase [layer=(_Caps )] <- Illinois [s] @@ # Ex: IMC _companyPhrase [layer=(_Caps )] <- IMC [s] @@ # Ex: InaCom _companyPhrase [layer=(_Caps )] <- InaCom [s] @@ # Ex: Industries _companyPhrase [layer=(_Caps )] <- Industries [s] @@ @PRE <1,1> cap(); <3,3> cap(); @RULES # Ex: Ingersoll-Rand _companyPhrase [layer=(_Caps )] <- Ingersoll [s] \- [s] Rand [s] @@ @PRE <1,1> cap(); @RULES # Ex: Ingram _companyPhrase [layer=(_Caps )] <- Ingram [s] @@ # Ex: Instruments _companyPhrase [layer=(_Caps )] <- Instruments [s] @@ # Ex: Insurance _companyPhrase [layer=(_Caps )] <- Insurance [s] @@ # Ex: Integrated _companyPhrase [layer=(_Caps )] <- Integrated [s] @@ # Ex: International _companyPhrase [layer=(_Caps )] <- International [s] @@ # Ex: Interpublic _companyPhrase [layer=(_Caps )] <- Interpublic [s] @@ # Ex: Interstate _companyPhrase [layer=(_Caps )] <- Interstate [s] @@ # Ex: Iron _companyPhrase [layer=(_Caps )] <- Iron [s] @@ # Ex: Italiana _companyPhrase [layer=(_Caps )] <- Italiana [s] @@ # Ex: ITT _companyPhrase [layer=(_Caps )] <- ITT [s] @@ # Ex: Jardine _companyPhrase [layer=(_Caps )] <- Jardine [s] @@ # Ex: Johnson _companyPhrase [layer=(_Caps )] <- Johnson [s] @@ # Ex: Karstadt _companyPhrase [layer=(_Caps )] <- Karstadt [s] @@ # Ex: Kawasho _companyPhrase [layer=(_Caps )] <- Kawasho [s] @@ # Ex: Kellogg _companyPhrase [layer=(_Caps )] <- Kellogg [s] @@ # Ex: KeyCorp _companyPhrase [layer=(_Caps )] <- KeyCorp [s] @@ # Ex: Kiewit _companyPhrase [layer=(_Caps )] <- Kiewit [s] @@ @PRE <1,1> cap(); <3,3> cap(); @RULES # Ex: Kimberly-Clark _companyPhrase [layer=(_Caps )] <- Kimberly [s] \- [s] Clark [s] @@ @PRE <1,1> cap(); @RULES # Ex: Kingfisher _companyPhrase [layer=(_Caps )] <- Kingfisher [s] @@ # Ex: Kmart _companyPhrase [layer=(_Caps )] <- Kmart [s] @@ @PRE <1,1> cap(); <3,3> cap(); @RULES # Ex: Knight-Ridder _companyPhrase [layer=(_Caps )] <- Knight [s] \- [s] Ridder [s] @@ @PRE <1,1> cap(); @RULES # Ex: Kobe _companyPhrase [layer=(_Caps )] <- Kobe [s] @@ # Ex: Kodak _companyPhrase [layer=(_Caps )] <- Kodak [s] @@ # Ex: Kohl's _companyPhrase [layer=(_Caps )] <- Kohl [s] \' [s] s [s] @@ # Ex: Kosan _companyPhrase [layer=(_Caps )] <- Kosan [s] @@ # Ex: Kreditanstalt _companyPhrase [layer=(_Caps )] <- Kreditanstalt [s] @@ # Ex: Kroger _companyPhrase [layer=(_Caps )] <- Kroger [s] @@ # Ex: Kyoei _companyPhrase [layer=(_Caps )] <- Kyoei [s] @@ # Ex: Kyushu _companyPhrase [layer=(_Caps )] <- Kyushu [s] @@ # Ex: Laboratories _companyPhrase [layer=(_Caps )] <- Laboratories [s] @@ # Ex: Lafarge _companyPhrase [layer=(_Caps )] <- Lafarge [s] @@ # Ex: Lagardere _companyPhrase [layer=(_Caps )] <- Lagardere [s] @@ # Ex: Landesbank _companyPhrase [layer=(_Caps )] <- Landesbank [s] @@ # Ex: Lauder _companyPhrase [layer=(_Caps )] <- Lauder [s] @@ # Ex: Lear _companyPhrase [layer=(_Caps )] <- Lear [s] @@ # Ex: Legal _companyPhrase [layer=(_Caps )] <- Legal [s] @@ # Ex: Leggett _companyPhrase [layer=(_Caps )] <- Leggett [s] @@ # Ex: Lehman _companyPhrase [layer=(_Caps )] <- Lehman [s] @@ # Ex: Lexmark _companyPhrase [layer=(_Caps )] <- Lexmark [s] @@ # Ex: LG _companyPhrase [layer=(_Caps )] <- LG [s] @@ @PRE <1,1> cap(); <3,3> cap(); @RULES # Ex: LG&E _companyPhrase [layer=(_Caps )] <- LG [s] \& [s] E [s] @@ @PRE <1,1> cap(); @RULES # Ex: Liberty _companyPhrase [layer=(_Caps )] <- Liberty [s] @@ # Ex: Life _companyPhrase [layer=(_Caps )] <- Life [s] @@ # Ex: Light _companyPhrase [layer=(_Caps )] <- Light [s] @@ # Ex: Lilly _companyPhrase [layer=(_Caps )] <- Lilly [s] @@ # Ex: Limited _companyPhrase [layer=(_Caps )] <- Limited [s] @@ # Ex: Lincoln _companyPhrase [layer=(_Caps )] <- Lincoln [s] @@ # Ex: Lines _companyPhrase [layer=(_Caps )] <- Lines [s] @@ # Ex: Litton _companyPhrase [layer=(_Caps )] <- Litton [s] @@ # Ex: Loan _companyPhrase [layer=(_Caps )] <- Loan [s] @@ # Ex: Lockheed _companyPhrase [layer=(_Caps )] <- Lockheed [s] @@ # Ex: Loews _companyPhrase [layer=(_Caps )] <- Loews [s] @@ # Ex: Longs _companyPhrase [layer=(_Caps )] <- Longs [s] @@ # Ex: Lowe's _companyPhrase [layer=(_Caps )] <- Lowe [s] \' [s] s [s] @@ # Ex: LTV _companyPhrase [layer=(_Caps )] <- LTV [s] @@ # Ex: Lucent _companyPhrase [layer=(_Caps )] <- Lucent [s] @@ # Ex: Lutheran _companyPhrase [layer=(_Caps )] <- Lutheran [s] @@ # Ex: Lutherans _companyPhrase [layer=(_Caps )] <- Lutherans [s] @@ # Ex: Lynch _companyPhrase [layer=(_Caps )] <- Lynch [s] @@ # Ex: Mac _companyPhrase [layer=(_Caps )] <- Mac [s] @@ # Ex: Machines _companyPhrase [layer=(_Caps )] <- Machines [s] @@ # Ex: Mae _companyPhrase [layer=(_Caps )] <- Mae [s] @@ # Ex: Management _companyPhrase [layer=(_Caps )] <- Management [s] @@ # Ex: Manhattan _companyPhrase [layer=(_Caps )] <- Manhattan [s] @@ # Ex: Manpower _companyPhrase [layer=(_Caps )] <- Manpower [s] @@ # Ex: Manufacturing _companyPhrase [layer=(_Caps )] <- Manufacturing [s] @@ # Ex: Marine _companyPhrase [layer=(_Caps )] <- Marine [s] @@ # Ex: Markets _companyPhrase [layer=(_Caps )] <- Markets [s] @@ # Ex: MarketSpan _companyPhrase [layer=(_Caps )] <- MarketSpan [s] @@ # Ex: Marriott _companyPhrase [layer=(_Caps )] <- Marriott [s] @@ # Ex: Marsh _companyPhrase [layer=(_Caps )] <- Marsh [s] @@ # Ex: Martin _companyPhrase [layer=(_Caps )] <- Martin [s] @@ # Ex: Masco _companyPhrase [layer=(_Caps )] <- Masco [s] @@ # Ex: Materials _companyPhrase [layer=(_Caps )] <- Materials [s] @@ # Ex: Matheson _companyPhrase [layer=(_Caps )] <- Matheson [s] @@ # Ex: Mattel _companyPhrase [layer=(_Caps )] <- Mattel [s] @@ # Ex: May _companyPhrase [layer=(_Caps )] <- May [s] @@ # Ex: Maytag _companyPhrase [layer=(_Caps )] <- Maytag [s] @@ # Ex: MBNA _companyPhrase [layer=(_Caps )] <- MBNA [s] @@ # Ex: McDonald's _companyPhrase [layer=(_Caps )] <- McDonald [s] \' [s] s [s] @@ @PRE <1,1> cap(); <3,3> cap(); @RULES # Ex: McGraw-Hill _companyPhrase [layer=(_Caps )] <- McGraw [s] \- [s] Hill [s] @@ @PRE <1,1> cap(); @RULES # Ex: MCI _companyPhrase [layer=(_Caps )] <- MCI [s] @@ # Ex: McKesson _companyPhrase [layer=(_Caps )] <- McKesson [s] @@ # Ex: McLennan _companyPhrase [layer=(_Caps )] <- McLennan [s] @@ # Ex: Mead _companyPhrase [layer=(_Caps )] <- Mead [s] @@ # Ex: MedPartners _companyPhrase [layer=(_Caps )] <- MedPartners [s] @@ # Ex: Mellon _companyPhrase [layer=(_Caps )] <- Mellon [s] @@ # Ex: Mercantile _companyPhrase [layer=(_Caps )] <- Mercantile [s] @@ # Ex: Merchandise _companyPhrase [layer=(_Caps )] <- Merchandise [s] @@ # Ex: Merck _companyPhrase [layer=(_Caps )] <- Merck [s] @@ # Ex: Merisel _companyPhrase [layer=(_Caps )] <- Merisel [s] @@ # Ex: Meritor _companyPhrase [layer=(_Caps )] <- Meritor [s] @@ # Ex: Merrill _companyPhrase [layer=(_Caps )] <- Merrill [s] @@ # Ex: Metallgesellschaft _companyPhrase [layer=(_Caps )] <- Metallgesellschaft [s] @@ # Ex: Metals _companyPhrase [layer=(_Caps )] <- Metals [s] @@ # Ex: Metropolitan _companyPhrase [layer=(_Caps )] <- Metropolitan [s] @@ # Ex: Meyer _companyPhrase [layer=(_Caps )] <- Meyer [s] @@ # Ex: Micro _companyPhrase [layer=(_Caps )] <- Micro [s] @@ # Ex: MicroAge _companyPhrase [layer=(_Caps )] <- MicroAge [s] @@ # Ex: Micron _companyPhrase [layer=(_Caps )] <- Micron [s] @@ # Ex: Microsoft _companyPhrase [layer=(_Caps )] <- Microsoft [s] @@ # Ex: Microsystems _companyPhrase [layer=(_Caps )] <- Microsystems [s] @@ # Ex: Midland _companyPhrase [layer=(_Caps )] <- Midland [s] @@ # Ex: Migros _companyPhrase [layer=(_Caps )] <- Migros [s] @@ # Ex: Milk _companyPhrase [layer=(_Caps )] <- Milk [s] @@ # Ex: Mills _companyPhrase [layer=(_Caps )] <- Mills [s] @@ # Ex: Mining _companyPhrase [layer=(_Caps )] <- Mining [s] @@ # Ex: Minnesota _companyPhrase [layer=(_Caps )] <- Minnesota [s] @@ # Ex: Minor _companyPhrase [layer=(_Caps )] <- Minor [s] @@ # Ex: Mirror _companyPhrase [layer=(_Caps )] <- Mirror [s] @@ # Ex: Mobil _companyPhrase [layer=(_Caps )] <- Mobil [s] @@ # Ex: Mohawk _companyPhrase [layer=(_Caps )] <- Mohawk [s] @@ # Ex: Monsanto _companyPhrase [layer=(_Caps )] <- Monsanto [s] @@ # Ex: Montreal _companyPhrase [layer=(_Caps )] <- Montreal [s] @@ # Ex: Morgan _companyPhrase [layer=(_Caps )] <- Morgan [s] @@ # Ex: Morris _companyPhrase [layer=(_Caps )] <- Morris [s] @@ # Ex: Mortgage _companyPhrase [layer=(_Caps )] <- Mortgage [s] @@ # Ex: Motor _companyPhrase [layer=(_Caps )] <- Motor [s] @@ # Ex: Motors _companyPhrase [layer=(_Caps )] <- Motors [s] @@ # Ex: Mutual _companyPhrase [layer=(_Caps )] <- Mutual [s] @@ # Ex: Nabisco _companyPhrase [layer=(_Caps )] <- Nabisco [s] @@ # Ex: Nash _companyPhrase [layer=(_Caps )] <- Nash [s] @@ # Ex: National _companyPhrase [layer=(_Caps )] <- National [s] @@ # Ex: NationsBank _companyPhrase [layer=(_Caps )] <- NationsBank [s] @@ # Ex: Nationwide _companyPhrase [layer=(_Caps )] <- Nationwide [s] @@ # Ex: Natural _companyPhrase [layer=(_Caps )] <- Natural [s] @@ # Ex: Navistar _companyPhrase [layer=(_Caps )] <- Navistar [s] @@ # Ex: NBC _companyPhrase [layer=(_Caps )] <- NBC [s] @@ # Ex: Nebco _companyPhrase [layer=(_Caps )] <- Nebco [s] @@ # Ex: Networks _companyPhrase [layer=(_Caps )] <- Networks [s] @@ # Ex: New _companyPhrase [layer=(_Caps )] <- New [s] @@ # Ex: Newell _companyPhrase [layer=(_Caps )] <- Newell [s] @@ # Ex: Niagara _companyPhrase [layer=(_Caps )] <- Niagara [s] @@ # Ex: Nike _companyPhrase [layer=(_Caps )] <- Nike [s] @@ # Ex: Nippon _companyPhrase [layer=(_Caps )] <- Nippon [s] @@ # Ex: Nipsco _companyPhrase [layer=(_Caps )] <- Nipsco [s] @@ # Ex: Nissan _companyPhrase [layer=(_Caps )] <- Nissan [s] @@ # Ex: Noble _companyPhrase [layer=(_Caps )] <- Noble [s] @@ # Ex: Norddeutsche _companyPhrase [layer=(_Caps )] <- Norddeutsche [s] @@ # Ex: Nordstrom _companyPhrase [layer=(_Caps )] <- Nordstrom [s] @@ # Ex: Norinchukin _companyPhrase [layer=(_Caps )] <- Norinchukin [s] @@ # Ex: Northrop _companyPhrase [layer=(_Caps )] <- Northrop [s] @@ # Ex: Nova _companyPhrase [layer=(_Caps )] <- Nova [s] @@ # Ex: Nucor _companyPhrase [layer=(_Caps )] <- Nucor [s] @@ # Ex: Oats _companyPhrase [layer=(_Caps )] <- Oats [s] @@ # Ex: Obayashi _companyPhrase [layer=(_Caps )] <- Obayashi [s] @@ # Ex: Occidental _companyPhrase [layer=(_Caps )] <- Occidental [s] @@ # Ex: Office _companyPhrase [layer=(_Caps )] <- Office [s] @@ # Ex: OfficeMax _companyPhrase [layer=(_Caps )] <- OfficeMax [s] @@ # Ex: Oji _companyPhrase [layer=(_Caps )] <- Oji [s] @@ # Ex: Olsten _companyPhrase [layer=(_Caps )] <- Olsten [s] @@ # Ex: Omnicom _companyPhrase [layer=(_Caps )] <- Omnicom [s] @@ # Ex: One _companyPhrase [layer=(_Caps )] <- One [s] @@ # Ex: OnLine _companyPhrase [layer=(_Caps )] <- OnLine [s] @@ # Ex: Oriental _companyPhrase [layer=(_Caps )] <- Oriental [s] @@ # Ex: Otto _companyPhrase [layer=(_Caps )] <- Otto [s] @@ # Ex: Owens _companyPhrase [layer=(_Caps )] <- Owens [s] @@ @PRE <1,1> cap(); <3,3> cap(); @RULES # Ex: Owens-Corning _companyPhrase [layer=(_Caps )] <- Owens [s] \- [s] Corning [s] @@ # Ex: Owens-Illinois _companyPhrase [layer=(_Caps )] <- Owens [s] \- [s] Illinois [s] @@ @PRE <1,1> cap(); @RULES # Ex: Oxford _companyPhrase [layer=(_Caps )] <- Oxford [s] @@ # Ex: Paccar _companyPhrase [layer=(_Caps )] <- Paccar [s] @@ # Ex: Pacific _companyPhrase [layer=(_Caps )] <- Pacific [s] @@ # Ex: PacifiCare _companyPhrase [layer=(_Caps )] <- PacifiCare [s] @@ # Ex: PacifiCorp _companyPhrase [layer=(_Caps )] <- PacifiCorp [s] @@ # Ex: Paine _companyPhrase [layer=(_Caps )] <- Paine [s] @@ # Ex: Paper _companyPhrase [layer=(_Caps )] <- Paper [s] @@ # Ex: Parcel _companyPhrase [layer=(_Caps )] <- Parcel [s] @@ # Ex: Parker _companyPhrase [layer=(_Caps )] <- Parker [s] @@ # Ex: Parts _companyPhrase [layer=(_Caps )] <- Parts [s] @@ # Ex: Pechiney _companyPhrase [layer=(_Caps )] <- Pechiney [s] @@ # Ex: PECO _companyPhrase [layer=(_Caps )] <- PECO [s] @@ # Ex: Peninsular _companyPhrase [layer=(_Caps )] <- Peninsular [s] @@ # Ex: Penney _companyPhrase [layer=(_Caps )] <- Penney [s] @@ # Ex: PepsiCo _companyPhrase [layer=(_Caps )] <- PepsiCo [s] @@ # Ex: PetroFina _companyPhrase [layer=(_Caps )] <- PetroFina [s] @@ # Ex: Petroleum _companyPhrase [layer=(_Caps )] <- Petroleum [s] @@ # Ex: Petronas _companyPhrase [layer=(_Caps )] <- Petronas [s] @@ # Ex: Pfizer _companyPhrase [layer=(_Caps )] <- Pfizer [s] @@ @PRE <1,1> cap(); <3,3> cap(); @RULES # Ex: PG&E _companyPhrase [layer=(_Caps )] <- PG [s] \& [s] E [s] @@ @PRE <1,1> cap(); @RULES # Ex: Pharmacia _companyPhrase [layer=(_Caps )] <- Pharmacia [s] @@ # Ex: Phelps _companyPhrase [layer=(_Caps )] <- Phelps [s] @@ # Ex: Phillips _companyPhrase [layer=(_Caps )] <- Phillips [s] @@ # Ex: Phoenix _companyPhrase [layer=(_Caps )] <- Phoenix [s] @@ # Ex: Photo _companyPhrase [layer=(_Caps )] <- Photo [s] @@ # Ex: Pitney _companyPhrase [layer=(_Caps )] <- Pitney [s] @@ # Ex: Pittston _companyPhrase [layer=(_Caps )] <- Pittston [s] @@ # Ex: Platt _companyPhrase [layer=(_Caps )] <- Platt [s] @@ # Ex: PNC _companyPhrase [layer=(_Caps )] <- PNC [s] @@ # Ex: Pohang _companyPhrase [layer=(_Caps )] <- Pohang [s] @@ # Ex: Post _companyPhrase [layer=(_Caps )] <- Post [s] @@ # Ex: Postal _companyPhrase [layer=(_Caps )] <- Postal [s] @@ # Ex: Power _companyPhrase [layer=(_Caps )] <- Power [s] @@ @PRE <1,1> cap(); <3,3> cap(); @RULES # Ex: PP&L _companyPhrase [layer=(_Caps )] <- PP [s] \& [s] L [s] @@ @PRE <1,1> cap(); @RULES # Ex: PPG _companyPhrase [layer=(_Caps )] <- PPG [s] @@ # Ex: Praxair _companyPhrase [layer=(_Caps )] <- Praxair [s] @@ # Ex: Principal _companyPhrase [layer=(_Caps )] <- Principal [s] @@ # Ex: Printing _companyPhrase [layer=(_Caps )] <- Printing [s] @@ # Ex: Processing _companyPhrase [layer=(_Caps )] <- Processing [s] @@ # Ex: Procter _companyPhrase [layer=(_Caps )] <- Procter [s] @@ # Ex: Proctor _companyPhrase [layer=(_Caps )] <- Proctor [s] @@ # Ex: Products _companyPhrase [layer=(_Caps )] <- Products [s] @@ # Ex: Progress _companyPhrase [layer=(_Caps )] <- Progress [s] @@ # Ex: Progressive _companyPhrase [layer=(_Caps )] <- Progressive [s] @@ # Ex: Provident _companyPhrase [layer=(_Caps )] <- Provident [s] @@ # Ex: Prudential _companyPhrase [layer=(_Caps )] <- Prudential [s] @@ # Ex: Public _companyPhrase [layer=(_Caps )] <- Public [s] @@ # Ex: Publix _companyPhrase [layer=(_Caps )] <- Publix [s] @@ # Ex: Purina _companyPhrase [layer=(_Caps )] <- Purina [s] @@ # Ex: Quaker _companyPhrase [layer=(_Caps )] <- Quaker [s] @@ # Ex: Qualcomm _companyPhrase [layer=(_Caps )] <- Qualcomm [s] @@ # Ex: Quantum _companyPhrase [layer=(_Caps )] <- Quantum [s] @@ @PRE <1,1> cap(); <3,3> cap(); @RULES # Ex: R.R. _companyPhrase [layer=(_Caps )] <- R [s] \. [s] R [s] \. [s] @@ @PRE <1,1> cap(); @RULES # Ex: Railway _companyPhrase [layer=(_Caps )] <- Railway [s] @@ # Ex: Ralston _companyPhrase [layer=(_Caps )] <- Ralston [s] @@ # Ex: Raytheon _companyPhrase [layer=(_Caps )] <- Raytheon [s] @@ # Ex: Reebok _companyPhrase [layer=(_Caps )] <- Reebok [s] @@ # Ex: Regions _companyPhrase [layer=(_Caps )] <- Regions [s] @@ # Ex: Reliance _companyPhrase [layer=(_Caps )] <- Reliance [s] @@ # Ex: Reliant _companyPhrase [layer=(_Caps )] <- Reliant [s] @@ # Ex: Republic _companyPhrase [layer=(_Caps )] <- Republic [s] @@ # Ex: Resorts _companyPhrase [layer=(_Caps )] <- Resorts [s] @@ # Ex: Resources _companyPhrase [layer=(_Caps )] <- Resources [s] @@ # Ex: Restaurants _companyPhrase [layer=(_Caps )] <- Restaurants [s] @@ # Ex: Reynolds _companyPhrase [layer=(_Caps )] <- Reynolds [s] @@ # Ex: Richfield _companyPhrase [layer=(_Caps )] <- Richfield [s] @@ # Ex: Richfood _companyPhrase [layer=(_Caps )] <- Richfood [s] @@ # Ex: Ricoh _companyPhrase [layer=(_Caps )] <- Ricoh [s] @@ # Ex: Rite _companyPhrase [layer=(_Caps )] <- Rite [s] @@ # Ex: RJR _companyPhrase [layer=(_Caps )] <- RJR [s] @@ # Ex: Rockwell _companyPhrase [layer=(_Caps )] <- Rockwell [s] @@ # Ex: Roebuck _companyPhrase [layer=(_Caps )] <- Roebuck [s] @@ # Ex: Rohm _companyPhrase [layer=(_Caps )] <- Rohm [s] @@ # Ex: Royal _companyPhrase [layer=(_Caps )] <- Royal [s] @@ # Ex: RR _companyPhrase [layer=(_Caps )] <- RR [s] @@ # Ex: Rubber _companyPhrase [layer=(_Caps )] <- Rubber [s] @@ # Ex: Ryder _companyPhrase [layer=(_Caps )] <- Ryder [s] @@ # Ex: Ryerson _companyPhrase [layer=(_Caps )] <- Ryerson [s] @@ # Ex: Safeco _companyPhrase [layer=(_Caps )] <- Safeco [s] @@ # Ex: Safeway _companyPhrase [layer=(_Caps )] <- Safeway [s] @@ # Ex: SAI _companyPhrase [layer=(_Caps )] <- SAI [s] @@ # Ex: Saks _companyPhrase [layer=(_Caps )] <- Saks [s] @@ # Ex: Santa _companyPhrase [layer=(_Caps )] <- Santa [s] @@ # Ex: Sara _companyPhrase [layer=(_Caps )] <- Sara [s] @@ # Ex: SBC _companyPhrase [layer=(_Caps )] <- SBC [s] @@ @PRE <1,1> cap(); <3,3> cap(); @RULES # Ex: Schering-Plough _companyPhrase [layer=(_Caps )] <- Schering [s] \- [s] Plough [s] @@ @PRE <1,1> cap(); @RULES # Ex: Schlumberger _companyPhrase [layer=(_Caps )] <- Schlumberger [s] @@ # Ex: Schwab _companyPhrase [layer=(_Caps )] <- Schwab [s] @@ # Ex: SCI _companyPhrase [layer=(_Caps )] <- SCI [s] @@ # Ex: Science _companyPhrase [layer=(_Caps )] <- Science [s] @@ # Ex: Sciences _companyPhrase [layer=(_Caps )] <- Sciences [s] @@ # Ex: Scotia _companyPhrase [layer=(_Caps )] <- Scotia [s] @@ # Ex: Scottish _companyPhrase [layer=(_Caps )] <- Scottish [s] @@ # Ex: Seagate _companyPhrase [layer=(_Caps )] <- Seagate [s] @@ # Ex: Seagram _companyPhrase [layer=(_Caps )] <- Seagram [s] @@ # Ex: Seal _companyPhrase [layer=(_Caps )] <- Seal [s] @@ # Ex: Sears _companyPhrase [layer=(_Caps )] <- Sears [s] @@ # Ex: Sekisui _companyPhrase [layer=(_Caps )] <- Sekisui [s] @@ # Ex: Sempra _companyPhrase [layer=(_Caps )] <- Sempra [s] @@ # Ex: SEPI _companyPhrase [layer=(_Caps )] <- SEPI [s] @@ # Ex: Service _companyPhrase [layer=(_Caps )] <- Service [s] @@ # Ex: ServiceMaster _companyPhrase [layer=(_Caps )] <- ServiceMaster [s] @@ # Ex: Services _companyPhrase [layer=(_Caps )] <- Services [s] @@ # Ex: Shamrock _companyPhrase [layer=(_Caps )] <- Shamrock [s] @@ # Ex: Shaw _companyPhrase [layer=(_Caps )] <- Shaw [s] @@ @PRE <1,1> cap(); <3,3> cap(); @RULES # Ex: Sherwin-Williams _companyPhrase [layer=(_Caps )] <- Sherwin [s] \- [s] Williams [s] @@ @PRE <1,1> cap(); @RULES # Ex: Shimizu _companyPhrase [layer=(_Caps )] <- Shimizu [s] @@ # Ex: Shopko _companyPhrase [layer=(_Caps )] <- Shopko [s] @@ # Ex: SLM _companyPhrase [layer=(_Caps )] <- SLM [s] @@ # Ex: Smithfield _companyPhrase [layer=(_Caps )] <- Smithfield [s] @@ @PRE <1,1> cap(); <3,3> cap(); @RULES # Ex: Smurfit-Stone _companyPhrase [layer=(_Caps )] <- Smurfit [s] \- [s] Stone [s] @@ @PRE <1,1> cap(); @RULES # Ex: Snow _companyPhrase [layer=(_Caps )] <- Snow [s] @@ # Ex: Sodexho _companyPhrase [layer=(_Caps )] <- Sodexho [s] @@ # Ex: Solectron _companyPhrase [layer=(_Caps )] <- Solectron [s] @@ # Ex: Solutions _companyPhrase [layer=(_Caps )] <- Solutions [s] @@ # Ex: Sonat _companyPhrase [layer=(_Caps )] <- Sonat [s] @@ # Ex: SouthTrust _companyPhrase [layer=(_Caps )] <- SouthTrust [s] @@ # Ex: SPAR _companyPhrase [layer=(_Caps )] <- SPAR [s] @@ # Ex: Sprint _companyPhrase [layer=(_Caps )] <- Sprint [s] @@ # Ex: Squibb _companyPhrase [layer=(_Caps )] <- Squibb [s] @@ # Ex: Standard _companyPhrase [layer=(_Caps )] <- Standard [s] @@ # Ex: Stanley _companyPhrase [layer=(_Caps )] <- Stanley [s] @@ # Ex: Staples _companyPhrase [layer=(_Caps )] <- Staples [s] @@ # Ex: Starwood _companyPhrase [layer=(_Caps )] <- Starwood [s] @@ # Ex: State _companyPhrase [layer=(_Caps )] <- State [s] @@ # Ex: States _companyPhrase [layer=(_Caps )] <- States [s] @@ # Ex: Stationers _companyPhrase [layer=(_Caps )] <- Stationers [s] @@ # Ex: Steam _companyPhrase [layer=(_Caps )] <- Steam [s] @@ # Ex: Stearns _companyPhrase [layer=(_Caps )] <- Stearns [s] @@ # Ex: Steel _companyPhrase [layer=(_Caps )] <- Steel [s] @@ # Ex: Stora _companyPhrase [layer=(_Caps )] <- Stora [s] @@ # Ex: Stores _companyPhrase [layer=(_Caps )] <- Stores [s] @@ # Ex: Street _companyPhrase [layer=(_Caps )] <- Street [s] @@ # Ex: Suiza _companyPhrase [layer=(_Caps )] <- Suiza [s] @@ # Ex: Sumitomo _companyPhrase [layer=(_Caps )] <- Sumitomo [s] @@ # Ex: Sun _companyPhrase [layer=(_Caps )] <- Sun [s] @@ # Ex: Sunoco _companyPhrase [layer=(_Caps )] <- Sunoco [s] @@ # Ex: SunTrust _companyPhrase [layer=(_Caps )] <- SunTrust [s] @@ # Ex: Super _companyPhrase [layer=(_Caps )] <- Super [s] @@ # Ex: Supermarkets _companyPhrase [layer=(_Caps )] <- Supermarkets [s] @@ # Ex: Supervalu _companyPhrase [layer=(_Caps )] <- Supervalu [s] @@ # Ex: Sysco _companyPhrase [layer=(_Caps )] <- Sysco [s] @@ # Ex: System _companyPhrase [layer=(_Caps )] <- System [s] @@ # Ex: Systems _companyPhrase [layer=(_Caps )] <- Systems [s] @@ # Ex: Takashimaya _companyPhrase [layer=(_Caps )] <- Takashimaya [s] @@ # Ex: Takenaka _companyPhrase [layer=(_Caps )] <- Takenaka [s] @@ # Ex: Tandy _companyPhrase [layer=(_Caps )] <- Tandy [s] @@ # Ex: Tea _companyPhrase [layer=(_Caps )] <- Tea [s] @@ # Ex: Tech _companyPhrase [layer=(_Caps )] <- Tech [s] @@ # Ex: Technologies _companyPhrase [layer=(_Caps )] <- Technologies [s] @@ # Ex: Technology _companyPhrase [layer=(_Caps )] <- Technology [s] @@ @PRE <1,1> cap(); <3,3> cap(); @RULES # Ex: Tele-Communications _companyPhrase [layer=(_Caps )] <- Tele [s] \- [s] Communications [s] @@ @PRE <1,1> cap(); @RULES # Ex: Teledyne _companyPhrase [layer=(_Caps )] <- Teledyne [s] @@ # Ex: Telstra _companyPhrase [layer=(_Caps )] <- Telstra [s] @@ @PRE <1,1> cap(); <3,3> cap(); @RULES # Ex: Temple-Inland _companyPhrase [layer=(_Caps )] <- Temple [s] \- [s] Inland [s] @@ @PRE <1,1> cap(); @RULES # Ex: Tenet _companyPhrase [layer=(_Caps )] <- Tenet [s] @@ # Ex: Tenneco _companyPhrase [layer=(_Caps )] <- Tenneco [s] @@ # Ex: Texaco _companyPhrase [layer=(_Caps )] <- Texaco [s] @@ # Ex: Texas _companyPhrase [layer=(_Caps )] <- Texas [s] @@ # Ex: Textron _companyPhrase [layer=(_Caps )] <- Textron [s] @@ # Ex: Thermo _companyPhrase [layer=(_Caps )] <- Thermo [s] @@ # Ex: TI _companyPhrase [layer=(_Caps )] <- TI [s] @@ @PRE <1,1> cap(); <3,3> cap(); @RULES # Ex: TIAA-CREF _companyPhrase [layer=(_Caps )] <- TIAA [s] \- [s] CREF [s] @@ @PRE <1,1> cap(); @RULES # Ex: Time _companyPhrase [layer=(_Caps )] <- Time [s] @@ @PRE <1,1> cap(); <3,3> cap(); @RULES # Ex: Time-Warner _companyPhrase [layer=(_Caps )] <- Time [s] \- [s] Warner [s] @@ @PRE <1,1> cap(); @RULES # Ex: Times _companyPhrase [layer=(_Caps )] <- Times [s] @@ # Ex: Tire _companyPhrase [layer=(_Caps )] <- Tire [s] @@ # Ex: TJX _companyPhrase [layer=(_Caps )] <- TJX [s] @@ # Ex: Tohoku _companyPhrase [layer=(_Caps )] <- Tohoku [s] @@ # Ex: Tokai _companyPhrase [layer=(_Caps )] <- Tokai [s] @@ # Ex: Tool _companyPhrase [layer=(_Caps )] <- Tool [s] @@ # Ex: Toronto _companyPhrase [layer=(_Caps )] <- Toronto [s] @@ # Ex: Tosco _companyPhrase [layer=(_Caps )] <- Tosco [s] @@ # Ex: Toys _companyPhrase [layer=(_Caps )] <- Toys [s] @@ # Ex: Trans _companyPhrase [layer=(_Caps )] <- Trans [s] @@ # Ex: Transamerica _companyPhrase [layer=(_Caps )] <- Transamerica [s] @@ # Ex: Transportation _companyPhrase [layer=(_Caps )] <- Transportation [s] @@ # Ex: Travel _companyPhrase [layer=(_Caps )] <- Travel [s] @@ # Ex: Travelers _companyPhrase [layer=(_Caps )] <- Travelers [s] @@ # Ex: Tribune _companyPhrase [layer=(_Caps )] <- Tribune [s] @@ # Ex: Tricon _companyPhrase [layer=(_Caps )] <- Tricon [s] @@ # Ex: TruServ _companyPhrase [layer=(_Caps )] <- TruServ [s] @@ # Ex: Trust _companyPhrase [layer=(_Caps )] <- Trust [s] @@ # Ex: TRW _companyPhrase [layer=(_Caps )] <- TRW [s] @@ # Ex: Tull _companyPhrase [layer=(_Caps )] <- Tull [s] @@ # Ex: Turner _companyPhrase [layer=(_Caps )] <- Turner [s] @@ # Ex: TWA _companyPhrase [layer=(_Caps )] <- TWA [s] @@ # Ex: Tyco _companyPhrase [layer=(_Caps )] <- Tyco [s] @@ # Ex: Tyson _companyPhrase [layer=(_Caps )] <- Tyson [s] @@ # Ex: UAL _companyPhrase [layer=(_Caps )] <- UAL [s] @@ # Ex: Ultramar _companyPhrase [layer=(_Caps )] <- Ultramar [s] @@ # Ex: Unicom _companyPhrase [layer=(_Caps )] <- Unicom [s] @@ # Ex: Union _companyPhrase [layer=(_Caps )] <- Union [s] @@ # Ex: Unisource _companyPhrase [layer=(_Caps )] <- Unisource [s] @@ # Ex: Unisys _companyPhrase [layer=(_Caps )] <- Unisys [s] @@ # Ex: United _companyPhrase [layer=(_Caps )] <- United [s] @@ # Ex: Universal _companyPhrase [layer=(_Caps )] <- Universal [s] @@ # Ex: Unocal _companyPhrase [layer=(_Caps )] <- Unocal [s] @@ # Ex: Unum _companyPhrase [layer=(_Caps )] <- Unum [s] @@ # Ex: Upjohn _companyPhrase [layer=(_Caps )] <- Upjohn [s] @@ @PRE <1,1> cap(); <3,3> cap(); @RULES # Ex: UPM-Kymmene _companyPhrase [layer=(_Caps )] <- UPM [s] \- [s] Kymmene [s] @@ @PRE <1,1> cap(); @RULES # Ex: UPS _companyPhrase [layer=(_Caps )] <- UPS [s] @@ # Ex: USG _companyPhrase [layer=(_Caps )] <- USG [s] @@ # Ex: Usinor _companyPhrase [layer=(_Caps )] <- Usinor [s] @@ # Ex: USX _companyPhrase [layer=(_Caps )] <- USX [s] @@ # Ex: UtiliCorp _companyPhrase [layer=(_Caps )] <- UtiliCorp [s] @@ # Ex: Utilities _companyPhrase [layer=(_Caps )] <- Utilities [s] @@ # Ex: Valero _companyPhrase [layer=(_Caps )] <- Valero [s] @@ # Ex: Venator _companyPhrase [layer=(_Caps )] <- Venator [s] @@ # Ex: Vencor _companyPhrase [layer=(_Caps )] <- Vencor [s] @@ # Ex: Versand _companyPhrase [layer=(_Caps )] <- Versand [s] @@ # Ex: VF _companyPhrase [layer=(_Caps )] <- VF [s] @@ # Ex: Viacom _companyPhrase [layer=(_Caps )] <- Viacom [s] @@ # Ex: Wachovia _companyPhrase [layer=(_Caps )] <- Wachovia [s] @@ @PRE <1,1> cap(); <3,3> cap(); @RULES # Ex: Wal-Mart _companyPhrase [layer=(_Caps )] <- Wal [s] \- [s] Mart [s] @@ @PRE <1,1> cap(); @RULES # Ex: Walgreen _companyPhrase [layer=(_Caps )] <- Walgreen [s] @@ # Ex: Walt _companyPhrase [layer=(_Caps )] <- Walt [s] @@ # Ex: Warner _companyPhrase [layer=(_Caps )] <- Warner [s] @@ @PRE <1,1> cap(); <3,3> cap(); @RULES # Ex: Warner-Lambert _companyPhrase [layer=(_Caps )] <- Warner [s] \- [s] Lambert [s] @@ @PRE <1,1> cap(); @RULES # Ex: Washington _companyPhrase [layer=(_Caps )] <- Washington [s] @@ # Ex: Waste _companyPhrase [layer=(_Caps )] <- Waste [s] @@ # Ex: Webber _companyPhrase [layer=(_Caps )] <- Webber [s] @@ # Ex: WellPoint _companyPhrase [layer=(_Caps )] <- WellPoint [s] @@ # Ex: Wells _companyPhrase [layer=(_Caps )] <- Wells [s] @@ # Ex: Wesco _companyPhrase [layer=(_Caps )] <- Wesco [s] @@ # Ex: Weston _companyPhrase [layer=(_Caps )] <- Weston [s] @@ # Ex: Westvaco _companyPhrase [layer=(_Caps )] <- Westvaco [s] @@ # Ex: Weyerhaeuser _companyPhrase [layer=(_Caps )] <- Weyerhaeuser [s] @@ # Ex: Wheeler _companyPhrase [layer=(_Caps )] <- Wheeler [s] @@ # Ex: Whirlpool _companyPhrase [layer=(_Caps )] <- Whirlpool [s] @@ # Ex: Wholesale _companyPhrase [layer=(_Caps )] <- Wholesale [s] @@ # Ex: Widows _companyPhrase [layer=(_Caps )] <- Widows [s] @@ # Ex: Wiederaufbau _companyPhrase [layer=(_Caps )] <- Wiederaufbau [s] @@ # Ex: Willamette _companyPhrase [layer=(_Caps )] <- Willamette [s] @@ # Ex: Williams _companyPhrase [layer=(_Caps )] <- Williams [s] @@ @PRE <1,1> cap(); <3,3> cap(); @RULES # Ex: Winn-Dixie _companyPhrase [layer=(_Caps )] <- Winn [s] \- [s] Dixie [s] @@ @PRE <1,1> cap(); @RULES # Ex: Witter _companyPhrase [layer=(_Caps )] <- Witter [s] @@ # Ex: Woolworths _companyPhrase [layer=(_Caps )] <- Woolworths [s] @@ # Ex: Works _companyPhrase [layer=(_Caps )] <- Works [s] @@ # Ex: World _companyPhrase [layer=(_Caps )] <- World [s] @@ # Ex: WorldCom _companyPhrase [layer=(_Caps )] <- WorldCom [s] @@ # Ex: Xerox _companyPhrase [layer=(_Caps )] <- Xerox [s] @@ # Ex: Yahoo _companyPhrase [layer=(_Caps )] <- Yahoo [s] @@ # Ex: Yasuda _companyPhrase [layer=(_Caps )] <- Yasuda [s] @@ # Ex: Yellow _companyPhrase [layer=(_Caps )] <- Yellow [s] @@ # Ex: York _companyPhrase [layer=(_Caps )] <- York [s] @@ # Ex: Zeneca _companyPhrase [layer=(_Caps )] <- Zeneca [s] @@ # Ex: Zentrale _companyPhrase [layer=(_Caps )] <- Zentrale [s] @@ @PRE <1,1> cap(); <3,3> cap(); @RULES # Ex: Employment\_Agency _companyPhrase [layer=(_Caps )] <- Employment [s] _xWHITE [star s] Agency [s] @@ # Ex: Marine\_Corps _companyPhrase [layer=(_Caps )] <- Marine [s] _xWHITE [star s] Corps [s] @@

