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GitHub:master GitHub:fix-somali GitHub:fix-listVPS2 GitHub:optimise-latvian GitHub:misc-malay-eng GitHub:somali-verbs-contractions GitHub:eleven-norwegian GitHub:build-action GitHub:experimental
GitHub:20260403 GitHub:20260401 GitHub:20250812 GitHub:20250429 GitHub:20201114 GitHub:GF-3.10 GitHub:RELEASE-3.9 GitHub:RELEASE-3.8

122 Commits
20260403 ... master

Author SHA1 Message Date
Krasimir Angelov
fe56b729b4 remove redundant parameters 2026-05-26 11:01:32 +02:00
Krasimir Angelov
cab232a4f6 added mkMU 2026-05-23 17:40:20 +02:00
Krasimir Angelov
cdeaf5a271 added ConstructionMkd 2026-05-23 17:35:06 +02:00
Krasimir Angelov
60e38122d0 additions by Codex 2026-05-23 07:33:51 +02:00
Krasimir Angelov
800e2b0dda more Hungarian functions 2026-05-22 13:23:32 +02:00
Krasimir Angelov
84bdce7cc8 import names 2026-05-21 17:17:17 +02:00
Krasimir Angelov
add5029b7a forgot tha names module 2026-05-21 17:15:47 +02:00
Krasimir Angelov
19ba581f0e a number of functions added by Codex 2026-05-21 16:39:56 +02:00
Krasimir Angelov
a890a1aad5 Merge branch 'master' of github.com:GrammaticalFramework/gf-rgl 2026-05-19 13:29:24 +02:00
Krasimir Angelov
26a1e55cbe more constructions 2026-05-19 13:29:03 +02:00
aarneranta
992e670c10 ParadigmsGre: case for mkPN Str Gender 2026-05-12 14:53:15 +02:00
Krasimir Angelov
eea95a6f76 no need to define g 2026-05-09 18:38:21 +02:00
Krasimir Angelov
f1facac1bf uncomment cases 2026-05-07 10:02:15 +02:00
Krasimir Angelov
c5bb0dacb5 extended pronouns 2026-05-07 08:49:43 +02:00
Krasimir Angelov
44ea945c8c added Human/NonHuman gender to select the right relative pronoun 2026-05-07 08:39:07 +02:00
Krasimir Angelov
9265270a0c added future tense and fix PossPron 2026-05-06 21:57:29 +02:00
Krasimir Angelov
86e2afcfc0 added documentation 2026-05-06 18:15:17 +02:00
Krasimir Angelov
6115d44398 insertAdv and insertAdvSlash should accumulate adverbs 2026-05-06 15:57:59 +02:00
Krasimir Angelov
cf6a376272 module for irregular verbs and eat_V2 in Lexicon 2026-05-06 15:11:03 +02:00
Krasimir Angelov
3a8527689c add CompoundN 2026-05-06 14:55:38 +02:00
Krasimir Angelov
416d37eee7 reorder definite and indefinite 2026-05-06 09:59:18 +02:00
Krasimir Angelov
c4d578cac3 started with past tense 2026-05-06 09:56:31 +02:00
Krasimir Angelov
a7341d9be1 added invarA 2026-05-06 09:18:32 +02:00
Krasimir Angelov
57ef377e6d added type signature 2026-05-05 21:42:57 +02:00
Krasimir Angelov
3a133d035d added lindef VP 2026-05-05 20:21:10 +02:00
Krasimir Angelov
912ddd521f linref for VP 2026-05-05 20:03:58 +02:00
Krasimir Angelov
945bc086f2 UttCN,UttAP,UttAdv 2026-05-05 15:11:43 +02:00
Krasimir Angelov
70806027c1 added infinitives 2026-05-05 15:03:53 +02:00
Krasimir Angelov
88a3759a9e forgot VerbFao.gf 2026-05-05 11:29:05 +02:00
Krasimir Angelov
1910010e70 sketch of the grammar generated with Codex 2026-05-05 11:05:50 +02:00
Krasimir Angelov
0cd851aa10 added mkACard 2026-05-05 08:48:32 +02:00
Krasimir Angelov
2b07314680 fix theyFem_Pron 2026-05-04 19:53:12 +02:00
Krasimir Angelov
a3e19ed673 added pronouns 2026-05-04 19:03:17 +02:00
Krasimir Angelov
b571d86b7c added pronouns and compounds 2026-04-30 19:13:25 +02:00
Krasimir Angelov
6064e69d8e Merge branch 'master' of github.com:GrammaticalFramework/gf-rgl 2026-04-30 07:06:25 +02:00
Krasimir Angelov
510abc0364 more variants of compoundN 2026-04-30 07:06:04 +02:00
Inari Listenmaa
331a07bd35 Merge pull request #471 from lauma/latvian-new 
Readme for new Latvian stuff
 2026-04-29 16:25:54 +02:00
lauma
34ba4cf564 Added readme with project acknowledgment and general info. 2026-04-29 17:20:00 +03:00
Krasimir Angelov
5a9ab2cbdf extended pronouns 2026-04-29 15:17:21 +02:00
Krasimir Angelov
97b8cb72aa added pronouns 2026-04-29 11:45:47 +02:00
Krasimir Angelov
09087c1944 lower-case fields Voc,Pres,Past 2026-04-28 11:20:11 +02:00
Krasimir Angelov
f497b4a63a added compoundN, compoundV, genNum 2026-04-28 11:09:29 +02:00
Krasimir Angelov
56e97ebfff spec->sp 2026-04-24 15:10:28 +02:00
Krasimir Angelov
16c19eb4b0 Merge branch 'master' of github.com:GrammaticalFramework/gf-rgl 2026-04-23 10:25:31 +02:00
Krasimir Angelov
35f5d9a68b Imperative_Jussive -> imperative 2026-04-23 10:25:08 +02:00
Inari Listenmaa
0f78e35bed Merge pull request #469 from lauma/latvian-new 
New implementation of Latvian nouns form Tēzaurs
 2026-04-23 09:49:04 +02:00
Inari Listenmaa
bff00560d5 (Som) Add full forms of the pronoun into the s field in UsePron… 
…The clitic forms used in VPs and Cls are syncategorematic, so those constructions did not break.
 2026-04-22 17:30:48 +02:00
Krasimir Angelov
4ab63d2d66 Neutr -> Neuter 2026-04-22 15:15:35 +02:00
Krasimir Angelov
41e3b8280b added gender to nouns 2026-04-22 13:25:04 +02:00
Krasimir Angelov
4a3e30a1cd Merge branch 'master' of github.com:GrammaticalFramework/gf-rgl 2026-04-21 20:28:15 +02:00
Krasimir Angelov
9458f96f0b remove duplicated definitions 2026-04-21 20:27:57 +02:00
lauma
ba922b5daa Tēzaurs Spring version 2026 2026-04-20 19:01:47 +03:00
lauma
f261b2f45b Tēzaurs export is ordered in alphabetical order to avoid line order fluctuations without actual change. 2026-04-20 19:01:47 +03:00
lauma
939e96fb6c Fixed gender for nouns like "ļaudis", "dzimtļaudis", "vecļaudis", where default paradigm gender is different from actual noun gender. 2026-04-20 19:01:47 +03:00
lauma
3da5f0d318 Tēzaurs place names are now of type LN and, thus, plural placenames like Cēsis don't have singular cases anymore. 2026-04-20 19:01:47 +03:00
lauma
37d915c879 This should help with renaming confilct ResLav.Voc, CommonX.Voc (in theory) 2026-04-20 19:01:46 +03:00
lauma
b69c3518a7 Updated dictionary nouns with custom vocatives and PWN IDs. 2026-04-20 19:01:46 +03:00
lauma
0896a77049 Note to future maintainer (me?) about inflecting in number for proper nouns. 2026-04-20 19:01:46 +03:00
lauma
7225033a03 Clean-up spam comments. 2026-04-20 19:01:46 +03:00
lauma
ed27aa97fc Tēzaurs noun lexicon export 2026-04-20 19:01:46 +03:00
lauma
de3d59c7e8 Work on the new noun paradigms. 2026-04-20 19:01:46 +03:00
lauma
03024d7b72 Merge remote-tracking branch 'origin/latvian-new' into latvian-new 2026-04-20 19:01:45 +03:00
lauma
f6187834c4 Merge remote-tracking branch 'origin/latvian-new' into latvian-new 2026-04-20 19:01:45 +03:00
Lauma
842747b407 Merge branch 'GrammaticalFramework:master' into latvian-new 2026-04-20 19:01:43 +03:00
Inari Listenmaa
922f664f74 imperative as linref for lexical verb categories 2026-04-20 09:12:27 +02:00
Krasimir Angelov
3943089d3d cosmetic changes in the tables 2026-04-20 08:17:18 +02:00
Krasimir Angelov
6a6788c24e Merge branch 'master' of github.com:GrammaticalFramework/gf-rgl 2026-04-17 20:08:55 +02:00
Krasimir Angelov
e7e7f12ad8 added documentation 2026-04-17 20:08:42 +02:00
Abdirahman Ahmed
90d8897bf9 Fix AdjCN to include comparative NP (ComparA) 
AdjCN currently ignores the 'compar' field from AP, causing the NP in
comparative constructions (ComparA) to be dropped.

Example:
- Expected: "guri ka weyn baabuur"
- Actual:   "guri ka weyn"

This change appends ap.compar in AdjCN, preserving the comparison NP.

A corresponding test has been added to src/somali/unittest/ap.gftest.
 2026-04-17 13:07:26 +02:00
Krasimir Angelov
be0fb1f7c1 indefinite article and MassNP 2026-04-16 19:15:34 +02:00
Krasimir Angelov
7d73dd8195 added UseV 2026-04-16 17:38:53 +02:00
Krasimir Angelov
48ec088faa more syntax 2026-04-16 16:20:18 +02:00
Krasimir Angelov
8a84ca1a45 added QuantityNP 2026-04-16 08:50:21 +02:00
Krasimir Angelov
34f5e625e3 added QuantityNP 2026-04-16 08:43:22 +02:00
Krasimir Angelov
27c2d7cbb3 medial verbs 2026-04-15 07:47:42 +02:00
Krasimir Angelov
26abc63953 fix ordinals 2026-04-15 07:37:33 +02:00
Krasimir Angelov
15df5ed37e fix PossNP 2026-04-15 07:24:17 +02:00
Krasimir Angelov
43f19f283e fix AdVVP, AdVVPSlash 2026-04-15 06:45:39 +02:00
Krasimir Angelov
9b6b94ec1d fix lincat AP 2026-04-14 11:34:12 +02:00
Krasimir Angelov
8b462bdbfb added feminine pronouns 2026-04-14 09:30:18 +02:00
Krasimir Angelov
14c7db6427 нито -> ниту 2026-04-14 09:07:16 +02:00
Krasimir Angelov
2c613bfc83 added dummy ExtendMlt 2026-04-14 09:06:11 +02:00
Krasimir Angelov
8a8c1c6b42 added copula 2026-04-14 08:59:01 +02:00
Krasimir Angelov
76b27152f9 ResMkd->ResHye 2026-04-14 07:23:19 +02:00
Krasimir Angelov
36bc768f26 forgot Structural 2026-04-14 07:16:06 +02:00
Krasimir Angelov
b7275a2bac added conjuncts 2026-04-13 20:54:46 +02:00
Krasimir Angelov
7e8e6dbf34 added conjunctions 2026-04-13 20:46:06 +02:00
Krasimir Angelov
27ff3935c5 added mkDet 2026-04-13 19:34:44 +02:00
Krasimir Angelov
4cd3d3158e added pronouns 2026-04-13 16:27:30 +02:00
Krasimir Angelov
e3b27613fd elements of syntax for nouns phrases 2026-04-13 16:05:39 +02:00
Krasimir Angelov
5f6a8b2905 fix compilation 2026-04-13 11:04:31 +02:00
Krasimir Angelov
6203aee170 fix EmbedVP 2026-04-13 10:29:37 +02:00
Krasimir Angelov
ffb77daf31 fix UttVP 2026-04-13 10:17:17 +02:00
Krasimir Angelov
494c91f9dd whatSg_IP/whatPl_IP 2026-04-13 09:51:15 +02:00
Krasimir Angelov
6f6405b90e make it compile again 2026-04-13 09:35:08 +02:00
Krasimir Angelov
da0e273d3d improved several functions 2026-04-13 09:13:38 +02:00
Krasimir Angelov
263b668249 more fixes 2026-04-11 18:04:50 +02:00
Krasimir Angelov
019a347246 fixes 2026-04-11 17:21:09 +02:00
Krasimir Angelov
6aeda22ed6 fix imperatives 2026-04-11 16:28:55 +02:00
Krasimir Angelov
ae9b7d4d45 added pidgin rules 2026-04-11 15:33:05 +02:00
Krasimir Angelov
323e4b4cdf more structural words 2026-04-11 15:03:44 +02:00
Krasimir Angelov
e42c5f53e2 added this_Quant, that_Quant 2026-04-11 14:09:44 +02:00
Krasimir Angelov
fea01dd313 added questions and relative clauses 2026-04-11 12:01:59 +02:00
Krasimir Angelov
9e402cb608 prepare for numerals with countable forms 2026-04-11 08:58:08 +02:00
Krasimir Angelov
401ac1f954 added missing files 2026-04-11 08:45:52 +02:00
Krasimir Angelov
6a2cb9ec77 Merge branch 'master' of github.com:GrammaticalFramework/gf-rgl 2026-04-10 19:58:56 +02:00
Krasimir Angelov
b339f7c2fc started with tenses 2026-04-10 19:58:11 +02:00
EkaterinaVoloshina
d6f3cae141 fixed names of fields 2026-04-10 15:57:46 +02:00
EkaterinaVoloshina
44acdbd350 fixed fields in armenian 2026-04-10 15:49:30 +02:00
EkaterinaVoloshina
f630f6ef29 Merge branch 'master' of https://github.com/GrammaticalFramework/gf-rgl 2026-04-10 15:14:39 +02:00
EkaterinaVoloshina
8808ce108b changed fields 2026-04-10 15:12:02 +02:00
Krasimir Angelov
1c3bb0f6eb added relative pronoun 2026-04-09 14:25:26 +02:00
Krasimir Angelov
5cc990d259 added CompoundN 2026-04-09 14:03:06 +02:00
Krasimir Angelov
621cfd8b43 support for medial verbs 2026-04-05 11:39:43 +02:00
Krasimir Angelov
deb9d40b7e placeholders for morphological functions 2026-04-04 11:18:04 +02:00
Krasimir Angelov
25f422f5ca Merge branch 'master' of github.com:GrammaticalFramework/gf-rgl 2026-04-03 16:57:43 +02:00
Krasimir Angelov
f0abf5deff added compoundV 2026-04-03 16:55:51 +02:00
lauma
fe2dde5a2c Merge remote-tracking branch 'origin/latvian-new' into latvian-new 2025-10-25 01:01:50 +03:00
lauma
2adce20f76 Work on the new noun paradigms. 2025-10-25 00:56:24 +03:00
Lauma
b8a0e7adfe Merge branch 'GrammaticalFramework:master' into latvian-new 2025-10-25 00:55:15 +03:00
lauma
e4cf12ee1a Uncommented large functions 2025-08-25 17:19:40 +03:00
lauma
943f387a23 Noun stemchanges for the Lav remake. 2025-08-25 17:17:51 +03:00
150 changed files with 145405 additions and 4782 deletions
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84
src/albanian/CatSqi.gf
View File

@@ -1,25 +1,61 @@
concrete CatSqi of Cat = CommonX ** open ParamX, Prelude, ResSqi in {
lincat N = Noun ;
lincat N2 = Noun ** {c2 : Compl} ;
lincat N3 = Noun ** {c2,c3 : Compl} ;
lincat A = Adj ;
lincat A2 = Adj ** {c2 : Compl} ;
lincat V, VA, VV, VS, VQ = Verb ;
lincat V2, V2S, V2Q = Verb ** {c2 : Compl} ;
lincat V3, V2A, V2V = Verb ** {c2,c3 : Compl} ;
lincat Prep = Compl ;
lincat Numeral = {s : Str} ;
lincat Digits = {s : Str; n : Number; tail : DTail} ;
lincat Decimal = {s : Str; n : Number; hasDot : Bool} ;
lincat AP = {s: Species => Case => Gender => Number => Str} ;
lincat CN = Noun ;
lincat Num = {s : Str; n : Number} ;
lincat Quant = {s : Case => Gender => Number => Str; spec : Species} ;
lincat Det = {s : Case => Gender => Str; spec : Species; n : Number} ;
lincat NP = {s: Case => Str; a : Agr} ;
lincat Pron = {s: Case => Str; acc_clit, dat_clit : Str; a : Agr} ;
concrete CatSqi of Cat = CommonX ** open ParamX,Prelude,ResSqi in {
lincat A = Adj ;
lincat A2 = Adj ** {c2 : Compl} ;
lincat V, VA, VV, VS, VQ = Verb ;
lincat V2, V2S, V2Q = Verb ** {c2 : Compl} ;
lincat V3, V2A, V2V = Verb ** {c2,c3 : Compl} ;
lincat Prep = Compl ;
lincat ACard = {s : Str} ;
lincat AP = {s : Species => Case => Gender => Number => Str} ;
lincat CN = Noun ;
lincat Card = {s : Str} ;
lincat Cl = {s : Str} ;
lincat ClSlash = {s : Str} ;
lincat Comp = {s : Str} ;
lincat Conj = {s : Str} ;
lincat DAP = {s : Str} ;
lincat Decimal = {s : Str; n : Number; hasDot : Bool} ;
lincat Det = {s : Case => Gender => Str; sp : Species; n : Number} ;
lincat Digits = {s : Str; n : Number; tail : DTail} ;
lincat GN = {s : Str} ;
lincat IComp = {s : Str} ;
lincat IDet = {s : Str} ;
lincat IP = {s : Str} ;
lincat IQuant = {s : Str} ;
lincat Imp = {s : Str} ;
lincat LN = {s : Str} ;
lincat N = Noun ;
lincat N2 = {s : Species => Case => Number => Str; g : Gender;
c2 : {s : Str}} ;
lincat N3 = {s : Species => Case => Number => Str; g : Gender;
c2 : {s : Str}; c3 : {s : Str}} ;
lincat NP = {s : Case => Str; a : Agr} ;
lincat Num = {s : Str; n : Number} ;
lincat Numeral = {s : Str} ;
lincat Ord = {s : Str} ;
lincat PN = {s : Str} ;
lincat Predet = {s : Str} ;
lincat Pron = {s: Case => Str; acc_clit, dat_clit : Str; a : Agr} ;
lincat QCl = {s : Str} ;
lincat QS = {s : Str} ;
lincat Quant = {s : Case => Gender => Number => Str; sp : Species} ;
lincat RCl = {s : Str} ;
lincat RP = {s : Str} ;
lincat RS = {s : Str} ;
lincat S = {s : Str} ;
lincat SN = {s : Str} ;
lincat SSlash = {s : Str} ;
lincat Subj = {s : Str} ;
lincat VP = {indicative : Tense => Number => Person => Case => Str;
participle : Case => Str;
pres_optative : Number => Person => Case => Str;
perf_optative : Number => Person => Case => Str;
pres_admirative : Number => Person => Case => Str;
imperf_admirative : Number => Person => Case => Str} ;
lincat VPSlash = {indicative : Tense => Number => Person => Str;
imperative : Number => Str; participle : Str;
pres_optative : Number => Person => Str;
perf_optative : Number => Person => Str;
pres_admirative : Number => Person => Str;
imperf_admirative : Number => Person => Str} ;
}