# Set the UNSEALED attribute of the numth node to "true" or "false" @POST setunsealed(1,"true");  # Allows _sentence nodes to be examined by a subsequent pass that uses @NODES. @RULES _xNIL <- _sentence @@

@CODE L("hello") = 0; @@CODE @PATH _ROOT _TEXTZONE _sent @POST if (N("sem texts") && N("sem vals")) { "output.txt" << "TEXT= " << phrasetext() << "\n"; L("ii") = 0; L("max") = arraylength(N("sem texts")); L("key") = N("sem texts"); L("val") = N("sem vals"); while (L("ii") < L("max")) { "output.txt" << strtoupper(L("key")[L("ii")]) << "\t" << L("val")[L("ii")] << "\n" ; ++L("ii"); } } @RULES _xNIL <- _clause @@

@PATH _ROOT _XMLDecl @RULES _Comment <- _CommentStart _xWILD [min=0 max=0 fail=("_CommentEnd" "_CommentEnd" "_DoubleHyphen")] _CommentEnd @@ _VersionInfo <- _whiteSpace [opt] _xWILD [s trig one matches=("version")] _whiteSpace [opt] \= _whiteSpace [opt] _PubidLiteral @@ _VersionInfo <- _whiteSpace [opt] _xWILD [s trig one matches=("version")] _whiteSpace [opt] \= _whiteSpace [opt] _SystemLiteral @@ _EncodingDecl <- _whiteSpace [opt] _xWILD [s trig one matches=("encoding")] _whiteSpace [opt] \= _whiteSpace [opt] _PubidLiteral @@ _EncodingDecl <- _whiteSpace [opt] _xWILD [s trig one matches=("encoding")] _whiteSpace [opt] \= _whiteSpace [opt] _SystemLiteral @@ _SDDecl <- _whiteSpace [opt] _xWILD [s trig one matches=("standalone")] _whiteSpace [opt] \= _whiteSpace [opt] _PubidLiteral @@ _SDDecl <- _whiteSpace [opt] _xWILD [s trig one matches=("standalone")] _whiteSpace [opt] \= _whiteSpace [opt] _SystemLiteral @@ @POST noop() ; @@POST @RULES _xNIL <- _whiteSpace @@ @@RULES @RULES @POST "output.txt" << "Error: extra characters in XML declaration" ; noop() ; @@POST @RULES _xNIL <- _xALPHA @@ @@RULES

@NODES _labelEntry @POST AddPhrase(N(2)); "debug.txt" << N("$text", 2) << "\n"; @RULES _xNIL <- _xSTART ### (1) _xWILD [one match=(_xALPHA _xNUM)] ### (2) @@

@NODES _ROOT # Acronyms/initialisms are all uppercase @PRE <1,1> var("upper"); @POST # Do lookup here. @RULES _xNIL <- _xANY ### (1) @@ # Abbreviations (Start with cap) @PRE <1,1> var("cap"); @POST # Do lookup here. @RULES _xNIL <- _xANY ### (1) @@

@NODES _ROOT @RULES _rest <- _xWILD [fail=(_td)] ### (1) @@

@CODE # Find abbrevations in caps sortchilds(G("caps")); L("cap") = down(G("caps")); while (L("cap")) { L("abr") = GetAbbreviation(conceptname(L("cap"))); if (strval(L("cap"),"type") == "full") { "abbr.txt" << conceptname(L("cap")) << " => " << L("abr") << "\n"; L("abbr") = down(G("caps")); while (L("abbr")) { if (strval(L("abbr"),"type") == "abbrev" && !strval(L("cap"),"full")) { if (conceptname(L("abbr")) == L("abr")) { "abbr.txt" << " " << conceptname(L("abbr")) << " => " << conceptname(L("cap")) << "\n"; addconval(L("abbr"),"full",L("cap")); } } L("abbr") = next(L("abbr")); } } L("cap") = next(L("cap")); } @@CODE

@NODES _ROOT @PRE <1,1> numrange(1,12); <3,3> numrange(1,31); <5,5> numrange(1900,2050); @POST S("month") = num(N("$text",1)); S("day") = num(N("$text",3)); S("year") = num(N("$text",5)); single(); @RULES _date <- _xNUM ### (1) _xWILD [match=(\- \/)] ### (2) _xNUM ### (3) _xWILD [match=(\- \/)] ### (2) _xNUM ### (5) @@ @POST S("value") = N("$text",2) + N("$text",4) + N("$text",6) + "." + N("$text",8); single(); @RULES _money <- \$ ### (1) _xNUM ### (2) \, ### (3) _xNUM ### (4) \, ### (5) _xNUM ### (6) \. ### (7) _xNUM ### (8) @@ @POST S("value") = N("$text",2) + N("$text",4) + "." + N("$text",6); single(); @RULES _money <- \$ ### (1) _xNUM ### (2) \, ### (3) _xNUM ### (4) \. ### (5) _xNUM ### (6) @@ @POST S("value") = N("$text",2) + "." + N("$text",4); single(); @RULES _money <- \$ ### (1) _xNUM ### (2) \. ### (3) _xNUM ### (4) @@ @POST S("value") = N("$text",1); single(); @RULES _money <- \$ ### (1) _xNUM ### (2) @@ @POST S("numeric") = num(N("numeric",1)) + num(N("numeric",3)); single(); @RULES _number <- _number ### (1) \- ### (2) _number ### (3) @@

@MULTI _ROOT @CHECK if (N(1)) { fail(); } if (pnname(X()) == "_item") { fail(); } @@CHECK @POST singler(4,4); @@POST @RULES _endSent <- _endSent [opt] _xWILD [one fails=(_endSent)] ### (1) _xWILD [one fails=(_endSent)] _xWILD [one trig match=(\. \?)] ### (2) _xWILD [one match=(_xWHITE _xEND _xCTRL)] ### (3) @@

@CODE L("hello") = 0; @@CODE @NODES _TEXTZONE @POST if (N("sent end",3)) S("sent end") = N("sent end",3); if (pnname(N(3)) == "_qEOS") { setlookahead(3); singler(1,2); } else # _EOS singler(1,3); # Include the _EOS node. @RULES _sent [unsealed] <- _xWILD [one fail=(_qEOS \" \( \< \[ _EOS)] _xWILD [star fail=(_qEOS _EOS)] _xWILD [one match=(_qEOS _EOS)] _xWILD [star match=( \) \] \> \" \' )] @@ @POST noop(); @RULES _xNIL <- _xWILD [plus match=( \" \[ \( \< _qEOS \) \] \> _EOS )] @@ @RULES _sent [unsealed] <- _xANY [plus] @@

@CODE DisplayKB(G("body"),0); @@CODE

@DECL Spaces(L("num"), L("spaces")) { while (L("i") < L("num")) { L("str") = L("str") + L("spaces"); L("i")++; } return L("str"); } @@DECL

# Invoke a recursive rules pass on nodes that matched the current rule element @RULES _tag <- \< _xWILD [passes=(tagrules)] \> @@

@CODE L("hello") = 0; @@CODE @NODES _ROOT # First paragraph. @PRE <4,4> varz("PAR"); @POST singler(3,4); @RULES _TEXTZONE [unsealed] <- _xSTART _header _LINE _LINE [star] @@ @PRE <1,1> var("PAR"); <2,2> varz("PAR"); @RULES _TEXTZONE [unsealed] <- _LINE _LINE [star] @@ # Excise blank lines. @POST excise(1,1); @RULES _xNIL <- _xWILD [plus match=(_BLANKLINE _xWHITE)] @@

@CODE ############################################### # Load KB's, storing references to concepts # as global variables ############################################### #Define split to run on here. G("split") = "rare"; G("mimic_split_codes") = getconcept(findroot(),"mimic_splits"); G("acronyms") = getconcept(findroot(), "acronyms"); L("code_to_euis") = getconcept(findroot(), "code_to_euis"); G("code_to_euis") = getconcept(L("code_to_euis"), G("split")); L("eui_to_codes") = getconcept(findroot(), "eui_to_codes"); G("eui_to_codes") = getconcept(L("eui_to_codes"), G("split")); L("P_eui") = getconcept(findroot(), "euiprobs"); G("P_eui") = getconcept(L("P_eui"), G("split")); G("eui_to_base_term") = getconcept(findroot(), "eui_to_base_term"); G("eui_to_base_term") = getconcept(G("eui_to_base_term"), "euis"); DisplayKB(G("P_eui"), 2); ############################################### # Create concepts in KB to store prediction # information ############################################### # We will use this to store a list of keywords we have found in this discharge summary G("note_words") = getconcept(findroot(),"note_words"); if (!G("note_words")) { G("note_words") = makeconcept(findroot(), "note_words"); } rmchildren(G("note_words")); # Store our final code predictions G("pred_codes") = getconcept(findroot(),"pred_codes"); if (!G("pred_codes")) { G("pred_codes") = makeconcept(findroot(), "pred_codes"); } rmchildren(G("pred_codes")); # G("top_preds") = getconcept(G("pred_codes"),"top"); # if (!G("top_preds")) { # G("top_preds") = makeconcept(G("pred_codes"), "top"); # } # rmchildren(G("top_preds")); # G("pred_diagnoses") = getconcept(G("pred_codes"),"pred_diagnoses"); # if (!G("pred_codes")) { # G("pred_diagnoses") = makeconcept(G("pred_codes"), "pred_diagnoses"); # } # rmchildren(G("pred_diagnoses")); @@CODE

@PATH _ROOT _AttlistDecl @RULES _AttType [unsealed] <- _xWILD [s one matches=("NOTATION")] ### (1) _whiteSpace [opt] ### (2) \( [one] ### (3) _whiteSpace [opt] ### (4) _xWILD [s one matches=("_xALPHA" "_" ":")] ### (5) _xWILD [s star matches=("_xALPHA" "_xNUM" "." "-" "_" ":")] ### (6) _xWHITE [opt] ### (7) _EnumNameElement [star] ### (8) \) [one] ### (9) @@ _AttType [unsealed] <- \( [one] ### (1) _whiteSpace [opt] ### (2) _xWILD [s plus matches=("_xALPHA" "_xNUM" "." "-" "_" ":")] ### (3) _whiteSpace [opt] ### (4) _EnumElement [star] ### (5) \) [one] ### (6) @@ _AttType [unsealed] <- \( [one] ### (1) _whiteSpace [opt] ### (2) _xWILD [s plus matches=("_xALPHA" "_xNUM" "." "-" "_" ":")] ### (3) _whiteSpace [opt] ### (4) _EnumNameElement [star] ### (5) \) [one] ### (6) @@

@CODE G("words") = getconcept(findroot(),"words"); @@CODE

# Too general a rule. # @NODES _LINE @RULES _possessive <- _xALPHA [s] \' [s] s [s] @@

@NODES _LINE @POST excise(4,5); excise(1,2); @RULES _xNIL <- \[ ### (1) \[ ### (2) _xWILD [plus fail=(\])] ### (3) \] ### (4) \] ### (5) @@

@POST rfaregions(1) single() @RULES _REGIONS [base] <- _REGION [plus] @@

@NODES _paragraph @POST splice(1,1); @RULES _xNIL <- _LINE ### (1) @@

# Find the root of the kb G("the root") = findroot();

@CODE if (!G("pretagged")) exitpass(); @@CODE @NODES _ROOT @RULES _LINE <- _xWILD [plus fail=(_BLANKLINE _HRULE)] @@

@NODES _LINE @PRE <1,1> cap(); <1,1> length(12); @RULES # Ex: Publications _PublicationsHeaderWord [layer=(_headerWord )] <- _xWILD [min=1 max=1 s match=("Publications")] @@

@NODES _TEXTZONE @POST splice(1,1); @RULES _xNIL <- _headerZone ### (1) @@

@PATH _ROOT _posZone _defZone _definition _headerZone _LINE _item @POST L("con") = makeconcept(X("con",3),"text"); addstrval(L("con"),"defText",N("$text",1)); singler(1,1); @RULES _text <- _xWILD [plus fail=(\; _xEND)] ### (1) \; ### (2) @@

@PATH _ROOT _LINE # So putting in the check. If calc hasn't been done yet, do it. @CHECK # !N("city conf"); if (N("city conf")) fail(); @POST # if (!N("len")) # print out no length. # Treating confidences independently, but keep track of # ambiguity in the phrase. # Need NLP++ looping to add evidence three times, eg. if (N("len") == 1) { ### ASSESS AS CITY NAME. if (N("cityMods")) N("city conf") = 0; # Single word like "city". else if (N("unknowns")) N("city conf") = 50; # Some single unknown word. else N("city conf") = 0; } # Clear noncities. else if # Multi-word but noncity head word, etc.. (N("end companyroot") || N("end schoolroot") || N("end field") || N("end jobtitleroot")) { N("city conf") = 0; # 01/03/00 AM. } else # If multi-word phrase. { ### ASSESS AS CITY NAME. if (N("end citymod")) N("city conf") = N("city conf") %% 90; if (N("start citymod")) N("city conf") = N("city conf") %% 80; if (N("citymods") - N("start citymod") - N("end citymod")) N("city conf") = N("city conf") %% 70; if (N("geos")) # city,state, or country in here. N("city conf") = 95; if (N("unknowns") && (N("unknowns") <= 2)) N("city conf") = N("city conf") %% (N("unknowns") * 30); if (N("fields")) N("city conf") = N("city conf") %% -90; # Must be real sure. if (N("puncts")) N("city conf") = N("city conf") %% -90; # 01/11/00 AM. # Disallowing this if the caps is too long, etc. if (N("len") > 2 || N("capofcap") || N("capandcap")) N("city conf") = 0; } # Update overall confidences for this phrase. if (N("city conf") >= G("threshold")) ++N("ambigs"); # Another possible sense of cap phrase. if (N("city conf") > N("hi conf")) # New high. { N("hi conf") = N("city conf"); N("hi class") = "city"; # Best so far. } @RULES _xNIL <- _Caps @@

@NODES _termEntry @POST addConceptPhrase(N(1), X("entry")); @RULES _xNIL <- _base ### (1) @@

@CODE #Rationals/floats L("x") = 3; L("y") = 2; L("x/y") = L("x") * L("y"); "math_output.txt" << "x=" << L("x") << " * y=" << L("y") << " => " << L("x/y") << "\n"; L("x") = 3.0; L("y") = 2.0; L("x/y") = L("x") / L("y"); "math_output.txt" << "x=" << L("x") << " / y=" << L("y") << " => " << L("x/y") << "\n"; L("x") = 3; L("y") = 2; L("x/y") = flt(L("x")) / flt(L("y")); "math_output.txt" << "x=" << L("x") << " / y=" << L("y") << " => " << L("x/y") << "\n"; L("x^y") = ("x"); "math_output.txt" << "x" << L("x") << " && y=" << L("y") << " => " << L("x^y") << "\n"; # L("e") = e(); # "math_output.txt" << L("e") << "\n"; # L("x") = 3; # L("y") = 2; # L("x^y") = pow(L("x"), L("y")); # "math_output.txt" << "x=" << L("x") << " ^ y=" << L("y") << " => " << L("x^y") << "\n"; # L("x") = 3; # L("y") = 0; # L("x^y") = pow(L("x"), L("y")); # "math_output.txt" << "x=" << L("x") << " ^ y=" << L("y") << " => " << L("x^y") << "\n"; # L("x") = 2; # L("y") = -3; # L("x^y") = pow(L("x"), L("y")); # "math_output.txt" << "x=" << L("x") << " ^ y=" << L("y") << " => " << L("x^y") << "\n"; # L("x") = -3; # L("y") = 3; # L("x^y") = pow(L("x"), L("y")); # "math_output.txt" << "x=" << L("x") << " ^ y=" << L("y") << " => " << L("x^y") << "\n"; # L("x") = 9; # L("rtx") = sqrt(L("x")); # "math_output.txt" << "x=" << L("x") << " => " << L("rtx") << "\n"; # L("x") = 2; # L("rtx") = sqrt(L("x")); # "math_output.txt" << "x=" << L("x") << " => " << L("rtx") << "\n"; # L("x") = 2; # L("exp") = exp(L("x")); # "math_output.txt" << "x=" << L("x") << " => " << L("exp") << "\n"; # L("x") = 0. # L("y") = 1. # L("z") = str(L("x")) + str(L("y")); # "math_output.txt" << "x=" << L("x") << " + y = " << L("y") << " => " << L("z") << "\n"; # L("kb") = makeconcept(findroot(), "con_1"); # L("con_2") = makeconcept(L("kb"), "con_2"); # L("con_2") = makeconcept(L("kb"), "con_2"); # L("attr") = addattr(L("con_2"), "float"); # replaceval(L("con_2"),"float",3.14); # DisplayKB(L("kb"), 1); # L("flt") = 0. # L("int") = L("flt") * # L("str") = str(L("int")); # L("s") = split(L("str"), "."); # L("s") = num(L("s")[0]); # # L("converted") = flt(L("str")); # "math_output.txt" << L("flt") << "\n"; # "math_output.txt" << L("int") << "\n"; # "math_output.txt" << L("s") << "\n"; # # "math_output.txt" << str(L("int")) << "\n"; # # If the attribute has not been created yet, addsval will create it. # # Sometimes it is convenient to treat a number like a string. In this case, you can perform numeric operations in the number field of this function, but then have the result stored in the KB as a string. @@CODE

@NODES _ROOT @PRE <1,1> var("word"); <1,1> var("male"); <1,1> varz("female"); @POST "output.txt" << N("word") << " male\n"; @RULES _xNIL <- _LINE ### (1) @@

@PATH _ROOT @POST S("x-coordinate") = num(N("$text",2)); S("y-coordinate") = num(N("$text",4)); S("sem") = "location"; single(); @RULES _coord [layer=_noun] <- \( [s] _xNUM [s] \, [s] _xNUM [s] \) [s] @@ @CHECK if (N(5) && N("$length",5) != 3) fail(); if (N("$length",3) != 3) fail(); @POST S("val") = num(N("$text",1)) * 1000.0 + num(N("$text",3)); if (N(5)) S("val") = S("val") * 1000.0 + num(N("$text",5)); single(); @RULES _num <- _xNUM [s] \, [s] _xNUM [s] \, [s opt] _xNUM [s opt] @@ @RULES _num <- _xWILD [s min=4 match=(_xNUM)] @@ _num <- _xNUM [s] \. [s] _xNUM [s] @@ @POST S("num") = num(N("$text",1)); # Need float for the larger ones. Need MAXINT test... single(); @RULES _num <- _xNUM [s] th [s] @@ _noun <- _xNUM [s] \' [s] s [s] @@ @POST S("num") = 1; pncopyvars(1); single(); @RULES _num <- one [s] @@ _num <- first [s] @@ _num <- 1 [s] st [s] @@ @POST S("num") = 2; pncopyvars(1); single(); @RULES _num <- two [s] @@ _num <- second [s] @@ _num <- 2 [s] nd [s] @@ @POST S("num") = 3; pncopyvars(1); single(); @RULES _num <- three [s] @@ _num <- third [s] @@ _num <- 3 [s] rd [s] @@ @POST pncopyvars(1); S("num") = 4; single(); @RULES _num <- four [s] @@ _num <- fourth [s] @@ @POST pncopyvars(1); S("num") = 5; single(); @RULES _num <- five [s] @@ _num <- fifth [s] @@ @POST pncopyvars(1); S("num") = 6; single(); @RULES _num <- six [s] @@ _num <- sixth [s] @@ @POST pncopyvars(1); S("num") = 7; single(); @RULES _num <- seven [s] @@ _num <- seventh [s] @@ @POST pncopyvars(1); S("num") = 8; single(); @RULES _num <- eight [s] @@ _num <- eighth [s] @@ @POST pncopyvars(1); S("num") = 9; single(); @RULES _num <- nine [s] @@ _num <- ninth [s] @@ @POST S("num") = 10; single(); @RULES _num <- ten [s] @@ _num <- tenth [s] @@ @POST S("num") = 11; single(); @RULES _num <- eleven [s] @@ _num <- eleventh [s] @@ @POST S("num") = 12; single(); @RULES _num <- twelve [s] @@ _num <- twelfth [s] @@ @POST S("num") = 13; single(); @RULES _num <- thirteen [s] @@ _num <- thirteenth [s] @@ @POST S("num") = 14; single(); @RULES _num <- fourteen [s] @@ _num <- fourteenth [s] @@ @POST S("num") = 15; single(); @RULES _num <- fifteen [s] @@ _num <- fifteenth [s] @@ @POST S("num") = 16; single(); @RULES _num <- sixteen [s] @@ _num <- sixteenth [s] @@ @POST S("num") = 17; single(); @RULES _num <- seventeen [s] @@ _num <- seventeenth [s] @@ @POST S("num") = 18; single(); @RULES _num <- eighteen [s] @@ _num <- eighteenth [s] @@ @POST S("num") = 19; single(); @RULES _num <- nineteen [s] @@ _num <- nineteenth [s] @@ @POST S("num") = 20; single(); @RULES _num <- twenty [s] @@ _num <- twentieth [s] @@ @POST S("num") = 30; single(); @RULES _num <- thirty [s] @@ _num <- thirtieth [s] @@ @POST S("num") = 40; single(); @RULES _num <- forty [s] @@ _num <- fortieth [s] @@ @POST S("num") = 50; single(); @RULES _num <- fifty [s] @@ _num <- fiftieth [s] @@ @POST S("num") = 60; single(); @RULES _num <- sixty [s] @@ _num <- sixtieth [s] @@ @POST S("num") = 70; single(); @RULES _num <- seventy [s] @@ _num <- seventieth [s] @@ @POST S("num") = 80; single(); @RULES _num <- eighty [s] @@ _num <- eightieth [s] @@ @POST S("num") = 90; single(); @RULES _num <- ninety [s] @@ _num <- ninetieth [s] @@ @POST S("num") = 100; single(); @RULES _num <- hundred [s] @@ _num <- hundredth [s] @@ @POST S("num") = 1000; single(); @RULES _num <- thousand [s] @@ _num <- thousandth [s] @@ @POST S("num") = 1000000; single(); @RULES _num <- million [s] @@ _num <- millionth [s] @@ @POST S("num") = 1000000000; single(); @RULES _num <- billion [s] @@ _num <- billionth [s] @@ @POST S("num") = 1000000000000.0; single(); @RULES _num <- trillion [s] @@ _num <- trillionth [s] @@

@NODES _sentence @POST excise(1,1); noop(); @RULES _xNIL <- _xWHITE [s] ### (1) @@

@CODE DisplayKB(G("numbers"),0); @@CODE

############################################### # FILE: XML tagStructure.pat # # SUBJ: Put together segments bounded by # # XML tags # # AUTH: Paul Deane # # CREATED: 14/Jan/01 # DATE OF THIS VERSION: 31/Aug/01 # # Copyright ############################################### @NODES _ROOT _Element @CHECK #XML tags have to match if (!strequal(N("tagName",1),N("tagName",3))) { "output.txt" << "XML error: mismatched tags\n"; fail() ; } @@CHECK @POST #make sure our current tag is registered in our DTD info S("tagName") = str(N("tagName",1)) ; G("CurrentChildTag") = lasteltnode(2) ; G("Continue") = 1 ; G("PlaceInKB") = findconcept(G("Elements"),S("tagName")) ; while (G("Continue") != 0 ) { G("CurrentChildTagName") = pnvar(G("CurrentChildTag"),"tagName") ; G("nextC") = pnprev(G("CurrentChildTag")) ; if (G("nextC")==0) { G("Continue") = 0 ; } else if (G("CurrentChildTagName") == 0 ) { G("CurrentChildTag") = G("nextC") ; } else if ( strequal(S("tagName"),G("CurrentChildTagName")) ) { G("Continue") = 0 ; } else { if (G("CurrentChildTagName") != 0 ) { G("ChildPlaceInKB") = findconcept(G("PlaceInKB"),G("CurrentChildTagName")); if (G("ChildPlaceInKB")==0) { makeconcept(G("PlaceInKB"),G("CurrentChildTagName")); } } G("CurrentChildTag") = G("nextC") ; } } single() ; @@POST @RULES _Element <- _StartingTag [one] ### (1) _xWILD [star fails=("_ClosingTag" "_StartingTag")] ### (2) _ClosingTag [one] ### (3) @@ @@RULES

@NODES _LINE @POST excise(1,1); noop(); @RULES _xNIL <- _xWHITE ### (1) @@

@PATH _ROOT _bodyZone _trZone _tdZone @POST L("name") = "_" + N("$text",3) + "Close"; group(1,4,L("name")); @RULES _xNIL <- \< ### (1) \/ ### (2) strong ### (3) \> ### (4) @@ @POST L("name") = "_" + N("$text",2); group(1,4,L("name")); @RULES _xNIL <- \< ### (1) strong ### (2) _xWILD [fail=(\>)] ### (3) \> ### (4) @@

@DECL # Concatenate # Concatenates two non-empty arrays # # Args: Two non-empty arrayd # Returns: concatenated array Concatenate(L("arr_1"), L("arr_2")) { L("new_arr") = L("arr_1"); L("idx") = 0; while (L("idx") < arraylength(L("arr_2"))) { L("new_arr")[arraylength(L("new_arr"))] = L("arr_2")[L("idx")]; L("idx")++; } return L("new_arr"); } # Swap # Swap elements at first and second indices in array # # Args: # L("arr") = Non-empty array # L("first_idx") = Index of first element to swap # L("second_idx") = Index of second element to swap # # Returns: Array with swapped elements # # Note that indices must be < array len Swap(L("arr"), L("first_idx"), L("second_idx")) { L("temp") = L("arr")[L("first_idx")]; L("arr")[L("first_idx")] = L("arr")[L("second_idx")]; L("arr")[L("second_idx")] = L("temp"); return L("arr"); } # Quicksort wrapper to handle indices, since this can be a challenge. # Use QuickSortPartition for subarray QuickSort(L("arr")) { if (arraylength(L("arr")) <= 1) { return L("arr"); } L("start") = 0; L("end") = arraylength(L("arr")) - 1; return QuickSortPartition(L("arr"), L("start"), L("end")); } # QuickSortPartition # Performs quicksort on array from <low> to <high> # # Args: # L("arr"): Array to sort # L("low"): Starting index of array # L("high"): Upper index of array # # Returns: # Sorted array # # N.B. low and high must be >=0 and < array len QuickSortPartition(L("arr"), L("low"), L("high")) { if (L("low") < L("high")) { # Get pivot index L("pivot") = L("arr")[L("high")]; L("i") = L("low") - 1; L("j") = L("low"); while (L("j") < L("high")) { if (L("arr")[L("j")] <= L("pivot")) { L("i")++; L("arr") = Swap(L("arr"), L("i"), L("j")); } L("j")++; } L("arr") = Swap(L("arr"), L("i")+1, L("high")); L("pivot") = L("i") + 1; # Sort each partition of array recursively L("arr") = QuickSortPartition(L("arr"), L("low"), L("pivot")-1); L("arr") = QuickSortPartition(L("arr"), L("pivot")+1, L("high")); # Return concatenated array # L("sorted") = L("left_arr"); # L("sorted")[arraylength(L("sorted"))] = L("pivot"); # return ConcatArrays(L("sorted"), L("right_arr")); } return L("arr"); } # Naive tokenization function GetTokens(L("str")) { L("new_str"); L("str") = strsubst(L("str"), "n't", " not"); L("str") = strclean(L("str")); L("i") = 0; while (L("i") < strlength(L("str"))) { L("char") = strchar(L("str"), L("i")); L("char_to_add"); if (strisalpha(L("char")) || L("char") == " ") { L("char_to_add") = L("char"); } else { L("char_to_add") = " "; } if (!L("new_str")) { L("new_str") = L("char_to_add"); } else{ L("new_str") = L("new_str") + L("char_to_add"); } L("i")++; } L("tokens") = split(L("new_str"), " "); L("return"); L("j") = 0; "debug.txt" << arraylength(L("tokens")) << "\n"; "debug.txt" << L("new_str") << "\n"; "debug.txt" << L("str") << "\n"; while (L("j") < arraylength(L("tokens"))) { L("this_str") = L("tokens")[L("j")]; if (L("this_str")) { L("this_str") = strclean(L("this_str")); L("this_str") = strtolower(L("this_str")); if ((strlength(L("this_str")) > 2) && (spellword(L("this_str")))) { L("return")[arraylength(L("return"))] = stem(L("this_str")); } } L("j")++; } return L("return"); } # GetUniqueWords # Args: # L("str"): Input string to get words from # # # Should take parsetree node as well # GetUniqueStrWords(L("str")) { # # Assumes non-tokenized string # L("str") # if (L("vocab")) { # for L("") # } # # } # Binary Search # Args # arr: sorted array in which to search BinarySearchPartition(L("arr"), L("low"), L("high"), L("val")) { "binary.txt" << "low: " << L("low") << " high: " << L("high") << "\n"; if (L("low") > L("high")) { return -1; } # if (L("low") == L("high")) { # if (L("arr")[L("low")] == L("val")) { # return L("low"); # } # return -1; # } L("mid") = (L("high") + L("low")) / 2; "binary.txt" << "mid: " << L("mid") << "\n"; if (L("arr")[L("mid")] == L("val")) { return L("mid"); } else if (L("val") < L("arr")[L("mid")]) { L("high") = L("mid") - 1; return BinarySearchPartition(L("arr"), L("low"), L("high"), L("val")); } else { L("low") = L("mid") + 1; return BinarySearchPartition(L("arr"), L("low"), L("high"), L("val")); } } # Binary Search # Args # arr: sorted array to search # val: value to search for # # Returns # integer: -1 if not in array, otherwise idx in array BinarySearch(L("arr"), L("val")) { L("len") = arraylength(L("arr")); L("low") = 0; if (L("len") == 1) { if (L("arr")[L("low")] == L("val")) { return 0; } else { return -1; } } return BinarySearchPartition(L("arr"), L("low"), L("len")-1, L("val")); } FilterDuplicates(L("arr"), L("sorted")) { L("len") = arraylength(L("arr")); if (L("len") <= 1) { return L("arr"); } L("i") = 0; if (!L("sorted")) { L("sorted_arr") = QuickSort(L("arr")); } else { L("sorted_arr") = L("arr"); } L("set_idx") = 0; L("set"); while (L("i") < L("len")) { L("curr_item") = L("sorted_arr")[L("i")]; L("i")++; while (L("sorted_arr")[L("i")] == L("curr_item")) { L("i")++; } if (!L("set_idx")){ L("set") = L("curr_item"); } else { L("set")[L("set_idx")] = L("curr_item"); } L("set_idx")++; } return L("set"); } @@DECL

@PATH _ROOT _LINE _item @POST excise(1,1); noop(); @RULES _xNIL <- _xWHITE [s] ### (1) @@

@CODE L("con") = findconcept(down(G("P_eui")), "E0018490"); L("attr") = findattr(L("con"), "codes"); L("vals") = attrvals(L("attr")); "nums.txt" << getnumval(L("vals")) << "\n"; @@CODE

@CODE L("hello") = 0; @@CODE @NODES _sent # np , vg to vg , vg # John , trying to work... , left the room... @CHECK if (N("pattern",2) != "n") fail(); if (!N("start to-vg",5)) fail(); @POST L("vg") = N("vg node",7); if (L("vg")) fixvg(L("vg"),"active","VBP"); @RULES _xNIL <- _xWILD [one match=(_xSTART _qEOS)] _clause \, [lookahead] _clause _clause \, _clause @@ # List of clauses! # Basis for parallel construction. # Verbs should agree in passive/active, etc. whenever possible. @CHECK if (!N("vg count",1)) # Verbless. fail(); @POST if (N("voice",1) == "active") { L("pos") = clausepos(N(1)); # Fill in ambiguous clauses with active voice. if (!N("voice",3) && N("no subj",3)) { fixvg(N("vg node",3),"active",L("pos")); N("voice",3) = "active"; } if (!N("voice",6) && N("no subj",6)) { fixvg(N("vg node",6),"active",L("pos")); N("voice",6) = "active"; } } noop(); @RULES _xNIL <- _clause \, _clause [lookahead] \, [opt] _conj _clause @@ # clause prep clause conj clause # Case where first and third clause agree. @CHECK if (N("voice",5)) fail(); if (N("voice",1) != "passive") fail(); if (vgvgagree(N("vg node",3),N("vg node",5))) fail(); @POST fixvg(N("vg node",5),"passive","VBN"); N("voice",5) = "passive"; @RULES _xNIL <- _clause _prep [lookahead] _clause _conj _clause @@ # clause fnword clause # clause than clause @CHECK if (N("last chunk",1) != "j") fail(); if (N("voice",3)) fail(); if (!N("vg node",3)) fail(); @POST fixvg(N("vg node",3),"passive","VBN"); N("voice",3) = "passive"; @RULES _xNIL <- _clause than [s lookahead] _clause @@ # clause fnword clause. @CHECK if (!N("vg count",1)) # Verbless. fail(); if (!N("voice",1) && !N("voice",3)) fail(); if (N("voice",1) && N("voice",3) && N("voice",1) != N("voice",3)) fail(); if (N("pattern",3) == "nv" || N("pattern",1) == "nv") fail(); # Still not sure... # Check verb tense agreement here... S("vg1") = N("vg node",1); S("vg3") = N("vg node",3); "clause-fn-clause.txt" << pnvar(S("vg1"),"$text") << "\n"; if (!vgvgagree(S("vg1"),S("vg3"))) fail(); "clause-fn-clause.txt" << pnvar(S("vg1"),"$text") << "\n"; @POST if (N("voice",1)) L("voice") = N("voice",1); else { L("voice") = N("voice",3); N("voice",1) = L("voice"); } if (!N("voice",3)) N("voice",3) = L("voice"); fixvg(S("vg3"),L("voice"),clausepos(N(1))); fixvg(S("vg1"),L("voice"),clausepos(N(3))); N("sent400 c-and-c",1) = 1; N("sent400 c-and-c",3) = 1; @RULES _xNIL <- _clause _xWILD [one lookahead match=(_conj \, _fnword )] _clause @@ # clause fnword clause. @CHECK if (N("sent400 c-fun-c",1)) fail(); if (N("voice",1)) fail(); if (!N("voice",3)) fail(); if (N("pattern",1) != "nv") fail(); if (!N("pattern",3)) fail(); S("vg1") = N("vg node",1); S("vg3") = N("vg node",3); @POST L("voice") = N("voice",3); N("voice",1) = L("voice"); if (strpiece(N("pattern",3),0,0) == "v") fixvg(S("vg1"),"active","VBD"); else fixvg(S("vg1"),L("voice"),clausepos(N(3))); N("sent400 c-fun-c",1) = 1; @RULES _xNIL <- _clause _xWILD [one lookahead match=(_conj \, _fnword )] _clause _xWILD [one match=(_qEOS _xEND)] @@ # clause , clause # verbless 2nd... # apposition... @CHECK if (!N("vg count",1)) # Verbless. fail(); if (N("voice",1) || N("vg count",3) > 0) fail(); @POST fixvg(N("vg node",1),"active","VBP"); N("voice",1) = "active"; @RULES _xNIL <- _clause \, [lookahead] _clause @@ # that clause # that #@POST # noop(); #@RULES #_xNIL <- # that [s] # _clause [lookahead] # @@ # clause , that # that @CHECK if (N("mypos",3) == "IN") fail(); @POST chpos(N(3),"IN"); # that/IN @RULES _xNIL <- _clause \, [lookahead] that [s] @@ # clause , clause , clause # Want first to be an np. Appositive case. @CHECK if (N("vg count",1)) fail(); # Require verbless. if (N("pattern",1) != "n") fail(); # Require np. @POST L("vg3") = N("vg node",3); if (L("vg3")) L("v3") = pnvar(L("vg3"),"first verb"); if (L("v3")) if (!pnvar(L("v3"),"mypos")) # Unresolved. { L("vc3") = vconj(L("v3")); if (L("vc3") == "-edn") { fixvg(L("vg3"),"passive","VBN"); # 01/25/05 AM. N("voice",3) = "passive"; } } L("vg") = N("vg node",5); fixvg(L("vg"),"active","VBP"); N("voice",5) = "active"; N("sent400 ccc",5) = 1; @RULES _xNIL <- _clause \, [lookahead] _clause \, _clause @@ # clause , clause , clause # Want 1st to end with vg, last to start with vg. @CHECK if (N("pattern",1) != "nv") fail(); if (!N("pattern",5)) fail(); if (strpiece(N("pattern",5),0,0) != "v") fail(); # Need start with a verb. if (N("voice",1)) fail(); if (!N("vg node",1)) fail(); @POST L("vg") = N("vg node",1); fixvg(L("vg"),"passive","VBN"); N("voice",1) = "passive"; N("id",1) = "sent400 c--c--c"; @RULES _xNIL <- _clause _xWILD [one lookahead match=( \, _dbldash)] _clause _xWILD [one match=( \, _dbldash)] _clause @@ # clause clause clause @CHECK if (N("pattern",2) != "n" && !N("ellipted-copula",2) ) fail(); if (N("voice",3)) fail(); if (N("voice",4) != "active") fail(); S("vg3") = N("vg node",3); S("v3") = pnvar(S("vg3"),"first verb"); S("vc3") = vconj(S("v3")); "blimp.txt" << S("vc3") << "\n"; if (S("vc3") != "-edn") fail(); @POST if (N("ellipted-copula",2)) { fixvg(S("vg3"),"active","VBD"); N("voice",3) = "active"; } else { fixvg(S("vg3"),"passive","VBN"); N("voice",3) = "passive"; } L("vg4") = N("vg node",4); if (L("vg4")) fixvg(L("vg4"),"active","VBP"); N("sent400 c-c-c",2) = 1; @RULES _xNIL <- _xSTART _clause _clause [lookahead] _clause # _xEND @@ # clause clause @CHECK # if (!N("start to-vg",2)) # fail(); if (N("voice",1) && N("voice",2)) fail(); if (!N("voice",1) && !N("voice",2)) fail(); if (!N("vg count",1) || !N("vg count",2)) fail(); @POST if (N("voice",1) && !N("voice",2)) { if ((N("pattern",1) == "nvn" || N("pattern",1) == "vn" || (N("pattern",1) == "v" && N("last name",1) == "_advl") ) && (N("pattern",2) == "v" || N("pattern",2) == "vn" || N("pattern",2) == "vp" # 05/16/07 AM. )) { fixvg(N("vg node",2),"passive","VBN"); N("voice",2) = "passive"; } else if (N("voice",1) == "active" && N("last name",1) == "_advl" && N("first name",2) == "_vg") { fixvg(N("vg node",2),"passive","VBN"); N("voice",2) = "passive"; } } else if (!N("voice",1) && N("voice",2)) { L("pat1") = N("pattern",1); L("pat2") = N("pattern",2); L("vg") = N("vg node",2); L("v") = pnvar(L("vg"),"first verb"); L("vc") = vconj(L("v")); if (L("pat1")) { if (N("to-vg",2) || L("vc") == "-ing") { # Tentative.... fixvg(N("vg node",1),"active","VBP"); N("voice",1) = "active"; } else if (L("pat1") == "nv") # 06/21/06 AM. { fixvg(N("vg node",1),"active","VBD"); N("voice",1) = "active"; } # else if (strendswith(L("pat1"),"v")) # else if (L("pat1") == "v") # 06/21/06 AM. { if (N("ellipted-copula",1)) { fixvg(N("vg node",1),"active","VBD"); N("voice",1) = "active"; } else { fixvg(N("vg node",1),"passive","VBN"); N("voice",1) = "passive"; } } } if (!N("voice",1) && L("pat2")) if (strpiece(L("pat2"),0,0) == "v") { fixvg(N("vg node",1),"active","VBD"); N("voice",1) = "active"; } } N("sent400 c-c",1) = 1; @RULES _xNIL <- _clause _clause [lookahead] @@ # Last clause nv. @CHECK if (N("voice",1)) fail(); @POST N("sent400 last-clause",1) = 1; if (N("pattern",1) == "nv") { fixvg(N("vg node",1),"active","VBD"); N("voice",1) = "active"; } else if (N("pattern",1) == "v") { fixvg(N("vg node",1),"passive","VBN"); N("voice",1) = "passive"; } @RULES _xNIL <- _clause _xEND @@ # clause conj clause # "one eating prunes, the other stuffed silly." @PRE <1,1> var("ellipted-that-is"); <3,3> vareq("pattern","nv"); <3,3> varz("voice"); @POST L("vg") = N("vg node",3); fixvg(L("vg"),"passive","VBN"); N("voice",3) = "passive"; @RULES _xNIL <- _clause _conj _clause @@ # ^ clause , clause $ @PRE <2,2> vareq("voice","active"); <4,4> varz("voice"); <4,4> vareq("pattern","v"); @POST L("vg") = N("vg node",2); if (L("vg")) L("v") = pnvar(L("vg"),"verb node"); if (L("v")) L("pos") = pnvar(L("v"),"mypos"); L("vg4") = N("vg node",4); if (N("last name",2) == "_advl" || N("last name",4) == "_advl") { fixvg(L("vg4"),"passive","VBN"); N("voice",4) = "passive"; } else { fixvg(L("vg4"),"active",L("pos")); N("voice",4) = "active"; } @RULES _xNIL <- _xSTART _clause \, _clause _xEND @@ # clause conj clause @PRE <1,1> vareq("voice","active"); <3,3> varz("voice"); <3,3> vareq("pattern","v"); @POST L("vg") = N("vg node",1); if (L("vg")) L("v") = pnvar(L("vg"),"verb node"); if (L("v")) L("pos") = pnvar(L("v"),"mypos"); L("vg3") = N("vg node",3); fixvg(L("vg3"),"active",L("pos")); N("voice",3) = "active"; @RULES _xNIL <- _clause _xWILD [plus lookahead match=(_conj \, )] _clause @@ # fnword clause , clause # ex: when blah , say blah. @CHECK S("vg4") = N("vg node",4); if (!S("vg4")) fail(); if (vgassigned(S("vg4"))) fail(); if (!vconjq(S("vg4"),"inf")) fail(); if (!N("pattern",4)) fail(); L("ch") = strpiece(N("pattern",4),0,0); if (L("ch") != "v") fail(); @POST fixvg(S("vg4"),"active","VB"); # Imperative. @RULES _xNIL <- _whword [s] _clause \, [opt] _clause @@

# Rename con's numth child concept to name. renamechild(L("con"), L("num"), L("name"));

@CODE # LINK TO ALL THE SPECIAL VARIABLES: http://visualtext.org/help/NLP_PP_Stuff/Special_Variables.htm "output.txt" << "$text: " << pnvar(pnroot(),"$text") << "\n"; "output.txt" << "$treetext: " << pnvar(pnroot(),"$treetext") << "\n"; "output.txt" << "\n"; "output.txt" << "$apppath: " << G("$apppath") << "\n"; "output.txt" << "$input: " << G("$input") << "\n"; "output.txt" << "$inputpath: " << G("$inputpath") << "\n"; "output.txt" << "$inputname: " << G("$inputname") << "\n"; "output.txt" << "$inputhead: " << G("$inputhead") << "\n"; "output.txt" << "$inputtail: " << G("$inputtail") << "\n"; @@CODE

@NODES _ROOT @POST excise(1,1); noop(); @RULES _xNIL <- _xWHITE [s] ### (1) @@

@NODES _LINE @POST if (X("num")) { L("code1") = ItemValue(N("$text",2)); L("code2") = ItemValue(N("$text",3)); if (L("code1")) { X("code1") = L("code1"); } if (L("code2")) { X("code2") = L("code2"); } X("indent") = N("indent",4); } @RULES _xNIL <- _xSTART ### (1) _item ### (2) _item ### (3) _item ### (4) @@

@NODES _paragraph @POST singler(2,2); @RULES _endSent <- _xWILD [s one match=(_xALPHA _xNUM _phrase)] ### (1) _xWILD [one trig match=(\. \? \!)] ### (2) _xWILD [one match=(_xWHITE _xALPHA _xNUM _xEND _xCTRL _quote)] ### (3) @@

@PATH _ROOT _LINE _description @POST excise(1,1); noop(); @RULES _xNIL <- _xWHITE [s] ### (1) @@

@CODE L("hello") = 0; @@CODE @NODES _TEXTZONE @POST if (N("pos num") == 1) # UNAMBIGUOUS PART OF SPEECH. { if (N("pos")) { G("node") = N(1); group(1,1,N("pos")); pncopyvars(G("node"),N(1)); # 12/14/01 AM. if (!N("sem")) # 01/01/02 AM. { if (N("text")) S("tmp") = N("text"); else S("tmp") = strtolower(N("$text")); S("stem") = nvstem(S("tmp")); if (S("stem")) N("sem") = S("stem"); else N("sem") = S("tmp"); } } } # STARTING TO USE CONFIDENCE, FREQUENCY. # else if (N("verb") >= 90) { S("tmp") = N(1); group(1,1,"_verb"); pncopyvars(S("tmp"),N(1)); } else if (N("adv") >= 90) { S("tmp") = N(1); group(1,1,"_adv"); pncopyvars(S("tmp"),N(1)); } @RULES _xNIL <- _xALPHA # Uncharacterized, unreduced. @@