52
src/albanian/DocumentationSqi.gf
View File

@@ -51,32 +51,32 @@ lin InflectionV = \x -> {
t="fl" ;
s1=heading1 "Folje" ;
s2=frameTable (
tr (intagAttr "th" "rowspan=\"24\"" "Indicative" ++ intagAttr "th" "rowspan=\"6\"" "Pres" ++ intagAttr "th" "rowspan=\"3\"" "Sg" ++ th "P1" ++ td (x.Indicative ! Pres ! Sg ! P1)) ++
tr (th "P2" ++ td (x.Indicative ! Pres ! Sg ! P2)) ++
tr (th "P3" ++ td (x.Indicative ! Pres ! Sg ! P3)) ++
tr (intagAttr "th" "rowspan=\"3\"" "Pl" ++ th "P1" ++ td (x.Indicative ! Pres ! Pl ! P1)) ++
tr (th "P2" ++ td (x.Indicative ! Pres ! Pl ! P2)) ++
tr (th "P3" ++ td (x.Indicative ! Pres ! Pl ! P3)) ++
tr (intagAttr "th" "rowspan=\"6\"" "Past" ++ intagAttr "th" "rowspan=\"3\"" "Sg" ++ th "P1" ++ td (x.Indicative ! Past ! Sg ! P1)) ++
tr (th "P2" ++ td (x.Indicative ! Past ! Sg ! P2)) ++
tr (th "P3" ++ td (x.Indicative ! Past ! Sg ! P3)) ++
tr (intagAttr "th" "rowspan=\"3\"" "Pl" ++ th "P1" ++ td (x.Indicative ! Past ! Pl ! P1)) ++
tr (th "P2" ++ td (x.Indicative ! Past ! Pl ! P2)) ++
tr (th "P3" ++ td (x.Indicative ! Past ! Pl ! P3)) ++
tr (intagAttr "th" "rowspan=\"6\"" "Aorist" ++ intagAttr "th" "rowspan=\"3\"" "Sg" ++ th "P1" ++ td (x.Indicative ! Aorist ! Sg ! P1)) ++
tr (th "P2" ++ td (x.Indicative ! Aorist ! Sg ! P2)) ++
tr (th "P3" ++ td (x.Indicative ! Aorist ! Sg ! P3)) ++
tr (intagAttr "th" "rowspan=\"3\"" "Pl" ++ th "P1" ++ td (x.Indicative ! Aorist ! Pl ! P1)) ++
tr (th "P2" ++ td (x.Indicative ! Aorist ! Pl ! P2)) ++
tr (th "P3" ++ td (x.Indicative ! Aorist ! Pl ! P3)) ++
tr (intagAttr "th" "rowspan=\"6\"" "Imperfect" ++ intagAttr "th" "rowspan=\"3\"" "Sg" ++ th "P1" ++ td (x.Indicative ! Imperfect ! Sg ! P1)) ++
tr (th "P2" ++ td (x.Indicative ! Imperfect ! Sg ! P2)) ++
tr (th "P3" ++ td (x.Indicative ! Imperfect ! Sg ! P3)) ++
tr (intagAttr "th" "rowspan=\"3\"" "Pl" ++ th "P1" ++ td (x.Indicative ! Imperfect ! Pl ! P1)) ++
tr (th "P2" ++ td (x.Indicative ! Imperfect ! Pl ! P2)) ++
tr (th "P3" ++ td (x.Indicative ! Imperfect ! Pl ! P3)) ++
tr (intagAttr "th" "rowspan=\"2\"" "Imperative" ++ th "Sg" ++ td (x.Imperative ! Sg)) ++
tr (th "Pl" ++ td (x.Imperative ! Pl)) ++
tr (intagAttr "th" "rowspan=\"24\"" "Indicative" ++ intagAttr "th" "rowspan=\"6\"" "Pres" ++ intagAttr "th" "rowspan=\"3\"" "Sg" ++ th "P1" ++ td (x.indicative ! Pres ! Sg ! P1)) ++
tr (th "P2" ++ td (x.indicative ! Pres ! Sg ! P2)) ++
tr (th "P3" ++ td (x.indicative ! Pres ! Sg ! P3)) ++
tr (intagAttr "th" "rowspan=\"3\"" "Pl" ++ th "P1" ++ td (x.indicative ! Pres ! Pl ! P1)) ++
tr (th "P2" ++ td (x.indicative ! Pres ! Pl ! P2)) ++
tr (th "P3" ++ td (x.indicative ! Pres ! Pl ! P3)) ++
tr (intagAttr "th" "rowspan=\"6\"" "Past" ++ intagAttr "th" "rowspan=\"3\"" "Sg" ++ th "P1" ++ td (x.indicative ! Past ! Sg ! P1)) ++
tr (th "P2" ++ td (x.indicative ! Past ! Sg ! P2)) ++
tr (th "P3" ++ td (x.indicative ! Past ! Sg ! P3)) ++
tr (intagAttr "th" "rowspan=\"3\"" "Pl" ++ th "P1" ++ td (x.indicative ! Past ! Pl ! P1)) ++
tr (th "P2" ++ td (x.indicative ! Past ! Pl ! P2)) ++
tr (th "P3" ++ td (x.indicative ! Past ! Pl ! P3)) ++
tr (intagAttr "th" "rowspan=\"6\"" "Aorist" ++ intagAttr "th" "rowspan=\"3\"" "Sg" ++ th "P1" ++ td (x.indicative ! Aorist ! Sg ! P1)) ++
tr (th "P2" ++ td (x.indicative ! Aorist ! Sg ! P2)) ++
tr (th "P3" ++ td (x.indicative ! Aorist ! Sg ! P3)) ++
tr (intagAttr "th" "rowspan=\"3\"" "Pl" ++ th "P1" ++ td (x.indicative ! Aorist ! Pl ! P1)) ++
tr (th "P2" ++ td (x.indicative ! Aorist ! Pl ! P2)) ++
tr (th "P3" ++ td (x.indicative ! Aorist ! Pl ! P3)) ++
tr (intagAttr "th" "rowspan=\"6\"" "Imperfect" ++ intagAttr "th" "rowspan=\"3\"" "Sg" ++ th "P1" ++ td (x.indicative ! Imperfect ! Sg ! P1)) ++
tr (th "P2" ++ td (x.indicative ! Imperfect ! Sg ! P2)) ++
tr (th "P3" ++ td (x.indicative ! Imperfect ! Sg ! P3)) ++
tr (intagAttr "th" "rowspan=\"3\"" "Pl" ++ th "P1" ++ td (x.indicative ! Imperfect ! Pl ! P1)) ++
tr (th "P2" ++ td (x.indicative ! Imperfect ! Pl ! P2)) ++
tr (th "P3" ++ td (x.indicative ! Imperfect ! Pl ! P3)) ++
tr (intagAttr "th" "rowspan=\"2\"" "Imperative" ++ th "Sg" ++ td (x.imperative ! Sg)) ++
tr (th "Pl" ++ td (x.imperative ! Pl)) ++
tr (th "participle" ++ td (x.participle)) ++
tr (intagAttr "th" "rowspan=\"6\"" "pres_optative" ++ intagAttr "th" "rowspan=\"3\"" "Sg" ++ th "P1" ++ td (x.pres_optative ! Sg ! P1)) ++
tr (th "P2" ++ td (x.pres_optative ! Sg ! P2)) ++

540
src/albanian/MorphoSqi.gf
View File

File diff suppressed because it is too large Load Diff

11
src/albanian/NounSqi.gf
View File

@@ -4,16 +4,16 @@ concrete NounSqi of Noun = CatSqi ** open MorphoSqi, ResSqi in {
lin
DetCN det cn = {
s = \\c => det.s ! c ! cn.g ++ cn.s ! det.spec ! c ! det.n ;
s = \\c => det.s ! c ! cn.g ++ cn.s ! det.sp ! c ! det.n ;
a = agrgP3 cn.g det.n
} ;
UsePron p = p ;
-- UsePron p = p ;
DetQuant quant num = {
s = \\c,g => quant.s ! c ! g ! num.n ++ num.s ;
n = num.n ;
spec = quant.spec
sp = quant.sp
} ;
NumSg = {s = []; n = Sg} ;
@@ -21,16 +21,15 @@ concrete NounSqi of Noun = CatSqi ** open MorphoSqi, ResSqi in {
DefArt = {
s = \\c,g,n => [] ;
spec = Def
sp = Def
} ;
IndefArt = {
s = \\c,g => table Number ["një"; []] ;
spec = Indef
sp = Indef
} ;
UseN n = n ;
UseN2 n = n ;
AdjCN ap cn = {
s = \\spec,c,n => cn.s ! spec ! c ! n ++ ap.s ! spec ! c ! cn.g ! n ;

4
src/albanian/ParadigmsSqi.gf
View File

@@ -1327,7 +1327,7 @@ oper mkQuant : (_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_ : Str) -> Quant =
}
}
} ;
spec = Indef
sp = Indef
} ;
oper mkDet : (_,_,_,_,_,_,_,_ : Str) -> Number -> Det =
@@ -1350,7 +1350,7 @@ oper mkDet : (_,_,_,_,_,_,_,_ : Str) -> Number -> Det =
Fem => f8
}
} ;
spec = Indef ;
sp = Indef ;
n = n
} ;

6
src/albanian/ResSqi.gf
View File

@@ -104,10 +104,10 @@ oper mkAdj : (_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_ : Str) -> Bool -> Adj =
param Tense = Pres | Past | Imperfect | Aorist ;
oper Verb = {Indicative: Tense => Number => Person => Str; Imperative: Number => Str; participle: Str; pres_optative: Number => Person => Str; perf_optative: Number => Person => Str; pres_admirative: Number => Person => Str; imperf_admirative: Number => Person => Str} ; -- 758
oper Verb = {indicative: Tense => Number => Person => Str; imperative: Number => Str; participle: Str; pres_optative: Number => Person => Str; perf_optative: Number => Person => Str; pres_admirative: Number => Person => Str; imperf_admirative: Number => Person => Str} ; -- 758
oper mkVerb : (_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_ : Str) -> Verb =
\f1,f2,f3,f4,f5,f6,f7,f8,f9,f10,f11,f12,f13,f14,f15,f16,f17,f18,f19,f20,f21,f22,f23,f24,f25,f26,f27,f28,f29,f30,f31,f32,f33,f34,f35,f36,f37,f38,f39,f40,f41,f42,f43,f44,f45,f46,f47,f48,f49,f50,f51 ->
{ Indicative = table {
{ indicative = table {
Pres => table {
Sg => table {
P1 => f1 ;
@@ -157,7 +157,7 @@ oper mkVerb : (_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_
}
}
} ;
Imperative = table {
imperative = table {
Sg => f25 ;
Pl => f26
} ;