@NODES _ROOT @POST single() ; @@POST @RULES _XMLDecl <- _StartXML ### (1) _xWILD [min=0 max=0 fail=("_EndProcessingInstruction")] _EndProcessingInstruction ### (3) @@ _doctypedecl [unsealed] <- _StartDocType _whiteSpace [opt] _xWILD [min=0 max=0 fail=("_EndTag" "[")] _EndTag @@ _doctypedecl <- _StartDocType _whiteSpace [opt] _xWILD [min=0 max=0 fail=("_EndDocType" "[")] _whiteSpace [opt] \[ _whiteSpace [opt] _xWILD [min=0 max=0 fail=("_EndDocType")] _EndDocType @@ _ProcessingInstruction <- _StartProcessingInstruction _xWILD [min=0 max=0 fail=("_EndProcessingInstruction")] _EndProcessingInstruction @@ _CDataSection <- _CDStart _xWILD [min=0 max=0 fail=("_CDEnd")] _CDEnd @@ @@RULES

@CODE TakeKB("ICD"); #G("root") = findconcept(findroot(), "ICD"); #rmchildren(G("root")) #G("icd_p") = findconcept(G("root"),"icd_p"); #if (!G("icd_p")) G("icd_p") = makeconcept(G("root"),"icd_p"); #G("icd_d") = findconcept(G("root"),"icd_d"); #if (!G("icd_d")) G("icd_d") = makeconcept(G("root"),"icd_d"); G("root") = findconcept(findroot(), "ICD"); G("p_words") = findconcept(G("root"),"icd_p"); if (!G("p_words")) G("p_words") = makeconcept(G("root"),"icd_p"); #G("icd_d") = findconcept(G("root"),"icd_d"); #if (!G("icd_d")) G("icd_d") = makeconcept(G("root"),"icd_d"); @@CODE

@NODES _LINE @POST L("word") = N("$text"); L("len") = strlength(L("word")); while (L("i") < L("len")) { L("let") = strpiece(L("word"),L("i"),L("i")); L("x") = "x"; if (striscaps(L("let"))) L("x") = "X"; L("str") = L("str") + L("x"); L("i")++; } pnrename(N(1),L("str")); @RULES _xNIL <- _xALPHA @@

@NODES _section @PRE <1,7> length(1); # <3,3> length(1); # <5,5> length(1); # <7,7> length(1); @RULES _abbr <- _xALPHA ### (1) \. ### (2) _xALPHA ### (3) \. ### (4) _xALPHA [opt] ### (5) \. [opt] ### (6) _xALPHA [opt] ### (7) \. [opt] ### (8) @@

@CODE L("match") = down(G("matches")); while (L("match")) { L("code") = findconcept(G("codes"),conceptname(L("match"))); if (L("code")) { L("match count") = ChildCount(L("match")); L("code count") = ChildCount(L("code")); L("percent") = 100*L("match count")/L("code count"); "percent.txt" << conceptname(L("match")) << " " << str(L("percent")) << "\n"; L("con") = getconcept(G("order"),str(L("percent"))); L("code con") = getconcept(L("con"),conceptname(L("code"))); L("child") = down(L("match")); while (L("child")) { makeconcept(L("code con"),conceptname(L("child"))); L("child") = next(L("child")); } } L("match") = next(L("match")); } L("percent") = 100; L("count") = 1; while (L("percent") > 0) { L("con") = findconcept(G("order"),str(L("percent"))); if (L("con")) { L("codes") = down(L("con")); while (L("codes")) { L("code") = conceptname(L("codes")); if (L("count")) "matches.txt" << "\n"; L("count")++; "matches.txt" << "Match (" << str(L("percent")) << "): " << L("code"); L("child") = down(L("codes")); while (L("child")) { "matches.txt" << " " << conceptname(L("child")); L("child") = next(L("child")); } "matches.txt" << "\n"; L("code con") = findconcept(G("codes"),L("code")); DisplayCode(L("code con")); L("codes") = next(L("codes")); } } L("percent")--; } DisplayKB(G("order"),0); DisplayKB(G("matches"),0); # DisplayKB(G("codes"),0); # DisplayKB(G("icd11"),2); @@CODE

@CODE G("iso") = getconcept(findroot(),"iso"); G("countries") = getconcept(findroot(),"countries"); @@CODE

# Open a database @CODE dbopen("test","root","mypassword"); dballocstmt(); dbexecstmt("SELECT * FROM table;"); dbbindcol(1,"varchar",50,&G("employee name"),&G("result1")); while (dbfetch()) {    "output.txt" << "employee name: ";    if (G("result1"))       "output.txt" << G("employee name") << "\n";    else       "output.txt" << "NULL" << "\n"; } dbfreestmt(); dbclose(); @@CODE

@NODES _abstract @POST if (N("ref type") == "eq") { L("number") = getEquationNumber(N("ref")); "output.txt" << L("number"); } else { "output.txt" << " <xr id=\"" << N("full") << "\"/> "; } @RULES _xNIL <- _ref ### (1) @@ @POST L("body") = getRefereceBody(N("cite")); "output.txt" << " <ref>" << L("body") << "</ref> "; @RULES _xNIL <- _cite ### (1) @@