421
src/amharic/PatternsAmh.gf
View File

@@ -128,10 +128,8 @@ C1eC2aC3 = {C1 ="" ; C1C2="'"; C2C3 ="!"; C3="#"};
peC1aC2C3 = { C1 = "ä" ; C1C2="'"; C2C3 ="'"; C3=""};
penC1aC2C3e = { C1 = "än" ; C1C2="'"; C2C3 ="'"; C3=""};
pteC1aC2C3 = { C1 = "t" ; C1C2="'"; C2C3 ="'"; C3=""};
pteC1aC2C3 = { C1 = "t" ; C1C2="'"; C2C3 ="'"; C3=""};-- 3
pteC1aC2C3u = { C1 = "t" ; C1C2="'"; C2C3 ="'"; C3="&"};
pyeC1aC2C3 = { C1 = "y" ; C1C2="'"; C2C3 ="'"; C3=""};
pteC1aC2C3 = { C1 = "t" ; C1C2="'"; C2C3 ="'"; C3=""};
pyeC1aC2C3u = { C1 = "y" ; C1C2="'"; C2C3 ="'"; C3="&"};
--Passive Jus_Imperat mkV3gdl
@@ -343,7 +341,6 @@ leC1AC2aC3 = {C1 ="l" ; C1C2="!"; C2C3 ="'"; C3=""};
enC1AC2aC3 = { C1 = "(n" ; C1C2="!"; C2C3 ="'"; C3=""};
C1AC2aC3 = { C1 = "" ; C1C2="!"; C2C3 ="'"; C3=""};
C1AC2aC3i = { C1 = "" ; C1C2="!"; C2C3 ="'"; C3="#"};
C1AC2aC3u = { C1 = "" ; C1C2="!"; C2C3 ="'"; C3="&"};
yC1AC2aC3 = { C1 = "y" ; C1C2="!"; C2C3 ="'"; C3=""};
tC1AC2aC3 = { C1 = "t" ; C1C2="!"; C2C3 ="'"; C3=""};
yC1AC2aC3u = { C1 = "y" ; C1C2="!"; C2C3 ="'"; C3="&"};
@@ -661,7 +658,7 @@ C1AC2n = { C1 = "" ; C1C2="!"; C2 ="n"};
C1AC2k = { C1 = "" ; C1C2="!"; C2 ="k"};
C1AC2sh = { C1 = "" ; C1C2="!"; C2 ="x"};
C1AC2achehu = { C1 = "" ; C1C2 ="!"; C2 ="!ch&"};
C1AC2a = { C1 = "" ; C1C2="!"; C2 ="'"};
C1AC2a = { C1 = "" ; C1C2="!"; C2 ="'"};
C1AC2ach = { C1 = "" ; C1C2="!"; C2 ="'c"};
C1AC2u = { C1 = "" ; C1C2="!"; C2 ="&"};
-- Imper -- mkV2yz
@@ -701,7 +698,6 @@ C1C2ek = { C1 = "" ; C1C2=""; C2 ="'k"};
C1C2esh = { C1 = "" ; C1C2=""; C2 ="'x"};
C1C2achehu = { C1 = "" ; C1C2=""; C2 ="!ch&"};
C1C2o = { C1 = "" ; C1C2=""; C2 ="/"};
C1C2a = { C1 = "" ; C1C2=""; C2="!"};
C1C2ew = { C1 = "" ; C1C2=""; C2="'w"};
--CompPer mkV2yz y!l'h& !l !l !l cX7l 7l l'c !l
@@ -721,81 +717,12 @@ meC1aC2= {C1 ="m'" ; C1C2="!"; C2 =""};
--Infinitve mkV2yz
C1aC2ii= {C1 ="" ; C1C2="!"; C2 ="#"};
--mkV2yz -- yz -- catch
--Perf --
C1AC2hu = {C1 ="" ; C1C2="!"; C2 ="h&"};
C1AC2n = { C1 = "" ; C1C2="!"; C2 ="n"};
C1AC2k = { C1 = "" ; C1C2="!"; C2 ="k"};
C1AC2sh = { C1 = "" ; C1C2="!"; C2 ="x"};
C1AC2achehu = { C1 = "" ; C1C2 ="!"; C2 ="!ch&"};
C1AC2a = { C1 = "" ; C1C2="!"; C2 ="'"};
C1AC2ach = { C1 = "" ; C1C2="!"; C2 ="'c"};
C1AC2u = { C1 = "" ; C1C2="!"; C2 ="&"};
-- Imper -- mkV2yz
eC1C2alehu = { C1 = "ä" ; C1C2=""; C2 ="!l'h&"};
enC1C2alen = { C1 = "än" ; C1C2=""; C2 ="!l'n"};
teC1C2yaleh = { C1 = "t" ; C1C2=""; C2 ="!l'h"};
teC1C2aleh = { C1 = "t" ; C1C2=""; C2 ="y!l'x"};
teC1C2alachehu = { C1 = "t" ; C1C2=""; C2 ="!l!ch&"};
yeC1C2al = { C1 = "y" ; C1C2=""; C2 ="!l"};
teC1C2alech = { C1 = "t" ; C1C2=""; C2 ="!l'c"};
yeC1C2alu = { C1 = "y" ; C1C2=""; C2 ="!l&"};
-- Cont -- mkV2yz
eC1C2 = { C1 = "ä" ; C1C2=""; C2 =""};
enC1C2 = { C1 = "än" ; C1C2=""; C2 =""};
teC1C2 = { C1 = "t" ; C1C2=""; C2 =""};
--teC1C2 = { C1 = "t" ; C1C2=""; C2 =""};3
teC1C2u = { C1 = "t" ; C1C2=""; C2 ="&"};
yeC1C2 = { C1 = "y" ; C1C2=""; C2 =""};
--teC1C2 = { C1 = "t" ; C1C2=""; C2 =""};
yeC1C2u = { C1 = "y" ; C1C2=""; C2 ="&"};
--Jus_Imperat mkV2yz
leC1aC2a = {C1 ="l" ; C1C2="!"; C2 =""};
enC1aC2a = { C1 = "än" ; C1C2="!"; C2 =""};
C1aC2 = { C1 = "" ; C1C2="!"; C2 =""};
C1aC2i = { C1 = "" ; C1C2="!"; C2 ="#"};
C1eC2u = { C1 = "" ; C1C2="!"; C2 ="&"};
yC1aC2a = { C1 = "y" ; C1C2="!"; C2 =""};
tC1aC2a = { C1 = "t" ; C1C2="!"; C2 =""};
yC1aC2u = { C1 = "y" ; C1C2="!"; C2 ="&"};
--Gerund mkV2yz
C1C2ie = {C1 ="" ; C1C2=""; C2 ="%"};
C1C2en = { C1 = "" ; C1C2=""; C2 ="'n"};
C1C2ek = { C1 = "" ; C1C2=""; C2 ="'k"};
C1C2esh = { C1 = "" ; C1C2=""; C2 ="'x"};
C1C2achehu = { C1 = "" ; C1C2=""; C2 ="!ch&"};
C1C2o = { C1 = "" ; C1C2=""; C2 ="/"};
C1C2a = { C1 = "" ; C1C2=""; C2="!"};
C1C2ew = { C1 = "" ; C1C2=""; C2="'w"};
--CompPer mkV2yz y!l'h& !l !l !l cX7l 7l l'c !l
C1C2iealehu = {C1 ="" ; C1C2=""; C2 ="%y!l'h&"};
C1C2enal = { C1 = "" ; C1C2=""; C2 ="'n!l"};
C1C2ekal = { C1 = "" ; C1C2=""; C2 ="'k!l"};
C1C2eshal = { C1 = "" ; C1C2=""; C2 ="'x!l"};
C1C2achehual = { C1 = "" ; C1C2=""; C2 ="!cX7l"};
C1C2oal = { C1 = "" ; C1C2=""; C2 ="7l"};
C1C2alech = { C1 = "" ; C1C2=""; C2="!l'c"};
C1C2ewal = { C1 = "" ; C1C2=""; C2="'w!l"};
--Infinitve mkV2yz
meC1aC2= {C1 ="m'" ; C1C2="!"; C2 =""};
--Infinitve mkV2yz
C1aC2ii= {C1 ="" ; C1C2="!"; C2 ="#"};
--nore -- nr -- live
--Perf --
C1oC2hu = {C1 ="" ; C1C2="/"; C2 ="h&"};
C1oC2n = { C1 = "" ; C1C2="/"; C2 ="n"};
C1oC2k = { C1 = "" ; C1C2="/"; C2 ="k"};
C1oC2sh = { C1 = "" ; C1C2="/"; C2 ="x"};
C1oC2achehu = { C1 = "" ; C1C2 ="/"; C2 ="!ch&"};
C1oC2a = { C1 = "" ; C1C2="/"; C2 ="'"};
C1oC2ach = { C1 = "" ; C1C2="/"; C2 ="'c"};
C1oC2u = { C1 = "" ; C1C2="/"; C2 ="&"};
@@ -858,87 +785,12 @@ meC1oC2= {C1 ="m'" ; C1C2="/"; C2 =""};
C1uaC2i= {C1 ="" ; C1C2="7"; C2 ="#"};
--nore -- nr -- live
--Perf --
C1oC2hu = {C1 ="" ; C1C2="/"; C2 ="h&"};
C1oC2n = { C1 = "" ; C1C2="/"; C2 ="n"};
C1oC2k = { C1 = "" ; C1C2="/"; C2 ="k"};
C1oC2sh = { C1 = "" ; C1C2="/"; C2 ="x"};
C1oC2achehu = { C1 = "" ; C1C2 ="/"; C2 ="!ch&"};
C1oC2a = { C1 = "" ; C1C2="/"; C2 ="'"};
C1oC2ach = { C1 = "" ; C1C2="/"; C2 ="'c"};
C1oC2u = { C1 = "" ; C1C2="/"; C2 ="&"};
-- Imper -- mkV2nr
eC1oC2alehu = { C1 = "ä" ; C1C2="/"; C2 ="!l'h&"};
enC1oC2alen = { C1 = "än" ; C1C2="/"; C2 ="!l'n"};
teC1oC2yaleh = { C1 = "t" ; C1C2="/"; C2 ="!l'h"};
teC1oC2alesh = { C1 = "t" ; C1C2="/"; C2 ="y!l'x"};
teC1oC2alachehu = { C1 = "t" ; C1C2="/"; C2 ="!l!ch&"};
yeC1oC2al = { C1 = "y" ; C1C2="/"; C2 ="!l"};
teC1oC2alech = { C1 = "t" ; C1C2="/"; C2 ="!l'c"};
yeC1oC2alu = { C1 = "y" ; C1C2="/"; C2 ="!l&"};
-- Imper -- mkV2nr
eC1oC2 = { C1 = "ä" ; C1C2="/"; C2 =""};
enC1oC2 = { C1 = "än" ; C1C2="/"; C2 =""};
teC1oC2 = { C1 = "t" ; C1C2="/"; C2 =""};
teC1oC2i = { C1 = "t" ; C1C2="/"; C2 ="#"};
teC1oC2u = { C1 = "t" ; C1C2="/"; C2 ="&"};
yeC1oC2 = { C1 = "y" ; C1C2="/"; C2 =""};
--teC1oC2 = { C1 = "t" ; C1C2="/"; C2 ="!l'c"};
yeC1oC2u = { C1 = "y" ; C1C2="/"; C2 ="&"};
--Jus_Imperat mkV2nr
leC1uC2 = {C1 ="l" ; C1C2="&"; C2 =""};
enC1uC2 = { C1 = "än" ; C1C2="&"; C2 =""};
C1uC2 = { C1 = "" ; C1C2="&"; C2 =""};
C1uC2i = { C1 = "" ; C1C2="&"; C2 ="#"};
C1uC2u = { C1 = "" ; C1C2="&"; C2 ="&"};
yC1uC2 = { C1 = "y" ; C1C2="&"; C2 =""};
tC1uC2 = { C1 = "t" ; C1C2="&"; C2 =""};
yC1uC2u = { C1 = "y" ; C1C2="&"; C2 ="&"};
--Gerund mkV2nr
C1oC2ie = {C1 ="" ; C1C2="/"; C2 ="%"};
C1oC2en = { C1 = "" ; C1C2="/"; C2 ="'n"};
C1oC2ek = { C1 = "" ; C1C2="/"; C2 ="'k"};
C1oC2esh = { C1 = "" ; C1C2="/"; C2 ="'x"};
C1oC2achehu = { C1 = "" ; C1C2="/"; C2 ="!ch&"};
C1oC2o = { C1 = "" ; C1C2="/"; C2 ="/"};
C1oC2A = { C1 = "" ; C1C2="/"; C2="!"};
C1oC2ew = { C1 = "" ; C1C2="/"; C2="'w"};
--CompPer mkV2nr y!l'h& !l !l !l cX7l 7l l'c !l
C1oC2iealehu = {C1 ="" ; C1C2="/"; C2 ="%y!l'h& "};
C1oC2enal = { C1 = "" ; C1C2="/"; C2 ="'n!l"};
C1oC2ekal = { C1 = "" ; C1C2="/"; C2 ="'k!l"};
C1oC2eshal = { C1 = "" ; C1C2="/"; C2 ="'x!l"};
C1oC2achehual = { C1 = "" ; C1C2="/"; C2 ="!cX7l"};
C1oC2oal = { C1 = "" ; C1C2="/"; C2 ="7l"};
C1oC2Alech = { C1 = "" ; C1C2="/"; C2="!l'c"};
C1oC2ewal = { C1 = "" ; C1C2="/"; C2="'w!l"};
--Infinitve mkV2nr
meC1oC2= {C1 ="m'" ; C1C2="/"; C2 =""};
--Participle mkV2nr
C1uaC2i= {C1 ="" ; C1C2="7"; C2 ="#"};
--mkV2wN -- wN -- swim --- Eg lie, see, say
--Perf --
C1AC2ehu = {C1 ="" ; C1C2="!"; C2 ="'h&"};
C1AC2en = { C1 = "" ; C1C2="!"; C2 ="'n"};
C1AC2ek = { C1 = "" ; C1C2="!"; C2 ="'k"};
C1AC2esh = { C1 = "" ; C1C2="!"; C2 ="'x"};
--C1AC2achehu = { C1 = "" ; C1C2 ="!"; C2 ="!ch&"};
--C1AC2a = { C1 = "" ; C1C2="!"; C2 ="'"};
--C1AC2ach = { C1 = "" ; C1C2="!"; C2 ="'c"};
--C1AC2u = { C1 = "" ; C1C2="!"; C2 ="&"};
-- Imper -- mkV2wN
eC1aC2alehu = { C1 = "ä" ; C1C2="!"; C2 ="!l'h&"};
enC1aC2alen = { C1 = "än" ; C1C2="!"; C2 ="!l'n"};
@@ -992,74 +844,6 @@ C1aC2tewal = { C1 = "" ; C1C2="!"; C2="t'w!l"};
meC1aC2et= {C1 ="m'" ; C1C2="!"; C2 ="'t"};
--nore -- nr -- live
--mkV2wN -- wN -- swim --- Eg lie, see, say
--Perf --
C1AC2ehu = {C1 ="" ; C1C2="!"; C2 ="'h&"};
C1AC2en = { C1 = "" ; C1C2="!"; C2 ="'n"};
C1AC2ek = { C1 = "" ; C1C2="!"; C2 ="'k"};
C1AC2esh = { C1 = "" ; C1C2="!"; C2 ="'x"};
--C1AC2achehu = { C1 = "" ; C1C2 ="!"; C2 ="!ch&"};
--C1AC2a = { C1 = "" ; C1C2="!"; C2 ="'"};
--C1AC2ach = { C1 = "" ; C1C2="!"; C2 ="'c"};
--C1AC2u = { C1 = "" ; C1C2="!"; C2 ="&"};
-- Imper -- mkV2wN
eC1aC2alehu = { C1 = "ä" ; C1C2="!"; C2 ="!l'h&"};
enC1aC2alen = { C1 = "än" ; C1C2="!"; C2 ="!l'n"};
teC1aC2yaleh = { C1 = "t" ; C1C2="!"; C2 ="!l'h"};
teC1aC2alesh = { C1 = "t" ; C1C2="!"; C2 ="y!l'x"};
teC1aC2alachehu = { C1 = "t" ; C1C2="!"; C2 ="!l!ch&"};
yeC1aC2al = { C1 = "y" ; C1C2="!"; C2 ="!l"};
teC1aC2alech = { C1 = "t" ; C1C2="!"; C2 ="!l'c"};
yeC1aC2alu = { C1 = "y" ; C1C2="!"; C2 ="!l&"};
-- Cont -- mkV2wN
eC1aC2 = { C1 = "ä" ; C1C2="!"; C2 =""};
enC1aC2 = { C1 = "än" ; C1C2="!"; C2 =""};
teC1aC2 = { C1 = "t" ; C1C2="!"; C2 =""};
--teC1aC2 = { C1 = "t" ; C1C2="!"; C2 =""};
teC1aC2u = { C1 = "t" ; C1C2="!"; C2 ="&"};
yeC1aC2 = { C1 = "y" ; C1C2="!"; C2 =""};
--teC1aC2 = { C1 = "t" ; C1C2="!"; C2 =""};
yeC1aC2u = { C1 = "y" ; C1C2="!"; C2 ="&"};
--Jus_Imperat mkV2wN
--leC1aC2a = {C1 ="l" ; C1C2="!"; C2 =""};
--enC1aC2a = { C1 = "än" ; C1C2="!"; C2 =""};
--C1aC2 = { C1 = "" ; C1C2="!"; C2 =""};
--C1aC2i = { C1 = "" ; C1C2="!"; C2 ="#"};
--C1eC2u = { C1 = "" ; C1C2="!"; C2 ="&"};
--yC1aC2a = { C1 = "y" ; C1C2="!"; C2 =""};
--tC1aC2a = { C1 = "t" ; C1C2="!"; C2 =""};
--yC1aC2u = { C1 = "y" ; C1C2="!"; C2 ="&"};
--Gerund mkV2wN
C1aC2cie = {C1 ="" ; C1C2="!"; C2 ="c%"};
C1aC2ten = { C1 = "" ; C1C2="!"; C2 ="t'n"};
C1aC2tek = { C1 = "" ; C1C2="!"; C2 ="t'k"};
C1aC2tesh = { C1 = "" ; C1C2="!"; C2 ="t'x"};
C1aC2tachehu = { C1 = "" ; C1C2="!"; C2 ="t!ch&"};
C1aC2to = { C1 = "" ; C1C2="!"; C2 ="t/"};
C1aC2ta = { C1 = "" ; C1C2="!"; C2="t!"};
C1aC2tew = { C1 = "" ; C1C2="!"; C2="t'w"};
--ComPer mkV2wN y!l'h& !l !l !l cX7l 7l l'c !l
C1aC2ciealehu = {C1 ="" ; C1C2="!"; C2 ="c%y!l'h&"};
C1aC2tenal = { C1 = "" ; C1C2="!"; C2 ="t'n!l"};
C1aC2tekal = { C1 = "" ; C1C2="!"; C2 ="t'k!l"};
C1aC2teshal = { C1 = "" ; C1C2="!"; C2 ="t'x!l"};
C1aC2tachehual = { C1 = "" ; C1C2="!"; C2 ="t!cX7l"};
C1aC2toal = { C1 = "" ; C1C2="!"; C2 ="t7l"};
C1aC2talech = { C1 = "" ; C1C2="!"; C2="t!l'c"};
C1aC2tewal = { C1 = "" ; C1C2="!"; C2="t'w!l"};
--Infinitve mkV2wN
meC1aC2et= {C1 ="m'" ; C1C2="!"; C2 ="'t"};
--nore -- nr -- live
----------- This much is enough for the duo-radicals---
--There are few verbs still remaining like the case of shete, hede , --washe, aye, ale , all need unique froms for them selves. I will get --back here later!!
@@ -1109,63 +893,8 @@ tC1eC2 = { C1 = "t" ; C1C2=""; C2 =""};
meC1C2et= {C1 ="m'" ; C1C2=""; C2 ="'t"};
----------- This much is enough for the duo-radicals---
--There are few verbs still remaining like the case of shete, hede , --washe, aye, ale , all need unique froms for them selves. I will get --back here later!!
--seTe -- st -- give
--Perf --
C1eC2hu = {C1 ="" ; C1C2="'"; C2 ="'h&"};
C1eC2n = { C1 = "" ; C1C2="'"; C2 ="'n"};
C1eC2k = { C1 = "" ; C1C2="'"; C2 ="'k"};
C1eC2sh = { C1 = "" ; C1C2="'"; C2 ="'x"};
C1eC2achehu = { C1 = "" ; C1C2 ="'"; C2 ="'ch&"};
C1eC2a = { C1 = "" ; C1C2="'"; C2 ="'"};
C1eC2ach = { C1 = "" ; C1C2="'"; C2 ="'c"};
--C1eC2u = { C1 = "" ; C1C2="'"; C2 ="&"}; same as C1aC2u (bela)
-- Imper -- mkV2sT
--eC1eC2alehu = { C1 = "ä" ; C1C2="'"; C2 ="!l'h&"}; eC1aC2alehu
--enC1eC2alen = { C1 = "än" ; C1C2="'"; C2 ="!l'n"};enC1aC2alen
--teC1eC2yaleh = { C1 = "t" ; C1C2="'"; C2 ="!l'h"};teC1aC2yaleh
--teC1eC2aleh = { C1 = "t" ; C1C2="'"; C2 ="y!l'x"};teC1aC2aleh
--teC1eC2alachehu = { C1 = "t" ; C1C2="'"; C2 ="!l!ch&"};teC1aC2alachehu
--yeC1eC2al = { C1 = "y" ; C1C2="'"; C2 ="!l"};yeC1aC2al
--teC1eC2alech = { C1 = "t" ; C1C2="'"; C2 ="!l'c"};teC1aC2alech
--yeC1eC2alu = { C1 = "y" ; C1C2="'"; C2 ="!l&"};yeC1aC2alu
--Jus_Imperat mkV2sT
leC1eC2 = {C1 ="l" ; C1C2=""; C2 =""};
enC1eC2 = { C1 = "än" ; C1C2=""; C2 =""};
C1C2 = { C1 = "" ; C1C2=""; C2 =""};
C1eC2i = { C1 = "" ; C1C2=""; C2 ="#"};
--C1eC2u = { C1 = "" ; C1C2=""; C2 ="&"}; C1C2u
yC1eC2 = { C1 = "y" ; C1C2=""; C2 =""};
tC1eC2 = { C1 = "t" ; C1C2=""; C2 =""};
--yC1eC2u = { C1 = "y" ; C1C2=""; C2 ="&"};yC1C2u
--Gerund mkV2sT
--C1eC2ie = {C1 ="" ; C1C2="'"; C2 ="c%"}; C1aC2cie
--C1eC2en = { C1 = "" ; C1C2="'"; C2 ="'n"};C1aC2ten
--C1eC2ek = { C1 = "" ; C1C2="'"; C2 ="'k"}; C1aC2tek
--C1eC2esh = { C1 = "" ; C1C2="'"; C2 ="'x"}; C1aC2tesh
--C1eC2achehu = { C1 = "" ; C1C2="'"; C2 ="!ch&"};C1aC2tachehu
--C1eC2o = { C1 = "" ; C1C2="'"; C2 ="/"};C1aC2to
--C1eC2A = { C1 = "" ; C1C2="'"; C2="!"};C1aC2ta
--C1eC2ew = { C1 = "" ; C1C2="'"; C2="'w"}; C1aC2tew
--Infinitve mkV2sT
meC1C2et= {C1 ="m'" ; C1C2=""; C2 ="'t"};
---- Quadro_Radical
--Starting with type Tri-Radical Roots
-- Eg. dbdb - fight
-- qzqz - freeze
@@ -1238,152 +967,4 @@ meC1aC2C3aC4 = {C1 ="m'" ; C1C2="'"; C2C3 =""; C3C4="'"; C4= "" };
--Participle mkV4dbdb
C1eC2C3aC4i = {C1 ="" ; C1C2="'"; C2C3 =""; C3C4="!"; C4= "#" };
---- Quadro_Radical
--Starting with type Tri-Radical Roots
-- Eg. dbdb - fight
-- qzqz - freeze
-- wrwr - throw
-- tnfs - breath
--Perf --
C1aC2aC3aC4hu = {C1 ="" ; C1C2="'"; C2C3 ="'"; C3C4="'"; C4= "h&" };
C1aC2aC3aC4n = { C1 = "" ; C1C2="'"; C2C3 ="'"; C3C4="'"; C4= "n" };
C1aC2aC3aC4k = { C1 = "" ; C1C2="'"; C2C3 ="'"; C3C4="'"; C4= "k" };
C1aC2aC3aC4sh = { C1 = "" ; C1C2="'"; C2C3 ="'"; C3C4="'"; C4= "x" };
C1aC2aC3aC4achehu = { C1 = "" ; C1C2="'"; C2C3 ="'"; C3C4="'"; C4= "!ch&" };
C1aC2aC3aC4a = { C1 = "" ; C1C2="'"; C2C3 ="'"; C3C4="'"; C4= "'" };
C1aC2aC3aC4ech = { C1 = "" ; C1C2="'"; C2C3 ="'"; C3C4="'"; C4= "'c" };
C1aC2aC3aC4u = { C1 = "" ; C1C2="'"; C2C3 ="'"; C3C4="'"; C4= "&" };
--Imper --mkV4dbdb
eC1aC2aC3C4alehu = { C1 = "ä" ; C1C2="'"; C2C3 ="'"; C3C4=""; C4= "!l'h&" };
enC1aC2aC3C4alen = { C1 = "än" ; C1C2="'"; C2C3 ="'"; C3C4=""; C4= "!l'n" };
teC1aC2aC3C4yaleh = { C1 = "t" ; C1C2="'"; C2C3 ="'"; C3C4=""; C4= "!l'h" };
teC1aC2aC3C4aleh = { C1 = "t" ; C1C2="'"; C2C3 ="'"; C3C4=""; C4= "y!l'x" };
teC1aC2aC3C4alachehu = { C1 = "t" ; C1C2="'"; C2C3 ="'"; C3C4=""; C4= "!l!ch&" };
yeC1aC2aC3C4al = { C1 = "y" ; C1C2="'"; C2C3 ="'"; C3C4=""; C4= "!l" };
teC1aC2aC3C4alech = { C1 = "t" ; C1C2="'"; C2C3 ="'"; C3C4=""; C4= "!l'c" };
yeC1aC2aC3C4alu = { C1 = "y" ; C1C2="'"; C2C3 ="'"; C3C4=""; C4= "!l&" };
--Cont --mkV4dbdb
eC1aC2aC3C4 = { C1 = "ä" ; C1C2="'"; C2C3 ="'"; C3C4=""; C4= "" };
enC1aC2aC3C4 = { C1 = "än" ; C1C2="'"; C2C3 ="'"; C3C4=""; C4= "" };
teC1aC2aC3C4 = { C1 = "t" ; C1C2="'"; C2C3 ="'"; C3C4=""; C4= "" };
teC1aC2aC3C4i = { C1 = "t" ; C1C2="'"; C2C3 ="'"; C3C4=""; C4= "#" };
teC1aC2aC3C4u = { C1 = "t" ; C1C2="'"; C2C3 ="'"; C3C4=""; C4= "&" };
yeC1aC2aC3C4 = { C1 = "y" ; C1C2="'"; C2C3 ="'"; C3C4=""; C4= "" };
--teC1aC2aC3C4 = { C1 = "t" ; C1C2="'"; C2C3 ="'"; C3C4=""; C4= "" };
yeC1aC2aC3C4u = { C1 = "y" ; C1C2="'"; C2C3 ="'"; C3C4=""; C4= "&" };
--Jus_Imperat mkV4dbdb
leC1aC2C3C4 = {C1 ="l" ; C1C2="'"; C2C3 =""; C3C4=""; C4= "" };
enC1aC2C3C4 = { C1 = "än" ; C1C2="'"; C2C3 =""; C3C4=""; C4= "" };
C1aC2C3C4 = { C1 = "" ; C1C2="'"; C2C3 =""; C3C4=""; C4= "" };
C1aC2C3C4i = { C1 = "" ; C1C2="'"; C2C3 =""; C3C4=""; C4= "#" };
C1aC2C3C4u = { C1 = "" ; C1C2="'"; C2C3 =""; C3C4=""; C4= "&" };
yC1aC2C3C4 = { C1 = "y" ; C1C2="'"; C2C3 =""; C3C4=""; C4= "" };
tC1aC2C3C4 = { C1 = "t" ; C1C2="'"; C2C3 =""; C3C4=""; C4= "" };
yC1aC2C3C4u = { C1 = "y" ; C1C2="'"; C2C3 =""; C3C4=""; C4= "&" };
--Gerund mkV4dbdb
C1aC2C3C4ie = {C1 ="" ; C1C2="'"; C2C3 =""; C3C4=""; C4= "%" };
C1aC2C3C4en = { C1 = "" ; C1C2="'"; C2C3 =""; C3C4=""; C4= "'n" };
C1aC2C3C4ek = { C1 = "" ; C1C2="'"; C2C3 =""; C3C4=""; C4= "'k" };
C1aC2C3C4esh = { C1 = "" ; C1C2="'"; C2C3 =""; C3C4=""; C4= "'x" };
C1aC2C3C4achehu = { C1 = "" ; C1C2="'"; C2C3 =""; C3C4=""; C4= "!ch&" };
C1aC2C3C4o = { C1 = "" ; C1C2="'"; C2C3 =""; C3C4=""; C4= "/" };
C1aC2C3C4a = { C1 = "" ; C1C2="'"; C2C3 =""; C3C4=""; C4= "!" };
C1aC2C3C4ew = { C1 = "" ; C1C2="'"; C2C3 =""; C3C4=""; C4= "'w" };
--CompPerf mkV4dbdb y!l'h& !l !l !l cX7l 7l l'c !l
C1aC2C3C4iealehu = {C1 ="" ; C1C2="'"; C2C3 =""; C3C4=""; C4= "%y!l'h&" };
C1aC2C3C4enal = { C1 = "" ; C1C2="'"; C2C3 =""; C3C4=""; C4= "'n!l" };
C1aC2C3C4ekal = { C1 = "" ; C1C2="'"; C2C3 =""; C3C4=""; C4= "'k!l" };
C1aC2C3C4eshal = { C1 = "" ; C1C2="'"; C2C3 =""; C3C4=""; C4= "'x!l" };
C1aC2C3C4achehual = { C1 = "" ; C1C2="'"; C2C3 =""; C3C4=""; C4= "!cX7l" };
C1aC2C3C4oal = { C1 = "" ; C1C2="'"; C2C3 =""; C3C4=""; C4= "7l" };
C1aC2C3C4alech = { C1 = "" ; C1C2="'"; C2C3 =""; C3C4=""; C4= "!l'c" };
C1aC2C3C4ewal = { C1 = "" ; C1C2="'"; C2C3 =""; C3C4=""; C4= "'w!l" };
--Infinitve mkV4dbdb
meC1aC2C3aC4 = {C1 ="m'" ; C1C2="'"; C2C3 =""; C3C4="'"; C4= "" };
--Participle mkV4dbdb
C1eC2C3aC4i = {C1 ="" ; C1C2="'"; C2C3 =""; C3C4="!"; C4= "#" };
}
{-
resource PatternsAmh = {
flags coding=utf8 ;
oper
--perf
C1aC2aC3ku = {C1 ="" ; C1C2="ኧ"; C2C3 ="ኧ"; C3="ኩ"};
C1aC2aC3n = { C1 = "" ; C1C2="ኧ"; C2C3 ="ኧ"; C3="ን"};
C1aC2aC3k = { C1 = "" ; C1C2="ኧ"; C2C3 ="ኧ"; C3="ክ"};
C1aC2aC3sh = { C1 = "" ; C1C2="ኧ"; C2C3 ="ኧ"; C3="ሽ"};
C1aC2aC3achehu = { C1 = "" ; C1C2="ኧ"; C2C3 ="ኧ"; C3="አችሁ"};
C1aC2aC3e = { C1 = "" ; C1C2="ኧ"; C2C3 ="ኧ"; C3="ኧ"};
C1aC2aC3ech = { C1 = "" ; C1C2="ኧ"; C2C3 ="ኧ"; C3="ኧች"};
C1aC2aC3u = { C1 = "" ; C1C2="ኧ"; C2C3 ="ኧ"; C3="ኡ"};
--imper
eC1aC2C3alehu = { C1 = "እ" ; C1C2="ኧ"; C2C3 =""; C3="አለሁ"};
enC1aC2C3alen = { C1 = "እን" ; C1C2="ኧ"; C2C3 =""; C3="አለን"};
teC1aC2C3yaleh = { C1 = "ት" ; C1C2="ኧ"; C2C3 =""; C3="አለህ"};
teC1aC2C3aleh = { C1 = "ት" ; C1C2="ኧ"; C2C3 =""; C3="ያለሽ"};
teC1aC2C3alachehu = { C1 = "ት" ; C1C2="ኧ"; C2C3 =""; C3="አላችሁ"};
yeC1aC2C3al = { C1 = "ይ" ; C1C2="ኧ"; C2C3 =""; C3="አል"};
teC1aC2C3alech = { C1 = "ት" ; C1C2="ኧ"; C2C3 =""; C3="አለች"};
yeC1aC2C3alu = { C1 = "ይ" ; C1C2="ኧ"; C2C3 =""; C3="አሉ"};
}
-}