@DECL ######## # FUNC: DICTATTR # SUBJ: Add attribute for dictionary word. ######## dictattr(L("str"),L("attr"),L("val")) { if (!L("str") || !L("attr")) return; L("str") = strtolower(L("str")); L("con") = dictgetword(L("str")); replaceval(L("con"),L("attr"),L("val")); } ######## # FUNC: FINDDICTATTR # SUBJ: Add attribute for dictionary word. # RET: Numeric-valued attr. ######## #finddictattr(L("str"),L("attr")) #{ #if (!L("str") || !L("attr")) # return 0; #L("str") = strtolower(L("str")); #L("con") = dictgetword(L("str")); #return numval(L("con"),L("attr")); #} finddictattr(L("str"),L("attr")) { if (!L("str") || !L("attr")) return 0; L("str") = strtolower(L("str")); L("con") = dictgetword(L("str")); if (!L("con")) { "err.txt" << "finddictattr: " << L("str") << ", " << L("attr") << "\n"; return 0; } return numval(L("con"),L("attr")); } ######## # FUNC: FINDDICTSATTR # SUBJ: Add attribute for dictionary word. # RET: String-valued attr. ######## finddictsattr(L("str"),L("attr")) { if (!L("str") || !L("attr")) return; L("str") = strtolower(L("str")); L("con") = dictgetword(L("str")); return strval(L("con"),L("attr")); } @CODE if (numval(findroot(),"kb loaded")) exitpass(); ######################################## # Verbs that require a human-like agent. ######################################## # eg, "Moose said" -- Moose would be an NP. dictattr("announce","agent-human",1); dictattr("say","agent-human",1); ######################################## # Verbs that take scalar change. ######################################## # Note: Take a numeric value after the verb. # eg, "rise 10%". # These verbs appear to allow intransitive use. dictattr("accelerate","vscalenum",1); dictattr("climb","vscalenum",1); dictattr("decrease","vscalenum",1); dictattr("fall","vscalenum",1); dictattr("gain","vscalenum",1); dictattr("grow","vscalenum",1); dictattr("increase","vscalenum",1); dictattr("lengthen","vscalenum",1); dictattr("lose","vscalenum",1); dictattr("rise","vscalenum",1); dictattr("shrink","vscalenum",1); ######################################## # SEMANTIC VERB FEATURES ######################################## # Ex: The verb sense of 'curb' means diminish in some way. # vscalar - scalar in verb sense. # nscalar - scalar in noun sense. # (These may need further work for ambiguous nouns etc.) # Note: Sometimes verb and noun will have the scalar sense, # so doesn't always resolve part-of-speech. # Appear to be mainly transitive verbs here. # vscalar = 0, minus, plus, neutral. dictattr("accelerate","vscalar","plus"); dictattr("bolster","vscalar","plus"); dictattr("boost","vscalar","plus"); dictattr("brake","vscalar","minus"); dictattr("curb","vscalar","minus"); dictattr("decelerate","vscalar","minus"); dictattr("decrease","vscalar","minus"); dictattr("decrement","vscalenum",1); dictattr("deflate","vscalar","minus"); dictattr("diminish","vscalar","minus"); dictattr("enhance","vscalar","plus"); dictattr("increase","vscalar","plus"); dictattr("increment","vscalenum",1); dictattr("inflate","vscalar","plus"); dictattr("lessen","vscalar","minus"); dictattr("lower","vscalar","minus"); dictattr("maintain","vscalar","neutral"); dictattr("raise","vscalar","plus"); dictattr("reduce","vscalar","minus"); dictattr("slow","vscalar","minus"); dictattr("speed","vscalar","plus"); ######################################## # Plain adjectives with comparative, superlative endings. ######################################## # not-er, not-est, plain-adj. # Note: number is ambiguous. More numb, and the numeric meaning. dictattr("bitter","adj-plain",1); dictattr("center","adj-plain",1); dictattr("charter","adj-plain",1); dictattr("clever","adj-plain",1); dictattr("counter","adj-plain",1); dictattr("eager","adj-plain",1); dictattr("former","adj-plain",1); dictattr("foster","adj-plain",1); dictattr("improper","adj-plain",1); dictattr("inner","adj-plain",1); dictattr("lackluster","adj-plain",1); dictattr("later","adj-plain",1); # Conform Treebank. dictattr("latter","adj-plain",1); dictattr("meager","adj-plain",1); dictattr("other","adj-plain",1); dictattr("power","adj-plain",1); dictattr("proper","adj-plain",1); dictattr("quarter","adj-plain",1); dictattr("silver","adj-plain",1); dictattr("sinister","adj-plain",1); dictattr("sister","adj-plain",1); dictattr("tender","adj-plain",1); dictattr("test","adj-plain",1); dictattr("together","adj-plain",1); # 04/23/07 AM. dictattr("undercover","adj-plain",1); dictattr("upper","adj-plain",1); dictattr("utter","adj-plain",1); dictattr("west","adj-plain",1); dictattr("winter","adj-plain",1); ######################################## # Plain adverbs with comparative, superlative endings. ######################################## dictattr("asunder","adv-plain",1); dictattr("counter","adv-plain",1); dictattr("forever","adv-plain",1); dictattr("hither","adv-plain",1); dictattr("however","adv-plain",1); # Note: Treebank tagguide says RB unless explicitly # something like "X is later than Y", in which case it's # RBR. Treebank answer key does not conform to this enough, # so using RB for simplicity here. More semantic, clause, # and sentential processing needed to assign RBR appropriately # according to this scheme. # dictattr("later","adv-plain",1); # Conform Treebank. # 04/19/07 AM. dictattr("moreover","adv-plain",1); dictattr("never","adv-plain",1); dictattr("rather","adv-plain",1); dictattr("together","adv-plain",1); dictattr("thereafter","adv-plain",1); ######################################## # Exceptions. # Adverbs, adjectives with comparative, superlative endings. ######################################## dictattr("later","-er",1); # Note the fact. dictattr("best","-est",1); dictattr("least","-est",1); dictattr("most","-est",1); dictattr("worst","-est",1); dictattr("less","-er",1); dictattr("more","-er",1); dictattr("worse","-er",1); ######################################## # THAT-SUBJUNCTIVE ######################################## # Note: Some nouns and verbs yield a "that + subjunctive" # pattern. # He demands that John eat his dinner. # (As opposed to 'He thinks that John eats his dinner.') # 'eventive' nouns also: # His demand that John eat his dinner ... # Also multi-word: see to it that ... dictattr("ask","that-subjunctive",1); dictattr("assure","that-subjunctive",1); dictattr("beg","that-subjunctive",1); dictattr("command","that-subjunctive",1); dictattr("decide","that-subjunctive",1); dictattr("decree","that-subjunctive",1); dictattr("demand","that-subjunctive",1); dictattr("ensure","that-subjunctive",1); dictattr("insist","that-subjunctive",1); dictattr("order","that-subjunctive",1); dictattr("request","that-subjunctive",1); dictattr("see","that-subjunctive",1); dictattr("vote","that-subjunctive",1); dictattr("assurance","that-subjunctive",1); dictattr("decision","that-subjunctive",1); dictattr("insistence","that-subjunctive",1); ######################################## # VERB + OF ######################################## dictattr("think","verb-of",1); dictattr("tire","verb-of",1); dictattr("require","verb-of",1); # Also, require NP of ... ######################################## # COPULAS ######################################## dictattr("appear","copula",1); dictattr("be","copula",1); dictattr("being","copula",1); dictattr("become","copula",1); dictattr("close","copula",1); # market closed higher. dictattr("feel","copula",1); dictattr("get","copula",1); # 5/31/06 AM. dictattr("go","copula",1); dictattr("grow","copula",1); dictattr("lie","copula",1); dictattr("look","copula",1); dictattr("make","copula",1); dictattr("mean","copula",1); # that means cloudy... dictattr("open","copula",1); # market opened higher. dictattr("prove","copula",1); dictattr("remain","copula",1); dictattr("sound","copula",1); dictattr("stay","copula",1); dictattr("turn","copula",1); ######################################## # TRANSITIVE VERBS ######################################## dictattr("purpose","trans",1); dictattr("purposes","trans",1); dictattr("purposing","trans",1); dictattr("purposed","trans",1); dictattr("ambition","trans",1); dictattr("ambitions","trans",1); dictattr("ambitioning","trans",1); dictattr("ambitioned","trans",1); dictattr("issue","trans",1); dictattr("issues","trans",1); dictattr("issuing","trans",1); dictattr("issued","trans",1); dictattr("link","trans",1); dictattr("links","trans",1); dictattr("linking","trans",1); dictattr("linked","trans",1); ######################################## # INTRANSITIVE VERBS ######################################## # Todo: distinguish semantically and syntactically intransitive. # (eg, "I think" implies that one is thinking about something. # i.e., syntax=intr, sem=trans) dictattr("grow","intr",1); dictattr("sit","intr",1); dictattr("struggle","intr",1); dictattr("walk","intr",1); ######################################## # VNJ VERBS ######################################## # Ex: keep it real. # Ex: paint the house purple. # Corresponds to Longman X7. dictattr("hold","X7",1); dictattr("keep","X7",1); dictattr("leave","X7",1); dictattr("make","X7",1); dictattr("paint","X7",1); dictattr("serve","X7",1); ######################################## # VN(prep)J VERBS ######################################## # C1pr is another Longman designation. # Also similar to X7. # Ex: John viewed Mary as ditzy. # Ex: John considered Mary (as) ditzy. (optional 'as') # i - 'as' is optional. dictattr("appoint","C1pr",1); # 1 dictattr("certify","C1pr",1); dictattr("choose","C1pr",1); dictattr("consider","C1pr",1); dictattr("count","C1pr",1); dictattr("crown","C1pr",1); # 1 dictattr("deem","C1pr",1); dictattr("elect","C1pr",1); # 1 dictattr("esteem","C1pr",1); # 1 dictattr("make","C1pr",1); # 1 dictattr("proclaim","C1pr",1); dictattr("rate","C1pr",1); dictattr("reckon","C1pr",1); dictattr("report","C1pr",1); # ii - 'as' is obligatory. dictattr("accept","C1pr",1); dictattr("acknowledge","C1pr",1); dictattr("characterize","C1pr",1); dictattr("class","C1pr",1); dictattr("define","C1pr",1); dictattr("describe","C1pr",1); dictattr("intend","C1pr",1); # 1 dictattr("make","C1pr",1); dictattr("regard","C1pr",1); dictattr("see","C1pr",1); dictattr("take","C1pr",1); dictattr("treat","C1pr",1); dictattr("use","C1pr",1); dictattr("view","C1pr",1); # take for - also C1pr ######################################## # VNN VERBS ######################################## # Ex: give John an apple. # Like Longman D1. #dictattr("paint","vnn",1); ######################################## # HELPING VERBS ######################################## # The idea here was things like: # to help work # to (begin, get, commence, start) working # ... # Need a better description, at least two types. # T2 dictattr("dare","T2",1); dictattr("help","T2",1); # And I3 is what? # T3 = V + TO + V dictattr("agree","T3",1); dictattr("ask","T3",1); dictattr("attempt","T3",1); dictattr("claim","T3",1); dictattr("decide","T3",1); dictattr("deserve","T3",1); dictattr("desire","T3",1); dictattr("expect","T3",1); dictattr("fail","T3",1); # dictattr("go","T3",1); dictattr("have","T3",1); dictattr("hope","T3",1); dictattr("manage","T3",1); # dictattr("need","T3",1); dictattr("promise","T3",1); dictattr("strive","T3",1); dictattr("struggle","T3",1); dictattr("try","T3",1); dictattr("use","T3",1); # passive: used to v-inf dictattr("wait","T3",1); dictattr("want","T3",1); dictattr("work","T3",1); # T4 = verb + ving (start eating) # Also: cannot stand ving. # Also: keep (on) ving. dictattr("acknowledge","T4",1); dictattr("avoid","T4",1); dictattr("consider","T4",1); dictattr("deny","T4",1); dictattr("detest","T4",1); dictattr("dislike","T4",1); dictattr("evaluate","T4",1); # dictattr("fancy","T4",1); dictattr("finish","T4",1); dictattr("keep","T4",1); dictattr("postpone","T4",1); dictattr("resent","T4",1); dictattr("resist","T4",1); dictattr("risk","T4",1); dictattr("suggest","T4",1); dictattr("begin","T4",1); dictattr("chance","T4",1); # ? dictattr("commence","T4",1); dictattr("continue","T4",1); dictattr("eschew","T4",1); # dictattr("get","T4",1); dictattr("resist","T4",1); # dictattr("start","T4",1); # dictattr("stop","T4",1); dictattr("try","T4",1); ######################################## # VNV VERBS ######################################## # Longman V2. # Ex: make them go. dictattr("bid","V2",1); # archaic? dictattr("have","V2",1); dictattr("help","V2",1); dictattr("let","V2",1); dictattr("make","V2",1); dictattr("see","V2",1); dictattr("watch","V2",1); ######################################## # V+N+TO+V VERBS ######################################## # Longman V3. # Ex: help them to go. dictattr("allow","V3",1); dictattr("ask","V3",1); dictattr("coax","V3",1); dictattr("command","V3",1); dictattr("convince","V3",1); dictattr("force","V3",1); dictattr("help","V3",1); dictattr("intend","V3",1); dictattr("like","V2",1); # a little different... dictattr("order","V3",1); dictattr("permit","V3",1); dictattr("prefer","V3",1); # dictattr("pressure","V3",1); dictattr("require","V3",1); dictattr("teach","V3",1); dictattr("tell","V3",1); dictattr("urge","V3",1); ######################################## # V+N+V-ing VERBS ######################################## # Longman V4. dictattr("catch","V4",1); dictattr("discover","V4",1); dictattr("keep","V4",1); dictattr("feel","V4",1); dictattr("find","V4",1); dictattr("get","V4",1); # get him going. dictattr("hate","V4",1); dictattr("have","V4",1); # 05/22/07 AM. dictattr("hear","V4",1); dictattr("like","V4",1); dictattr("notice","V4",1); dictattr("observe","V4",1); dictattr("see","V4",1); dictattr("send","V4",1); # send him packing/running... dictattr("sense","V4",1); dictattr("smell","V4",1); dictattr("start","V4",1); dictattr("want","V4",1); ######################################## # V+N+V-en VERBS ######################################## # Longman V8. dictattr("get","V8",1); dictattr("have","V8",1); dictattr("need","V8",1); dictattr("want","V8",1); ######################################## # V+THAT VERBS ######################################## # Longman T5 and D5 verbs, with subcategories. # Also: # It seemed/appeared/transpired/happened that ... # Correspondence with Schank MBUILD, MTRANS. # T5a list. dictattr("accept","T5",1); dictattr("admit","T5",1); dictattr("agree","T5",1); dictattr("believe","T5",1); dictattr("claim","T5",1); dictattr("conclude","T5",1); dictattr("discover","T5",1); dictattr("doubt","T5",1); dictattr("feel","T5",1); dictattr("figure","T5",1); dictattr("forget","T5",1); dictattr("hope","T5",1); dictattr("indicate","T5",1); dictattr("remark","T5",1); dictattr("understand","T5",1); # T5c list. dictattr("ask","T5",1); dictattr("command","T5",1); dictattr("demand","T5",1); dictattr("insist","T5",1); dictattr("order","T5",1); dictattr("propose","T5",1); dictattr("recommend","T5",1); dictattr("request","T5",1); dictattr("require","T5",1); dictattr("suggest","T5",1); dictattr("urge","T5",1); # Others. dictattr("add","T5",1); dictattr("announce","T5",1); dictattr("assert","T5",1); dictattr("assure","T5",1); dictattr("complain","T5",1); dictattr("concede","T5",1); dictattr("concur","T5",1); dictattr("demonstrate","T5",1); dictattr("determine","T5",1); dictattr("emphasize","T5",1); dictattr("find","T5",1); dictattr("highlight","T5",1); dictattr("illustrate","T5",1); dictattr("imply","T5",1); dictattr("infer","T5",1); dictattr("mention","T5",1); dictattr("note","T5",1); dictattr("prove","T5",1); dictattr("reveal","T5",1); dictattr("say","T5",1); dictattr("show","T5",1); dictattr("stress","T5",1); dictattr("underscore","T5",1); dictattr("decide","T5",1); # dictattr("charge","T5",1); # ######################################## # V+O+O VERBS ######################################## # Longman D1 verbs. # John gave Mary a book. # D1 (to) dictattr("bring","D1",1); dictattr("call","D1",1); # dictattr("give","D1",1); # dictattr("grant","D1",1); dictattr("hand","D1",1); dictattr("make","D1",1); # dictattr("offer","D1",1); dictattr("owe","D1",1); dictattr("promise","D1",1); dictattr("read","D1",1); dictattr("refuse","D1",1); # Not exactly 'to'. dictattr("send","D1",1); dictattr("show","D1",1); dictattr("take","D1",1); dictattr("teach","D1",1); dictattr("write","D1",1); # D1 (for) dictattr("cook","D1",1); dictattr("find","D1",1); dictattr("get","D1",1); dictattr("leave","D1",1); dictattr("make","D1",1); dictattr("order","D1",1); dictattr("peel","D1",1); dictattr("save","D1",1); dictattr("spare","D1",1); # D1a dictattr("ask","D1",1); dictattr("strike","D1",1); ######################################## # AMBIG THAT STRONGLY PREFERS VERB ######################################## # Ie, need evidence for other POS. dictattr("making","prefer-verb",1); dictattr("wrong","prefer-adj",1); ######################################## # PREPOSITIONAL VERB IDIOMS ######################################## # "roll out" # 0 = no info. # 1 = PHRASAL, ie, verb+particle. # 2 = prepositional. # 3 = Both are valid. # Note that sometimes they are ambiguous...intrans vs trans... dictattr("act","out",1); dictattr("add","up",1); dictattr("auction","off",1); dictattr("back","down",1); dictattr("back","out",1); dictattr("back","up",1); dictattr("bail","out",1); dictattr("balance","out",1); dictattr("bang","up",1); dictattr("bark","out",1); # ? # Need a way to say 'base X on' only. # which he will base on... # based [X] on dictattr("base","on",1); # dictattr("bat","down",1); dictattr("bear","out",1); dictattr("beat","down",1); dictattr("beat","off",1); dictattr("beat","out",1); dictattr("beat","up",1); dictattr("bed","down",1); dictattr("beef","up",1); dictattr("bid","up",1); dictattr("bite","off",1); dictattr("black","out",1); dictattr("blow","off",1); dictattr("blow","out",1); dictattr("blow","up",1); dictattr("blurt","out",1); dictattr("bog","down",1); dictattr("boil","down",1); dictattr("boot","off",1); dictattr("bottle","up",1); dictattr("bottom","out",1); dictattr("bounce","up",1); # ? dictattr("box","out",1); dictattr("branch","out",1); dictattr("break","down",1); dictattr("break","off",1); # 2? dictattr("break","out",1); dictattr("break","up",1); dictattr("bring","down",1); dictattr("bring","out",1); dictattr("bring","up",1); dictattr("brush","off",1); dictattr("buck","up",1); dictattr("buckle","down",1); dictattr("buckle","up",1); dictattr("build","up",1); dictattr("bump","up",1); dictattr("burn","down",1); dictattr("burn","out",1); dictattr("bust","down",1); # ? dictattr("button","down",1); dictattr("button","up",1); dictattr("buy","off",1); dictattr("buy","out",1); dictattr("buy","up",1); dictattr("call","off",1); dictattr("call","out",1); dictattr("call","up",1); dictattr("calm","down",1); dictattr("camp","out",1); dictattr("cancel","out",1); # ? dictattr("cap","off",1); dictattr("carry","off",1); dictattr("carry","out",1); dictattr("cart","off",1); dictattr("cart","out",1); dictattr("carve","out",1); dictattr("carve","up",1); dictattr("cash","out",1); dictattr("cast","about",1); # ? dictattr("cast","out",1); dictattr("chain","up",1); dictattr("chalk","up",1); dictattr("check","out",1); dictattr("cheer","up",1); dictattr("chew","up",1); dictattr("choke","down",1); dictattr("choke","off",1); dictattr("choke","up",1); dictattr("chomp","up",1); dictattr("chop","down",1); dictattr("chop","off",1); dictattr("chew","off",1); dictattr("churn","out",1); dictattr("clamp","down",1); dictattr("clean","out",1); dictattr("clean","up",1); dictattr("clear","out",1); dictattr("clear","up",1); dictattr("climb","down",1); dictattr("climb","up",1); dictattr("clip","off",1); dictattr("clog","up",1); dictattr("close","down",1); dictattr("close","off",1); dictattr("close","out",1); dictattr("close","up",1); dictattr("combine","with",2); # dictattr("come","down",1); dictattr("come","off",1); dictattr("come","out",1); dictattr("conjure","up",1); dictattr("contract","out",1); # ? dictattr("cook","up",1); dictattr("cool","down",1); dictattr("cool","off",1); dictattr("cough","up",1); dictattr("count","out",1); dictattr("cover","up",1); dictattr("crack","down",1); dictattr("cram","down",1); # ? dictattr("crank","out",1); dictattr("crank","up",1); dictattr("crowd","out",1); dictattr("cry","out",1); dictattr("cut","down",1); dictattr("cut","off",1); dictattr("cut","out",1); dictattr("cut","up",1); dictattr("die","down",1); dictattr("die","off",1); dictattr("dig","up",1); dictattr("dish","out",1); dictattr("divide","up",1); dictattr("divvy","up",1); dictattr("dole","out",1); dictattr("drag","down",1); dictattr("drag","out",1); dictattr("drag","up",1); dictattr("drain","out",1); dictattr("draw","down",1); dictattr("draw","off",1); dictattr("draw","out",1); dictattr("draw","up",1); dictattr("dream","up",1); dictattr("dress","up",1); dictattr("drive","down",1); dictattr("drive","off",1); dictattr("drive","out",1); dictattr("drive","up",1); dictattr("drop","off",1); dictattr("drop","out",1); dictattr("drown","out",1); dictattr("drum","up",1); dictattr("dull","down",1); dictattr("dust","off",1); dictattr("eat","up",1); dictattr("edge","down",1); dictattr("edge","up",1); dictattr("edge","out",1); dictattr("eke","out",1); dictattr("even","up",1); dictattr("face","down",1); dictattr("fake","out",1); dictattr("fall","out",1); dictattr("fan","out",1); dictattr("farm","out",1); dictattr("fatten","up",1); dictattr("fend","off",1); dictattr("ferret","out",1); dictattr("fight","off",1); dictattr("fight","out",1); dictattr("figure","out",1); dictattr("fill","out",1); dictattr("fill","up",1); dictattr("filter","down",1); dictattr("find","out",1); dictattr("finish","off",1); dictattr("finish","up",1); dictattr("fire","off",1); dictattr("fire","up",1); dictattr("firm","up",1); dictattr("fish","out",1); # ? dictattr("fizzle","out",1); dictattr("flame","out",1); dictattr("flatten","out",1); dictattr("flesh","out",1); dictattr("fling","off",1); dictattr("flush","out",1); dictattr("fly","out",1); dictattr("fold","up",1); dictattr("follow","up",1); dictattr("force","out",1); dictattr("force","up",1); dictattr("fork","up",1); dictattr("foul","up",1); dictattr("freak","out",1); dictattr("free","up",1); dictattr("firghten","off",1); dictattr("gear","up",1); # to... dictattr("get","out",1); dictattr("get","up",1); dictattr("give","out",1); dictattr("give","up",1); dictattr("glue","down",1); dictattr("grow","out",1); dictattr("gobble","up",1); dictattr("grab","up",1); dictattr("grind","up",1); dictattr("gum","up",1); dictattr("gun","down",1); dictattr("gussy","up",1); dictattr("hack","off",1); dictattr("hammer","out",1); dictattr("hand","down",1); dictattr("hand","out",1); dictattr("hand","up",1); dictattr("hang","up",1); dictattr("haul","out",1); # 5/25/06 AM. dictattr("head","down",1); dictattr("head","off",1); dictattr("heat","up",1); dictattr("heave","off",1); # ? dictattr("help","out",1); dictattr("hike","up",1); dictattr("hit","off",1); # Idiomatic: hit it off... dictattr("hold","down",1); dictattr("hold","off",1); dictattr("hold","out",1); dictattr("hold","up",1); dictattr("hook","up",1); dictattr("hunker","down",1); dictattr("inch","down",1); # ? dictattr("inch","up",1); # ? dictattr("iron","out",1); dictattr("jack","up",1); dictattr("jam","up",1); dictattr("jerk","up",1); dictattr("join","up",1); dictattr("keep","out",1); dictattr("keep","up",1); dictattr("kick","off",1); dictattr("kick","out",1); dictattr("kick","up",1); dictattr("kill","off",1); dictattr("knock","down",1); dictattr("knock","off",1); dictattr("knock","out",1); dictattr("lash","out",1); dictattr("laugh","off",1); dictattr("lay","down",1); dictattr("lay","off",1); dictattr("lay","out",1); dictattr("lead","off",1); dictattr("leak","out",1); dictattr("lease","out",1); dictattr("leave","off",1); dictattr("leave","out",1); dictattr("leave","up",1); dictattr("lend","out",1); dictattr("let","down",1); dictattr("let","off",1); dictattr("level","off",1); dictattr("lie","down",1); dictattr("lift","off",1); dictattr("light","up",1); dictattr("lighten","up",1); dictattr("line","up",1); dictattr("link","up",1); dictattr("live","out",1); # ? dictattr("load","up",1); dictattr("loan","out",1); dictattr("lock","up",1); dictattr("look","up",1); dictattr("loosen","up",1); dictattr("lose","out",1); dictattr("lop","off",1); dictattr("luck","out",1); dictattr("mail","off",1); dictattr("mail","out",1); dictattr("make","out",1); dictattr("make","up",1); dictattr("map","out",1); dictattr("mark","down",1); dictattr("mark","up",1); dictattr("marry","off",1); dictattr("match","up",1); dictattr("mess","up",1); dictattr("mete","out",1); dictattr("miss","out",1); dictattr("mop","up",1); dictattr("move","down",1); dictattr("move","out",1); dictattr("move","up",1); dictattr("muck","up",1); dictattr("nail","down",1); dictattr("nudge","up",1); dictattr("offer","up",1); dictattr("open","up",1); dictattr("pace","off",1); dictattr("pack","up",1); dictattr("pair","up",1); dictattr("pan","out",1); dictattr("parcel","out",1); dictattr("pare","down",1); dictattr("pass","off",1); dictattr("pass","out",1); dictattr("pass","up",1); dictattr("paste","up",1); dictattr("patch","up",1); dictattr("pawn","off",1); dictattr("pay","down",1); dictattr("pay","off",1); dictattr("pay","out",1); dictattr("peel","off",1); dictattr("perk","up",1); dictattr("phase","out",1); dictattr("pick","up",1); dictattr("pile","up",1); dictattr("pin","down",1); dictattr("play","down",1); dictattr("play","out",1); dictattr("plot","out",1); # ? dictattr("pluck","up",1); dictattr("plunk","down",1); dictattr("point","out",1); dictattr("point","up",1); dictattr("pop","out",1); dictattr("pour","out",1); dictattr("prop","up",1); dictattr("pull","down",1); dictattr("pull","off",1); dictattr("pull","out",1); dictattr("pull","up",1); dictattr("pump","up",1); dictattr("push","down",1); dictattr("push","up",1); dictattr("put","down",1); dictattr("put","in",1); dictattr("put","off",1); dictattr("put","out",1); dictattr("put","up",1); dictattr("puzzle","out",1); dictattr("quiet","down",1); dictattr("rack","up",1); dictattr("raise","up",1); dictattr("ramp","up",1); dictattr("ratchet","up",1); dictattr("rattle","off",1); dictattr("reach","down",1); dictattr("reach","out",1); dictattr("reel","off",1); dictattr("ride","out",1); dictattr("ride","up",1); dictattr("rig","up",1); dictattr("ring","out",1); dictattr("ring","up",1); dictattr("rip","down",1); dictattr("rip","off",1); dictattr("rip","out",1); dictattr("rip","up",1); dictattr("roll","down",1); dictattr("roll","off",1); dictattr("roll","out",1); dictattr("roll","up",1); dictattr("root","out",1); dictattr("rough","up",1); dictattr("rope","off",1); dictattr("round","out",1); dictattr("round","up",1); dictattr("rule","out",1); dictattr("run","down",1); # also 2? dictattr("run","out",1); dictattr("run","up",1); dictattr("save","up",1); dictattr("scale","down",1); dictattr("scare","off",1); dictattr("scare","up",1); dictattr("scarf","up",1); dictattr("scoop","up",1); dictattr("scratch","out",1); dictattr("screen","out",1); dictattr("screw","up",1); dictattr("scrounge","up",1); dictattr("seal","off",1); dictattr("search","out",1); dictattr("seek","out",1); dictattr("sell","off",1); dictattr("sell","out",1); dictattr("send","down",1); dictattr("send","off",1); dictattr("send","out",1); dictattr("serve","up",1); dictattr("set","down",1); dictattr("set","out",1); dictattr("set","up",1); dictattr("sew","up",1); dictattr("settle","down",1); dictattr("shake","down",1); dictattr("shake","off",1); dictattr("shake","out",1); dictattr("shake","up",1); dictattr("shape","up",1); dictattr("share","out",1); dictattr("shear","off",1); dictattr("shell","out",1); dictattr("ship","out",1); dictattr("shoot","down",1); dictattr("shoot","up",1); dictattr("shore","up",1); dictattr("shout","down",1); dictattr("show","off",1); dictattr("shrug","off",1); dictattr("shut","down",1); dictattr("shut","off",1); dictattr("shut","out",1); dictattr("shut","up",1); dictattr("sign","up",1); dictattr("single","out",1); dictattr("siphon","off",1); dictattr("sit","down",1); dictattr("sit","out",1); dictattr("size","up",1); dictattr("sketch","out",1); dictattr("skim","off",1); dictattr("slice","off",1); dictattr("slice","up",1); dictattr("slide","down",1); dictattr("slim","down",1); dictattr("slip","down",1); dictattr("slough","off",1); dictattr("slow","down",1); dictattr("smooth","out",1); dictattr("snap","up",1); dictattr("snatch","up",1); dictattr("sniff","out",1); dictattr("snuff","out",1); dictattr("soak","off",1); # ? dictattr("soak","up",1); dictattr("sober","up",1); dictattr("sop","up",1); dictattr("sort","out",1); dictattr("speak","out",1); dictattr("speed","up",1); dictattr("spend","down",1); dictattr("spell","out",1); dictattr("spice","up",1); dictattr("spiff","up",1); dictattr("spill","out",1); dictattr("spin","off",1); dictattr("spin","out",1); dictattr("spit","out",1); dictattr("split","off",1); dictattr("split","up",1); dictattr("spread","out",1); dictattr("spruce","up",1); dictattr("squeeze","out",1); dictattr("stack","up",1); dictattr("stake","out",1); dictattr("stall","out",1); dictattr("stand","out",1); dictattr("stand","up",1); dictattr("stare","down",1); dictattr("start","out",1); dictattr("start","up",1); dictattr("stave","off",1); dictattr("step","down",1); dictattr("step","up",1); dictattr("stick","up",1); dictattr("stir","up",1); dictattr("stock","up",1); dictattr("straighten","out",1); dictattr("straighten","up",1); dictattr("stretch","out",1); dictattr("strike","down",1); dictattr("strike","out",1); dictattr("strike","up",1); dictattr("strip","down",1); dictattr("strip","off",1); dictattr("strip","out",1); dictattr("sum","up",1); dictattr("swab","down",1); dictattr("swallow","up",1); dictattr("sweat","out",1); dictattr("sweep","up",1); dictattr("swoop","down",1); dictattr("tack","down",1); dictattr("take","on",1); dictattr("take","out",1); dictattr("take","over",1); dictattr("take","up",1); dictattr("talk","down",1); dictattr("talk","up",1); dictattr("tamp","down",1); dictattr("tangle","up",1); dictattr("tear","down",1); dictattr("tear","off",1); dictattr("tear","up",1); dictattr("tee","up",1); dictattr("thin","out",1); dictattr("think","up",1); dictattr("thrash","out",1); dictattr("throw","off",1); dictattr("throw","out",1); dictattr("throw","up",1); dictattr("tick","off",1); dictattr("tie","down",1); dictattr("tie","up",1); dictattr("tighten","up",1); dictattr("tip","off",1); dictattr("tone","down",1); dictattr("top","off",1); dictattr("top","out",1); dictattr("toss","down",1); dictattr("toss","out",1); dictattr("total","up",1); dictattr("tote","up",1); dictattr("touch","off",1); dictattr("track","down",1); dictattr("trade","off",1); dictattr("trade","up",1); dictattr("trickle","down",1); dictattr("trickle","out",1); dictattr("trip","up",1); dictattr("try","out",1); dictattr("tumble","down",1); dictattr("turn","down",1); dictattr("turn","off",1); dictattr("turn","out",1); dictattr("turn","up",1); dictattr("use","up",1); dictattr("vote","down",1); dictattr("wake","up",1); dictattr("walk","off",1); # walk the jitters off. dictattr("walk","out",1); dictattr("wall","off",1); dictattr("ward","off",1); dictattr("warm","up",1); dictattr("wash","down",1); dictattr("watch","out",1); dictattr("water","down",1); dictattr("wave","off",1); dictattr("wear","down",1); dictattr("wear","off",1); dictattr("wear","out",1); dictattr("weed","out",1); dictattr("weigh","down",1); dictattr("whack","off",1); dictattr("wheel","up",1); dictattr("whip","up",1); dictattr("whittle","down",1); dictattr("win","out",1); dictattr("wind","down",1); dictattr("wind","up",1); dictattr("wipe","out",1); dictattr("work","down",1); dictattr("work","off",1); dictattr("work","out",1); dictattr("work","up",1); dictattr("wrap","up",1); dictattr("write","down",1); # ? dictattr("write","off",1); dictattr("yank","down",1); dictattr("yank","off",1); dictattr("yank","out",1); dictattr("yield","up",1); dictattr("zero","out",1); #### PREPOSITIONAL #### # NOTE: Need to distinguish # 1. transitive "bring about X" # 2. intransitive "X eased off." dictattr("account","for",2); dictattr("act","up",2); dictattr("ante","up",2); dictattr("apply","for",2); dictattr("balk","at",2); # #dictattr("bark","up",2); # ? dictattr("back","off",2); # also 1? dictattr("bleed","off",2); # ? 1 ? dictattr("bone","up",2); dictattr("bind","up",2); dictattr("bring","about",2); # ? dictattr("brush","up",2); dictattr("bubble","up",2); dictattr("buzz","off",2); dictattr("call","for",2); # 06/14/06 AM. dictattr("catch","up",2); dictattr("charge","off",2); # ? dictattr("check","up",2); # on... dictattr("clam","up",2); dictattr("climb","up",2); dictattr("come","off",2); dictattr("come","up",2); dictattr("complain","to",2); # dictattr("consist","of",2); dictattr("cozy","up",2); dictattr("creep","up",2); dictattr("crop","up",2); dictattr("die","off",2); dictattr("dive","off",2); # ? dictattr("doze","off",2); dictattr("dry","up",2); dictattr("ease","off",2); dictattr("ease","up",2); dictattr("edge","up",2); dictattr("end","up",2); dictattr("face","up",2); dictattr("fall","off",2); dictattr("feed","up",2); # Only "fed up"... dictattr("flare","up",2); dictattr("fly","off",2); # ? dictattr("fret","about",2); dictattr("gang","up",2); dictattr("gaze","up",2); dictattr("give","off",2); dictattr("go","to",2); # dictattr("go","up",2); dictattr("head","up",2); dictattr("hole","up",2); dictattr("hop","up",2); dictattr("inch","up",2); dictattr("jet","off",2); # 04/21/07 AM. dictattr("jump","up",2); dictattr("lead","to",2); # dictattr("lead","up",2); dictattr("let","up",2); dictattr("link","to",2); dictattr("live","off",2); # ? dictattr("live","up",2); dictattr("look","at",2); dictattr("look","out",2); dictattr("measure","up",2); dictattr("own","up",2); # to... dictattr("pay","up",2); dictattr("point","to",2); # dictattr("point","toward",2); dictattr("play","up",2); dictattr("pony","up",2); # /in ? dictattr("pop","up",2); #dictattr("range","up",2); dictattr("reach","up",2); dictattr("read","up",2); dictattr("rear","up",2); dictattr("relate","to",2); # dictattr("rise","up",2); dictattr("rocket","up",2); dictattr("seize","up",2); # ? dictattr("silt","up",2); # ?? dictattr("sit","up",2); dictattr("skid","off",2); # ? dictattr("skip","off",2); dictattr("slack","off",2); dictattr("slip","up",2); dictattr("sneak","up",2); dictattr("speak","up",2); dictattr("specialize","in",2); # dictattr("spring","up",2); dictattr("sprout","up",2); dictattr("square","off",2); # also 1? dictattr("stay","up",2); dictattr("stop","off",2); # ? # 1? #dictattr("stride","up",2); # to... dictattr("suit","up",2); dictattr("swear","off",2); dictattr("tail","off",2); # ? dictattr("talk","about",2); dictattr("taper","off",2); dictattr("team","up",2); dictattr("tee","off",2); # 1? dictattr("think","about",2); dictattr("tick","up",2); dictattr("trend","up",2); dictattr("walk","up",2); dictattr("wander","off",2); dictattr("wear","off",2); # also 1? dictattr("well","up",2); dictattr("whisk","off",2); # ? dictattr("zoom","up",2); ######### PREPOSITIONAL AND/OR PHRASAL #### # Both are valid. dictattr("curl","up",3); dictattr("dash","off",3); # dash a letter off dictattr("hang","out",3); dictattr("run","off",3); dictattr("set","off",3); dictattr("take","off",3); dictattr("show","up",3); dictattr("sign","off",3); # sign property off... dictattr("start","off",3); # ? # start off happy... #dictattr("bounce","off",x); # ? # dictattr("get","off",x); # get something off -- X7,X9 verb... #dictattr("veer","off",x); ######################################## # CORE PART-OF-SPEECH ######################################## # For example, "possible" is listed as noun and adj. # But at its core, it is an adjective that can be used # in noun contexts. dictattr("personal","core","adj"); dictattr("possible","core","adj"); ######################################## # JJ PREFERRED OVER VBN ######################################## # Words that prefer an adjective interpretation # with copula or ellipted copula contexts. # Semantic overtones here, eg, human-emotion-verbs. # Also states of people and things. # THESE WERE DONE FROM