3
src/amharic/PhraseAmh.gf
View File

@@ -22,12 +22,9 @@ concrete PhraseAmh of Phrase = CatAmh ** open
UttIP ip = ip ; --- Acc also
UttVP vp = {s = vp.obj.s ++ vp.inf} ;
UttIAdv iadv = iadv ;
UttCN n = {s = n.s ! Sg ! Indef!Nom} ;
UttCard n = {s = n.s ! Masc!Sg!Indef!Nom} ;
UttImpSg pol imp = {s = pol.s ++ imp.s!pol.p!Masc!Sg};
UttImpPl pol imp = {s = pol.s ++ imp.s ! pol.p! Masc! Pl} ; --- TO DO
UttImpPol pol imp = {s = pol.s ++ imp.s ! pol.p ! Masc!Pl} ; -- TO DO ---
UttQS qs = {s = qs.s } ; -- TO DO
{-
PConjConj conj = {s = conj.s2} ; ---

19
src/armenian/AdjectiveHye.gf
View File

@@ -1,4 +1,19 @@
concrete AdjectiveHye of Adjective = CatHye ** {
concrete AdjectiveHye of Adjective = CatHye ** open ResHye, Prelude in {
lin
PositA a = a ;
AdAP ada ap = {
s = \\sp,c,num => ada.s ++ ap.s ! sp ! c ! num;
isPre = ap.isPre
} ;
PositA a = {
s = \\sp,c,num =>
case <sp,c> of {
<Def,Nom> => a.def_nom ! num ;
<Def,Dat> => a.def_dat ! num ;
<Poss P1,_> => a.poss1 ! c ! num ;
<Poss P2,_> => a.poss2 ! c ! num ;
_ => a.s ! c ! num
} ;
isPre = True
} ;
}

6
src/armenian/AdverbHye.gf Normal file
View File

@@ -0,0 +1,6 @@
concrete AdverbHye of Adverb = CatHye ** open Prelude,ResHye in {
lin PrepNP p np = {s = case p.isPre of {
False => np.s ! p.c ++ p.s;
True => p.s ++ np.s ! p.c
}} ;
}

77
src/armenian/CatHye.gf
View File

@@ -1,16 +1,63 @@
concrete CatHye of Cat = CommonX ** open ResHye in {
lincat V = Verb ;
lincat VV,VS,VQ,VA = Verb ;
lincat V2 = Verb ** {c2 : Compl} ;
lincat V3,V2A,V2S,V2Q,V2V = Verb ** {c2,c3 : Compl} ;
lincat N = Noun ;
lincat N2 = Noun ** {c2 : Compl} ;
lincat N3 = Noun ** {c2,c3 : Compl} ;
lincat CN = Noun ;
lincat A = Adj ;
lincat A2 = Adj ** {c2 : Compl} ;
lincat AP = Adj ;
lincat Prep = Compl ;
concrete CatHye of Cat = CommonX ** open Prelude,ResHye in {
lincat A = Adj ;
lincat A2 = Adj ** {c2 : Compl} ;
lincat ACard = {s : Str} ;
lincat AP = {s : Species => Case => Number => Str; isPre : Bool} ;
lincat CN = {s : Species => Case => Number => Str} ;
lincat Card = {s : Str} ;
lincat Cl = {s : Str;
conditional : Aspect => Number => Str;
converb : {imperfective : Str; futCon1 : Str;
futCon2 : Str; negative : Str;
perfective : Str; simultaneous : Str};
passive : Str; past : Person => Number => Str;
participle : PartType => Str;
subjunctive : Aspect => Number => Str} ;
lincat ClSlash = {s : Str} ;
lincat Comp = {s : Str} ;
lincat Conj = {s : Str} ;
lincat DAP = {s : Str} ;
lincat Decimal = {s : Str} ;
lincat Det = {s : Str; n : Number; sp : Species} ;
lincat Digits = {s : Str} ;
lincat GN = {s : Str} ;
lincat IComp = {s : Str} ;
lincat IDet = {s : Str} ;
lincat IP = {s : Str} ;
lincat IQuant = {s : Str} ;
lincat Imp = {s : Str} ;
lincat LN = {s : Str} ;
lincat N = Noun ;
lincat N2 = Noun ** {c2 : Compl} ;
lincat N3 = Noun ** {c2,c3 : Compl} ;
lincat NP = {s : Case => Str; a : Agr} ;
lincat Num = {s : Str; n : Number} ;
lincat Numeral = {s : Str} ;
lincat Ord = {s : Str} ;
lincat PN = {s : Str} ;
lincat Predet = {s : Str} ;
lincat Prep = Compl ** {isPre : Bool} ;
lincat Pron = {s : Str; empty : Str; a : Agr} ;
lincat QCl = {s : Str} ;
lincat QS = {s : Str} ;
lincat Quant = {s : Str; sp : Species} ;
lincat RCl = {s : Str} ;
lincat RP = {s : Str} ;
lincat RS = {s : Str} ;
lincat S = {s : Str} ;
lincat SN = {s : Str} ;
lincat SSlash = {s : Str} ;
lincat Subj = {s : Str} ;
lincat V = Verb ;
lincat VV,VS,VQ,VA = Verb ;
lincat V2 = Verb ** {c2 : Compl} ;
lincat V3,V2A,V2S,V2Q,V2V = Verb ** {c2,c3 : Compl} ;
lincat VP = {s : Str;
conditional : Aspect => Person => Number => Str;
converb : {imperfective : Str; futCon1 : Str; futCon2 : Str;
negative : Str; perfective : Str; simultaneous : Str};
imperative : Number => Str; passive : Str;
past : Person => Number => Str; participle : PartType => Str;
subjunctive : Aspect => Person => Number => Str} ;
lincat VPSlash = Verb ** {c2 : Compl} ;
}

50
src/armenian/DocumentationHye.gf
View File

@@ -15,50 +15,50 @@ lin
paragraph (x.s) ++
heading1 "Converb" ++
frameTable (
tr (th "Imperfective" ++ td (x.Converb.Imperfective)) ++
tr (th "Simultaneous" ++ td (x.Converb.Simultaneous)) ++
tr (th "Perfective" ++ td (x.Converb.Perfective)) ++
tr (th "Futute I" ++ td (x.Converb.FutCon1)) ++
tr (th "Futute II" ++ td (x.Converb.FutCon2)) ++
tr (th "Connegative" ++ td (x.Converb.Negative))) ++
tr (th "Imperfective" ++ td (x.converb.imperfective)) ++
tr (th "Simultaneous" ++ td (x.converb.simultaneous)) ++
tr (th "Perfective" ++ td (x.converb.perfective)) ++
tr (th "Futute I" ++ td (x.converb.futCon1)) ++
tr (th "Futute II" ++ td (x.converb.futCon2)) ++
tr (th "Connegative" ++ td (x.converb.negative))) ++
heading1 "Passive" ++
paragraph x.Passive ++
paragraph x.passive ++
heading1 "Participle" ++
frameTable (
tr (th "Resultative" ++ td (x.Participle ! Resultative)) ++
tr (th "Subject" ++ td (x.Participle ! Subject))) ++
tr (th "Resultative" ++ td (x.participle ! Resultative)) ++
tr (th "Subject" ++ td (x.participle ! Subject))) ++
heading1 "Past" ++
frameTable (
tr (th "" ++ th "Sg" ++ th "Pl") ++
tr (th "P1" ++ td (x.Past ! P1 ! Sg) ++ td (x.Past ! P1 ! Pl)) ++
tr (th "P2" ++ td (x.Past ! P2 ! Sg) ++ td (x.Past ! P2 ! Pl)) ++
tr (th "P3" ++ td (x.Past ! P3 ! Sg) ++ td (x.Past ! P3 ! Pl))) ++
tr (th "P1" ++ td (x.past ! P1 ! Sg) ++ td (x.past ! P1 ! Pl)) ++
tr (th "P2" ++ td (x.past ! P2 ! Sg) ++ td (x.past ! P2 ! Pl)) ++
tr (th "P3" ++ td (x.past ! P3 ! Sg) ++ td (x.past ! P3 ! Pl))) ++
heading1 "Subjunctive" ++
frameTable (
tr (intagAttr "th" "colspan=\"2\"" "" ++ th "Sg" ++ th "Pl") ++
tr (intagAttr "th" "rowspan=\"3\"" "Perfect" ++
th "P1" ++ td (x.Subjunctive ! Perfect ! P1 ! Sg) ++ td (x.Subjunctive ! Perfect ! P1 ! Pl)) ++
tr (th "P2" ++ td (x.Subjunctive ! Perfect ! P2 ! Sg) ++ td (x.Subjunctive ! Perfect ! P2 ! Pl)) ++
tr (th "P3" ++ td (x.Subjunctive ! Perfect ! P3 ! Sg) ++ td (x.Subjunctive ! Perfect ! P3 ! Pl)) ++
th "P1" ++ td (x.subjunctive ! Perfect ! P1 ! Sg) ++ td (x.subjunctive ! Perfect ! P1 ! Pl)) ++
tr (th "P2" ++ td (x.subjunctive ! Perfect ! P2 ! Sg) ++ td (x.subjunctive ! Perfect ! P2 ! Pl)) ++
tr (th "P3" ++ td (x.subjunctive ! Perfect ! P3 ! Sg) ++ td (x.subjunctive ! Perfect ! P3 ! Pl)) ++
tr (intagAttr "th" "rowspan=\"3\"" "Non_Past" ++
th "P1" ++ td (x.Subjunctive ! Non_Past ! P1 ! Sg) ++ td (x.Subjunctive ! Non_Past ! P1 ! Pl)) ++
tr (th "P2" ++ td (x.Subjunctive ! Non_Past ! P2 ! Sg) ++ td (x.Subjunctive ! Non_Past ! P2 ! Pl)) ++
tr (th "P3" ++ td (x.Subjunctive ! Non_Past ! P3 ! Sg) ++ td (x.Subjunctive ! Non_Past ! P3 ! Pl))) ++
th "P1" ++ td (x.subjunctive ! Non_Past ! P1 ! Sg) ++ td (x.subjunctive ! Non_Past ! P1 ! Pl)) ++
tr (th "P2" ++ td (x.subjunctive ! Non_Past ! P2 ! Sg) ++ td (x.subjunctive ! Non_Past ! P2 ! Pl)) ++
tr (th "P3" ++ td (x.subjunctive ! Non_Past ! P3 ! Sg) ++ td (x.subjunctive ! Non_Past ! P3 ! Pl))) ++
heading1 "Conditional" ++
frameTable (
tr (intagAttr "th" "colspan=\"2\"" "" ++ th "Sg" ++ th "Pl") ++
tr (intagAttr "th" "rowspan=\"3\"" "Perfect" ++
th "P1" ++ td (x.Conditional ! Perfect ! P1 ! Sg) ++ td (x.Conditional ! Perfect ! P1 ! Pl)) ++
tr (th "P2" ++ td (x.Conditional ! Perfect ! P2 ! Sg) ++ td (x.Conditional ! Perfect ! P2 ! Pl)) ++
tr (th "P3" ++ td (x.Conditional ! Perfect ! P3 ! Sg) ++ td (x.Conditional ! Perfect ! P3 ! Pl)) ++
th "P1" ++ td (x.conditional ! Perfect ! P1 ! Sg) ++ td (x.conditional ! Perfect ! P1 ! Pl)) ++
tr (th "P2" ++ td (x.conditional ! Perfect ! P2 ! Sg) ++ td (x.conditional ! Perfect ! P2 ! Pl)) ++
tr (th "P3" ++ td (x.conditional ! Perfect ! P3 ! Sg) ++ td (x.conditional ! Perfect ! P3 ! Pl)) ++
tr (intagAttr "th" "rowspan=\"4\"" "Non_Past" ++
th "P1" ++ td (x.Conditional ! Non_Past ! P1 ! Sg) ++ td (x.Conditional ! Non_Past ! P1 ! Pl)) ++
tr (th "P2" ++ td (x.Conditional ! Non_Past ! P2 ! Sg) ++ td (x.Conditional ! Non_Past ! P2 ! Pl)) ++
tr (th "P3" ++ td (x.Conditional ! Non_Past ! P3 ! Sg) ++ td (x.Conditional ! Non_Past ! P3 ! Pl))) ++
th "P1" ++ td (x.conditional ! Non_Past ! P1 ! Sg) ++ td (x.conditional ! Non_Past ! P1 ! Pl)) ++
tr (th "P2" ++ td (x.conditional ! Non_Past ! P2 ! Sg) ++ td (x.conditional ! Non_Past ! P2 ! Pl)) ++
tr (th "P3" ++ td (x.conditional ! Non_Past ! P3 ! Sg) ++ td (x.conditional ! Non_Past ! P3 ! Pl))) ++
heading1 "Imperative" ++
frameTable (
tr (th "Sg" ++ th "Pl") ++
tr (td (x.Imperative_Jussive ! Sg) ++ td (x.Imperative_Jussive ! Pl))) ;
tr (td (x.imperative ! Sg) ++ td (x.imperative ! Pl))) ;
s3=[]
} ;
lin

8
src/armenian/GrammarHye.gf
View File

@@ -2,5 +2,9 @@ concrete GrammarHye of Grammar =
TenseX,
PhraseHye,
NounHye,
AdjectiveHye ** {
}
VerbHye,
AdjectiveHye,
AdverbHye,
SentenceHye,
StructuralHye ** {
}

5
src/armenian/LexiconHye.gf
View File

@@ -1,2 +1,5 @@
concrete LexiconHye of Lexicon = CatHye ** open ParadigmsHye in {
}
lin apple_N = mkN001 "խնձոր" ;
lin man_N = mkN047 "տղամարդ" ;
lin woman_N = mkN034 "կին" ;
}

750
src/armenian/MorphoHye.gf
View File

File diff suppressed because it is too large Load Diff

37
src/armenian/NounHye.gf
View File

@@ -1,4 +1,35 @@
concrete NounHye of Noun = CatHye ** {
lin
UseN n = n ;
concrete NounHye of Noun = CatHye ** open ResHye in {
lin AdjCN ap cn = {
s = \\sp,c,n =>
case ap.isPre of {
True => ap.s ! Indef ! Nom ! Sg ++ cn.s ! sp ! c ! n;
False => cn.s ! sp ! c ! n ++ ap.s ! Indef ! Nom ! Sg
}
} ;
lin AdvCN cn adv = {
s = \\sp,c,num => adv.s ++ cn.s ! sp ! c ! num
} ;
lin DefArt = {s = []; sp = Def} ;
lin DetCN det cn = {s = \\c => det.s ++ cn.s ! det.sp ! c ! det.n;
a = {n=det.n; p=P3}} ;
lin DetQuant quant num = {s = quant.s ++ num.s; n = num.n; sp=quant.sp} ;
lin IndefArt = {s = "մի"; sp = Indef} ;
lin NumPl = {s = []; n = Pl} ;
lin NumSg = {s = []; n = Sg} ;
lin MassNP cn = {
s = \\c => cn.s ! Indef ! c ! Sg;
a = {n=Sg; p=P3}
} ;
lin PossPron pron = {s = pron.empty; sp = Poss pron.a.p} ;
lin UseN n = {
s = \\sp,c,num =>
case <sp,c> of {
<Def,Nom> => n.def_nom ! num ;
<Def,Dat> => n.def_dat ! num ;
<Poss P1,_> => n.poss1 ! c ! num ;
<Poss P2,_> => n.poss2 ! c ! num ;
_ => n.s ! c ! num
}
} ;
lin UsePron pron = {s = \\c => pron.s; a=pron.a} ;
}

15
src/armenian/ParadigmsHye.gf
View File

@@ -468,16 +468,19 @@ oper
mkInterj : Str -> Interj = \s -> lin Interj {s=s} ;
mkMU : Str -> MU = \s -> lin MU {s=s; isPre=False} ;
mkPrep : Str -> Prep = \s -> lin Prep {s=s; c=Dat} ;
mkPrep : Str -> Prep = \s -> lin Prep {s=s; c=Dat; isPre=False} ;
singular : Number = Sg ;
plural : Number = Pl ;
mkIAdv : Str -> IAdv = \s -> lin IAdv {s=s} ;
mkIP : Str -> IP = \s -> lin IP {s=s} ;
mkIQuant : Str -> IQuant = \s -> lin IQuant {s=s} ;
mkIDet : Str -> IDet = \s -> lin IDet {s=s} ;
mkSubj : Str -> Subj = \s -> lin Subj {s=s} ;
mkQuant : Str -> Quant = \s -> lin Quant {s=s} ;
mkQuant : Str -> Quant = \s -> lin Quant {s=s; sp=Indef} ;
mkDet : Str -> Number -> Det = \s,n -> lin Det {s=s; n=n; sp=Indef} ;
mkPredet : Str -> Predet = \s -> lin Predet {s=s} ;
mkDet : Str -> Det = \s -> lin Det {s=s} ;
mkCard : Str -> Card = \s -> lin Card {s=s} ;
mkConj : Str -> Conj = \s -> lin Conj {s=s} ;
mkPConj : Str -> PConj = \s -> lin PConj {s=s} ;
@@ -488,4 +491,10 @@ oper
mkSN : Str -> SN = \s -> lin SN {s=s} ;
mkPN : Str -> PN = \s -> lin PN {s=s} ;
mkPron : Str -> Number -> Person -> Pron = \s,n,p ->
lin Pron {
s = s ;
empty = [] ;
a = {n = n; p = p}
} ;
}

35
src/armenian/ResHye.gf
View File

@@ -1,16 +1,14 @@
resource ResHye = {
resource ResHye = ParamX ** {
param Aspect = Non_Past | Perfect ;
param Person = P1 | P3 | P2 ;
param Number = Sg | Pl ;
param Case = Nom | Dat | Ablat | Instr | Loc ;
param PartType = Resultative | Subject ;
oper Verb = {s: Str; Causative: Str; Conditional: Aspect => Person => Number => Str; Converb: {Imperfective: Str; FutCon1: Str; FutCon2: Str; Negative: Str; Perfective: Str; Simultaneous: Str}; Imperative_Jussive: Number => Str; Passive: Str; Past: Person => Number => Str; Participle: PartType => Str; Subjunctive: Aspect => Person => Number => Str} ; -- 898
oper Verb = {s: Str; causative: Str; conditional: Aspect => Person => Number => Str; converb: {imperfective: Str; futCon1: Str; futCon2: Str; negative: Str; perfective: Str; simultaneous: Str}; imperative: Number => Str; passive: Str; past: Person => Number => Str; participle: PartType => Str; subjunctive: Aspect => Person => Number => Str} ; -- 898
oper mkVerb : (_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_ : Str) -> Verb =
\f1,f2,f3,f4,f5,f6,f7,f8,f9,f10,f11,f12,f13,f14,f15,f16,f17,f18,f19,f20,f21,f22,f23,f24,f25,f26,f27,f28,f29,f30,f31,f32,f33,f34,f35,f36,f37,f38,f39,f40,f41,f42,f43 ->
{ s = f1 ;
Causative = f2 ;
Conditional = table {
causative = f2 ;
conditional = table {
Perfect => table {
P1 => table {
Sg => f3 ;
@@ -40,19 +38,19 @@ oper mkVerb : (_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_
}
}
} ;
Converb = { Imperfective = f15 ;
FutCon1 = f16 ;
FutCon2 = f17 ;
Negative = f18 ;
Perfective = f19 ;
Simultaneous = f20
converb = { imperfective = f15 ;
futCon1 = f16 ;
futCon2 = f17 ;
negative = f18 ;
perfective = f19 ;
simultaneous = f20
} ;
Imperative_Jussive = table {
imperative = table {
Sg => f21 ;
Pl => f22
} ;
Passive = f23 ;
Past = table {
passive = f23 ;
past = table {
P1 => table {
Sg => f24 ;
Pl => f25
@@ -66,11 +64,11 @@ oper mkVerb : (_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_
Pl => f29
}
} ;
Participle = table {
participle = table {
Resultative => f30 ;
Subject => f31
} ;
Subjunctive = table {
subjunctive = table {
Perfect => table {
P1 => table {
Sg => f32 ;
@@ -102,7 +100,8 @@ oper mkVerb : (_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_
}
} ;
param Species = Indef | Def | Poss Person ;
oper Agr = {n : Number; p : Person} ;
oper Noun = {s: Case => Number => Str; def_dat: Number => Str; def_nom: Number => Str; poss1: Case => Number => Str; poss2: Case => Number => Str} ; -- 4880
oper mkNoun : (_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_ : Str) -> Noun =
\f1,f2,f3,f4,f5,f6,f7,f8,f9,f10,f11,f12,f13,f14,f15,f16,f17,f18,f19,f20,f21,f22,f23,f24,f25,f26,f27,f28,f29,f30,f31,f32,f33,f34 ->

14
src/armenian/SentenceHye.gf Normal file
View File

@@ -0,0 +1,14 @@
concrete SentenceHye of Sentence = CatHye ** open Prelude,ResHye in {
lin PredVP np vp = {s = np.s ! Nom ++ vp.s;
conditional = \\a,n => np.s ! Nom ++ vp.conditional ! a ! P3 ! n;
converb = {imperfective = np.s ! Nom ++ vp.converb.imperfective;
futCon1 = np.s ! Nom ++ vp.converb.futCon1;
futCon2 = np.s ! Nom ++ vp.converb.futCon2;
negative = np.s ! Nom ++ vp.converb.negative;
perfective = np.s ! Nom ++ vp.converb.perfective;
simultaneous = np.s ! Nom ++ vp.converb.simultaneous};
passive = np.s ! Nom ++ vp.passive;
past = \\_,n => np.s ! Nom ++ vp.past ! P3 ! n;
participle = \\p => np.s ! Nom ++ vp.participle ! p;
subjunctive = \\a,n => np.s ! Nom ++ vp.subjunctive ! a ! P3 ! n} ;
}