CORPUS. dictattr("abandon","jj-pref",1); dictattr("abash","jj-pref",1); dictattr("abort","jj-pref",1); dictattr("abuse","jj-pref",1); dictattr("accelerate","jj-pref",1); dictattr("accept","jj-pref",1); dictattr("acclaim","jj-pref",1); dictattr("accomplish","jj-pref",1); dictattr("accrue","jj-pref",1); dictattr("accumulate","jj-pref",1); dictattr("accuse","jj-pref",1); dictattr("accustom","jj-pref",1); dictattr("acknowledge","jj-pref",1); dictattr("acquire","jj-pref",1); dictattr("activate","jj-pref",1); dictattr("add","jj-pref",1); dictattr("addict","jj-pref",1); dictattr("addle","jj-pref",1); dictattr("address","jj-pref",1); dictattr("adjust","jj-pref",1); dictattr("admire","jj-pref",1); dictattr("admit","jj-pref",1); dictattr("adopt","jj-pref",1); dictattr("adulterate","jj-pref",1); dictattr("advance","jj-pref",1); dictattr("advertise","jj-pref",1); dictattr("advise","jj-pref",1); dictattr("affect","jj-pref",1); dictattr("affiliate","jj-pref",1); dictattr("afflict","jj-pref",1); dictattr("aforemention","jj-pref",1); dictattr("age","jj-pref",1); dictattr("agree","jj-pref",1); dictattr("alarm","jj-pref",1); dictattr("align","jj-pref",1); dictattr("allege","jj-pref",1); dictattr("ally","jj-pref",1); dictattr("allow","jj-pref",1); dictattr("alter","jj-pref",1); dictattr("amaze","jj-pref",1); dictattr("amuse","jj-pref",1); dictattr("anesthetize","jj-pref",1); dictattr("anger","jj-pref",1); dictattr("anguish","jj-pref",1); dictattr("animate","jj-pref",1); dictattr("announce","jj-pref",1); dictattr("annoy","jj-pref",1); dictattr("annualize","jj-pref",1); dictattr("anticipate","jj-pref",1); dictattr("antiquate","jj-pref",1); dictattr("appall","jj-pref",1); dictattr("apply","jj-pref",1); dictattr("appoint","jj-pref",1); dictattr("appreciate","jj-pref",1); dictattr("approve","jj-pref",1); dictattr("approximate","jj-pref",1); dictattr("arch","jj-pref",1); dictattr("arm","jj-pref",1); dictattr("armor","jj-pref",1); dictattr("ashame","jj-pref",1); dictattr("ask","jj-pref",1); dictattr("assemble","jj-pref",1); dictattr("assign","jj-pref",1); dictattr("assimilate","jj-pref",1); dictattr("associate","jj-pref",1); dictattr("assort","jj-pref",1); dictattr("assume","jj-pref",1); dictattr("assure","jj-pref",1); dictattr("astound","jj-pref",1); dictattr("attach","jj-pref",1); dictattr("attempt","jj-pref",1); dictattr("attire","jj-pref",1); dictattr("attune","jj-pref",1); dictattr("audit","jj-pref",1); dictattr("augment","jj-pref",1); dictattr("authorize","jj-pref",1); dictattr("autograph","jj-pref",1); dictattr("automate","jj-pref",1); dictattr("avoid","jj-pref",1); dictattr("await","jj-pref",1); dictattr("awe","jj-pref",1); dictattr("back","jj-pref",1); dictattr("backhand","jj-pref",1); dictattr("bag","jj-pref",1); dictattr("bake","jj-pref",1); dictattr("balance","jj-pref",1); dictattr("balkanize","jj-pref",1); dictattr("barbeque","jj-pref",1); dictattr("bate","jj-pref",1); dictattr("batter","jj-pref",1); dictattr("beach","jj-pref",1); dictattr("beard","jj-pref",1); dictattr("belate","jj-pref",1); # dictattr("beleaguer","jj-pref",1); dictattr("belittle","jj-pref",1); dictattr("belle","jj-pref",1); dictattr("beloved","jj-pref",1); dictattr("bemuse","jj-pref",1); dictattr("benight","jj-pref",1); dictattr("beribbon","jj-pref",1); dictattr("besiege","jj-pref",1); dictattr("bespectacle","jj-pref",1); dictattr("bewilder","jj-pref",1); dictattr("bifurcate","jj-pref",1); dictattr("bigot","jj-pref",1); dictattr("bill","jj-pref",1); dictattr("bleach","jj-pref",1); dictattr("blend","jj-pref",1); dictattr("blight","jj-pref",1); dictattr("blindfold","jj-pref",1); dictattr("blindside","jj-pref",1); dictattr("bloat","jj-pref",1); dictattr("block","jj-pref",1); dictattr("bloody","jj-pref",1); dictattr("bond","jj-pref",1); dictattr("bore","jj-pref",1); dictattr("borrow","jj-pref",1); dictattr("botch","jj-pref",1); dictattr("bottle","jj-pref",1); dictattr("brand","jj-pref",1); dictattr("broker","jj-pref",1); dictattr("buckle","jj-pref",1); dictattr("bureaucraticize","jj-pref",1); dictattr("bury","jj-pref",1); dictattr("burn","jj-pref",1); dictattr("bust","jj-pref",1); dictattr("calculate","jj-pref",1); dictattr("camouflage","jj-pref",1); dictattr("cancel","jj-pref",1); dictattr("can","jj-pref",1); dictattr("capitalize","jj-pref",1); dictattr("cap","jj-pref",1); dictattr("captivate","jj-pref",1); dictattr("carve","jj-pref",1); dictattr("cater","jj-pref",1); dictattr("celebrate","jj-pref",1); dictattr("centralize","jj-pref",1); dictattr("certify","jj-pref",1); dictattr("chain","jj-pref",1); dictattr("chair","jj-pref",1); dictattr("change","jj-pref",1); dictattr("characterize","jj-pref",1); dictattr("charge","jj-pref",1); dictattr("char","jj-pref",1); dictattr("charter","jj-pref",1); dictattr("cheat","jj-pref",1); dictattr("cherish","jj-pref",1); dictattr("chill","jj-pref",1); dictattr("chopp","jj-pref",1); dictattr("choreograph","jj-pref",1); dictattr("circumscribe","jj-pref",1); dictattr("civilise","jj-pref",1); dictattr("civilize","jj-pref",1); dictattr("classify","jj-pref",1); dictattr("clearhead","jj-pref",1); dictattr("cliche","jj-pref",1); dictattr("clog","jj-pref",1); dictattr("cloister","jj-pref",1); dictattr("close","jj-pref",1); dictattr("closet","jj-pref",1); dictattr("cloud","jj-pref",1); dictattr("clutter","jj-pref",1); dictattr("coat","jj-pref",1); dictattr("cockeye","jj-pref",1); dictattr("code","jj-pref",1); dictattr("coerce","jj-pref",1); dictattr("coif","jj-pref",1); dictattr("coldheart","jj-pref",1); dictattr("collapse","jj-pref",1); dictattr("collateralize","jj-pref",1); dictattr("color","jj-pref",1); dictattr("combine","jj-pref",1); dictattr("commit","jj-pref",1); dictattr("compact","jj-pref",1); dictattr("compel","jj-pref",1); dictattr("complete","jj-pref",1); dictattr("complicate","jj-pref",1); dictattr("compound","jj-pref",1); dictattr("compute","jj-pref",1); dictattr("computerize","jj-pref",1); dictattr("computerrelate","jj-pref",1); dictattr("conceal","jj-pref",1); dictattr("conceive","jj-pref",1); dictattr("concentrate","jj-pref",1); dictattr("concern","jj-pref",1); dictattr("concert","jj-pref",1); dictattr("condemn","jj-pref",1); dictattr("condense","jj-pref",1); dictattr("condition","jj-pref",1); dictattr("confine","jj-pref",1); dictattr("confirm","jj-pref",1); dictattr("confuse","jj-pref",1); dictattr("congest","jj-pref",1); dictattr("connect","jj-pref",1); dictattr("consider","jj-pref",1); dictattr("consolidate","jj-pref",1); dictattr("constrict","jj-pref",1); dictattr("contain","jj-pref",1); dictattr("contaminate","jj-pref",1); dictattr("contemplate","jj-pref",1); dictattr("content","jj-pref",1); dictattr("contest","jj-pref",1); dictattr("continue","jj-pref",1); dictattr("contort","jj-pref",1); dictattr("contrive","jj-pref",1); dictattr("control","jj-pref",1); dictattr("convert","jj-pref",1); dictattr("convince","jj-pref",1); dictattr("convolute","jj-pref",1); dictattr("cook","jj-pref",1); dictattr("coordinate","jj-pref",1); dictattr("corner","jj-pref",1); dictattr("correct","jj-pref",1); dictattr("corrugate","jj-pref",1); dictattr("cover","jj-pref",1); dictattr("covet","jj-pref",1); dictattr("crab","jj-pref",1); dictattr("cramp","jj-pref",1); dictattr("crash","jj-pref",1); dictattr("craze","jj-pref",1); dictattr("create","jj-pref",1); dictattr("credentialize","jj-pref",1); dictattr("crest","jj-pref",1); dictattr("criminalize","jj-pref",1); dictattr("crimp","jj-pref",1); dictattr("cripple","jj-pref",1); dictattr("crook","jj-pref",1); dictattr("crowd","jj-pref",1); dictattr("crumple","jj-pref",1); dictattr("crush","jj-pref",1); dictattr("curve","jj-pref",1); dictattr("customize","jj-pref",1); dictattr("damage","jj-pref",1); dictattr("damn","jj-pref",1); dictattr("date","jj-pref",1); dictattr("daunt","jj-pref",1); dictattr("daze","jj-pref",1); dictattr("deadlock","jj-pref",1); dictattr("debilitate","jj-pref",1); dictattr("decapitalize","jj-pref",1); dictattr("decease","jj-pref",1); dictattr("decentralize","jj-pref",1); dictattr("declare","jj-pref",1); dictattr("decommission","jj-pref",1); dictattr("decompose","jj-pref",1); dictattr("deconstruct","jj-pref",1); dictattr("decriminalize","jj-pref",1); dictattr("dedicate","jj-pref",1); dictattr("default","jj-pref",1); dictattr("defer","jj-pref",1); dictattr("define","jj-pref",1); dictattr("deform","jj-pref",1); dictattr("degrade","jj-pref",1); dictattr("dehumidify","jj-pref",1); dictattr("dehydrate","jj-pref",1); dictattr("delay","jj-pref",1); dictattr("delight","jj-pref",1); dictattr("dement","jj-pref",1); dictattr("demonstrate","jj-pref",1); dictattr("demoralize","jj-pref",1); dictattr("depress","jj-pref",1); dictattr("deregulate","jj-pref",1); dictattr("desert","jj-pref",1); dictattr("designate","jj-pref",1); dictattr("desire","jj-pref",1); dictattr("destroy","jj-pref",1); dictattr("detail","jj-pref",1); dictattr("deteriorate","jj-pref",1); dictattr("determine","jj-pref",1); dictattr("devastate","jj-pref",1); dictattr("develop","jj-pref",1); dictattr("devote","jj-pref",1); dictattr("differentiate","jj-pref",1); dictattr("digitalize","jj-pref",1); dictattr("dignify","jj-pref",1); dictattr("dilapidate","jj-pref",1); dictattr("dilute","jj-pref",1); dictattr("diminish","jj-pref",1); dictattr("dimwitted","jj-pref",1); dictattr("disable","jj-pref",1); dictattr("disadvantage","jj-pref",1); dictattr("disaffect","jj-pref",1); dictattr("disappoint","jj-pref",1); dictattr("disband","jj-pref",1); dictattr("discipline","jj-pref",1); dictattr("disclose","jj-pref",1); dictattr("discomfit","jj-pref",1); dictattr("disconnect","jj-pref",1); dictattr("discontent","jj-pref",1); dictattr("discontinue","jj-pref",1); dictattr("discount","jj-pref",1); dictattr("discourage","jj-pref",1); dictattr("discredit","jj-pref",1); dictattr("discriminate","jj-pref",1); dictattr("disease","jj-pref",1); dictattr("disembody","jj-pref",1); dictattr("disenchant","jj-pref",1); dictattr("disfavor","jj-pref",1); dictattr("disgruntle","jj-pref",1); dictattr("disguise","jj-pref",1); dictattr("disgust","jj-pref",1); dictattr("dishevel","jj-pref",1); dictattr("disincline","jj-pref",1); dictattr("disinterest","jj-pref",1); dictattr("disjoint","jj-pref",1); dictattr("dislike","jj-pref",1); dictattr("dislocate","jj-pref",1); dictattr("dismay","jj-pref",1); dictattr("disorganize","jj-pref",1); dictattr("disorient","jj-pref",1); dictattr("disperse","jj-pref",1); dictattr("displease","jj-pref",1); dictattr("dispose","jj-pref",1); dictattr("dispute","jj-pref",1); dictattr("dissatisfy","jj-pref",1); dictattr("distill","jj-pref",1); dictattr("distinguish","jj-pref",1); dictattr("distort","jj-pref",1); dictattr("distress","jj-pref",1); dictattr("distribute","jj-pref",1); dictattr("disturb","jj-pref",1); dictattr("disuse","jj-pref",1); dictattr("diversify","jj-pref",1); dictattr("divest","jj-pref",1); dictattr("divide","jj-pref",1); dictattr("divorce","jj-pref",1); dictattr("dog","jj-pref",1); dictattr("dome","jj-pref",1); dictattr("doom","jj-pref",1); dictattr("dot","jj-pref",1); dictattr("dread","jj-pref",1); dictattr("dry","jj-pref",1); dictattr("drown","jj-pref",1); dictattr("dumbfound","jj-pref",1); dictattr("earn","jj-pref",1); dictattr("edge","jj-pref",1); dictattr("educate","jj-pref",1); dictattr("elate","jj-pref",1); dictattr("elect","jj-pref",1); dictattr("electrogalvanize","jj-pref",1); dictattr("elevate","jj-pref",1); dictattr("embargo","jj-pref",1); dictattr("embarrass","jj-pref",1); dictattr("embattle","jj-pref",1); dictattr("embed","jj-pref",1); dictattr("embitter","jj-pref",1); dictattr("embolden","jj-pref",1); dictattr("enamor","jj-pref",1); dictattr("encourage","jj-pref",1); dictattr("endanger","jj-pref",1); dictattr("end","jj-pref",1); dictattr("endow","jj-pref",1); dictattr("enforce","jj-pref",1); dictattr("engage","jj-pref",1); dictattr("engineer","jj-pref",1); dictattr("enhance","jj-pref",1); dictattr("enlarge","jj-pref",1); dictattr("enlighten","jj-pref",1); dictattr("enlist","jj-pref",1); dictattr("enrage","jj-pref",1); dictattr("entangle","jj-pref",1); dictattr("enthrall","jj-pref",1); dictattr("entrench","jj-pref",1); dictattr("enumerate","jj-pref",1); dictattr("equip","jj-pref",1); dictattr("establish","jj-pref",1); dictattr("estimate","jj-pref",1); dictattr("estrange","jj-pref",1); dictattr("evenhanded","jj-pref",1); dictattr("evolve","jj-pref",1); dictattr("exaggerate","jj-pref",1); dictattr("excite","jj-pref",1); dictattr("execute","jj-pref",1); dictattr("exhaust","jj-pref",1); dictattr("exile","jj-pref",1); dictattr("expand","jj-pref",1); dictattr("expect","jj-pref",1); dictattr("expedite","jj-pref",1); dictattr("experience","jj-pref",1); dictattr("expire","jj-pref",1); dictattr("expose","jj-pref",1); dictattr("extend","jj-pref",1); dictattr("fable","jj-pref",1); dictattr("fabricate","jj-pref",1); dictattr("factor","jj-pref",1); dictattr("fade","jj-pref",1); dictattr("fail","jj-pref",1); dictattr("fame","jj-pref",1); dictattr("farfetched","jj-pref",1); dictattr("farm","jj-pref",1); dictattr("fatiegue","jj-pref",1); dictattr("favor","jj-pref",1); dictattr("fear","jj-pref",1); dictattr("feather","jj-pref",1); dictattr("feature","jj-pref",1); dictattr("feed","jj-pref",1); dictattr("federalize","jj-pref",1); dictattr("fence","jj-pref",1); dictattr("fertilize","jj-pref",1); dictattr("film","jj-pref",1); dictattr("finance","jj-pref",1); dictattr("finish","jj-pref",1); dictattr("fix","jj-pref",1); dictattr("flabbergasted","jj-pref",1); dictattr("flaw","jj-pref",1); dictattr("fluster","jj-pref",1); dictattr("focus","jj-pref",1); dictattr("fog","jj-pref",1); dictattr("foil","jj-pref",1); dictattr("follow","jj-pref",1); dictattr("force","jj-pref",1); dictattr("foreclose","jj-pref",1); dictattr("forge","jj-pref",1); dictattr("fork","jj-pref",1); dictattr("form","jj-pref",1); dictattr("fortify","jj-pref",1); dictattr("foul","jj-pref",1); dictattr("fracture","jj-pref",1); dictattr("fragment","jj-pref",1); dictattr("frame","jj-pref",1); dictattr("franchise","jj-pref",1); dictattr("frank","jj-pref",1); dictattr("fray","jj-pref",1); dictattr("frenzy","jj-pref",1); dictattr("fry","jj-pref",1); dictattr("frighten","jj-pref",1); dictattr("frustrate","jj-pref",1); dictattr("fund","jj-pref",1); dictattr("furnish","jj-pref",1); dictattr("furrow","jj-pref",1); dictattr("galvanize","jj-pref",1); dictattr("generalize","jj-pref",1); dictattr("germinate","jj-pref",1); dictattr("gift","jj-pref",1); dictattr("gild","jj-pref",1); dictattr("globalize","jj-pref",1); dictattr("glut","jj-pref",1); dictattr("govern","jj-pref",1); dictattr("graduate","jj-pref",1); dictattr("graft","jj-pref",1); dictattr("grain","jj-pref",1); dictattr("grant","jj-pref",1); dictattr("gratify","jj-pref",1); dictattr("grid","jj-pref",1); dictattr("gridlock","jj-pref",1); dictattr("grill","jj-pref",1); dictattr("grizzle","jj-pref",1); dictattr("ground","jj-pref",1); dictattr("guarantee","jj-pref",1); dictattr("guard","jj-pref",1); dictattr("hairyknuckled","jj-pref",1); dictattr("halfheart","jj-pref",1); dictattr("hallow","jj-pref",1); dictattr("halve","jj-pref",1); dictattr("handicap","jj-pref",1); dictattr("harden","jj-pref",1); dictattr("haunt","jj-pref",1); dictattr("heat","jj-pref",1); dictattr("heighten","jj-pref",1); dictattr("helmet","jj-pref",1); dictattr("highpriced","jj-pref",1); dictattr("hone","jj-pref",1); dictattr("honor","jj-pref",1); dictattr("hook","jj-pref",1); dictattr("hospitalize","jj-pref",1); dictattr("host","jj-pref",1); dictattr("humiliate","jj-pref",1); dictattr("hunch","jj-pref",1); dictattr("hurry","jj-pref",1); dictattr("ice","jj-pref",1); dictattr("idealize","jj-pref",1); dictattr("identify","jj-pref",1); dictattr("illuminate","jj-pref",1); dictattr("immiserate","jj-pref",1); dictattr("impact","jj-pref",1); dictattr("impair","jj-pref",1); dictattr("impassion","jj-pref",1); dictattr("imperil","jj-pref",1); dictattr("imply","jj-pref",1); dictattr("import","jj-pref",1); dictattr("impose","jj-pref",1); dictattr("impoverish","jj-pref",1); dictattr("impress","jj-pref",1); dictattr("improve","jj-pref",1); dictattr("impute","jj-pref",1); dictattr("incense","jj-pref",1); dictattr("incline","jj-pref",1); dictattr("include","jj-pref",1); #dictattr("incorporate","jj-pref",1); dictattr("increase","jj-pref",1); dictattr("indebt","jj-pref",1); dictattr("index","jj-pref",1); dictattr("indicate","jj-pref",1); dictattr("industrialize","jj-pref",1); dictattr("inexperienced","jj-pref",1); dictattr("infect","jj-pref",1); dictattr("infest","jj-pref",1); dictattr("inflame","jj-pref",1); dictattr("inflate","jj-pref",1); dictattr("inform","jj-pref",1); dictattr("ingrain","jj-pref",1); dictattr("inhabit","jj-pref",1); dictattr("inherit","jj-pref",1); dictattr("injure","jj-pref",1); dictattr("inspire","jj-pref",1); dictattr("install","jj-pref",1); dictattr("instrument","jj-pref",1); dictattr("insulate","jj-pref",1); dictattr("insure","jj-pref",1); dictattr("integrate","jj-pref",1); dictattr("intend","jj-pref",1); dictattr("intensify","jj-pref",1); dictattr("intention","jj-pref",1); dictattr("interest","jj-pref",1); dictattr("interrelate","jj-pref",1); dictattr("interrupt","jj-pref",1); dictattr("intoxicate","jj-pref",1); dictattr("intrigue","jj-pref",1); dictattr("introvert","jj-pref",1); dictattr("invert","jj-pref",1); dictattr("involve","jj-pref",1); dictattr("irradiate","jj-pref",1); dictattr("irritate","jj-pref",1); dictattr("isolate","jj-pref",1); dictattr("issue","jj-pref",1); dictattr("jade","jj-pref",1); dictattr("jail","jj-pref",1); dictattr("jam","jj-pref",1); dictattr("justify","jj-pref",1); dictattr("kerchiefed","jj-pref",1); dictattr("key","jj-pref",1); dictattr("kindred","jj-pref",1); dictattr("kink","jj-pref",1); dictattr("labor","jj-pref",1); dictattr("ladder","jj-pref",1); dictattr("landlock","jj-pref",1); dictattr("lapse","jj-pref",1); #dictattr("lead","jj-pref",1); # Need to be, etc. dictattr("lease","jj-pref",1); dictattr("leverage","jj-pref",1); dictattr("liberalize","jj-pref",1); dictattr("liberate","jj-pref",1); dictattr("license","jj-pref",1); dictattr("light","jj-pref",1); dictattr("lightheaded","jj-pref",1); dictattr("lighthearted","jj-pref",1); dictattr("limit","jj-pref",1); dictattr("line","jj-pref",1); dictattr("link","jj-pref",1); dictattr("liquify","jj-pref",1); dictattr("list","jj-pref",1); dictattr("livery","jj-pref",1); dictattr("load","jj-pref",1); dictattr("localize","jj-pref",1); dictattr("locate","jj-pref",1); dictattr("lock","jj-pref",1); dictattr("longhaired","jj-pref",1); dictattr("lopsided","jj-pref",1); dictattr("love","jj-pref",1); dictattr("mail","jj-pref",1); dictattr("manage","jj-pref",1); dictattr("man","jj-pref",1); dictattr("manner","jj-pref",1); dictattr("manufacture","jj-pref",1); dictattr("mark","jj-pref",1); dictattr("marry","jj-pref",1); dictattr("match","jj-pref",1); dictattr("measure","jj-pref",1); dictattr("mechanize","jj-pref",1); dictattr("merge","jj-pref",1); dictattr("midpriced","jj-pref",1); dictattr("midsized","jj-pref",1); dictattr("miff","jj-pref",1); dictattr("mill","jj-pref",1); dictattr("mineralize","jj-pref",1); dictattr("mire","jj-pref",1); dictattr("misguided","jj-pref",1); dictattr("mishandle","jj-pref",1); dictattr("miss","jj-pref",1); dictattr("mistrust","jj-pref",1); dictattr("mix","jj-pref",1); dictattr("modernize","jj-pref",1); dictattr("modify","jj-pref",1); dictattr("money","jj-pref",1); dictattr("monied","jj-pref",1); # dictattr("monitor","jj-pref",1); dictattr("monogram","jj-pref",1); dictattr("mortgagebacked","jj-pref",1); dictattr("motivate","jj-pref",1); dictattr("motorize","jj-pref",1); dictattr("mount","jj-pref",1); dictattr("multifaceted","jj-pref",1); dictattr("multilayered","jj-pref",1); dictattr("multisided","jj-pref",1); dictattr("mustachioed","jj-pref",1); dictattr("mute","jj-pref",1); dictattr("naked","jj-pref",1); dictattr("name","jj-pref",1); dictattr("naturalize","jj-pref",1); dictattr("natured","jj-pref",1); dictattr("need","jj-pref",1); dictattr("neglect","jj-pref",1); dictattr("negotiate","jj-pref",1); dictattr("newfangled","jj-pref",1); dictattr("nonchlorinated","jj-pref",1); dictattr("noninstitutionalized","jj-pref",1); dictattr("nonregulate","jj-pref",1); dictattr("note","jj-pref",1); dictattr("notice","jj-pref",1); dictattr("obligate","jj-pref",1); dictattr("oblige","jj-pref",1); dictattr("observe","jj-pref",1); dictattr("obsess","jj-pref",1); dictattr("occupy","jj-pref",1); dictattr("offer","jj-pref",1); dictattr("oppose","jj-pref",1); dictattr("oppress","jj-pref",1); dictattr("organize","jj-pref",1); dictattr("orient","jj-pref",1); dictattr("orphan","jj-pref",1); dictattr("oust","jj-pref",1); dictattr("outdate","jj-pref",1); dictattr("outlaw","jj-pref",1); dictattr("outline","jj-pref",1); dictattr("outmoded","jj-pref",1); dictattr("outrage","jj-pref",1); dictattr("outsize","jj-pref",1); dictattr("overburden","jj-pref",1); dictattr("overcollect","jj-pref",1); dictattr("overcrowd","jj-pref",1); dictattr("overdevelop","jj-pref",1); dictattr("overdress","jj-pref",1); dictattr("overextend","jj-pref",1); dictattr("overhype","jj-pref",1); dictattr("overjoy","jj-pref",1); dictattr("overleverage","jj-pref",1); dictattr("overload","jj-pref",1); dictattr("overprice","jj-pref",1); dictattr("overregulate","jj-pref",1); dictattr("oversized","jj-pref",1); dictattr("overstaffed","jj-pref",1); dictattr("overstored","jj-pref",1); dictattr("oversubscribe","jj-pref",1); dictattr("oversupply","jj-pref",1); dictattr("overuse","jj-pref",1); dictattr("overvalue","jj-pref",1); dictattr("overwhelm","jj-pref",1); dictattr("overwork","jj-pref",1); dictattr("own","jj-pref",1); dictattr("oxidize","jj-pref",1); dictattr("package","jj-pref",1); dictattr("pack","jj-pref",1); dictattr("pad","jj-pref",1); dictattr("pain","jj-pref",1); dictattr("paint","jj-pref",1); dictattr("pamper","jj-pref",1); dictattr("panic","jj-pref",1); dictattr("paralyze","jj-pref",1); dictattr("parch","jj-pref",1); dictattr("part","jj-pref",1); dictattr("patch","jj-pref",1); dictattr("patent","jj-pref",1); dictattr("pave","jj-pref",1); dictattr("peak","jj-pref",1); dictattr("perceive","jj-pref",1); dictattr("perforate","jj-pref",1); dictattr("perfume","jj-pref",1); dictattr("perplex","jj-pref",1); dictattr("personalize","jj-pref",1); dictattr("perturb","jj-pref",1); dictattr("pervert","jj-pref",1); dictattr("petrify","jj-pref",1); dictattr("pinheaded","jj-pref",1); dictattr("pinpoint","jj-pref",1); dictattr("pitch","jj-pref",1); dictattr("plan","jj-pref",1); dictattr("please","jj-pref",1); dictattr("pleat","jj-pref",1); dictattr("pockmarked","jj-pref",1); dictattr("point","jj-pref",1); dictattr("poise","jj-pref",1); dictattr("polish","jj-pref",1); dictattr("politicize","jj-pref",1); dictattr("pollute","jj-pref",1); dictattr("pool","jj-pref",1); dictattr("populate","jj-pref",1); dictattr("position","jj-pref",1); dictattr("post","jj-pref",1); dictattr("postpone","jj-pref",1); dictattr("pot","jj-pref",1); dictattr("powder","jj-pref",1); dictattr("practice","jj-pref",1); dictattr("praise","jj-pref",1); dictattr("prearrange","jj-pref",1); dictattr("preclude","jj-pref",1); dictattr("prefer","jj-pref",1); dictattr("prejudice","jj-pref",1); dictattr("premediate","jj-pref",1); dictattr("premeditate","jj-pref",1); dictattr("preoccupy","jj-pref",1); dictattr("prepare","jj-pref",1); dictattr("prescribe","jj-pref",1); dictattr("pressure","jj-pref",1); dictattr("presume","jj-pref",1); dictattr("price","jj-pref",1); dictattr("prime","jj-pref",1); dictattr("principle","jj-pref",1); dictattr("print","jj-pref",1); dictattr("privatize","jj-pref",1); dictattr("privilege","jj-pref",1); dictattr("prize","jj-pref",1); dictattr("process","jj-pref",1); dictattr("proclaim","jj-pref",1); dictattr("profess","jj-pref",1); dictattr("program","jj-pref",1); dictattr("project","jj-pref",1); dictattr("prolong","jj-pref",1); dictattr("promise","jj-pref",1); dictattr("pronounce","jj-pref",1); dictattr("proportion","jj-pref",1); dictattr("propose","jj-pref",1); dictattr("protect","jj-pref",1); dictattr("protracted","jj-pref",1); dictattr("prove","jj-pref",1); dictattr("provoke","jj-pref",1); dictattr("publicize","jj-pref",1); dictattr("publish","jj-pref",1); dictattr("purchase","jj-pref",1); dictattr("purport","jj-pref",1); dictattr("pursue","jj-pref",1); dictattr("puzzle","jj-pref",1); dictattr("qualify","jj-pref",1); dictattr("quickwitted","jj-pref",1); dictattr("rag","jj-pref",1); dictattr("raise","jj-pref",1); dictattr("rank","jj-pref",1); dictattr("rape","jj-pref",1); dictattr("rate","jj-pref",1); dictattr("rationalize","jj-pref",1); dictattr("rattle","jj-pref",1); dictattr("realign","jj-pref",1); dictattr("realize","jj-pref",1); dictattr("reason","jj-pref",1); dictattr("receive","jj-pref",1); dictattr("recognize","jj-pref",1); dictattr("recommend","jj-pref",1); dictattr("reconstruct","jj-pref",1); dictattr("record","jj-pref",1); dictattr("recycle","jj-pref",1); dictattr("redesign","jj-pref",1); dictattr("reduce","jj-pref",1); dictattr("refine","jj-pref",1); dictattr("reform","jj-pref",1); dictattr("reformulate","jj-pref",1); dictattr("refrigerate","jj-pref",1); dictattr("regard","jj-pref",1); dictattr("regiment","jj-pref",1); dictattr("register","jj-pref",1); dictattr("regulate","jj-pref",1); dictattr("reinforce","jj-pref",1); dictattr("rejuvenate","jj-pref",1); dictattr("relate","jj-pref",1); dictattr("relax","jj-pref",1); dictattr("relieve","jj-pref",1); dictattr("renew","jj-pref",1); dictattr("renovate","jj-pref",1); dictattr("renown","jj-pref",1); dictattr("rent","jj-pref",1); dictattr("reoffer","jj-pref",1); dictattr("reorganize","jj-pref",1); dictattr("repaint","jj-pref",1); dictattr("repeat","jj-pref",1); dictattr("report","jj-pref",1); dictattr("repossess","jj-pref",1); dictattr("repress","jj-pref",1); dictattr("repute","jj-pref",1); dictattr("require","jj-pref",1); dictattr("reserve","jj-pref",1); #dictattr("resign","jj-pref",1); # Need to-be or other context. dictattr("respect","jj-pref",1); dictattr("restate","jj-pref",1); dictattr("restrain","jj-pref",1); dictattr("restrict","jj-pref",1); dictattr("restructure","jj-pref",1); dictattr("restyle","jj-pref",1); dictattr("retain","jj-pref",1); dictattr("retard","jj-pref",1); dictattr("retire","jj-pref",1); dictattr("retract","jj-pref",1); dictattr("revere","jj-pref",1); dictattr("reverse","jj-pref",1); dictattr("revile","jj-pref",1); dictattr("revise","jj-pref",1); dictattr("rib","jj-pref",1); dictattr("riddle","jj-pref",1); dictattr("rig","jj-pref",1); dictattr("roast","jj-pref",1); dictattr("roll","jj-pref",1); dictattr("root","jj-pref",1); dictattr("round","jj-pref",1); dictattr("ruffle","jj-pref",1); dictattr("rugged","jj-pref",1); dictattr("ruin","jj-pref",1); dictattr("rumor","jj-pref",1); dictattr("rumple","jj-pref",1); dictattr("rupture","jj-pref",1); dictattr("rush","jj-pref",1); dictattr("sacred","jj-pref",1); dictattr("sadden","jj-pref",1); dictattr("salary","jj-pref",1); dictattr("satisfy","jj-pref",1); dictattr("saturate","jj-pref",1); dictattr("scare","jj-pref",1); dictattr("scarr","jj-pref",1); dictattr("scatter","jj-pref",1); dictattr("scent","jj-pref",1); dictattr("schedule","jj-pref",1); dictattr("scorch","jj-pref",1); dictattr("score","jj-pref",1); dictattr("scramble","jj-pref",1); dictattr("scuttle","jj-pref",1); dictattr("seal","jj-pref",1); dictattr("season","jj-pref",1); dictattr("secure","jj-pref",1); dictattr("segment","jj-pref",1); dictattr("segregate","jj-pref",1); dictattr("select","jj-pref",1); dictattr("separate","jj-pref",1); dictattr("sequin","jj-pref",1); dictattr("settle","jj-pref",1); dictattr("shade","jj-pref",1); dictattr("shape","jj-pref",1); dictattr("share","jj-pref",1); dictattr("shatter","jj-pref",1); dictattr("shear","jj-pref",1); dictattr("shellshock","jj-pref",1); dictattr("shelter","jj-pref",1); dictattr("shelve","jj-pref",1); dictattr("ship","jj-pref",1); dictattr("shock","jj-pref",1); dictattr("short","jj-pref",1); dictattr("shorthanded","jj-pref",1); dictattr("shortlived","jj-pref",1); dictattr("shortsighted","jj-pref",1); dictattr("shred","jj-pref",1); dictattr("shutter","jj-pref",1); dictattr("sicken","jj-pref",1); dictattr("sideline","jj-pref",1); dictattr("sign","jj-pref",1); dictattr("simplify","jj-pref",1); dictattr("simulate","jj-pref",1); dictattr("skew","jj-pref",1); dictattr("skilled","jj-pref",1); dictattr("slacken","jj-pref",1); dictattr("slant","jj-pref",1); dictattr("slight","jj-pref",1); dictattr("smash","jj-pref",1); dictattr("snap","jj-pref",1); dictattr("socalled","jj-pref",1); dictattr("soften","jj-pref",1); dictattr("soil","jj-pref",1); dictattr("solarheated","jj-pref",1); dictattr("solicit","jj-pref",1); dictattr("sophisticate","jj-pref",1); dictattr("soul","jj-pref",1); dictattr("sour","jj-pref",1); dictattr("specialize","jj-pref",1); dictattr("specify","jj-pref",1); dictattr("speckle","jj-pref",1); dictattr("spike","jj-pref",1); dictattr("spirited","jj-pref",1); dictattr("splinter","jj-pref",1); dictattr("spoil","jj-pref",1); dictattr("spot","jj-pref",1); dictattr("spurn","jj-pref",1); dictattr("squash","jj-pref",1); dictattr("stagger","jj-pref",1); dictattr("stall","jj-pref",1); dictattr("standardize","jj-pref",1); dictattr("state","jj-pref",1); dictattr("stereotype","jj-pref",1); dictattr("sterilize","jj-pref",1); dictattr("stew","jj-pref",1); dictattr("stiffnecked","jj-pref",1); dictattr("stipple","jj-pref",1); dictattr("strain","jj-pref",1); dictattr("straitjacket","jj-pref",1); dictattr("strap","jj-pref",1); dictattr("stratify","jj-pref",1); dictattr("streamline","jj-pref",1); dictattr("strengthen","jj-pref",1); dictattr("stretch","jj-pref",1); dictattr("stripe","jj-pref",1); dictattr("strip","jj-pref",1); dictattr("structure","jj-pref",1); dictattr("study","jj-pref",1); dictattr("stuff","jj-pref",1); dictattr("stun","jj-pref",1); dictattr("stymy","jj-pref",1); dictattr("subdue","jj-pref",1); dictattr("subjugate","jj-pref",1); dictattr("subordinate","jj-pref",1); dictattr("subsidize","jj-pref",1); dictattr("substantiate","jj-pref",1); dictattr("sugar","jj-pref",1); dictattr("suggest","jj-pref",1); dictattr("supercharge","jj-pref",1); dictattr("superconcentrate","jj-pref",1); dictattr("supervise","jj-pref",1); dictattr("suppose","jj-pref",1); dictattr("suppress","jj-pref",1); dictattr("surprise","jj-pref",1); dictattr("suspect","jj-pref",1); dictattr("suspend","jj-pref",1); dictattr("sustain","jj-pref",1); dictattr("sweeten","jj-pref",1); dictattr("swell","jj-pref",1); dictattr("switch","jj-pref",1); dictattr("syndicate","jj-pref",1); dictattr("tailor","jj-pref",1); dictattr("taint","jj-pref",1); dictattr("talented","jj-pref",1); dictattr("tangle","jj-pref",1); dictattr("tape","jj-pref",1); dictattr("taper","jj-pref",1); dictattr("target","jj-pref",1); dictattr("tarnish","jj-pref",1); dictattr("tatter","jj-pref",1); dictattr("televise","jj-pref",1); dictattr("tender","jj-pref",1); dictattr("terrify","jj-pref",1); dictattr("tether","jj-pref",1); dictattr("texture","jj-pref",1); dictattr("thoroughbred","jj-pref",1); dictattr("threaten","jj-pref",1); dictattr("thrill","jj-pref",1); dictattr("tick","jj-pref",1); dictattr("tighten","jj-pref",1); dictattr("tightfisted","jj-pref",1); dictattr("tilt","jj-pref",1); dictattr("time","jj-pref",1); dictattr("tint","jj-pref",1); dictattr("tire","jj-pref",1); dictattr("title","jj-pref",1); dictattr("tongue","jj-pref",1); dictattr("torment","jj-pref",1); dictattr("torture","jj-pref",1); dictattr("track","jj-pref",1); dictattr("trade","jj-pref",1); dictattr("train","jj-pref",1); dictattr("trample","jj-pref",1); dictattr("transfer","jj-pref",1); dictattr("transmit","jj-pref",1); dictattr("transplant","jj-pref",1); dictattr("trap","jj-pref",1); dictattr("treasure","jj-pref",1); dictattr("try","jj-pref",1); dictattr("trigger","jj-pref",1); dictattr("trim","jj-pref",1); dictattr("trouble","jj-pref",1); dictattr("truncate","jj-pref",1); dictattr("tune","jj-pref",1); dictattr("tuxedo","jj-pref",1); dictattr("twist","jj-pref",1); dictattr("twotiered","jj-pref",1); dictattr("unabashed","jj-pref",1); dictattr("unabated","jj-pref",1); dictattr("unabsorbed","jj-pref",1); dictattr("unaccompanied","jj-pref",1); dictattr("unaccounted","jj-pref",1); dictattr("unaccustomed","jj-pref",1); dictattr("unaddressed","jj-pref",1); dictattr("unadjusted","jj-pref",1); dictattr("unadorned","jj-pref",1); dictattr("unaffected","jj-pref",1); dictattr("unaffiliated","jj-pref",1); dictattr("unaltered","jj-pref",1); dictattr("unamended","jj-pref",1); dictattr("unamortized","jj-pref",1); dictattr("unamused","jj-pref",1); dictattr("unannounced","jj-pref",1); dictattr("unanswered","jj-pref",1); dictattr("unanticipated","jj-pref",1); dictattr("unapproved","jj-pref",1); dictattr("unarmed","jj-pref",1); dictattr("unasked","jj-pref",1); dictattr("unassisted","jj-pref",1); dictattr("unattended","jj-pref",1); dictattr("unaudited","jj-pref",1); dictattr("unauthorized","jj-pref",1); dictattr("unbalanced","jj-pref",1); dictattr("unbiased","jj-pref",1); dictattr("unbleached","jj-pref",1); dictattr("unbridled","jj-pref",1); dictattr("uncalled","jj-pref",1); dictattr("uncensored","jj-pref",1); dictattr("unchallenged","jj-pref",1); dictattr("unchanged","jj-pref",1); dictattr("uncharted","jj-pref",1); dictattr("unchecked","jj-pref",1); dictattr("unclaimed","jj-pref",1); dictattr("unclassified","jj-pref",1); dictattr("unclothed","jj-pref",1); dictattr("uncoached","jj-pref",1); dictattr("uncoated","jj-pref",1); dictattr("uncollaborated","jj-pref",1); dictattr("uncombed","jj-pref",1); dictattr("uncompensated","jj-pref",1); dictattr("uncomplicated","jj-pref",1); dictattr("unconcerned","jj-pref",1); dictattr("unconfirmed","jj-pref",1); dictattr("unconnected","jj-pref",1); dictattr("unconsolidated","jj-pref",1); dictattr("uncontested","jj-pref",1); dictattr("uncontrolled","jj-pref",1); dictattr("unconvinced","jj-pref",1); dictattr("uncorrected","jj-pref",1); dictattr("uncountered","jj-pref",1); dictattr("uncovered","jj-pref",1); dictattr("undamaged","jj-pref",1); dictattr("undated","jj-pref",1); dictattr("undaunted","jj-pref",1); dictattr("undecided","jj-pref",1); dictattr("undeclared","jj-pref",1); dictattr("undefeated","jj-pref",1); dictattr("undefined","jj-pref",1); dictattr("undelivered","jj-pref",1); dictattr("underappreciated","jj-pref",1); dictattr("undercapitalized","jj-pref",1); dictattr("underdeveloped","jj-pref",1); dictattr("underdressed","jj-pref",1); dictattr("undereducated","jj-pref",1); dictattr("underemployed","jj-pref",1); dictattr("underfunded","jj-pref",1); dictattr("undermine","jj-pref",1); dictattr("underprepared","jj-pref",1); dictattr("underpriced","jj-pref",1); dictattr("underprivileged","jj-pref",1); dictattr("underserved","jj-pref",1); dictattr("undersized","jj-pref",1); dictattr("understate","jj-pref",1); dictattr("undervalued","jj-pref",1); dictattr("underworked","jj-pref",1); dictattr("undeserved","jj-pref",1); dictattr("undetected","jj-pref",1); dictattr("undetermined","jj-pref",1); dictattr("undeterred","jj-pref",1); dictattr("undeveloped","jj-pref",1); dictattr("undiluted","jj-pref",1); dictattr("undisciplined","jj-pref",1); dictattr("undisclosed","jj-pref",1); dictattr("undisputed","jj-pref",1); dictattr("undistinguished","jj-pref",1); dictattr("undisturbed","jj-pref",1); dictattr("undiversified","jj-pref",1); dictattr("undivided","jj-pref",1); dictattr("undreamed","jj-pref",1); dictattr("unearned","jj-pref",1); dictattr("uneducated","jj-pref",1); dictattr("unelected","jj-pref",1); dictattr("unemployed","jj-pref",1); dictattr("unencumbered","jj-pref",1); dictattr("unenlightened","jj-pref",1); dictattr("unequaled","jj-pref",1); dictattr("unescorted","jj-pref",1); dictattr("unexercised","jj-pref",1); dictattr("unexpected","jj-pref",1); dictattr("unexpended","jj-pref",1); dictattr("unexplained","jj-pref",1); dictattr("unexplored","jj-pref",1); dictattr("unfazed","jj-pref",1); dictattr("unfertilized","jj-pref",1); dictattr("unfettered","jj-pref",1); dictattr("unfilled","jj-pref",1); dictattr("unfinished","jj-pref",1); dictattr("unfixed","jj-pref",1); dictattr("unfocused","jj-pref",1); dictattr("unfounded","jj-pref",1); dictattr("unfulfilled","jj-pref",1); dictattr("unfunded","jj-pref",1); dictattr("unglued","jj-pref",1); dictattr("unguaranteed","jj-pref",1); dictattr("unguided","jj-pref",1); dictattr("unharmed","jj-pref",1); dictattr("unhealed","jj-pref",1); dictattr("unheeded","jj-pref",1); dictattr("unheralded","jj-pref",1); dictattr("unhindered","jj-pref",1); dictattr("unidentified","jj-pref",1); dictattr("unify","jj-pref",1); dictattr("uniformed","jj-pref",1); dictattr("unimpaired","jj-pref",1); dictattr("unimpeded","jj-pref",1); dictattr("unimpressed","jj-pref",1); dictattr("unimproved","jj-pref",1); dictattr("unincorporated","jj-pref",1); dictattr("unindicted","jj-pref",1); dictattr("uninfected","jj-pref",1); dictattr("uninformed","jj-pref",1); dictattr("uninhabited","jj-pref",1); dictattr("uninhibited","jj-pref",1); dictattr("uninitiated","jj-pref",1); dictattr("uninspected","jj-pref",1); dictattr("uninspired","jj-pref",1); dictattr("uninsured","jj-pref",1); dictattr("unintended","jj-pref",1); dictattr("uninterested","jj-pref",1); dictattr("uninterrupted","jj-pref",1); dictattr("uninvited","jj-pref",1); dictattr("unionize","jj-pref",1); dictattr("unissued","jj-pref",1); dictattr("united","jj-pref",1); dictattr("unjustified","jj-pref",1); dictattr("unlabeled","jj-pref",1); dictattr("unleaded","jj-pref",1); dictattr("unlicensed","jj-pref",1); dictattr("unlimited","jj-pref",1); dictattr("unlinked","jj-pref",1); dictattr("unlisted","jj-pref",1); dictattr("unloaded","jj-pref",1); dictattr("unmanned","jj-pref",1); dictattr("unmarked","jj-pref",1); dictattr("unmarried","jj-pref",1); dictattr("unmatched","jj-pref",1); dictattr("unmoved","jj-pref",1); dictattr("unnamed","jj-pref",1); dictattr("unneeded","jj-pref",1); dictattr("unnerve","jj-pref",1); dictattr("unnoticed","jj-pref",1); dictattr("unnumbered","jj-pref",1); dictattr("unobserved","jj-pref",1); dictattr("unoccupied","jj-pref",1); dictattr("unopened","jj-pref",1); dictattr("unopposed","jj-pref",1); dictattr("unorganized","jj-pref",1); dictattr("unpack","jj-pref",1); dictattr("unparalleled","jj-pref",1); dictattr("unpaved","jj-pref",1); dictattr("unpegged","jj-pref",1); dictattr("unperformed","jj-pref",1); dictattr("unperturbed","jj-pref",1); dictattr("unplanned","jj-pref",1); dictattr("unpolished","jj-pref",1); dictattr("unprecedented","jj-pref",1); dictattr("unprepared","jj-pref",1); dictattr("unprotected","jj-pref",1); dictattr("unpublicized","jj-pref",1); dictattr("unpublished","jj-pref",1); dictattr("unpunctured","jj-pref",1); dictattr("unpunished","jj-pref",1); dictattr("unqualified","jj-pref",1); dictattr("unraveled","jj-pref",1); dictattr("unrealized","jj-pref",1); dictattr("unrecognized","jj-pref",1); dictattr("unrefrigerated","jj-pref",1); dictattr("unregistered","jj-pref",1); dictattr("unregulated","jj-pref",1); dictattr("unreinforced","jj-pref",1); dictattr("unrelated","jj-pref",1); dictattr("unreleased","jj-pref",1); dictattr("unreported","jj-pref",1); dictattr("unresolved","jj-pref",1); dictattr("unrestrained","jj-pref",1); dictattr("unrestricted","jj-pref",1); dictattr("unretouched","jj-pref",1); dictattr("unrivaled","jj-pref",1); dictattr("unsanctioned","jj-pref",1); dictattr("unsatisfied","jj-pref",1); dictattr("unscathed","jj-pref",1); dictattr("unscheduled","jj-pref",1); dictattr("unscripted","jj-pref",1); dictattr("unseat","jj-pref",1); dictattr("unsecured","jj-pref",1); dictattr("unsettled","jj-pref",1); dictattr("unshackled","jj-pref",1); dictattr("unshirted","jj-pref",1); dictattr("unsigned","jj-pref",1); dictattr("unskilled","jj-pref",1); dictattr("unsolicited","jj-pref",1); dictattr("unsolved","jj-pref",1); dictattr("unspecified","jj-pref",1); dictattr("unspoiled","jj-pref",1); dictattr("unstated","jj-pref",1); dictattr("unstimulated","jj-pref",1); dictattr("unstructured","jj-pref",1); dictattr("unsubordinated","jj-pref",1); dictattr("unsubsidized","jj-pref",1); dictattr("unsubstantiated","jj-pref",1); dictattr("unsupported","jj-pref",1); dictattr("unsurpassed","jj-pref",1); dictattr("unsurprised","jj-pref",1); dictattr("unsuspected","jj-pref",1); dictattr("unswagged","jj-pref",1); dictattr("untamed","jj-pref",1); dictattr("untapped","jj-pref",1); dictattr("untarnished","jj-pref",1); dictattr("untested","jj-pref",1); dictattr("untouched","jj-pref",1); dictattr("untrained","jj-pref",1); dictattr("untreated","jj-pref",1); dictattr("untried","jj-pref",1); dictattr("unturned","jj-pref",1); dictattr("unused","jj-pref",1); dictattr("unveiled","jj-pref",1); dictattr("unwanted","jj-pref",1); dictattr("unwarranted","jj-pref",1); dictattr("unwashed","jj-pref",1); dictattr("unwed","jj-pref",1); dictattr("update","jj-pref",1); dictattr("upend","jj-pref",1); dictattr("upgrade","jj-pref",1); dictattr("use","jj-pref",1); dictattr("value","jj-pref",1); dictattr("vary","jj-pref",1); dictattr("vaunt","jj-pref",1); dictattr("ventilate","jj-pref",1); dictattr("vest","jj-pref",1); dictattr("vex","jj-pref",1); dictattr("victimize","jj-pref",1); dictattr("voice","jj-pref",1); dictattr("wall","jj-pref",1); dictattr("want","jj-pref",1); dictattr("warmhearted","jj-pref",1); dictattr("warp","jj-pref",1); dictattr("warrant","jj-pref",1); dictattr("waste","jj-pref",1); dictattr("watch","jj-pref",1); dictattr("waterlog","jj-pref",1); dictattr("weaken","jj-pref",1); dictattr("weakwilled","jj-pref",1); dictattr("weight","jj-pref",1); dictattr("wellplaced","jj-pref",1); dictattr("whalesized","jj-pref",1); dictattr("whipsaw","jj-pref",1); dictattr("whitewalled","jj-pref",1); dictattr("wholehearted","jj-pref",1); dictattr("wicked","jj-pref",1); dictattr("widow","jj-pref",1); dictattr("wilt","jj-pref",1); dictattr("wing","jj-pref",1); dictattr("word","jj-pref",1); dictattr("worry","jj-pref",1); dictattr("wound","jj-pref",1); dictattr("wretched","jj-pref",1); dictattr("wrinkle","jj-pref",1); ######################################## # SOFT PLURALS ######################################## # Can participate in noun noun phrases. # Ex: A futures contract. dictattr("funds","soft-plural",1); dictattr("futures","soft-plural",1); dictattr("securities","soft-plural",1); ######################################## # COMMON CAPS/ABBRS ######################################## # Common abbreviations or capitals that # act like reqular words. dictattr("pc","common-cap",1); dictattr("pcs","common-cap",1); # FLAG THAT KB HAS BEEN LOADED. replaceval(findroot(),"kb loaded",1); @@CODE