8
src/armenian/StructuralHye.gf Normal file
View File

@@ -0,0 +1,8 @@
concrete StructuralHye of Structural = CatHye ** open ResHye, ParadigmsHye in {
lin i_Pron = mkPron "ես" Sg P1 ;
lin youSg_Pron = mkPron "դու" Sg P2 ;
lin he_Pron, she_Pron, it_Pron = mkPron "նա" Sg P3 ;
lin we_Pron = mkPron "մեք" Pl P1 ;
lin youPl_Pron = mkPron "դուք" Pl P2 ;
lin they_Pron = mkPron "նոքա" Pl P3 ;
}

35
src/armenian/VerbHye.gf Normal file
View File

@@ -0,0 +1,35 @@
concrete VerbHye of Verb = CatHye ** open Prelude,ResHye in {
lin AdvVP vp adv = {s = adv.s ++ vp.s;
conditional = \\a,p,n => adv.s ++ vp.conditional ! a ! p ! n;
converb = {imperfective = adv.s ++ vp.converb.imperfective;
futCon1 = adv.s ++ vp.converb.futCon1;
futCon2 = adv.s ++ vp.converb.futCon2;
negative = adv.s ++ vp.converb.negative;
perfective = adv.s ++ vp.converb.perfective;
simultaneous = adv.s ++ vp.converb.simultaneous};
imperative = \\n => vp.imperative ! n ++ adv.s;
passive = adv.s ++ vp.passive;
past = \\p,n => adv.s ++ vp.past ! p ! n;
participle = \\p => adv.s ++ vp.participle ! p;
subjunctive = \\a,p,n => adv.s ++ vp.subjunctive ! a ! p ! n} ;
lin ComplSlash vp np = {s = vp.s ++ vp.c2.s ++ np.s ! vp.c2.c;
conditional = \\a,p,n => vp.conditional ! a ! p ! n
++ vp.c2.s ++ np.s ! vp.c2.c;
converb = {imperfective = vp.converb.imperfective
++ vp.c2.s ++ np.s ! vp.c2.c;
futCon1 = vp.converb.futCon1 ++ vp.c2.s ++ np.s ! vp.c2.c;
futCon2 = vp.converb.futCon2 ++ vp.c2.s ++ np.s ! vp.c2.c;
negative = vp.converb.negative ++ vp.c2.s ++ np.s ! vp.c2.c;
perfective = vp.converb.perfective
++ vp.c2.s ++ np.s ! vp.c2.c;
simultaneous = vp.converb.simultaneous
++ vp.c2.s ++ np.s ! vp.c2.c};
imperative = \\n => vp.imperative ! n ++ vp.c2.s ++ np.s ! Nom;
passive = vp.passive ++ vp.c2.s ++ np.s ! vp.c2.c;
past = \\p,n => vp.past ! p ! n ++ vp.c2.s ++ np.s ! vp.c2.c;
participle = \\p => vp.participle ! p ++ vp.c2.s ++ np.s ! vp.c2.c;
subjunctive = \\a,p,n => vp.subjunctive ! a ! p ! n
++ vp.c2.s ++ np.s ! vp.c2.c} ;
lin SlashV2a v = v ;
lin UseV v = v ;
}

3
src/belarusian/AllBel.gf
View File

@@ -1,4 +1,5 @@
concrete AllBel of AllBelAbs =
LangBel
LangBel,
ExtendBel
**
{} ;

5
src/belarusian/AllBelAbs.gf
View File

@@ -1,3 +1,4 @@
abstract AllBelAbs =
Lang
** {}
Lang,
Extend
** {}

13
src/belarusian/CatBel.gf
View File

@@ -3,12 +3,13 @@ concrete CatBel of Cat = CommonX ** open ResBel in {
lincat N = Noun ;
lincat N2 = Noun ** {c2 : Compl} ;
lincat N3 = Noun ** {c2,c3 : Compl} ;
lincat V = V ;
lincat VV,VS,VQ,VA = V ;
lincat V2 = V ** {c2 : Compl} ;
lincat V3,V2A,V2S,V2Q,V2V = V ** {c2,c3 : Compl} ;
lincat A = A ;
lincat A2 = A ** {c2 : Compl} ;
lincat Pron = {s: Case => Str; g: Gender; n : Number; p: Person} ;
lincat V = Verb ;
lincat VV,VS,VQ,VA = Verb ;
lincat V2 = Verb ** {c2 : Compl} ;
lincat V3,V2A,V2S,V2Q,V2V = Verb ** {c2,c3 : Compl} ;
lincat A = Adj ;
lincat A2 = Adj ** {c2 : Compl} ;
lincat Prep = Compl ;
lincat CN = CommonNoun ;
lincat AP = AdjPhrase ;

12
src/belarusian/DocumentationBel.gf
View File

@@ -29,12 +29,12 @@ lin
paragraph (x.infinitive) ++
heading1 "Present" ++
frameTable (
tr (intagAttr "th" "rowspan=\"6\"" "Pres" ++ intagAttr "th" "rowspan=\"2\"" "P1" ++ th "Sg" ++ td ((x.active ! Imperf).Pres ! P1 ! Sg)) ++
tr (th "Pl" ++ td ((x.active ! Imperf).Pres ! P1 ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2" ++ th "Sg" ++ td ((x.active ! Imperf).Pres ! P2 ! Sg)) ++
tr (th "Pl" ++ td ((x.active ! Imperf).Pres ! P2 ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P3" ++ th "Sg" ++ td ((x.active ! Imperf).Pres ! P3 ! Sg)) ++
tr (th "Pl" ++ td ((x.active ! Imperf).Pres ! P3 ! Pl))) ++
tr (intagAttr "th" "rowspan=\"6\"" "Pres" ++ intagAttr "th" "rowspan=\"2\"" "P1" ++ th "Sg" ++ td ((x.active ! Imperf).pres ! P1 ! Sg)) ++
tr (th "Pl" ++ td ((x.active ! Imperf).pres ! P1 ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2" ++ th "Sg" ++ td ((x.active ! Imperf).pres ! P2 ! Sg)) ++
tr (th "Pl" ++ td ((x.active ! Imperf).pres ! P2 ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P3" ++ th "Sg" ++ td ((x.active ! Imperf).pres ! P3 ! Sg)) ++
tr (th "Pl" ++ td ((x.active ! Imperf).pres ! P3 ! Pl))) ++
heading1 "Imperative" ++
frameTable (
tr (th "Sg" ++ td (x.imperative ! Sg)) ++

15
src/belarusian/ExtendBel.gf Normal file
View File

@@ -0,0 +1,15 @@
--# -path=.:../abstract:../common:prelude
concrete ExtendBel of Extend = CatBel ** open ResBel, ParadigmsBel in {
lin
iFem_Pron = mkPron "я" "мяне" "мне" "мяне" "мне" "мной" Fem Sg P1 ;
youFem_Pron = mkPron "ты" "табе" "табе" "табе" "табе" "табой" Fem Sg P2 ;
weFem_Pron = mkPron "мы" "нас" "нам" "нас" "наc" "намі" Fem Pl P1 ;
youPlFem_Pron = mkPron "вы" "вас" "вам" "вас" "вас" "вамі" Fem Pl P2 ;
theyFem_Pron = mkPron "вони" "їх" "їм" "їх" "них" "ними" Fem Pl P3 ;
youPolFem_Pron = mkPron "вы" "вас" "вам" "вас" "вас" "вамі" Fem Pl P2 ;
youPolPl_Pron = mkPron "вы" "вас" "вам" "вас" "вас" "вамі" Fem Pl P2 ;
youPolPlFem_Pron = mkPron "вы" "вас" "вам" "вас" "вас" "вамі" Fem Pl P2 ;
}

5
src/belarusian/GrammarBel.gf
View File

@@ -2,5 +2,6 @@ concrete GrammarBel of Grammar =
TenseX,
PhraseBel,
NounBel,
AdjectiveBel ** {
}
AdjectiveBel,
StructuralBel ** {
}

1488
src/belarusian/MorphoBel.gf
View File

File diff suppressed because it is too large Load Diff

48
src/belarusian/ParadigmsBel.gf
View File

@@ -636,6 +636,44 @@ oper
_ => regN form1
} ;
compoundN = overload {
compoundN : A -> N -> N = \a,n -> lin N {
s = \\c,num => a.s ! c ! genNum n.g num ++ n.s ! c ! num ;
voc = a.s ! Nom ! genNum n.g Sg ++ n.voc ;
g = n.g
} ;
compoundN : N -> A -> N = \n,a -> lin N {
s = \\c,num => n.s ! c ! num ++ a.s ! c ! genNum n.g num ;
voc = n.voc ++ a.s ! Nom ! genNum n.g Sg ;
g = n.g
} ;
compoundN : N -> Str -> N = \n,adv -> lin N {
s = \\c,num => n.s ! c ! num ++ adv ;
voc = n.voc ++ adv ;
g = n.g
} ;
compoundN : Str -> N -> N = \adv,n -> lin N {
s = \\c,num => adv ++ n.s ! c ! num ;
voc = adv ++ n.voc ;
g = n.g
}
} ;
mkPron : (_,_,_,_,_,_ : Str) -> Gender -> Number -> Person -> Pron =
\nom,acc,dat,gen,loc,instr,g,n,p -> lin Pron {
s = table {
Nom => nom ;
Acc => acc ;
Dat => dat ;
Gen => gen ;
Loc => loc ;
Instr => instr
} ;
g = g ;
n = n ;
p = p
} ;
regV : Str -> V -- infinitive
= \form -> case form of {
_ + "агчы" => mkV021 form;
@@ -717,6 +755,16 @@ oper
_ => regV form1
} ;
compoundV : V -> Str -> V = \v,adv -> lin V {
active = \\a => {past=(v.active ! a).past ++ adv ;
pres=\\p,num=>(v.active ! a).pres ! p ! num ++ adv
} ;
imperative = \\num => v.imperative ! num ++ adv ;
infinitive = v.infinitive ++ adv ;
participle = \\g,num => v.participle ! g ! num ++ adv ;
passive = \\a,t => v.passive ! a ! t ++ adv
} ;
regA : Str -> A -- s;Nom;('GSg', Masc)
= \form -> case form of {
_ + "які" => mkA006 form;

24
src/belarusian/ResBel.gf
View File

@@ -40,12 +40,12 @@ oper mkNoun : (_,_,_,_,_,_,_,_,_,_,_,_,_ : Str) -> Gender -> Noun =
param Aspect = Imperf | Perf ;
param Person = P1 | P2 | P3 ;
param Tense = Pres | Past ;
oper V = {active: Aspect => {Past: Str; Pres: Person => Number => Str}; imperative: Number => Str; infinitive: Str; participle: Gender => Number => Str; passive: Aspect => Tense => Str} ; -- 703
oper mkV : (_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_ : Str) -> V =
oper Verb = {active: Aspect => {past: Str; pres: Person => Number => Str}; imperative: Number => Str; infinitive: Str; participle: Gender => Number => Str; passive: Aspect => Tense => Str} ; -- 703
oper mkVerb : (_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_ : Str) -> Verb =
\f1,f2,f3,f4,f5,f6,f7,f8,f9,f10,f11,f12,f13,f14,f15,f16,f17,f18,f19,f20,f21,f22,f23,f24,f25,f26,f27 ->
{ active = table {
Imperf => { Past = f1 ;
Pres = table {
Imperf => { past = f1 ;
pres = table {
P1 => table {
Sg => f2 ;
Pl => f3
@@ -60,8 +60,8 @@ oper mkV : (_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_ : Str) -> V =
}
}
} ;
Perf => { Past = f8 ;
Pres = table {
Perf => { past = f8 ;
pres = table {
P1 => table {
Sg => f9 ;
Pl => f10
@@ -110,8 +110,14 @@ oper mkV : (_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_ : Str) -> V =
param GenNum = GSg Gender | GPl ;
oper A = {s: Case => GenNum => Str} ; -- 704
oper mkA : (_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_ : Str) -> A =
oper genNum : Gender -> Number -> GenNum = \g,n ->
case n of {
Sg => GSg g ;
Pl => GPl
} ;
oper Adj = {s: Case => GenNum => Str} ; -- 704
oper mkAdj : (_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_ : Str) -> Adj =
\f1,f2,f3,f4,f5,f6,f7,f8,f9,f10,f11,f12,f13,f14,f15,f16,f17,f18,f19,f20,f21,f22,f23,f24 ->
{ s = table {
Nom => table {
@@ -158,6 +164,6 @@ oper Compl = {s : Str; c : Case} ;
oper noPrep : Compl = {s=""; c=Acc} ;
oper CommonNoun = Noun ;
oper AdjPhrase = A ;
oper AdjPhrase = Adj ;
}

12
src/belarusian/StructuralBel.gf Normal file
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@@ -0,0 +1,12 @@
concrete StructuralBel of Structural = CatBel ** open ResBel, ParadigmsBel in {
lin
i_Pron = mkPron "я" "мяне" "мне" "мяне" "мне" "мной" Masc Sg P1 ;
youSg_Pron = mkPron "ты" "табе" "табе" "табе" "табе" "табой" Masc Sg P2 ;
he_Pron = mkPron "ён" "яго" "яму" "яго" "ім" "ім" Masc Sg P3 ;
she_Pron = mkPron "яна" "яе" "ёй" "яе" "ёй" "ёю" Fem Sg P3 ;
it_Pron = mkPron "яно" "яго" "яму" "яго" "ім" "ім" Neuter Sg P3 ;
we_Pron = mkPron "мы" "нас" "нам" "нас" "наc" "намі" Masc Pl P1 ;
youPl_Pron = mkPron "вы" "вас" "вам" "вас" "вас" "вамі" Masc Pl P2 ;
youPol_Pron = mkPron "вы" "вас" "вам" "вас" "вас" "вамі" Masc Pl P2 ;
they_Pron = mkPron "яны" "іх" "їм" "їх" "іх" "імі" Masc Pl P3 ;
}

3
src/common/ExtendFunctor.gf
View File

@@ -139,9 +139,6 @@ lin
SubjunctRelCN cn rs = RelCN cn rs ; -- no difference from indicative
lincat
X = {s : Str} ;
lin
UseComp_estar = UseComp ;
UseComp_ser = UseComp ;

6
src/english/NounEng.gf
View File

@@ -39,9 +39,9 @@ concrete NounEng of Noun = CatEng ** open MorphoEng, ResEng, Prelude in {
DetQuant quant num = {
s = quant.s ! num.hasCard ! num.n ++ num.s ! quant.isDef ! Nom;
sp = \\g,hasAdj,c => case <num.hasCard,num.n> of {
<False,Sg> => quant.sp ! g ! hasAdj ! num.n ! c ++ num.s ! quant.isDef ! Nom ;
_ => quant.s ! True ! num.n ++ num.sp ! quant.isDef ! npcase2case c
sp = \\g,hasAdj,c => case num.hasCard of {
False => quant.sp ! g ! hasAdj ! num.n ! c ++ num.s ! quant.isDef ! Nom ;
_ => quant.s ! True ! num.n ++ num.sp ! quant.isDef ! npcase2case c
} ;
n = num.n ;
hasNum = num.hasCard

5
src/faroese/AdjectiveFao.gf
View File

@@ -1,4 +1,7 @@
concrete AdjectiveFao of Adjective = CatFao ** {
concrete AdjectiveFao of Adjective = CatFao ** open ResFao in {
lin
PositA a = a ;
ComparA a np = {
s = \\g,n,c => "meir" ++ a.s ! g ! n ! c ++ "enn" ++ np.s ! Nom
} ;
}

3
src/faroese/AllFao.gf
View File

@@ -1,4 +1,5 @@
concrete AllFao of AllFaoAbs =
LangFao
LangFao,
ExtendFao
**
{} ;

5
src/faroese/AllFaoAbs.gf
View File

@@ -1,3 +1,4 @@
abstract AllFaoAbs =
Lang
** {}
Lang,
Extend
** {}

11
src/faroese/CatFao.gf
View File

@@ -9,9 +9,20 @@ lincat V = Verb ;
lincat VV,VS,VQ,VA = Verb ;
lincat V2 = Verb ** {c2 : Compl} ;
lincat V3,V2A,V2S,V2Q,V2V = Verb ** {c2,c3 : Compl} ;
lincat VP = VerbPhrase ;
lincat VPSlash = Verb ** {c2 : Compl} ;
lincat Comp = {s : Gender => Number => Str} ;
lincat Cl = Clause ;
lincat Prep = Compl ;
lincat CN = CommonNoun ;
lincat NP, Pron = {s : Case => Str ; g : Gender ; n : Number ; p : Person} ;
lincat RCl = {s : Tense => Polarity => Gender => PersNum => Str} ;
lincat RS = {s : Gender => PersNum => Str} ;
lincat RP = {s : Str} ;
lincat AP = AdjPhrase ;
lincat Det = {s : Gender => Case => Str ; n : Number ; sp : Species} ;
lincat Quant = {s : Gender => Number => Case => Str ; sp : Species} ;
lincat Num = {s : Gender => Case => Str ; n : Number} ;
lincat S = {s : Str} ;
lincat LN,SN,GN,PN = {s : Str} ;

28
src/faroese/DocumentationFao.gf
View File

@@ -10,7 +10,11 @@ lincat
lin
InflectionN,InflectionN2,InflectionN3 = \x -> {
t="n" ;
s1="" ;
s1 = heading1 ("Noun" ++ case x.g of {
Neuter=> "(neuter)";
Masc => "(masc)";
Fem => "(fem)"
}) ;
s2=frameTable (
tr (intagAttr "th" "colspan=\"2\"" "" ++ th "Indef" ++ th "Def") ++
tr (intagAttr "th" "rowspan=\"4\"" "Sg" ++
@@ -30,17 +34,17 @@ lin
t="a" ;
s1="" ;
s2=frameTable (
tr (intagAttr "th" "colspan=\"2\"" "" ++ th "Masc" ++ th "Fem" ++ th "Neutr") ++
tr (intagAttr "th" "colspan=\"2\"" "" ++ th "Masc" ++ th "Fem" ++ th "Neuter") ++
tr (intagAttr "th" "rowspan=\"4\"" "Sg" ++
th "Nom" ++ td (x.s ! Masc ! Sg ! Nom) ++ td (x.s ! Fem ! Sg ! Nom) ++ td (x.s ! Neutr ! Sg ! Nom)) ++
tr (th "Acc" ++ td (x.s ! Masc ! Sg ! Acc) ++ td (x.s ! Fem ! Sg ! Acc) ++ td (x.s ! Neutr ! Sg ! Acc)) ++
tr (th "Dat" ++ td (x.s ! Masc ! Sg ! Dat) ++ td (x.s ! Fem ! Sg ! Dat) ++ td (x.s ! Neutr ! Sg ! Dat)) ++
tr (th "Gen" ++ td (x.s ! Masc ! Sg ! Gen) ++ td (x.s ! Fem ! Sg ! Gen) ++ td (x.s ! Neutr ! Sg ! Gen)) ++
th "Nom" ++ td (x.s ! Masc ! Sg ! Nom) ++ td (x.s ! Fem ! Sg ! Nom) ++ td (x.s ! Neuter ! Sg ! Nom)) ++
tr (th "Acc" ++ td (x.s ! Masc ! Sg ! Acc) ++ td (x.s ! Fem ! Sg ! Acc) ++ td (x.s ! Neuter ! Sg ! Acc)) ++
tr (th "Dat" ++ td (x.s ! Masc ! Sg ! Dat) ++ td (x.s ! Fem ! Sg ! Dat) ++ td (x.s ! Neuter ! Sg ! Dat)) ++
tr (th "Gen" ++ td (x.s ! Masc ! Sg ! Gen) ++ td (x.s ! Fem ! Sg ! Gen) ++ td (x.s ! Neuter ! Sg ! Gen)) ++
tr (intagAttr "th" "rowspan=\"4\"" "Pl" ++
th "Nom" ++ td (x.s ! Masc ! Pl ! Nom) ++ td (x.s ! Fem ! Pl ! Nom) ++ td (x.s ! Neutr ! Pl ! Nom)) ++
tr (th "Acc" ++ td (x.s ! Masc ! Pl ! Acc) ++ td (x.s ! Fem ! Pl ! Acc) ++ td (x.s ! Neutr ! Pl ! Acc)) ++
tr (th "Dat" ++ td (x.s ! Masc ! Pl ! Dat) ++ td (x.s ! Fem ! Pl ! Dat) ++ td (x.s ! Neutr ! Pl ! Dat)) ++
tr (th "Gen" ++ td (x.s ! Masc ! Pl ! Gen) ++ td (x.s ! Fem ! Pl ! Gen) ++ td (x.s ! Neutr ! Pl ! Gen))) ;
th "Nom" ++ td (x.s ! Masc ! Pl ! Nom) ++ td (x.s ! Fem ! Pl ! Nom) ++ td (x.s ! Neuter ! Pl ! Nom)) ++
tr (th "Acc" ++ td (x.s ! Masc ! Pl ! Acc) ++ td (x.s ! Fem ! Pl ! Acc) ++ td (x.s ! Neuter ! Pl ! Acc)) ++
tr (th "Dat" ++ td (x.s ! Masc ! Pl ! Dat) ++ td (x.s ! Fem ! Pl ! Dat) ++ td (x.s ! Neuter ! Pl ! Dat)) ++
tr (th "Gen" ++ td (x.s ! Masc ! Pl ! Gen) ++ td (x.s ! Fem ! Pl ! Gen) ++ td (x.s ! Neuter ! Pl ! Gen))) ;
s3=[]
} ;
lin
@@ -51,8 +55,8 @@ lin
paragraph x.Converb ++
heading2 "Imperative" ++
frameTable (
tr (th "Sg" ++ td (x.Imperative_Jussive ! Sg)) ++
tr (th "Pl" ++ td (x.Imperative_Jussive ! Pl))) ++
tr (th "Sg" ++ td (x.imperative ! Sg)) ++
tr (th "Pl" ++ td (x.imperative ! Pl))) ++
heading2 "Indicative" ++
frameTable (
tr (intagAttr "th" "rowspan=\"4\"" "Pres" ++ th "Sg P1" ++ td (x.Indicative ! Pres ! PSg P1)) ++

13
src/faroese/ExtendFao.gf Normal file
View File

@@ -0,0 +1,13 @@
concrete ExtendFao of Extend = CatFao **
open ParadigmsFao, ResFao in {
lin
iFem_Pron = mkPron "eg" "meg" "mær" "mín" Masc Sg P1 ;
youFem_Pron = mkPron "tú" "teg" "tær" "tín" Masc Sg P2 ;
weFem_Pron = mkPron "vit" "okkum" "okkum" "okkara" Masc Pl P1 ;
youPlFem_Pron = mkPron "tit" "tykkum" "tykkum" "tykkara" Masc Pl P2 ;
theyFem_Pron = mkPron "tær" "tær" "teimum" "teirra" Masc Pl P3 ;
youPolFem_Pron = mkPron "tit" "tykkum" "tykkum" "tykkara" Masc Pl P2 ;
youPolPl_Pron = mkPron "tit" "tykkum" "tykkum" "tykkara" Masc Pl P2 ;
youPolPlFem_Pron = mkPron "tit" "tykkum" "tykkum" "tykkara" Masc Pl P2 ;
}

8
src/faroese/GrammarFao.gf
View File

@@ -2,5 +2,9 @@ concrete GrammarFao of Grammar =
TenseX,
PhraseFao,
NounFao,
AdjectiveFao ** {
}
VerbFao,
AdjectiveFao,
SentenceFao,
RelativeFao,
StructuralFao ** {
}

11
src/faroese/LexiconFao.gf
View File

@@ -1,2 +1,9 @@
concrete LexiconFao of Lexicon = CatFao ** open ParadigmsFao in {
}
concrete LexiconFao of Lexicon = CatFao ** open ParadigmsFao, ResFao in {
lin
apple_N = mkN "epli" ;
big_A = mkA "stórur" ;
child_N = mkN "barn" ;
die_V = mkV "doyggja" "doyrt" ;
good_A = mkA "góður" ;
go_V = mkVerb "farið" "far" "farið" "fari" "fert" "fer" "fara" "fór" "fórt" "fór" "fóru" "fara" "farandi" "farin" ;
}

816
src/faroese/MorphoFao.gf
View File

File diff suppressed because it is too large Load Diff

49
src/faroese/NounFao.gf
View File

@@ -1,4 +1,51 @@
concrete NounFao of Noun = CatFao ** {
concrete NounFao of Noun = CatFao ** open ResFao in {
lin
UseN n = n ;
UsePron p = p ;
RelNP np rs =
np ** {s = \\c => np.s ! c ++ "," ++ rs.s ! np.g ! persNum np.n np.p} ;
DetCN det cn = {
s = \\c => det.s ! cn.g ! c ++ cn.s ! det.sp ! det.n ! c ;
g = cn.g ;
n = det.n ;
p = P3
} ;
DefArt = {
s = \\_,_,_ => [] ;
sp = Def
} ;
IndefArt = {
s = table {
Masc => table {
Sg => table {Nom => "ein" ; Acc => "ein" ; Dat => "einum" ; Gen => "eins"} ;
Pl => \\_ => []
} ;
Fem => table {
Sg => table {Nom => "ein" ; Acc => "eina" ; Dat => "einari" ; Gen => "einar"} ;
Pl => \\_ => []
} ;
Neuter => table {
Sg => table {Nom => "eitt" ; Acc => "eitt" ; Dat => "einum" ; Gen => "eins"} ;
Pl => \\_ => []
}
} ;
sp = Indef
} ;
DetQuant quant num = {
s = \\g,c => quant.s ! g ! num.n ! c ++ num.s ! g ! c ;
n = num.n ;
sp = quant.sp
} ;
NumSg = {
s = \\_,_ => [] ;
n = Sg
} ;
NumPl = {
s = \\_,_ => [] ;
n = Pl
} ;
AdjCN ap cn = {
s = \\sp,n,c => ap.s ! cn.g ! n ! c ++ cn.s ! sp ! n ! c ;
g = cn.g
} ;
}

24
src/faroese/ParadigmsFao.gf
View File

@@ -319,6 +319,19 @@ oper
_ => regN form1
} ;
mkPron : (_,_,_,_ : Str) -> Gender -> Number -> Person -> Pron =
\nom,acc,dat,gen,g,n,p -> lin Pron {
s = table {
Nom => nom ;
Acc => acc ;
Dat => dat ;
Gen => gen
} ;
g = g ;
n = n ;
p = p
} ;
regA : Str -> A -- s;Masc;Sg;Nom
= \form -> case form of {
_ + "dur" => mkA001 form;
@@ -494,6 +507,10 @@ oper
mkA : Str -> Str -> A = reg2A -- s;Masc;Sg;Nom s;Masc;Sg;Dat
} ;
invarA : Str -> A = \s -> lin A {
s = \\_,_,_ => s
} ;
mkA2 = overload {
mkA2 : A -> A2 = \a -> lin A2 (a ** {c2 = noPrep}) ;
mkA2 : A -> Prep -> A2 = \a,p -> lin A2 (a ** {c2 = p}) ;
@@ -502,7 +519,7 @@ oper
mkV = overload {
mkV : Str -> V = regV; -- Nonfinite
mkV : Str -> Str -> V = reg2V ; -- Nonfinite Indicative;Pres;('PSg', P2)
mkV : V -> Str -> V -- particle verb
mkV : V -> Str -> V -- particle verb
= \v,p -> v ** {particle = p}
} ;
@@ -556,10 +573,11 @@ oper
mkIQuant : Str -> IQuant = \s -> lin IQuant {s=s} ;
mkIDet : Str -> IDet = \s -> lin IDet {s=s} ;
mkSubj : Str -> Subj = \s -> lin Subj {s=s} ;
mkQuant : Str -> Quant = \s -> lin Quant {s=s} ;
mkQuant : Str -> Quant = \s -> lin Quant {s=\\_,_,_ => s; sp=Indef} ;
mkPredet : Str -> Predet = \s -> lin Predet {s=s} ;
mkDet : Str -> Det = \s -> lin Det {s=s} ;
mkDet : Str -> Det = \s -> lin Det {s=\\_,_ => s; n=Sg; sp=Indef} ;
mkCard : Str -> Card = \s -> lin Card {s=s} ;
mkACard : Str -> ACard = \s -> lin ACard {s=s} ;
mkConj : Str -> Conj = \s -> lin Conj {s=s} ;
mkPConj : Str -> PConj = \s -> lin PConj {s=s} ;
mkVoc : Str -> Voc = \s -> lin Voc {s=s} ;

7
src/faroese/PhraseFao.gf
View File

@@ -1,8 +1,13 @@
concrete PhraseFao of Phrase = CatFao ** {
concrete PhraseFao of Phrase = CatFao ** open ResFao in {
lin
PhrUtt pconj utt voc = {s = pconj.s ++ utt.s ++ voc.s} ;
UttS s = s ;
UttNP np = {s = np.s ! Nom} ;
UttVP vp = {s = vp.Nonfinite} ;
UttCN cn = {s = cn.s ! Indef ! Sg ! Nom} ;
UttAP ap = {s = ap.s ! Masc ! Sg ! Nom} ;
UttAdv adv = adv ;
UttInterj i = i ;
NoPConj = {s = []} ;

7
src/faroese/RelativeFao.gf Normal file
View File

@@ -0,0 +1,7 @@
concrete RelativeFao of Relative = CatFao ** open ResFao in {
lin
IdRP = {s = "sum"} ;
RelVP rp vp = {
s = \\t,pol,g,pn => rp.s ++ vp.Indicative ! t ! pol ! g ! pn
} ;
}

70
src/faroese/ResFao.gf
View File

@@ -1,12 +1,11 @@
resource ResFao = {
resource ResFao = ParamX - [Tense,Pres,Past] ** {
param Species = Indef | Def ;
param Number = Sg | Pl ;
param Case = Nom | Acc | Dat | Gen ;
param Gender = Neutr | Fem | Masc ;
oper Noun = {s: Species => Number => Case => Str} ; -- 2135
oper mkNoun : (_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_ : Str) -> Noun =
\f1,f2,f3,f4,f5,f6,f7,f8,f9,f10,f11,f12,f13,f14,f15,f16 ->
param Gender = Masc | Fem | Neuter ;
oper Noun = {s: Species => Number => Case => Str; g : Gender} ; -- 2135
oper mkNoun : (_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_ : Str) -> Gender -> Noun =
\f1,f2,f3,f4,f5,f6,f7,f8,f9,f10,f11,f12,f13,f14,f15,f16,g ->
{ s = table {
Indef => table {
Sg => table {
@@ -36,7 +35,8 @@ oper mkNoun : (_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_ : Str) -> Noun =
Gen => f16
}
}
}
} ;
g = g
} ;
@@ -72,7 +72,7 @@ oper mkAdj : (_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_ : Str) -> Adj =
Gen => f16
}
} ;
Neutr => table {
Neuter=> table {
Sg => table {
Nom => f17 ;
Acc => f18 ;
@@ -89,17 +89,28 @@ oper mkAdj : (_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_ : Str) -> Adj =
}
} ;
param Tense = Past | Pres ;
param Tense = Pres | Past ;
param PersNum = PSg Person | PPl ;
param Person = P1 | P3 | P2 ;
oper Verb = {Converb: Str; Imperative_Jussive: Number => Str; Indicative: Tense => PersNum => Str; Nonfinite: Str; Participle: Tense => Str ; particle : Str} ; -- 596
oper persNum : Number -> Person -> PersNum =
\n,p -> case n of {
Sg => PSg p ;
Pl => PPl
} ;
oper persNumNumber : PersNum -> Number =
\pn -> case pn of {
PSg _ => Sg ;
PPl => Pl
} ;
oper Verb = {Converb: Str; imperative: Number => Str; Indicative: Tense => PersNum => Str; Nonfinite: Str; Participle: Tense => Str ; particle : Str} ; -- 596
oper mkVerb : (_,_,_,_,_,_,_,_,_,_,_,_,_,_ : Str) -> Verb =
\f1,f2,f3,f4,f5,f6,f7,f8,f9,f10,f11,f12,f13,f14 ->
{ Converb = f1 ;
Imperative_Jussive = table {
Sg => f2 ;
Pl => f3
} ;
imperative = table {
Sg => f2 ;
Pl => f3
} ;
Indicative = table {
Pres => table {
PSg P1 => f4 ;
@@ -128,5 +139,34 @@ oper noPrep : Compl = {s=""; c=Acc} ;
oper CommonNoun = Noun ;
oper AdjPhrase = Adj ;
oper VerbPhrase = {
Converb : Str ;
Indicative : Tense => Polarity => Gender => PersNum => Str ;
Nonfinite : Str ;
Participle : Tense => Str ;
} ;
oper Clause = {
Converb : Str ;
Indicative : Tense => Polarity => Str ;
Nonfinite : Str ;
Participle : Tense => Str
} ;
oper
copula : Tense => PersNum => Str =
table {
Pres => table {
PSg P1 => "eri" ;
PSg P2 => "ert" ;
PSg P3 => "er" ;
PPl => "eru"
} ;
Past => table {
PSg P1 => "var" ;
PSg P2 => "vart" ;
PSg P3 => "var" ;
PPl => "vóru"
}
} ;
}

31
src/faroese/SentenceFao.gf Normal file
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@@ -0,0 +1,31 @@
concrete SentenceFao of Sentence = CatFao ** open Prelude, ResFao, (P = ParamX) in {
lin PredVP np vp = {Converb = np.s ! Nom ++ vp.Converb;
Indicative = \\t,pol =>
let p = persNum np.n np.p
in np.s ! Nom ++ vp.Indicative ! t ! pol ! np.g ! p;
Nonfinite = np.s ! Nom ++ vp.Nonfinite;
Participle = \\t => np.s ! Nom ++ vp.Participle ! t} ;
UseCl temp pol cl =
let
tense = case temp.t of {
P.Pres => Pres ;
P.Past => Past ;
P.Fut => Pres ;
P.Cond => Past
} ;
in {
s = temp.s ++ pol.s ++ cl.Indicative ! tense ! pol.p
} ;
UseRCl temp pol rcl =
let
tense = case temp.t of {
P.Pres => Pres ;
P.Past => Past ;
P.Fut => Pres ;
P.Cond => Past
}
in {
s = \\g,pn =>
temp.s ++ pol.s ++ rcl.s ! tense ! pol.p ! g ! pn
} ;
}

14
src/faroese/StructuralFao.gf Normal file
View File

@@ -0,0 +1,14 @@
concrete StructuralFao of Structural = CatFao **
open ParadigmsFao, ResFao in {
lin
i_Pron = mkPron "eg" "meg" "mær" "mín" Masc Sg P1 ;
youSg_Pron = mkPron "tú" "teg" "tær" "tín" Masc Sg P2 ;
he_Pron = mkPron "hann" "hann" "honum" "hansara" Masc Sg P3 ;
she_Pron = mkPron "hon" "hana" "henni" "hennara" Fem Sg P3 ;
it_Pron = mkPron "tað" "tað" "tí" "tess" Neuter Sg P3 ;
we_Pron = mkPron "vit" "okkum" "okkum" "okkara" Masc Pl P1 ;
youPl_Pron = mkPron "tit" "tykkum" "tykkum" "tykkara" Masc Pl P2 ;
they_Pron = mkPron "teir" "teir" "teimum" "teirra" Masc Pl P3 ;
youPol_Pron = mkPron "tit" "tykkum" "tykkum" "tykkara" Masc Pl P2 ;
}

42
src/faroese/VerbFao.gf Normal file
View File

@@ -0,0 +1,42 @@
concrete VerbFao of Verb = CatFao ** open Prelude,ResFao in {
lin UseV v = {Converb = v.Converb ++ v.particle;
Indicative = \\t,pol,g,p => v.Indicative ! t ! p ++ v.particle ++
case pol of {
Pos => [] ;
Neg => "ikki"
} ;
Nonfinite = v.Nonfinite ++ v.particle;
Participle = \\t => v.Participle ! t ++ v.particle} ;
lin AdvVP vp adv = {Converb = vp.Converb ++ adv.s;
Indicative = \\t,pol,g,p => vp.Indicative ! t ! pol ! g ! p ++ adv.s;
Nonfinite = vp.Nonfinite ++ adv.s;
Participle = \\t => vp.Participle ! t ++ adv.s} ;
lin ComplSlash vps np = {Converb = vps.Converb ++ vps.particle
++ vps.c2.s ++ np.s ! vps.c2.c;
Indicative = \\t,pol,g,p =>
vps.Indicative ! t ! p ++ vps.particle ++
case pol of {
Pos => [] ;
Neg => "ikki"
} ++
vps.c2.s ++ np.s ! vps.c2.c ;
Nonfinite = vps.Nonfinite ++ vps.particle ++ vps.c2.s ++ np.s ! vps.c2.c;
Participle = \\t => vps.Participle ! t ++ vps.particle ++ vps.c2.s ++ np.s ! vps.c2.c} ;
lin UseComp comp = {
Converb = copula ! Pres ! PPl ++ comp.s ! Masc ! Sg ;
Indicative = \\t,pol,g,p => copula ! t ! p ++
case pol of {
Pos => [] ;
Neg => "ikki"
} ++
comp.s ! g ! persNumNumber p ;
Nonfinite = "vera" ++ comp.s ! Masc ! Sg ;
Participle = \\t => "verið" ++ comp.s ! Masc ! Sg
} ;
lin CompAP ap = {s = \\g,n => ap.s ! g ! n ! Nom} ;
lin CompNP np = {s = \\_,_ => np.s ! Nom} ;
lin CompAdv adv = {s = \\_,_ => adv.s} ;
lin CompCN cn = {s = \\_,n => cn.s ! Indef ! n ! Nom} ;
lin SlashV2a v = v ;
}

2
src/greek/ParadigmsGre.gf
View File

@@ -68,6 +68,8 @@ oper
mkPN = overload {
mkPN : (anna : Str) -> PN
= \p -> lin PN (regName p) ;
mkPN : (anna : Str) -> Gender -> PN
= \p, g -> lin PN (regName p ** {g = g}) ;
mkPN : (nm,gm,am,vm,pn,pa : Str) -> Gender -> PN
= \ nm,gm,am,vm,pn,pa, g -> lin PN (mkName nm gm am vm pn pa g) ;
} ;

25
src/greek/ResGre.gf
View File

@@ -670,31 +670,6 @@ resource ResGre = ParamX ** open Prelude in {
g = g
} ;
mkNoun_anthropos : (s1,_ : Str) -> Gender -> Noun =
\anthropos, anthropon, g ->
let
anthrop = Predef.tk 2 anthropos ;
anthrOp = Predef.tk 2 anthropon ;
in {
s = table {
Sg => table {
Nom => anthropos ;
Gen|CPrep P_Dat => anthrOp + "ου" ;
Acc |CPrep P_se |CPrep PNul => anthrop + "ο";
Vocative => anthrop + "ε"
} ;
Pl => table {
Nom | Vocative=> anthrop + "οι" ;
Gen |CPrep P_Dat=> anthropon ;
Acc |CPrep P_se |CPrep PNul => anthrOp + "ους"
}
} ;
g = g
} ;
----------------Neuter nouns in -ς , with stress movement,syllabic augmentation, irregular (φως, γεγονός, ημίφως) --------------
mkNoun_fws: (s1,_ : Str) -> Gender -> Noun =
\fws, fwtos, g ->

2
src/hebrew/PatternsHeb.gf
View File

@@ -72,9 +72,7 @@ taC1C2eC3o = { C1 = "ת" ; C1C2=""; C2C3 =""; C3="ו"};
taC1C2aC3nah = { C1 = "ת" ; C1C2=""; C2C3 =""; C3="נה"};
yaC1C2aC3 = { C1 = "י" ; C1C2=""; C2C3 =""; C3=""};
taC1C2aC3 = { C1 = "ת" ; C1C2=""; C2C3 =""; C3=""};
yaC1C2aC3u = { C1 = "י" ; C1C2=""; C2C3 =""; C3="ו"};
taC1C2aC3nah = { C1 = "ת" ; C1C2=""; C2C3 =""; C3="נה"};
C1uC2aC3 = { C1 = "" ; C1C2="ו"; C2C3 =""; C3=""};

8
src/hungarian/AdjectiveHun.gf
View File

@@ -7,7 +7,7 @@ concrete AdjectiveHun of Adjective = CatHun ** open ResHun, Prelude in {
-- : A -> AP ;
PositA a = emptyAP ** {
s = \\n,c =>
let adj : Noun = (a ** {s = a.s ! Posit}) in
let adj : Noun = (a ** {s = a.s ! Posit; g = NonHuman}) in
caseFromStem glue adj c n ;
} ;
@@ -35,7 +35,7 @@ concrete AdjectiveHun of Adjective = CatHun ** open ResHun, Prelude in {
-- : A -> AP ; -- warmer
UseComparA a = emptyAP ** {
s = \\n,c =>
let adj : Noun = (a ** {s = a.s ! Compar}) in
let adj : Noun = (a ** {s = a.s ! Compar; g = NonHuman}) in
caseFromStem glue adj c n ;
} ;
@@ -54,7 +54,9 @@ concrete AdjectiveHun of Adjective = CatHun ** open ResHun, Prelude in {
-- phrases, although the semantics is only clear for some adjectives.
-- : AP -> SC -> AP ; -- good that she is here
-- SentAP ap sc = ap ** {} ;
SentAP ap sc = ap ** {
compl = \\n => ap.compl ! n ++ sc.s ;
} ;
-- An adjectival phrase can be modified by an *adadjective*, such as "very".

15
src/hungarian/AdverbHun.gf
View File

@@ -3,7 +3,11 @@ concrete AdverbHun of Adverb = CatHun ** open ResHun, ParamHun, ParadigmsHun, Pr
lin
-- : A -> Adv ;
--PositAdvAdj adj = { } ;
PositAdvAdj adj = {
s = let a : Str = adj.s ! Posit ! SgNom
in a ++ BIND ++ "an" ;
isPre = False ;
} ;
-- : CAdv -> A -> NP -> Adv ; -- more warmly than John
-- ComparAdvAdj cadv a np = { } ;
@@ -19,15 +23,18 @@ lin
-- Adverbs can be modified by 'adadjectives', just like adjectives.
--AdAdv : AdA -> Adv -> Adv ; -- very quickly
-- AdAdv ada adv = adv **
AdAdv ada adv = adv ** {s = ada.s ++ adv.s} ;
-- Like adverbs, adadjectives can be produced by adjectives.
-- : A -> AdA ; -- extremely
-- PositAdAAdj a = { } ;
PositAdAAdj a = {s = a.s ! Posit ! SgNom} ;
-- Subordinate clauses can function as adverbs.
-- : Subj -> S -> Adv ;
-- SubjS subj s =
SubjS subj s = {
s = subj.s ++ s.s ;
isPre = False ;
} ;
-- Comparison adverbs also work as numeral adverbs.