@CODE # A global threshold for confidence in a category. #var("threshold", 70) # Minimum is 70% G("threshold") = 70; # Moved here. # @@CODE @NODES _ROOT @RULES _BLANKLINE <- _xWILD [min=0 max=0 matches=(\ \r \t)] \n @@ # Just whitespace. #_LINE <- _xWILD [min=0 max=0 fails=(\r \n \t)] \n @@ _LINE [unsealed] <- _xWILD [min=0 max=0 fails=(\n)] \n @@ _LINE [unsealed] <- _xWILD [plus fails=(\r \n)] @@

@NODES _LINE @PRE <1,1> cap(); <1,1> length(6); @RULES # Ex: Skills _SkillsHeaderWord [layer=(_headerWord )] <- _xWILD [min=1 max=1 s match=("Skills")] @@

@NODES _ROOT @POST prlit("ctc.txt", "CONTACT ZONE\n"); prlit("ctc.txt", "------------\n"); ndump("ctc.txt",1); prlit("ctc.txt", "\n"); @RULES _xNIL <- _contactZone @@

@DECL printblurb(L("out")) { L("out") << "*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*\n"; L("out") << "*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*\n"; L("out") << "*x* *x*\n"; L("out") << "*x* Copyright (C) 1990 University of Pennsylvania *x*\n"; L("out") << "*x* *x*\n"; L("out") << "*x* The data in this file are part of a preliminary version of the *x*\n"; L("out") << "*x* Penn Treebank Corpus. Any research using this corpus or based *x*\n"; L("out") << "*x* on it should acknowledge that fact, as well as the preliminary *x*\n"; L("out") << "*x* nature of the corpus. *x*\n"; L("out") << "*x* *x*\n"; L("out") << "*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*\n"; L("out") << "*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*\n"; L("out") << "*x* Copyright (C) 2005 Text Analysis International, Inc. *x*\n"; L("out") << "*x* All rights reserved. *x*\n"; L("out") << "*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*x*\n"; } ############ POSTOKB ## NOTE: Send pos to kb. ###################### postokb(L("nm"),L("txt")) { if (!L("nm") || !L("txt")) return; if (strisdigit(L("txt"))) return; # CONFIGURE: TO DISTINGUISH LETTER CASE, COMMENT THIS: # L("txt") = strtolower(L("txt")); # 09/24/13 AM. L("con") = getconcept(G("kbpos"),L("nm")); L("wcon") = getconcept(L("con"),L("txt")); } ############ POSTOFILE ## NOTE: Send pos to file. ###################### postofile() { if (!G("kbpos")) return; sorthier(G("kbpos")); L("o") = "pos.txt"; L("c") = down(G("kbpos")); while (L("c")) { L("o") << "\n" << strtoupper(conceptname(L("c"))) << "\n"; # Words for this pos. L("w") = down(L("c")); while (L("w")) { L("o") << conceptname(L("w")) << "\n"; L("w") = next(L("w")); } L("c") = next(L("c")); } } ################################################################### @CODE # If not outputting tags, exit. if (!G("verbose")) # Todo: another flag here. exitpass(); if (G("pretagged")) exitpass(); if (L("con") = findconcept(findroot(),"pos")) # 09/19/13 AM. rmconcept(L("con")); # CLEAR LIST FOR CURRENT DOC. # 09/19/13 AM. G("kbpos") = getconcept(findroot(),"pos"); # 09/16/13 AM. G("para") = "======================================"; if (G("treebank")) printblurb("tags.txt"); # Initialize traversal data. G("parseRoot") = pnroot(); G("node") = G("parseRoot"); G("depth") = 0; G("path") = 0; # Store the current path in the parse tree. L("newline") = 1; # If on a new empty line. L("newpar") = 0; # If at new paragraph. while (G("node")) # Traverse the parse tree. { G("path")[G("depth")] = G("node"); # Update path in the parse tree. G("childs") = pndown(G("node")); G("next") = pnnext(G("node")); # If there are prior deleted tokens, print those. # If bracketing this node, do the start. if (G("bracket") && pnvar(G("node"),"bracket")) { if (!L("newline") && !L("newpar")) "tags.txt" << "\n"; "tags.txt" << "[ "; L("newline") = 0; L("newpar") = 0; } # Stop at a node with a mypos variable. # Need some other way for default pos tags... L("nm") = pnname(G("node")); L("ln") = strlength(L("nm")) - 1; L("ch") = strpiece(L("nm"),0,0); if (L("ch") != "_") # Literal. { if (strisdigit(L("nm"))) pnreplaceval(G("node"),"mypos","CD"); else if (L("ch") == " " || L("ch") == "\t" || L("ch") == "\n" || L("ch") == "\r") ; # Ignore whitespace. else if (strisalpha(L("ch"))) { if (!pnvar(G("node"),"mypos")) pnreplaceval(G("node"),"mypos","UNKNOWN"); } else # Punctuation. pnreplaceval(G("node"),"nopos",1); L("nm") = "NIL"; } else { if (L("nm") == "_sent") { if (!G("bracket")) "tags.txt" << "\n"; else { if (!L("newline") && !L("newpar")) "tags.txt" << "\n"; if (!L("newpar")) "tags.txt" << "\n"; } L("newline") = 1; } else if (L("nm") == "_TEXTZONE") { if (!L("newline") && !L("newpar")) "tags.txt" << "\n"; if (!L("newpar")) "tags.txt" << "\n"; "tags.txt" << G("para") << "\n\n"; L("newline") = 1; L("newpar") = 1; } if (L("ln") >= 1) L("nm") = strpiece(L("nm"),1,L("ln")); } L("npos") = nodepos(G("node"),L("nm")); L("ignorepos") = pnvar(G("node"),"ignorepos"); L("nopos") = pnvar(G("node"),"nopos"); if (L("npos") && !L("ignorepos")) { L("newpar") = 0; G("gochilds") = 0; # Don't traverse children. L("txt") = prosify(G("node"),"text"); # 12/15/20 AM. "tags.txt" << L("txt") << "/" << L("npos") ; # CONFIGURE: EACH POS TO ITS OWN FILE. # # L("out") = L("nm") + ".txt"; # # L("out") << L("txt") << "\n"; # # OR THIS, ALL IN ONE FILE: # postokb(L("nm"),L("txt")); # 09/16/13 AM. if (!G("bracket")) { "tags.txt" << "\n"; L("newline") = 1; } else { "tags.txt" << " "; L("newline") = 0; } if (G("bracket") && pnvar(G("node"),"bracket")) { "tags.txt" << "]\n"; # End bracket. L("newline") = 1; } } else if (L("nopos")) # Things like punctuation... { L("newpar") = 0; G("gochilds") = 0; # Don't traverse children. L("txt") = pnvar(G("node"),"$text"); "tags.txt" << L("txt") << "/" << L("txt"); # Just echo it. if (!G("bracket")) { "tags.txt" << "\n"; L("newline") = 1; } else { "tags.txt" << " "; L("newline") = 0; } if (G("bracket") && pnvar(G("node"),"bracket")) { "tags.txt" << "]\n"; # End bracket. L("newline") = 1; } } else G("gochilds") = 1; # Traverse children. if (G("childs") # If node has children, traverse them. && G("gochilds")) { G("node") = G("childs"); ++G("depth"); } else if (G("next")) # If node has right sibling, get it. { G("node") = G("next"); } else # Try continuing from a parent. { G("done") = 0; G("node") = 0; while (!G("done")) # Find a continuation or quit. { if (--G("depth") > 0) { G("node") = G("path")[G("depth")]; # Move up to parent. if (G("bracket") && pnvar(G("node"),"bracket")) { "tags.txt" << "]\n"; # End bracket. L("newline") = 1; } if (G("node") = pnnext(G("node"))) # Try to move right. G("done") = 1; } else G("done") = 1; } } } postofile(); # 09/16/13 AM. @@CODE

# Make concept under given parent concept. Optionally as the numth child of the parent. num==0 or absent places concept at end of list of children. name is the name of new concept. L("return_con") = makeconcept(L("parent"), L("name"), L("num"));

@PATH _ROOT _headerZone _conjugationGroup _catGroup _liGroup @POST G("file") << G("verb") << " \"" << X("title",3) << "\" " << N("text",1) << " " << N("text",2) << " " << N("text",3) << "\n"; @RULES _xNIL <- _iGroup ### (1) _iGroup ### (2) _hiGroup [look] ### (3) @@ @POST G("file") << G("verb") << " \"" << X("title",3) << "\" " << N("text",1) << " " << N("text",2) << "\n"; @RULES _xNIL <- _iGroup ### (1) _hiGroup [look] ### (2) @@

@NODES _ROOT @PRE <1,1> vareq("num",0); @POST G("word") = N("$text",1); "word.txt" << N("$text",1) << "\n"; @RULES _xNIL <- _LINE ### (1) @@

################################################### # FILE: lines.pat # SUBJ: Gather Lines # CREATED: 10/Mar/99 # Date of this version: 31/Aug/01 # Copyright ################################################### @NODES _ROOT @RULES _BLANKLINE <- _xWILD [min=0 max=0 matches=(\ \t \r)] ### (1) \n ### (2) @@ _LINE <- _xWILD [min=0 max=0 fails=(\r \n)] ### (1) _xWILD [one match=(\n _xEND)] ### (2) @@ ################################################### # FILE: lines.pat # SUBJ: Gather Lines # CREATED: 10/Mar/99 # Date of this version: 31/Aug/01 # Copyright ################################################### @NODES _ROOT @RULES _BLANKLINE <- _xWILD [min=0 max=0 matches=(\ \t \r)] ### (1) \n ### (2) @@ _LINE <- _xWILD [min=0 max=0 fails=(\r \n)] ### (1) _xWILD [one match=(\n _xEND)] ### (2) @@ ################################################### # FILE: lines.pat # SUBJ: Gather Lines # CREATED: 10/Mar/99 # Date of this version: 31/Aug/01 # Copyright ################################################### @NODES _ROOT @RULES _BLANKLINE <- _xWILD [min=0 max=0 matches=(\ \t \r)] ### (1) \n ### (2) @@ _LINE <- _xWILD [min=0 max=0 fails=(\r \n)] ### (1) _xWILD [one match=(\n _xEND)] ### (2) @@

@PATH _ROOT _experienceZone _LINE @POST S("len") = 1; # One cap in list. single() @RULES # With [s], BASE is needed to prevent infinite loop in REC pass! # Making this unsealed so we can gather data within _Caps later. # (May not be needed.) _Caps [base unsealed] <- _xCAP [s] @@ _Caps [base unsealed] <- _educationPart [s] @@ # 12/02/99 AM. Hack. @POST ++N("len",1); # Increment number of caps. listadd(1,3) # Discard the matched whitespace. # Glom last cap into list, without nesting. @RULES _xNIL <- _Caps _xWHITE [s star] _xWILD [s one match=( _xCAP _possessive _CompleteSchoolName )] @@ # Adding a company pattern here. # @POST ++N("len",1); listadd(1,4) @RULES _xNIL <- _Caps \, [s] _xWHITE [s star] _companyRoot [s] @@ # Some generic stuff here. @POST # Don't increment length for this. # Should retain the ampersand. listadd(1,5) @RULES _xNIL <- _Caps _xWHITE [s star] \& [s] _xWHITE [s star] _xWILD [s one match=( _xCAP _possessive _CompleteSchoolName )] @@

@PATH _ROOT _posZone _defZone _definition _headerZone _LINE @POST addstrval(X("con",6),"text",N("text",1)); @RULES _xNIL <- _item ### (1) @@

# Sort the strings in multi-string-valued global variable varname @CODE G("xx") = "abacus"; G("xx")[1] = "aardvark"; sortvals("xx"); "output.txt" << G("xx") << "\n";

#@NODES _ROOT @PATH _ROOT @RULES _REZZONE [unsealed] <- _xWILD [plus fail=( _contactBoundary _objectiveBoundary _educationBoundary _experienceBoundary _skillsBoundary _presentationsBoundary _publicationsBoundary _referencesBoundary _otherBoundary )] @@

@CODE # rmchildren(findroot()); G("level_1_con") = makeconcept(findroot(),"level_1_con"); G("level_1_words") = addstrval(G("level_1_con"), "words", "Space separated string 1."); # G("level_1_num") = addnumval(G("level_1_con"), "num", 1); # G("level_1_word") = addstrval(G("level_1_con"), "word", "one"); G("level_2_con") = makeconcept(G("level_1_con"), "level_2_con"); G("level_2_words") = addstrval(G("level_2_con"), "words", "Space separated string 2."); # G("level_2_num") = addnumval(G("level_2_con"), "num", 2); # G("level_2_word") = addstrval(G("level_2_con"), "word", "two"); G("level_3_con") = makeconcept(G("level_2_con"), "level_3_con"); G("level_3_words") = addstrval(G("level_3_con"), "words", "Space separated string 3."); # G("level_3_num") = addnumval(G("level_3_con"), "num", 3); # G("level_3_word") = addstrval(G("level_3_con"), "word", "three"); G("level_3_con_2") = makeconcept(G("level_2_con"), "level_3_con_2"); G("level_3_words_2") = addstrval(G("level_3_con_2"), "words", "Space separated string 3, con 2."); DisplayKB(G("level_1_con"), 1); SaveKB("levels.kbb", G("level_1_con"), 2); @@CODE

@CODE if (!G("pretagged")) exitpass(); @@CODE @PATH _ROOT _LINE _pos _tok @POST lookupword(N(1)); @RULES _xNIL <- _xALPHA @@

@CODE DisplayKB(G("kb"),0); @@CODE

@CODE DisplayKB(G("people"),2); @@CODE

@NODES _ROOT @PRE <1,1> var("con"); <3,3> var("con"); @POST L("con") = PathToConcept(G("kb"),N("$text",1)); addstrval(L("con"),N("con",3),N("con",5)); @RULES _xNIL <- _LINE ### (1) _LINE ### (2) _LINE ### (3) _LINE ### (4) _LINE ### (5) @@

@NODES _ROOT @RULES _BLANKLINE <- _xWILD [min=0 max=0 matches=(\ \t \r)] ### (1) \n ### (2) @@ @POST S("num") = G("line number")++; S("text") = N("$text",1); single(); @RULES _LINE <- _xWILD [min=0 max=0 fails=(\r \n)] ### (1) _xWILD [one match=(\n _xEND)] ### (2) @@

# Create a dump file of knowledge base concept. kbdumptree(L("root_con"), L("file_str"));

@CODE SaveKB("iso-countries.kbb",G("iso"),2); sortchilds(G("countries")); DisplayKB(G("countries"),2); L("con") = down(G("countries")); "countries.dict" << "# Country names in English\n"; while (L("con")) { L("country") = strtolower(conceptname(L("con"))); "countries.dict" << L("country") << " country=1"; L("full") = strval(L("con"),"full"); "countries.dict" << " iso2=" << strval(L("con"),"iso2"); "countries.dict" << " iso3=" << strval(L("con"),"iso3"); "countries.dict" << "\n"; if (L("full") && (strendswith(L("full"),"of") || strendswith(L("full"),"the"))) { "countries.dict" << L("full") << " " << L("country") << " country=1"; "countries.dict" << " iso2=" << strval(L("con"),"iso2"); "countries.dict" << " iso3=" << strval(L("con"),"iso3"); "countries.dict" << "\n"; } L("con") = next(L("con")); } @@CODE

@NODES _LINE @RULES # Ex: "University of XXX (XXX), -> _SchoolNamePhrase" _SchoolNamePhrase [sealed] <- _SchoolNamePhrase [s] _xWHITE [star s] _xWILD [min=1 max=1 s match=(for of) ] _xWHITE [star s] _xWILD [s opt match=(the)] _xWHITE [s star] _xALPHA [s] _xWHITE [star s] _xWILD [opt s fails=( _xPUNCT _xWHITE _whtSEP _xNUM _degree _major _minor _gpa )] @@

@PATH _ROOT _paragraph _sentence ############################################### # Gal Luft, 57, ############################################### @PRE <3,3> var("age"); @POST S("con") = AddPerson(N(1),0); addnumval(S("con"),"age",num(N("$text",3))); single(); @RULES _person <- _xWILD [one match=(_person _titleCaps)] ### (1) \, ### (2) _xNUM ### (3) @@ ############################################### # Melissa Bragg of Canton, Ohio, ############################################### # @POST # S("con") = AddPerson(N(1),N(2)); # single(); # @RULES # _person <- # _person ### (1) # _residentOf ### (2) # @@

@NODES _LINE @PRE <1,1> cap(); @RULES # Ex: Northeastern _adjDirection <- _xWILD [min=1 max=1 s match=("Northeastern" "Southern" "Eastern" "Western" "Northern" "Northwestern" "Southeastern" "Southwestern" "Central")] @@

@CODE # If found new sentence breaks, do this pass. if (!G("eos")) exitpass(); @@CODE @NODES _TEXTZONE @CHECK if (!N("eos")) fail(); @RULES _EOS <- _xANY @@

@PATH _ROOT _paragraph _sentence @POST S("stock") = makeconcept(N("object",1),"stock"); addstrval(S("stock"),"action",N("$text",4)); addstrval(S("stock"),"percent",N("$text",5)); addnumval(S("stock"),"from",num(N("value",7))); addnumval(S("stock"),"to",num(N("value",9))); single(); @RULES _event <- _company [s] ### (1) stock [s] ### (2) _be [s] ### (3) _direction [s] ### (4) _percent [s] ### (5) from [s] ### (6) _money [s] ### (7) _to [s] ### (8) _money [s] ### (9) @@ @POST S("action") = makeconcept(X("object"),N("action",3)); addstrval(S("action"),"action","buy"); S("company1") = makeconcept(S("action"),"company1"); S("company2") = makeconcept(S("action"),"company2"); S("amount") = makeconcept(S("action"),"amount"); addstrval(S("company1"),"name",N("normal",1)); # COMPANY2 CONJUNCTION if (N("conj count",4)) { S("conj count") = 0; while (S("conj count") < N("conj count",4)) addstrval(S("company2"),"name",N("conj",4)[S("conj count")++]); } else addstrval(S("company2"),"name",N("normal",4)); # MONEY CONJUNCTION if (N("conj count",6)) { S("conj count") = 0; while (S("conj count") < N("conj count",6)) addnumval(S("amount"),N("conj type",6)[S("conj count")], num(N("conj value",6)[S("conj count")++]) ); } else addnumval(S("amount"),N("type",6),N("value",6)); single(); @RULES _event <- _company [s] ### (1) _have [s optional] ### (2) _xWILD [s matches=(_buy _acquire)] ### (3) _company [s] ### (4) for [s] ### (5) _money [s] ### (6) @@

@DECL DictionaryStart() { G("dict path") = G("$apppath") + "\\kb\\user\\all.dict"; G("dict") = openfile(G("dict path")); } DictionaryWord(L("word"),L("attrName"),L("value"),L("attrType")) { G("dict") << L("word") << " " << L("attrName") << "=" << L("value") << "\n"; } DictionaryEnd() { closefile(G("dict")); } @@DECL

@NODES _ROOT @POST "end.txt" << N("$text", 1) << "\n"; noop(); @RULES _xNIL <- _xWILD [fails=( \n _xEND)] ### (1) _xWILD ### (2) @@

@PATH _ROOT _headerZone @PRE <1,1> var("pos"); @POST G("vocab") << G("word") << " pos=" << N("pos"); @RULES _xNIL <- _headerZone ### (1) @@

@PATH _ROOT _paragraph _sentence @RULES _anaphora <- _pro [s] ### (1) @@ @POST pncopyvars(); single(); @RULES _anaphora <- _det [s optional] ### (1) _adj [s star] ### (2) _buyEvent [s] ### (3) @@

@CODE L("f") = "math.txt"; # L("sqrt") = sqrt(9); # L("pow") = pow(3,3); # L("max") = max(5,4); # L("min") = min(5,4); L("f") << "Square root 9: " << L("sqrt") << "\n"; L("f") << "3 squared: " << L("pow") << "\n"; L("f") << "max(5,4): " << L("min") << "\n"; L("f") << "min(5,4): " << L("min") << "\n"; @@CODE

@CODE L("hello") = 0; @@CODE @PATH _ROOT @PRE <2,2> varz("NL"); <3,3> var("NL"); # The newline-before-me attribute. @POST if (N("NL",1) > 1) { ++X("PARS"); # Count potential paragraphs. ++S("PAR"); } singler(1,2); @RULES _LINE [unsealed] <- _xANY _xWILD [star fail=(_dummy)] _xANY [opt lookahead] @@