1
src/hungarian/AllHun.gf
View File

@@ -2,5 +2,6 @@
concrete AllHun of AllHunAbs =
LangHun,
IrregHun,
ExtendHun
** {} ;

1
src/hungarian/AllHunAbs.gf
View File

@@ -2,5 +2,6 @@
abstract AllHunAbs =
Lang,
IrregHunAbs,
Extend
** {} ;

6
src/hungarian/CatHun.gf
View File

@@ -76,8 +76,7 @@ concrete CatHun of Cat = CommonX - [Adv] ** open ResHun, Prelude in {
-- Constructed in NumeralHun.
Card = ResHun.Numeral ;
Numeral = ResHun.Numeral ;
Card, ACard, Numeral = ResHun.Numeral ;
Digits = {s : CardOrd => Str} ;
Decimal = {s : CardOrd => Str; hasDot : Bool} ;
@@ -126,5 +125,8 @@ linref
NP = linNP ;
V,VS,VQ,VA = \v -> v.s ! VPres P3 Sg ;
V2,V3,V2S,V2Q,V2A = \v -> v.s ! Indef ! VPres P3 Sg ;
VP = \vp -> vp.obj ++ vp.adv ++ vp.s ! VInf ;
lindef
VP = \s -> {s = \\_=>s; obj,adv=[]; sc=SCNom; c2=Acc} ;
}

39
src/hungarian/ConjunctionHun.gf
View File

@@ -52,22 +52,37 @@ lin
in np ** {s = linTable} ;
-- Relative sentences
lincat
[RS] = {s1,s2 : Number => Case => Str} ;
[RS] = {s1,s2 : Gender => Number => Case => Str} ;
lin
BaseRS = twoTable2 Number Case ;
ConsRS = consrTable2 Number Case comma ;
ConjRS = conjunctDistrTable2 Number Case ;
BaseRS = twoTable3 Gender Number Case ;
ConsRS = consrTable3 Gender Number Case comma ;
ConjRS = conjunctDistrTable3 Gender Number Case ;
lincat
[CN] = {
s1,s2 : NumCaseStem => Str ;
h : Harm ;
g : Gender
} ;
lin
BaseCN x y = twoTable NumCaseStem x y ** {
h = y.h ;
g = y.g
} ;
ConsCN x xs = consrTable NumCaseStem comma x xs ** {
h = xs.h ;
g = xs.g
} ;
ConjCN co cs = conjunctDistrTable NumCaseStem co cs ** {
compl = \\_,_ => [] ;
postmod = [] ;
h = cs.h ;
g = cs.g
} ;
{-
lincat
[CN] = { } ;
lin
BaseCN = {} ;
ConsCN = {} ;
ConjCN co cs = conjunctDistrTable … co cs ** cs ;
lincat
[DAP] =

169
src/hungarian/ConstructionHun.gf
View File

@@ -1,11 +1,178 @@
concrete ConstructionHun of Construction = CatHun ** open ParadigmsHun in {
concrete ConstructionHun of Construction = CatHun ** open
ParadigmsHun, ResHun, NounHun, VerbHun, AdjectiveHun, Prelude in {
lincat
Timeunit = N ;
Hour = {s : Str} ;
Weekday = N ;
Monthday = NP ;
Month = N ;
Year = NP ;
Language = N ;
lin
hungry_VP = UseComp (CompAP (PositA (mkA "éhes"))) ;
thirsty_VP = UseComp (CompAP (PositA (mkA "szomjas"))) ;
tired_VP = UseComp (CompAP (PositA (mkA "fáradt"))) ;
scared_VP = UseComp (CompAP (PositA (mkA "ijedt"))) ;
ill_VP = UseComp (CompAP (PositA (mkA "beteg"))) ;
ready_VP = UseComp (CompAP (PositA (mkA "kész"))) ;
has_age_VP card = useV (copula ** {
s = \\vf => case vf of {
VPres P3 _ => [] ;
_ => copula.s ! vf
}
}) ** {
adv = card.s ! Indep ++ "éves"
} ;
n_units_AP card cn a =
let ap : AP = PositA a in ap ** {
s = \\n,c => card.s ! Attrib ++ cn.s ! SgNom ++ ap.s ! n ! c
} ;
n_units_of_NP card cn np = lin NP (indeclNP
(card.s ! Attrib ++ cn.s ! SgNom ++ np.s ! NoPoss ! Nom ++ np.postmod)) ;
n_unit_CN card unit cn = cn ** {
s = \\ncs => card.s ! Attrib ++ unit.s ! SgNom ++ cn.s ! ncs
} ;
bottle_of_CN np = (UseN (mkN "palack")) ** {
compl = \\_,_ => np.s ! NoPoss ! Nom ++ np.postmod
} ;
cup_of_CN np = (UseN (mkN "csésze")) ** {
compl = \\_,_ => np.s ! NoPoss ! Nom ++ np.postmod
} ;
glass_of_CN np = (UseN (mkN "pohár")) ** {
compl = \\_,_ => np.s ! NoPoss ! Nom ++ np.postmod
} ;
timeunitAdv n time = mkAdv (n.s ! Attrib ++ time.s ! SgNom) ;
timeunitRange l u time =
mkAdv (l.s ! Attrib ++ BIND ++ "-" ++ BIND ++ u.s ! Attrib ++ time.s ! SgNom) ;
oneHour = {s = "1"} ;
twoHour = {s = "2"} ;
threeHour = {s = "3"} ;
fourHour = {s = "4"} ;
fiveHour = {s = "5"} ;
sixHour = {s = "6"} ;
sevenHour = {s = "7"} ;
eightHour = {s = "8"} ;
nineHour = {s = "9"} ;
tenHour = {s = "10"} ;
elevenHour = {s = "11"} ;
twelveHour = {s = "12"} ;
thirteenHour = {s = "13"} ;
fourteenHour = {s = "14"} ;
fifteenHour = {s = "15"} ;
sixteenHour = {s = "16"} ;
seventeenHour = {s = "17"} ;
eighteenHour = {s = "18"} ;
nineteenHour = {s = "19"} ;
twentyHour = {s = "20"} ;
twentyOneHour = {s = "21"} ;
twentyTwoHour = {s = "22"} ;
twentyThreeHour = {s = "23"} ;
twentyFourHour = {s = "24"} ;
timeHour h = mkAdv (h.s ++ "órakor") ;
timeHourMinute h m = mkAdv (h.s ++ BIND ++ ":" ++ BIND ++ m.s ! Attrib) ;
weekdayPunctualAdv w = mkAdv (caseFromStem glue w Sup Sg) ;
weekdayHabitualAdv w = mkAdv (caseFromStem glue w Sup Sg) ;
weekdayNextAdv w = mkAdv ("jövő" ++ caseFromStem glue w Sup Sg) ;
weekdayLastAdv w = mkAdv ("múlt" ++ caseFromStem glue w Sup Sg) ;
monthAdv m = mkAdv (caseFromStem glue m Ine Sg) ;
yearAdv y = mkAdv (y.s ! NoPoss ! Nom ++ BIND ++ "-ban") ;
dayMonthAdv d m =
mkAdv (d.s ! NoPoss ! Nom ++ BIND ++ "." ++ m.s ! SgNom) ;
monthYearAdv m y =
mkAdv (m.s ! SgNom ++ y.s ! NoPoss ! Nom ++ BIND ++ "-ban") ;
dayMonthYearAdv d m y =
mkAdv (d.s ! NoPoss ! Nom ++ BIND ++ "." ++ m.s ! SgNom ++ y.s ! NoPoss ! Nom ++ BIND ++ "-ban") ;
intYear i = lin NP (indeclNP i.s) ;
intMonthday i = lin NP (indeclNP i.s) ;
InLanguage l = mkAdv (l.s ! SgNom ++ "nyelven") ;
weekdayN w = w ;
monthN m = m ;
weekdayPN w = lin PN (MassNP (UseN w)) ;
monthPN m = lin PN (MassNP (UseN m)) ;
languageCN l = UseN l ;
languageNP l = lin NP (MassNP (UseN l)) ;
second_Timeunit = mkN "másodperc" ;
minute_Timeunit = mkN "perc" ;
hour_Timeunit = mkN "óra" ;
day_Timeunit = mkN "nap" ;
week_Timeunit = mkN "hét" ;
month_Timeunit = mkN "hónap" ;
year_Timeunit = mkN "év" ;
monday_Weekday = mkN "hétfő" ;
tuesday_Weekday = mkN "kedd" ;
wednesday_Weekday = mkN "szerda" ;
thursday_Weekday = mkN "csütörtök" ;
friday_Weekday = mkN "péntek" ;
saturday_Weekday = mkN "szombat" ;
sunday_Weekday = mkN "vasárnap" ;
january_Month = mkN "január" ;
february_Month = mkN "február" ;
march_Month = mkN "március" ;
april_Month = mkN "április" ;
may_Month = mkN "május" ;
june_Month = mkN "június" ;
july_Month = mkN "július" ;
august_Month = mkN "augusztus" ;
september_Month = mkN "szeptember" ;
october_Month = mkN "október" ;
november_Month = mkN "november" ;
december_Month = mkN "december" ;
afrikaans_Language = mkN "afrikaans" ;
amharic_Language = mkN "amhara" ;
arabic_Language = mkN "arab" ;
bulgarian_Language = mkN "bolgár" ;
catalan_Language = mkN "katalán" ;
chinese_Language = mkN "kínai" ;
danish_Language = mkN "dán" ;
dutch_Language = mkN "holland" ;
english_Language = mkN "angol" ;
estonian_Language = mkN "észt" ;
finnish_Language = mkN "finn" ;
french_Language = mkN "francia" ;
german_Language = mkN "német" ;
greek_Language = mkN "görög" ;
hebrew_Language = mkN "héber" ;
hindi_Language = mkN "hindi" ;
japanese_Language = mkN "japán" ;
italian_Language = mkN "olasz" ;
latin_Language = mkN "latin" ;
latvian_Language = mkN "lett" ;
maltese_Language = mkN "máltai" ;
nepali_Language = mkN "nepáli" ;
norwegian_Language = mkN "norvég" ;
persian_Language = mkN "perzsa" ;
polish_Language = mkN "lengyel" ;
punjabi_Language = mkN "pandzsábi" ;
romanian_Language = mkN "román" ;
russian_Language = mkN "orosz" ;
sindhi_Language = mkN "szindhi" ;
spanish_Language = mkN "spanyol" ;
swahili_Language = mkN "szuahéli" ;
swedish_Language = mkN "svéd" ;
thai_Language = mkN "thai" ;
turkish_Language = mkN "török" ;
urdu_Language = mkN "urdu" ;
{-
lin

206
src/hungarian/DocumentationHun.gf Normal file
View File

@@ -0,0 +1,206 @@
--# -path=.:../abstract:../common:../prelude
concrete DocumentationHun of Documentation = CatHun ** open
ResHun, Prelude, HTML in {
lincat
Inflection = {t : Str; s1,s2 : Str} ;
Definition = {s : Str} ;
Document = {s : Str} ;
Tag = {s : Str} ;
lin
InflectionN = \noun -> nounInflection "n" "Főnév" noun ;
InflectionN2 = \noun -> nounInflection "n2" "Kétargumentumú főnév" noun ;
InflectionN3 = \noun -> nounInflection "n3" "Háromargumentumú főnév" noun ;
InflectionPN = \pn -> nameInflection "pn" "Tulajdonnév" pn ;
InflectionLN = \ln -> nameInflection "ln" "Helynév" ln ;
InflectionGN = \gn -> nameInflection "gn" "Keresztnév" gn ;
InflectionSN = \sn -> nameInflection "sn" "Vezetéknév" sn ;
InflectionA = \adj -> adjectiveInflection "a" "Melléknév" adj ;
InflectionA2 = \adj -> adjectiveInflection "a2" "Vonzatos melléknév" adj ;
InflectionV = \v -> verbInflection "v" "Ige" v ;
InflectionVS = \v -> verbInflection "vs" "Mondatvonzatú ige" v ;
InflectionVQ = \v -> verbInflection "vq" "Kérdő mondatvonzatú ige" v ;
InflectionVA = \v -> verbInflection "va" "Melléknévi vonzatú ige" v ;
InflectionV2 = \v -> verb2Inflection "v2" "Tárgyas ige" v ;
InflectionVV = \v -> verb2Inflection "vv" "Igenévi vonzatú ige" v ;
InflectionV3 = \v -> verb2Inflection "v3" "Háromargumentumú ige" v ;
InflectionV2V = \v -> verb2Inflection "v2v" "Tárgyas és igenévi vonzatú ige" v ;
InflectionV2S = \v -> verb2Inflection "v2s" "Tárgyas és mondatvonzatú ige" v ;
InflectionV2Q = \v -> verb2Inflection "v2q" "Tárgyas és kérdő mondatvonzatú ige" v ;
InflectionV2A = \v -> verb2Inflection "v2a" "Tárgyas és melléknévi vonzatú ige" v ;
InflectionAdv = \adv -> adverbInflection "adv" "Határozószó" adv.s ;
InflectionAdV = \adv -> adverbInflection "adv" "Igei határozószó" adv.s ;
InflectionAdA = \adv -> adverbInflection "adv" "Melléknévi határozószó" adv.s ;
InflectionAdN = \adv -> adverbInflection "adv" "Főnévi határozószó" adv.s ;
InflectionPrep = \prep -> {
t = "prep" ;
s1 = heading1 "Névutó" ;
s2 = frameTable (
tr (th "előtag" ++ td prep.pr) ++
tr (th "eset" ++ td (caseName prep.c)) ++
tr (th "névutó" ++ td prep.s))
} ;
lin
NoDefinition t = {s = t.s} ;
MkDefinition t d = {s = "<p><b>Meghatározás:</b>" ++ t.s ++ d.s ++ "</p>"} ;
MkDefinitionEx t d e =
{s = "<p><b>Meghatározás:</b>" ++ t.s ++ d.s ++
"</p><p><b>Példa:</b>" ++ e.s ++ "</p>"} ;
lin
MkDocument d i e = {s = i.s1 ++ d.s ++ i.s2 ++ paragraph e.s} ;
MkTag i = {s = i.t} ;
oper
nounInflection : Str -> Str -> Noun -> {t : Str; s1,s2 : Str} =
\tag,title,noun -> {
t = tag ;
s1 = heading1 title ;
s2 = caseTable2 (\n,c -> nounCase noun n c) ++
heading2 "Birtokos alakok" ++
possTable noun
} ;
nameInflection : Str -> Str -> NounPhrase -> {t : Str; s1,s2 : Str} =
\tag,title,np -> {
t = tag ;
s1 = heading1 title ;
s2 = frameTable (
tr (th "alanyeset" ++ td (np.s ! NoPoss ! Nom)) ++
tr (th "tárgyeset" ++ td (np.s ! NoPoss ! Acc)) ++
tr (th "részes eset" ++ td (np.s ! NoPoss ! Dat)) ++
tr (th "inessivus" ++ td (np.s ! NoPoss ! Ine)) ++
tr (th "elativus" ++ td (np.s ! NoPoss ! Ela)) ++
tr (th "allativus" ++ td (np.s ! NoPoss ! All)) ++
tr (th "adessivus" ++ td (np.s ! NoPoss ! Ade)) ++
tr (th "ablativus" ++ td (np.s ! NoPoss ! Abl)) ++
tr (th "superessivus" ++ td (np.s ! NoPoss ! Sup)) ++
tr (th "instrumentalis" ++ td (np.s ! NoPoss ! Ins)) ++
tr (th "translativus" ++ td (np.s ! NoPoss ! Tra)))
} ;
adjectiveInflection : Str -> Str -> Adjective -> {t : Str; s1,s2 : Str} =
\tag,title,adj -> {
t = tag ;
s1 = heading1 title ;
s2 = heading2 "Alapfok" ++
caseTable2 (\n,c -> adjCase adj Posit n c) ++
heading2 "Középfok" ++
caseTable2 (\n,c -> adjCase adj Compar n c) ++
heading2 "Felsőfok" ++
caseTable2 (\n,c -> adjCase adj Superl n c)
} ;
adverbInflection : Str -> Str -> Str -> {t : Str; s1,s2 : Str} =
\tag,title,s -> {
t = tag ;
s1 = heading1 title ;
s2 = paragraph s
} ;
verbInflection : Str -> Str -> Verb -> {t : Str; s1,s2 : Str} =
\tag,title,v -> {
t = tag ;
s1 = heading1 title ;
s2 = verbTable (\vf -> v.s ! vf)
} ;
verb2Inflection : Str -> Str -> Verb2 -> {t : Str; s1,s2 : Str} =
\tag,title,v -> {
t = tag ;
s1 = heading1 title ;
s2 = paragraph ("vonzat esete: " ++ caseName v.c2) ++
heading2 "Határozatlan ragozás" ++
verbTable (\vf -> v.s ! Indef ! vf) ++
heading2 "Határozott ragozás" ++
verbTable (\vf -> v.s ! Def ! vf)
} ;
caseTable2 : (Number -> Case -> Str) -> Str =
\forms -> frameTable (
tr (th "" ++ th "egyes szám" ++ th "többes szám") ++
tr (th "alanyeset" ++ td (forms Sg Nom) ++ td (forms Pl Nom)) ++
tr (th "tárgyeset" ++ td (forms Sg Acc) ++ td (forms Pl Acc)) ++
tr (th "részes eset" ++ td (forms Sg Dat) ++ td (forms Pl Dat)) ++
tr (th "inessivus" ++ td (forms Sg Ine) ++ td (forms Pl Ine)) ++
tr (th "elativus" ++ td (forms Sg Ela) ++ td (forms Pl Ela)) ++
tr (th "allativus" ++ td (forms Sg All) ++ td (forms Pl All)) ++
tr (th "adessivus" ++ td (forms Sg Ade) ++ td (forms Pl Ade)) ++
tr (th "ablativus" ++ td (forms Sg Abl) ++ td (forms Pl Abl)) ++
tr (th "superessivus" ++ td (forms Sg Sup) ++ td (forms Pl Sup)) ++
tr (th "instrumentalis" ++ td (forms Sg Ins) ++ td (forms Pl Ins)) ++
tr (th "translativus" ++ td (forms Sg Tra) ++ td (forms Pl Tra)))
;
possTable : Noun -> Str =
\noun -> frameTable (
tr (th "" ++ th "birtok egyes szám" ++ th "birtok többes szám") ++
tr (th "1. személy egyes szám" ++ td (possForm noun Sg P1 Sg) ++ td (possForm noun Pl P1 Sg)) ++
tr (th "2. személy egyes szám" ++ td (possForm noun Sg P2 Sg) ++ td (possForm noun Pl P2 Sg)) ++
tr (th "3. személy egyes szám" ++ td (possForm noun Sg P3 Sg) ++ td (possForm noun Pl P3 Sg)) ++
tr (th "1. személy többes szám" ++ td (possForm noun Sg P1 Pl) ++ td (possForm noun Pl P1 Pl)) ++
tr (th "2. személy többes szám" ++ td (possForm noun Sg P2 Pl) ++ td (possForm noun Pl P2 Pl)) ++
tr (th "3. személy többes szám" ++ td (possForm noun Sg P3 Pl) ++ td (possForm noun Pl P3 Pl)))
;
verbTable : (VForm -> Str) -> Str =
\forms ->
heading2 "Főnévi igenév" ++
paragraph (forms VInf) ++
heading2 "Jelen idő" ++
personNumberTable (\p,n -> forms (VPres p n)) ++
heading2 "Múlt idő" ++
personNumberTable (\p,n -> forms (VPast p n)) ;
personNumberTable : (Person -> Number -> Str) -> Str =
\forms -> frameTable (
tr (th "" ++ th "egyes szám" ++ th "többes szám") ++
tr (th "1. személy" ++ td (forms P1 Sg) ++ td (forms P1 Pl)) ++
tr (th "2. személy" ++ td (forms P2 Sg) ++ td (forms P2 Pl)) ++
tr (th "3. személy" ++ td (forms P3 Sg) ++ td (forms P3 Pl)))
;
nounCase : Noun -> Number -> Case -> Str =
\noun,n,c -> caseFromStem glue noun c n ;
adjCase : Adjective -> Degree -> Number -> Case -> Str =
\adj,d,n,c -> caseFromStem glue {s = adj.s ! d ; h = adj.h ; g = NonHuman} c n ;
possForm : Noun -> Number -> Person -> Number -> Str =
\noun,possd,person,possr ->
let det : Determiner = {
s = \\_ => [] ;
sp = \\_ => [] ;
n = possd ;
dt = DetPoss (agr2pstem <person,possr>) ;
poss = possForms ! <person,possr> ;
caseagr = False
} ;
cn : CNoun = noun ** {compl = \\_,_ => [] ; postmod = []} ;
in caseFromPossStem cn det Nom ;
caseName : Case -> Str = \c ->
case c of {
Nom => "alanyeset" ;
Acc => "tárgyeset" ;
Dat => "részes eset" ;
Ine => "inessivus" ;
Ela => "elativus" ;
All => "allativus" ;
Ade => "adessivus" ;
Abl => "ablativus" ;
Sup => "superessivus" ;
Ins => "instrumentalis" ;
Tra => "translativus" ;
_ => case2str c
} ;
}