@CODE L("hello") = 0; @@CODE #@PATH _ROOT _TEXTZONE _tok @NODES _tok # num - year - old # alpha - alpha - alpha @CHECK if (X("hyphenated")) fail(); @POST X("hyphenated") = 1; X("pos_np") = "JJ"; # Default. # 06/07/06 AM. xrename("_adj"); X("num-year-old") = 1; @RULES _xNIL <- _xSTART _xWILD [plus match=(_xNUM _xALPHA)] \- year \- old _xEND @@ # num - alpha - num # 1-for-2 # 2-out-of-3 # ... @CHECK if (X("hyphenated")) fail(); @POST X("hyphenated") = 1; X("pos_np") = "JJ"; X("num-dash-dash") = 1; xrename("_adj"); @RULES _xNIL <- _xSTART _xNUM _xWILD [plus match=(_xALPHA \- )] _xNUM _xEND @@ _xNIL <- _xSTART _xNUM \- _xALPHA \- _xALPHA _xEND @@ # year - earlier @CHECK if (X("hyphenated")) fail(); @POST X("hyphenated") = 1; X("pos_np") = "JJ"; xrename("_adj"); @RULES _xNIL <- year \- earlier @@ # alpha - and - alpha # alpha - alpha - alpha @CHECK if (X("hyphenated")) fail(); @POST X("hyphenated") = 1; X("pos_np") = "JJ"; # Default. # 06/07/06 AM. if (N("noun",1) && N("noun",5)) { # Todo: Proper setup of these nouns. # N("mypos",1) = N("mypos",5) = "NN"; xrename("_noun"); X("noun") = 1; chpos(X(),"NN"); } X("alpha-and-alpha") = 1; @RULES _xNIL <- _xALPHA \- and \- _xALPHA @@ # alpha - alpha - alpha @CHECK if (X("tok175 a-a-a-")) fail(); if (X("hyphenated")) fail(); # 05/28/07 AM. @POST X("hyphenated") = 1; # 05/28/07 AM. xrename("_adj"); if (N("noun",5)) X("pos_np") = "NN"; else { X("adj") = 1; chpos(X(),"JJ"); } X("tok175 a-a-a-") = 1; @RULES _xNIL <- _xSTART _xWILD [star match=( _xNUM \, \- )] _xALPHA \- _xALPHA \- _xALPHA _xWILD [star match=( \- _xALPHA)] _xEND @@ # alpha . alpha . alpha @CHECK if (X("tok175 a.a.a")) fail(); @POST xrename("_noun"); X("noun") = 1; chpos(X(),"NP"); X("tok175 a.a.a") = 1; @RULES _xNIL <- _xSTART _xALPHA \. _xALPHA \. _xALPHA _xWILD [star match=( \. _xALPHA)] _xEND @@ # alpha - alpha # Note: Splitting up the complex rule below. @PRE <2,2> var("noun"); <2,2> varz("adj"); <4,4> var("noun"); @CHECK if (X("hyphenated")) fail(); if (N("verb",4)) { if (!vconjq(N(4),"inf") && !vconjq(N(4),"-s")) fail(); } @POST L("tmp4") = N(4); X("hyphenated") = 1; L("cap2") = strisupper(N("$text",2)); L("cap4") = strisupper(N("$text",4)); if (L("cap2") || L("cap4")) X("cap") = 1; if (L("cap4")) X("pos_np") = "NP"; group(4,4,"_noun"); pncopyvars(L("tmp4"),N(4)); fixnoun(N(4)); L("pos") = N("mypos",4); if (L("pos") == "NNS") L("pos") = "NN"; # 05/21/07 AM. xrename("_adj"); if (pnvar(L("tmp4"),"sem") == "date") chpos(X(),"JJ"); # eg., "five-year". else chpos(X(),L("pos")); # NN or NNS... X("adj") = 1; X("tok175 a-a0") = 1; @RULES _xNIL <- _xSTART _xALPHA \- _xALPHA _xEND @@ # alpha - alpha # alpha dash alpha # If it gloms to a word, use that. @CHECK if (X("hyphenated")) fail(); @POST L("tmp4") = N(4); X("hyphenated") = 1; L("cap2") = strisupper(N("$text",2)); L("cap4") = strisupper(N("$text",4)); if (L("cap2") || L("cap4")) X("cap") = 1; if (L("cap4")) X("pos_np") = "NP"; # else # X("pos_np") = "JJ"; # Default. # # # Try glomming. # L("txt") = strtolower(N("$text",2)+N("$text",4)); # if (dictfindword(L("txt"))) # { # L("t") = N("$text",2)+N("$text",4); # Preserve case. # group(3,3,"_dash"); # xrename(L("t")); # lookupword(X()); # X("id") = "tok # } # else if (N("verb",4)) { L("vc") = vconj(N(4)); if (L("vc") == "-ing" || L("vc") == "-en" || L("vc") == "-edn") { L("inflected") = 1; X("pos_np") = "JJ"; # 05/04/07 AM. } } if (L("inflected") && !L("cap4")) { group(4,4,"_adj"); xrename("_adj"); X("pos_np") = "JJ"; # 05/04/07 AM. } else if (N("unknown",4) || X("cap")) # 06/21/06 AM. { group(4,4,"_noun"); xrename("_noun"); chpos(X(),"NP"); } else if (N("adj",4) || L("inflected")) { group(4,4,"_adj"); xrename("_adj"); X("pos_np") = "JJ"; # 05/04/07 AM. } else if (N("noun",4)) { # Default to adj for now. L("tmp4") = N(4); group(4,4,"_noun"); pncopyvars(L("tmp4"),N(4)); fixnoun(N(4)); L("pos") = N("mypos",4); # Don't know why this one was done. # # if (L("pos") == "NNS") # L("pos") = "NN"; # xrename("_adj"); if (pnvar(L("tmp4"),"sem") == "date") chpos(X(),"JJ"); # eg., "five-year". else chpos(X(),L("pos")); # NN or NNS... } else if (N("pos num",4) == 1 && N("adv",4)) { group(4,4,"_adv"); xrename("_adv"); } else { # Default to adj for now. group(4,4,"_adj"); xrename("_adj"); } X("tok175 a-a") = 1; @RULES _xNIL <- # 7 _xSTART _xALPHA # [s] buggy -- can't reduce nonlit to lit. \- _xALPHA # [s] buggy _xEND @@ # alpha - num @CHECK if (X("hyphenated")) fail(); @POST X("hyphenated") = 1; xrename("_noun"); if (strisupper(N("$text",2))) chpos(X(),"NP"); # Check plural etc. pncopyvars(N(2),X()); @RULES _xNIL <- _xSTART _xALPHA \- _xNUM _xEND @@ # inc.'s @POST X("dissolve") = 1; # Get rid of _tok node. group(4,5,"_aposS"); group(2,3,"_noun"); @RULES _xNIL <- _xWILD [one match=(_xSTART _conj)] _xALPHA [s] \. [opt] \' s _xEND @@ @POST X("dissolve") = 1; # Get rid of _tok node. group(4,5,"_aposD"); group(2,3,"_noun"); @RULES _xNIL <- _xWILD [one match=(_xSTART _conj)] _xALPHA [s] \. [opt] \' d _xEND @@ # @POST group(2,5,"_nounCountry"); group(2,2,"_noun"); @RULES _xNIL <- _xSTART U \. S \. _xWILD [one lookahead match=( \- )] @@ @POST group(2,5,"_nounCountry"); group(2,2,"_letlet"); chpos(X(),"NP"); X("cap") = 1; xrename("_noun"); @RULES _xNIL <- _xSTART U \. S \. _xEND @@ @PRE <2,2> length(1); <4,4> length(1); @POST group(2,5,"_letlet"); chpos(X(),"NP"); xrename("_noun"); @RULES _xNIL <- _xSTART _xCAP \. _xALPHA \. [opt] _xEND @@ @POST if (strislower(N("$text",4)) ) { group(4,4,"_adj"); xrename("_adj"); } else { group(4,4,"_noun"); group(2,4,"_caps"); xrename("_noun"); X("cap") = 1; X("glom") = 1; } @RULES _xNIL <- _xSTART _noun \- _xALPHA _xEND @@ @POST group(1,3,"_name"); xrename("_noun"); X("cap") = 1; # Flag capitalized token. @RULES _xNIL <- o \' _xALPHA @@ # num - alpha # num-alpha @CHECK if (!N("noun",4) && !N("adj",4)) fail(); @POST L("tmp4") = N(4); group(2,4,"_adj"); pncopyvars(L("tmp4"),N(2)); N("hyphenated",2) = 1; @RULES _xNIL <- _xSTART _num \- _xALPHA _xEND @@ # 's # ' s @CHECK if (pnname(X()) == "_aposS") fail(); # Guard against infinite loop here. @POST xrename("_aposS"); X("id") = "tok175 aposS"; X("nopos") = 0; # Valid possessive or verb pos for this. @RULES _xNIL <- \' s [s] @@ # 'd # ' d @CHECK if (pnname(X()) == "_aposD") fail(); # Guard against infinite loop here. @POST xrename("_aposD"); X("id") = "tok175 aposD"; X("aposD") = 1; X("nopos") = 0; # Valid possessive or verb pos for this. @RULES _xNIL <- \' d [s] @@ # 'll # ' ll @CHECK if (pnname(X()) == "_modal") fail(); # Guard against infinite loop here. @POST xrename("_modal"); X("id") = "tok175 aposLL"; X("aposLL") = 1; X("nopos") = 0; # Valid possessive or verb pos for this. X("stem") = X("sem") = "will"; chpos(X(),"MD"); @RULES _xNIL <- \' ll [s] @@ # 've # ' ve @CHECK if (pnname(X()) == "_verb") fail(); # Guard against infinite loop here. @POST xrename("_verb"); X("id") = "tok175 aposVE"; X("aposVE") = 1; X("nopos") = 0; # Valid possessive or verb pos for this. X("stem") = X("sem") = "have"; chpos(X(),"VBP"); group(1,2,"_have"); @RULES _xNIL <- \' ve [s] @@ # 'm # ' m @CHECK if (pnname(X()) == "_verb") fail(); # Guard against infinite loop here. @POST xrename("_verb"); X("id") = "tok175 aposM"; X("aposM") = 1; X("nopos") = 0; # Valid possessive or verb pos for this. X("stem") = X("sem") = "be"; chpos(X(),"VBP"); group(1,2,"_be"); @RULES _xNIL <- \' m [s] @@ # num - alpha # num-alpha @POST L("tmp4") = N(4); # Reduce to prevent infinite loop in recursive pass. if (N("noun",4)) group(4,4,"_noun"); else group(4,4,"_misc"); pncopyvars(L("tmp4"),N(4)); xrename("_adj"); X("hyphenated") = 1; X("pos_np") = "JJ"; # Default. # 06/07/06 AM. @RULES _xNIL <- _xSTART _xNUM \- _xALPHA _xEND @@ # year-to-year # Idiom... @CHECK if (X("adj")) fail(); # Loop guard. @POST xrename("_adj"); X("hyphenated") = 1; X("pos_np") = "JJ"; # Default. # 06/07/06 AM. X("adj") = 1; @RULES _xNIL <- _xSTART year \- to \- year _xEND @@ # adj - any @CHECK if (X("adj")) fail(); # Loop guard. @POST xrename("_adj"); X("hyphenated") = 1; X("pos_np") = "JJ"; # Default. # 06/07/06 AM. X("adj") = 1; clearpos(X(),1,0); @RULES _xNIL <- _xSTART _xWILD [one match=(_adj _num)] \- _xANY _xEND @@ # near - alpha @CHECK if (X("detok")) fail(); @POST X("detok") = 1; X("hyphenated") = 1; X("pos_np") = "JJ"; # Default. # 06/07/06 AM. chpos(N(1),"JJ"); # Near is adj here. L("tmp3") = N(3); # Discard verb... if (N("noun",3)) { group(3,3,"_noun"); xrename("_noun"); pncopyvars(L("tmp3"),N(3)); } else { group(3,3,"_adj"); xrename("_adj"); pncopyvars(L("tmp3"),N(3)); } X("posarr len") = X("nopos") = 1; @RULES _xNIL <- near [s] \- _xALPHA @@

@NODES _ROOT @POST S("section_title") = N("$text", 1); # excise(4,4); excise(1,2); single(); @RULES _section <- _xWILD [min=1 max=10 fails=(\: \n \r _break)] ### (1) \: [trig] ### (2) _xWILD [plus fails=(_break _xEND)] ### (3) # _xWILD [one matches=(_break _xEND)] ### (4) @@ # @POST # excise(1,1); # @RULES # _xNIL <- # _break # @@

@NODES _LINE @POST group(4,4,"_description"); group(2,2,"_code"); @RULES _xNIL <- _indent ### (1) _xWILD [fail=(_xWHITE)] ### (2) _xWHITE ### (3) _xWILD [fail=(_xEND)] ### (4) _xEND ### (5) @@

# Pre action that succeeds if leaf token has capitalized first letter @PRE <1,1>cap(); @RULES _noun <- _xALPHA@@

@NODES _LINE @RULES _comma <- \, ### (1) @@

@PATH _ROOT _doctypedecl _EntityDecl @POST if (N("$text",4)) S("buffer1") = str(N("$text",4)) ; if (N("$text",5)) S("buffer2") = str(N("$text",5)) ; if (S("buffer1") && S("buffer2")) { S("EntityName") = S("buffer1") + S("buffer2") ; } else if (S("buffer1")) S("EntityName") = S("buffer1") ; else if (S("buffer2")) S("EntityName") = S("buffer2") ; G("CurrentEntity") = findconcept(G("Entities"),S("EntityName")) ; if (G("CurrentEntity") == 0 ) { makeconcept(G("Entities"),S("EntityName")) ; G("CurrentEntity") = findconcept(G("Entities"),S("EntityName")) ; } addattr(G("CurrentEntity"),"parameter") ; addsval(G("CurrentEntity"),"parameter",1) ; addattr(G("CurrentEntity"),"internal") ; addsval(G("CurrentEntity"),"internal",0) ; addattr(G("CurrentEntity"),"textValue") ; addattr(G("CurrentEntity"),"URI") ; addstrval(G("CurrentEntity"),"URI",str(N("URI",7))) ; single() ; @@POST @RULES _PEDecl <- _whiteSpace [opt] _xWILD [s trig min=1 max=1 matches=("\%")] _whiteSpace _xWILD [s min=1 max=1 matches=("_xALPHA" "_" ":")] _xWILD [s min=0 max=0 matches=("_xALPHA" "_xNUM" "." "-" "_" ":")] _whiteSpace _ExternalID @@ @@RULES @POST if (N("$text",4)) S("buffer1") = str(N("$text",4)) ; if (N("$text",5)) S("buffer2") = str(N("$text",5)) ; if (S("buffer1") && S("buffer2")) { S("EntityName") = S("buffer1") + S("buffer2") ; } else if (S("buffer1")) S("EntityName") = S("buffer1") ; else if (S("buffer2")) S("EntityName") = S("buffer2") ; G("CurrentEntity") = findconcept(G("Entities"),S("EntityName")) ; if (G("CurrentEntity") == 0 ) { makeconcept(G("Entities"),S("EntityName")) ; G("CurrentEntity") = findconcept(G("Entities"),S("EntityName")) ; } addattr(G("CurrentEntity"),"parameter") ; addsval(G("CurrentEntity"),"parameter",1) ; addattr(G("CurrentEntity"),"internal") ; addsval(G("CurrentEntity"),"internal",1) ; addattr(G("CurrentEntity"),"textValue") ; addstrval(G("CurrentEntity"),"textValue",str(N("textValue",7))) ; single() ; @@POST @RULES _PEDecl <- _whiteSpace [opt] _xWILD [s trig min=1 max=1 matches=("\%")] _whiteSpace _xWILD [s min=1 max=1 matches=("_xALPHA" "_" ":")] _xWILD [s min=0 max=0 matches=("_xALPHA" "_xNUM" "." "-" "_" ":")] _whiteSpace _EntityRef @@ _PEDecl <- _whiteSpace [opt] _xWILD [s trig min=1 max=1 matches=("\%")] _whiteSpace _xWILD [s min=1 max=1 matches=("_xALPHA" "_" ":")] _xWILD [s min=0 max=0 matches=("_xALPHA" "_xNUM" "." "-" "_" ":")] _whiteSpace _PEReference @@ @@RULES @POST if (N("$text",4)) S("buffer1") = str(N("$text",4)) ; if (N("$text",5)) S("buffer2") = str(N("$text",5)) ; if (S("buffer1") && S("buffer2")) { S("EntityName") = S("buffer1") + S("buffer2") ; } else if (S("buffer1")) S("EntityName") = S("buffer1") ; else if (S("buffer2")) S("EntityName") = S("buffer2") ; G("CurrentEntity") = findconcept(G("Entities"),S("EntityName")) ; if (G("CurrentEntity") == 0 ) { makeconcept(G("Entities"),S("EntityName")) ; G("CurrentEntity") = findconcept(G("Entities"),S("EntityName")) ; } addattr(G("CurrentEntity"),"parameter") ; addsval(G("CurrentEntity"),"parameter",1) ; addattr(G("CurrentEntity"),"internal") ; addsval(G("CurrentEntity"),"internal",1) ; addattr(G("CurrentEntity"),"textValue") ; addstrval(G("CurrentEntity"),"textValue",str(N("textValue",7))) ; single() ; @@POST @RULES _PEDecl <- _whiteSpace [opt] _xWILD [s trig min=1 max=1 matches=("\%")] _whiteSpace _xWILD [s min=1 max=1 matches=("_xALPHA" "_" ":")] _xWILD [s min=0 max=0 matches=("_xALPHA" "_xNUM" "." "-" "_" ":")] _whiteSpace _PubidLiteral @@ _PEDecl <- _whiteSpace [opt] _xWILD [s trig min=1 max=1 matches=("\%")] _whiteSpace _xWILD [s min=1 max=1 matches=("_xALPHA" "_" ":")] _xWILD [s min=0 max=0 matches=("_xALPHA" "_xNUM" "." "-" "_" ":")] _whiteSpace _SystemLiteral @@ @@RULES @POST if (N("$text",2)) S("buffer1") = str(N("$text",2)) ; if (N("$text",3)) S("buffer2") = str(N("$text",3)) ; if (N("$text",2) && N("$text",3)) { S("EntityName") = S("buffer1") + S("buffer2") ; } else if (N("$text",2)) S("EntityName") = S("buffer1") ; else if (N("$text",3)) S("EntityName") = S("buffer2") ; G("CurrentEntity") = findconcept(G("Entities"),S("EntityName")) ; if (G("CurrentEntity") == 0 ) { makeconcept(G("Entities"),S("EntityName")) ; G("CurrentEntity") = findconcept(G("Entities"),S("EntityName")) ; } addattr(G("CurrentEntity"),"parameter") ; addsval(G("CurrentEntity"),"parameter",0) ; addattr(G("CurrentEntity"),"internal") ; addsval(G("CurrentEntity"),"internal",1) ; addattr(G("CurrentEntity"),"textValue") ; addstrval(G("CurrentEntity"),"textValue",str(N("textValue",5))) ; single() ; @@POST @RULES _GEDecl <- _whiteSpace [opt] _xWILD [s min=1 max=1 matches=("_xALPHA" "_" ":")] _xWILD [s min=0 max=0 matches=("_xALPHA" "_xNUM" "." "-" "_" ":")] _whiteSpace _PubidLiteral @@ _GEDecl <- _whiteSpace [opt] _xWILD [s min=1 max=1 matches=("_xALPHA" "_" ":")] _xWILD [s min=0 max=0 matches=("_xALPHA" "_xNUM" "." "-" "_" ":")] _whiteSpace _SystemLiteral @@ _GEDecl <- _whiteSpace [opt] _xWILD [s min=1 max=1 matches=("_xALPHA" "_" ":")] _xWILD [s min=0 max=0 matches=("_xALPHA" "_xNUM" "." "-" "_" ":")] _whiteSpace _EntityRef @@ _GEDecl <- _whiteSpace [opt] _xWILD [s min=1 max=1 matches=("_xALPHA" "_" ":")] _xWILD [s min=0 max=0 matches=("_xALPHA" "_xNUM" "." "-" "_" ":")] _whiteSpace _PEReference @@ _GEDecl <- _whiteSpace [opt] _xWILD [s min=1 max=1 matches=("_xALPHA" "_" ":")] _xWILD [s min=0 max=0 matches=("_xALPHA" "_xNUM" "." "-" "_" ":")] _whiteSpace _PubidLiteral @@ _GEDecl <- _whiteSpace [opt] _xWILD [s min=1 max=1 matches=("_xALPHA" "_" ":")] _xWILD [s min=0 max=0 matches=("_xALPHA" "_xNUM" "." "-" "_" ":")] _whiteSpace _SystemLiteral @@ @@RULES

@DECL ############################################### # General functions ############################################### AddUniqueCon(L("concept"),L("name")) { L("con") = findconcept(L("concept"),L("name")); if (!L("con")) L("con") = makeconcept(L("concept"),L("name")); return L("con"); } AddUniqueStr(L("concept"),L("attr"),L("value")) { if (L("value") && strval(L("concept"),L("attr")) != L("value")) addstrval(L("concept"),L("attr"),L("value")); } AddUniqueNum(L("concept"),L("attr"),L("value")) { "unique.txt" << L("attr") << " " << str(L("value")) << " " << conceptpath(L("concept")) << "\n"; L("val") = AttrValues(L("concept"),L("attr")); while (L("val")) { L("num") = getnumval(L("val")); "unique.txt" << " value: " << str(L("num")) << "\n"; if (L("num") == L("value")) return 0; L("val") = nextval(L("val")); } addnumval(L("concept"),L("attr"),L("value")); return 1; } AddUniqueConVal(L("concept"),L("attr"),L("value")) { "unique.txt" << L("attr") << " " << conceptpath(L("concept")) << " ==> " << L("attr") << " -- " << conceptpath(L("value")) << "\n"; L("val") = AttrValues(L("concept"),L("attr")); while (L("val")) { L("con") = getconval(L("val")); "unique.txt" << conceptname(L("con")) << "\n"; if (conceptpath(L("con")) == conceptpath(L("value"))) return 0; L("val") = nextval(L("val")); } addconval(L("concept"),L("attr"),L("value")); return 1; } CopyAttr(L("from"),L("to"),L("attr")) { L("from value") = strval(L("from"),L("attr")); if (L("from value")) { L("to value") = strval(L("to"),L("attr")); if (L("from value") && !L("to value")) addstrval(L("to"),L("attr"),L("from value")); } } CopyAttrNew(L("from"),L("to"),L("attr from"),L("attr to")) { L("from value") = strval(L("from"),L("attr from")); if (L("from value")) { L("to value") = strval(L("to"),L("attr to")); if (L("from value") && !L("to value")) addstrval(L("to"),L("attr to"),L("from value")); } } CopyConAttr(L("from"),L("to"),L("attr")) { L("from value") = conval(L("from"),L("attr")); if (L("from value")) { L("to value") = conval(L("to"),L("attr")); if (L("from value") && !L("to value")) addconval(L("to"),L("attr"),L("from value")); } } AttrValues(L("con"),L("attr")) { L("at") = findattr(L("con"),L("attr")); if (L("at")) return attrvals(L("at")); return 0; } LastChild(L("parent")) { L("child") = down(L("parent")); while (L("child")) { L("last") = L("child"); L("child") = next(L("child")); } return L("last"); } MakeCountCon(L("con"),L("count name")) { L("count name") = CountName(L("con"),L("count name")); return makeconcept(L("con"),L("count name")); } IncrementCount(L("con"),L("countname")) { L("count") = numval(L("con"),L("countname")); if (L("count")) { L("count") = L("count") + 1; replaceval(L("con"),L("countname"),L("count")); } else { addnumval(L("con"),L("countname"),1); L("count") = 1; } return L("count"); } CountName(L("con"),L("root")) { L("count") = IncrementCount(L("con"),L("root")); return L("root") + str(L("count")); } StripEndDigits(L("name")) { if (strisdigit(L("name"))) return 0; L("len") = strlength(L("name")) - 1; L("i") = L("len") - 1; L("str") = strpiece(L("name"),L("i"),L("len")); while (strisdigit(L("str")) && L("i")) { L("i")--; L("str") = strpiece(L("name"),L("i"),L("len")); } return strpiece(L("name"),0,L("i")); } ############################################### # KB Dump Functins ############################################### DumpKB(L("con"),L("file")) { L("dir") = G("$apppath") + "/kb/"; L("filename") = L("dir") + L("file") + ".kb"; if (!kbdumptree(L("con"),L("filename"))) { "kb.txt" << "FAILED dump: " << L("filename") << "\n"; } else { "kb.txt" << "DUMPED: " << L("filename") << "\n"; } } TakeKB(L("filename")) { L("path") = G("$apppath") + "/kb/" + L("filename") + ".kb"; "kb.txt" << "Taking: " << L("path") << "\n"; if (take(L("path"))) { "kb.txt" << " Taken successfully: " << L("path") << "\n"; } else { "kb.txt" << " Taken FAILED: " << L("path") << "\n"; } } ChildCount(L("con")) { L("count") = 0; L("child") = down(L("con")); while (L("child")) { L("count")++; L("child") = next(L("child")); } return L("count"); } ############################################### # KBB DISPLAY FUNCTIONS ############################################### DisplayKB(L("top con"),L("full")) { L("file") = DisplayFileName(); DisplayKBRecurse(L("file"),L("top con"),0,L("full")); L("file") << "\n"; return L("top con"); } KBHeader(L("text")) { L("file") = DisplayFileName(); L("file") << "#######################\n"; L("file") << "# " << L("text") << "\n"; L("file") << "#######################\n\n"; } DisplayFileName() { if (num(G("$passnum")) < 10) { L("file") = "ana00" + str(G("$passnum")); }else if (num(G("$passnum")) < 100) { L("file") = "ana0" + str(G("$passnum")); } else { L("file") = "ana0" + str(G("$passnum")); } L("file") = L("file") + ".kbb"; return L("file"); } DisplayKBRecurse(L("file"),L("top"),L("level"),L("full")) { if (L("level") == 0) { L("file") << conceptname(L("top")) << "\n"; } L("con") = down(L("top")); while (L("con")) { L("file") << SpacesStr(L("level")+1) << conceptname(L("con")); DisplayAttributes(L("file"),L("con"),L("full"),L("level")); L("file") << "\n"; if (down(L("con"))) { L("lev") = 1; DisplayKBRecurse(L("file"),L("con"),L("level")+L("lev"),L("full")); } L("con") = next(L("con")); } } DisplayAttributes(L("file"),L("con"),L("full"),L("level")) { L("attrs") = findattrs(L("con")); if (L("attrs")) L("file") << ": "; if (L("full") && L("attrs")) L("file") << "\n"; L("first attr") = 1; while (L("attrs")) { L("vals") = attrvals(L("attrs")); if (!L("full") && !L("first attr")) { L("file") << ", "; } if (L("full")) { if (!L("first attr")) L("file") << "\n"; L("file") << SpacesStr(L("level")+2); } L("file") << attrname(L("attrs")) << "=["; L("first") = 1; while (L("vals")) { if (!L("first")) L("file") << ","; L("val") = getstrval(L("vals")); L("num") = getnumval(L("vals")); L("con") = getconval(L("vals")); if (L("con")) { L("file") << conceptpath(L("con")); } else if (!L("full") && strlength(L("val")) > 20) { L("shorty") = strpiece(L("val"),0,20); L("file") << L("shorty"); L("file") << "..."; if (strendswith(L("val"),"\"")) L("file") << "\""; } else if (L("num") > -1) { L("file") << str(L("num")); } else { L("file") << L("val"); } L("first") = 0; L("vals") = nextval(L("vals")); } L("file") << "]"; L("first attr") = 0; L("attrs") = nextattr(L("attrs")); } } # Because NLP++ doesn't allow for empty strings, # this function can only be called with "num" >= 1 SpacesStr(L("num")) { L("n") = 1; L("spaces") = " "; while (L("n") < L("num")) { L("spaces") = L("spaces") + " "; L("n")++; } return L("spaces"); } ############################################### # DICTIONARY FUNCTIONS ############################################### DictionaryClear() { G("dictionary path") = G("$apppath") + "\\kb\\user\\dictionary.kb"; G("dictionary") = openfile(G("dictionary path")); } DictionaryWord(L("word"),L("attrName"),L("value"),L("attrType")) { L("file") = G("dictionary"); if (!dictfindword(L("word"))) L("file") << "add word \"" + L("word") + "\"\n"; L("file") << "ind attr\n" << findwordpath(L("word")) << "\n0\n"; L("file") << findwordpath(L("attrName")) << "\n"; if (L("attrType") == "str") L("file") << "pst\n" << L("value"); else if (L("attrType") == "num") L("file") << "pnum\n" << str(L("value")); else if (L("attrType") == "con") L("file") << "pcon\n" << conceptpath(L("value")); L("file") << "\nend ind\n\n"; } DictionaryEnd() { G("dictionary") << "\nquit\n\n"; closefile(G("dictionary")); } @@DECL