355
src/hungarian/ExtendHun.gf
View File

@@ -3,9 +3,362 @@
concrete ExtendHun of Extend = CatHun
-- ** ExtendFunctor - []
-- with (Grammar=GrammarHun)
** open Prelude, ResHun, NounHun in {
** open Prelude, ResHun, NounHun, VerbHun, AdjectiveHun in {
lincat
VPS = {s : Person => Number => Str} ;
[VPS] = {s1,s2 : Person => Number => Str} ;
VPI = SS ;
[VPI] = {s1,s2 : Str} ;
VPS2 = {s : ObjDef => Person => Number => Str ; c2 : Case} ;
[VPS2] = {s1,s2 : ObjDef => Person => Number => Str ; c2 : Case} ;
VPI2 = {s : ObjDef => Str ; c2 : Case} ;
[VPI2] = {s1,s2 : ObjDef => Str ; c2 : Case} ;
[Comp] = {s1,s2 : VForm => Str} ;
[Imp] = {s1,s2 : Number => Polarity => Str} ;
RNP = NounPhrase ;
RNPList = {s1,s2 : Possessor => Case => Str ; agr : Person*Number ; g : Gender ; postmod : Str} ;
lin
TPastSimple = {s = []} ** {t = Past} ; --# notpresent
CompoundN n1 n2 =
n2 ** {s = \\nc => n1.s ! SgNom ++ BIND ++ n2.s ! nc} ;
GenModNP num np cn =
let det : Determiner = DetQuant DefArt num ;
pron : Pronoun = pronTable ! np.agr ;
in emptyNP ** cn ** det ** {
s = \\_,c =>
np.s ! NoPoss ! Nom
++ np.postmod
++ caseFromPossStem cn (DetQuant (PossPron pron) num) c
++ cn.compl ! det.n ! c ;
agr = <P3,det.n> ;
objdef = Def ;
} ;
EmptyRelSlash cls = relSlash {s = \\_,_,_ => []} cls ;
UseDAP = DetNP ;
UseDAPMasc,
UseDAPFem = \dap -> DetNP dap ** {g = Human} ;
MkVPS t pol vp = {
s = \\p,n =>
t.s ++ pol.s ++ if_then_Pol pol.p [] "nem" ++
case t.t of {
Past => vp.s ! VPast p n ;
Fut => futureAux Indef p n ++ vp.s ! VInf ;
_ => vp.s ! VPres p n
} ++ vp.obj ++ vp.adv
} ;
BaseVPS x y = {
s1 = x.s ;
s2 = y.s
} ;
ConsVPS x xs = {
s1 = \\p,n => x.s ! p ! n ++ bindComma ++ xs.s1 ! p ! n ;
s2 = xs.s2
} ;
ConjVPS conj xs = {
s = \\p,n => xs.s1 ! p ! n ++ conj.s2 ++ xs.s2 ! p ! n
} ;
PredVPS np vps = {
s = linNP np ++ vps.s ! np.agr.p1 ! np.agr.p2
} ;
MkVPI vp = {s = infVP vp} ;
BaseVPI x y = {
s1 = x.s ;
s2 = y.s
} ;
ConsVPI x xs = {
s1 = x.s ++ bindComma ++ xs.s1 ;
s2 = xs.s2
} ;
ConjVPI conj xs = {
s = xs.s1 ++ conj.s2 ++ xs.s2
} ;
ComplVPIVV vv vpi =
useV (vv ** {s = vv.s ! Indef}) ** {
adv = vpi.s
} ;
MkVPS2 t pol vps = {
s = \\od,p,n =>
t.s ++ pol.s ++ if_then_Pol pol.p [] "nem" ++
case t.t of {
Past => vps.s ! od ! VPast p n ;
Fut => futureAux od p n ++ vps.s ! od ! VInf ;
_ => vps.s ! od ! VPres p n
} ++ vps.adv ;
c2 = vps.c2
} ;
ComplVPS2 vps np = {
s = \\p,n => vps.s ! np.objdef ! p ! n ++ np.s ! NoPoss ! vps.c2 ++ np.postmod
} ;
ReflVPS2 vps rnp = {
s = \\p,n => vps.s ! rnp.objdef ! p ! n ++ rnp.s ! NoPoss ! vps.c2 ++ rnp.postmod
} ;
BaseVPS2 x y = {
s1 = x.s ;
s2 = y.s ;
c2 = y.c2
} ;
ConsVPS2 x xs = {
s1 = \\od,p,n => x.s ! od ! p ! n ++ bindComma ++ xs.s1 ! od ! p ! n ;
s2 = xs.s2 ;
c2 = xs.c2
} ;
ConjVPS2 conj xs = {
s = \\od,p,n => xs.s1 ! od ! p ! n ++ conj.s2 ++ xs.s2 ! od ! p ! n ;
c2 = xs.c2
} ;
MkVPI2 vps = {
s = \\_ => infVPSlash vps ;
c2 = vps.c2
} ;
ComplVPI2 vpi np = {
s = vpi.s ! np.objdef ++ np.s ! NoPoss ! vpi.c2 ++ np.postmod
} ;
BaseVPI2 x y = {
s1 = x.s ;
s2 = y.s ;
c2 = y.c2
} ;
ConsVPI2 x xs = {
s1 = \\od => x.s ! od ++ bindComma ++ xs.s1 ! od ;
s2 = xs.s2 ;
c2 = xs.c2
} ;
ConjVPI2 conj xs = {
s = \\od => xs.s1 ! od ++ conj.s2 ++ xs.s2 ! od ;
c2 = xs.c2
} ;
BaseComp x y = {
s1 = x.s ;
s2 = y.s
} ;
ConsComp x xs = {
s1 = \\vf => x.s ! vf ++ bindComma ++ xs.s1 ! vf ;
s2 = xs.s2
} ;
ConjComp conj xs = UseCopula ** {
s = \\vf => xs.s1 ! vf ++ conj.s2 ++ xs.s2 ! vf
} ;
BaseImp x y = {
s1 = x.s ;
s2 = y.s
} ;
ConsImp x xs = {
s1 = \\n,p => x.s ! n ! p ++ bindComma ++ xs.s1 ! n ! p ;
s2 = xs.s2
} ;
ConjImp conj xs = {
s = \\n,p => xs.s1 ! n ! p ++ conj.s2 ++ xs.s2 ! n ! p
} ;
PresPartAP vp = emptyAP ** {
s = \\_,_ => vp.obj ++ vp.adv ++ vp.s ! VPresPart
} ;
EmbedPresPart vp = {s = infVP vp} ;
PastPartAP vps = emptyAP ** {
s = \\_,_ => vps.adv ++ vps.s ! Indef ! VAdvPart
} ;
PastPartAgentAP vps np = emptyAP ** {
s = \\_,_ =>
vps.adv ++ vps.s ! Indef ! VAdvPart
++ applyAdp (caseAdp Nom "által") np
} ;
PassVPSlash vps = passiveVP vps [] ;
PassAgentVPSlash vps np =
passiveVP vps (applyAdp (caseAdp Nom "által") np) ;
ProgrVPSlash vps = vps ;
ComplBareVS vs s = useV vs ** {
adv = s.s
} ;
ReflRNP vps rnp = insertObj vps rnp ;
ReflPron = indeclNP "magát" ** {objdef = Def ; g = Human} ;
ReflPoss num cn = DetCN (DetQuant DefArt num) cn ;
PredetRNP predet rnp = rnp ** {
s = \\p,c => predet.s ++ rnp.s ! p ! c
} ;
AdvRNP np prep rnp = np ** {
s = \\p,c => np.s ! p ! c ++ applyAdp prep rnp ;
postmod = []
} ;
AdvRVP vp prep rnp = insertAdv vp {
s = applyAdp prep rnp
} ;
AdvRAP ap prep rnp = ap ** {
compl = \\n => ap.compl ! n ++ applyAdp prep rnp
} ;
ReflA2RNP a2 rnp =
let ap : AP = ComplA2 a2 rnp in ap ;
PossPronRNP pron num cn rnp =
let det : Determiner = DetQuant (PossPron pron) num
in emptyNP ** cn ** det ** {
s = \\_,c =>
rnp.s ! NoPoss ! Nom
++ caseFromPossStem cn det c
++ cn.compl ! det.n ! c ;
agr = <P3,det.n> ;
objdef = Def ;
g = NonHuman
} ;
Base_rr_RNP x y = {
s1 = x.s ;
s2 = y.s ;
agr = y.agr ;
g = y.g ;
postmod = []
} ;
Base_nr_RNP x y = {
s1 = x.s ;
s2 = y.s ;
agr = y.agr ;
g = y.g ;
postmod = []
} ;
Base_rn_RNP x y = {
s1 = x.s ;
s2 = y.s ;
agr = y.agr ;
g = y.g ;
postmod = []
} ;
ConjRNP conj xs = emptyNP ** {
s = \\p,c => xs.s1 ! p ! c ++ conj.s2 ++ xs.s2 ! p ! c ;
agr = <P3,conj.n> ;
objdef = Def ;
g = xs.g ;
postmod = [] ;
empty = []
} ;
GerundCN vp =
let gn : Str = infVP vp
in {
s = \\_ => gn ;
h = H_a ;
g = NonHuman ;
compl = \\_,_ => [] ;
postmod = []
} ;
GerundNP vp = MassNP (GerundCN vp) ;
GerundAdv vp = {
s = infVP vp ;
isPre = False
} ;
CompoundAP n a = emptyAP ** {
s = \\_,_ => n.s ! SgNom ++ a.s ! Posit ! SgNom
} ;
WithoutVP vp = {
s = infVP vp ++ "nélkül" ;
isPre = False
} ;
ByVP vp = {
s = infVP vp ++ "által" ;
isPre = False
} ;
InOrderToVP vp = {
s = infVP vp ++ "céljából" ;
isPre = False
} ;
ApposNP np1 np2 = np1 ** {
s = \\p,c => np1.s ! p ! c ++ bindComma ++ np2.s ! NoPoss ! Nom ;
postmod = []
} ;
AdAdV ada adv = {
s = ada.s ++ adv.s
} ;
UttAdV adv = {
s = adv.s
} ;
PositAdVAdj adj = {
s = adj.s ! Posit ! SgNom
} ;
UttVPShort vp = {
s = infVP vp
} ;
ComplSlashPartLast vps np = insertObj vps np ;
iFem_Pron = pronTable ! <P1,Sg> ** {g = Human} ;
theyFem_Pron = pronTable ! <P3,Pl> ** {g = Human} ;
theyNeutr_Pron = pronTable ! <P3,Pl> ;
weFem_Pron = pronTable ! <P1,Pl> ** {g = Human} ;
youFem_Pron = pronTable ! <P2,Sg> ** {g = Human} ;
youPlFem_Pron = pronTable ! <P2,Pl> ** {g = Human} ;
youPolFem_Pron = pronTable ! <P2,Sg> ** {g = Human} ;
youPolPlFem_Pron = pronTable ! <P2,Pl> ** {g = Human} ;
youPolPl_Pron = pronTable ! <P2,Pl> ** {g = Human} ;
oper
passiveVP : VPSlash -> Str -> VP = \vps,agent ->
lin VP (useV (copula ** {
s = \\vf => case vf of {
VPres P3 _ => [] ;
_ => copula.s ! vf
}
}) ** {
adv = vps.adv ++ vps.s ! Indef ! VAdvPart ++ agent
}) ;
} ;

3
src/hungarian/GrammarHun.gf
View File

@@ -12,7 +12,8 @@ concrete GrammarHun of Grammar =
TextX - [Adv],
StructuralHun,
IdiomHun,
TenseX - [Adv]
TenseX - [Adv],
NamesHun
** {
flags startcat = Phr ; unlexer = text ; lexer = text ;

47
src/hungarian/IdiomHun.gf
View File

@@ -44,4 +44,51 @@ concrete IdiomHun of Idiom = CatHun ** open Prelude, ResHun, VerbHun, NounHun, S
SelfNP : NP -> NP ; -- the president himself (is at home)
-}
lin
ImpersCl vp = predVP emptyNP vp ;
ExistNP np = existNP np [] ;
ExistNPAdv np adv = existNP np adv.s ;
ExistIP ip = {
s = \\t,a,p =>
ip.s ! NoPoss ! Nom
++ if_then_Pol p [] "nem"
++ copula.s ! case t of {
Past => VPast P3 ip.agr.p2 ;
_ => VPres P3 ip.agr.p2
}
} ;
ExistIPAdv ip adv = {
s = \\t,a,p =>
ip.s ! NoPoss ! Nom
++ adv.s
++ if_then_Pol p [] "nem"
++ copula.s ! case t of {
Past => VPast P3 ip.agr.p2 ;
_ => VPres P3 ip.agr.p2
}
} ;
ProgrVP vp = vp ;
ImpPl1 vp = {
s = "próbáljunk" ++ infVP vp
} ;
oper
existNP : NounPhrase -> Str -> ResHun.ClSlash = \np,adv -> {
s = \\t,_,p =>
if_then_Pol p [] "nem"
++ copula.s ! case t of {
Past => VPast P3 np.agr.p2 ;
_ => VPres P3 np.agr.p2
}
++ linNP np
++ adv ;
c2 = Acc
} ;
}

46
src/hungarian/IrregHun.gf Normal file
View File

@@ -0,0 +1,46 @@
--# -path=.:prelude:../abstract:../common
concrete IrregHun of IrregHunAbs = CatHun ** open ParadigmsHun in {
lin
áll_V = mkV "állok" "állsz" "áll" "állunk" "álltok" "állnak"
"álltam" "álltál" "állt" "álltunk" "álltatok" "álltak"
"állni" "álló" "állva" ;
átugrik_V = mkV "átugrom" "átugrasz" "átugrik" "átugrunk" "átugrotok" "átugranak"
"átugrottam" "átugrottál" "átugrott" "átugrottunk" "átugrottatok" "átugrottak"
"átugrani" "átugrikó" "átugrikva" ;
bovelkedik_V = mkV "bővelkedem" "bővelkedsz" "bővelkedik" "bővelkedünk" "bővelkedtek" "bővelkednek"
"bővelkedtem" "bővelkedtél" "bővelkedett" "bővelkedtünk" "bővelkedtetek" "bővelkedtek"
"bővelkedni" "bővelkedő" "bővelkedve" ;
csatlakozik_V = mkV "csatlakozom" "csatlakozol" "csatlakozik" "csatlakozunk" "csatlakoztok" "csatlakoznak"
"csatlakoztam" "csatlakoztál" "csatlakozott" "csatlakoztunk" "csatlakoztatok" "csatlakoztak"
"csatlakozni" "csatlakozó" "csatlakozva" ;
csökken_V = mkV "csökkenek" "csökkensz" "csökken" "csökkenünk" "csökkentek" "csökkennek"
"csökkentem" "csökkentél" "csökkent" "csökkentünk" "csökkentetek" "csökkentek"
"csökkenni" "csökkenő" "csökkenve" ;
dolgozik_V = mkV "dolgozom" "dolgozol" "dolgozik" "dolgozunk" "dolgoztok" "dolgoznak"
"dolgoztam" "dolgoztál" "dolgozott" "dolgoztunk" "dolgoztatok" "dolgoztak"
"dolgozni" "dolgozó" "dolgozva" ;
elvet_V = mkV "elvetek" "elvetsz" "elvet" "elvetünk" "elvettek" "elvetnek"
"elvetettem" "elvetettél" "elvetett" "elvetettünk" "elvetettetek" "elvetettek"
"elvetni" "elvető" "elvetve" ;
eszik_V = mkV "eszem" "eszel" "eszik" "eszünk" "esztek" "esznek"
"ettem" "ettél" "evett" "ettünk" "ettetek" "ettek"
"enni" "evő" "éve" ;
fut_V = mkV "futok" "futsz" "fut" "futunk" "futtok" "futnak"
"futottam" "futottál" "futott" "futottunk" "futottatok" "futottak"
"futni" "futó" "futva" ;
jár_V = mkV "járok" "jársz" "jár" "járunk" "jártok" "járnak"
"jártam" "jártál" "járt" "jártunk" "jártatok" "jártak"
"járni" "járó" "járva" ;
küld_V = mkV "küldök" "küldesz" "küld" "küldünk" "küldötök" "küldenek"
"küldtem" "küldtél" "küldött" "küldtünk" "küldtetek" "küldtek"
"küldeni" "küldő" "küldve" ;
meglátogat_V = mkV "meglátogatok" "meglátogatsz" "meglátogat" "meglátogatunk" "meglátogattok" "meglátogatnak"
"meglátogattam" "meglátogattál" "meglátogatott" "meglátogattunk" "meglátogattatok" "meglátogattak"
"meglátogatni" "meglátogató" "meglátogatva" ;
tud_V = mkV "tudok" "tudsz" "tud" "tudunk" "tudtok" "tudnak"
"tudtam" "tudtál" "tudott" "tudtunk" "tudtatok" "tudtak"
"tudni" "tudó" "tudva" ;
úszik_V = mkV "úszom" "úszol" "úszik" "úszunk" "úsztok" "úsznak"
"úsztam" "úsztál" "úszott" "úsztunk" "úsztatok" "úsztak"
"úszni" "úszó" "úszva" ;
}

17
src/hungarian/IrregHunAbs.gf Normal file
View File

@@ -0,0 +1,17 @@
abstract IrregHunAbs = Cat ** {
fun
áll_V : V ;
átugrik_V : V ;
bovelkedik_V : V ;
csatlakozik_V : V ;
csökken_V : V ;
dolgozik_V : V ;
elvet_V : V ;
eszik_V : V ;
fut_V : V ;
jár_V : V ;
küld_V : V ;
meglátogat_V : V ;
tud_V : V ;
úszik_V : V ;
}

4
src/hungarian/LangHun.gf
View File

@@ -1,4 +1,6 @@
concrete LangHun of Lang =
GrammarHun,
LexiconHun,
ConstructionHun ;
ConstructionHun,
DocumentationHun --# notpresent
;

38
src/hungarian/LexiconHun.gf
View File

@@ -1,5 +1,5 @@
concrete LexiconHun of Lexicon = CatHun **
open ParadigmsHun, ParamHun, Prelude in {
open ParadigmsHun, ParamHun, IrregHun, Prelude in {
----
-- A
@@ -19,7 +19,7 @@ lin art_N = mkN "művészet" "művészetet" ;
----
-- B
lin baby_N = mkN "bébi" "bébit" ;
lin baby_N = humanN (mkN "bébi" "bébit") ;
-- lin back_N = mkN "" ;
lin bad_A = mkA "rossz" ;
lin bank_N = mkN "bank" "bankot" ;
@@ -65,7 +65,7 @@ lin cat_N = mkN "macska" "macskát";
lin ceiling_N = roof_N ;
lin chair_N = mkN "szék" "széket";
lin cheese_N = mkN "sajt" "sajtot" ;
lin child_N = mkN "gyerek" "gyereket" ;
lin child_N = humanN (mkN "gyerek" "gyereket") ;
lin church_N = mkN "templom" "templomot" ;
lin city_N = mkN "város" "várost" ;
lin clean_A = mkA "tiszta" ;
@@ -92,7 +92,7 @@ lin day_N = mkN "nap" "napot" ;
-- lin dirty_A = mkA "" ;
-- lin distance_N3 = mkN "" ;
-- lin do_V2 = mkV2 do_V ;
lin doctor_N = mkN "orvos" "orvost";
lin doctor_N = humanN (mkN "orvos" "orvost");
lin dog_N = mkN "kutya" "kutyát";
lin door_N = mkN "ajtó" "ajtót" ;
-- lin drink_V2 = mkV2 "" ;
@@ -105,7 +105,7 @@ lin door_N = mkN "ajtó" "ajtót" ;
lin ear_N = mkN "fül" "fület";
lin earth_N = mkN "föld" "földet";
-- lin eat_V2 = mkV2 "" ;
lin eat_V2 = mkV2 eszik_V ;
lin egg_N = mkN "tojás" "tojást" ;
lin empty_A = mkA "üres" ;
lin enemy_N = mkN "ellenség" "ellenséget" ;
@@ -139,7 +139,7 @@ lin forest_N = mkN "erdő" "erdőt" ;
-- lin forget_V2 = mkV2 "" ;
-- lin freeze_V = mkV "" ;
lin fridge_N = mkN "hűtő" "hűtőt" ;
lin friend_N = mkN "barát" "barátot" ;
lin friend_N = humanN (mkN "barát" "barátot") ;
lin fruit_N = mkN "gyümölcs" "gyümölcsöt" "gyümölcsök" "gyümölcse" ; --TODO: plural PossPl2 fails "gyümölcseitek" instead of "gyümölcseitök", wovel harmony changing?
lin full_A = mkA "tele" ;
-- --lin fun_AV
@@ -148,7 +148,7 @@ lin full_A = mkA "tele" ;
-- G
lin garden_N = mkN "kert" "kertet" ;
lin girl_N = mkN "lány" "lányt";
lin girl_N = humanN (mkN "lány" "lányt");
-- lin give_V3 = mkV3 "" ;
lin glove_N = mkN "kesztyű" "kesztyűt" ;
-- lin go_V = mkV "" ;
@@ -179,7 +179,7 @@ lin horse_N = mkN "ló" "lovat";
lin hot_A = mkA "forró" ;
lin house_N = mkN "ház" "házat" ;
-- lin hunt_V2 = mkV2 "" ;
lin husband_N = mkN "férj" "férjet";
lin husband_N = humanN (mkN "férj" "férjet");
--------
-- I - K
@@ -190,7 +190,7 @@ lin iron_N = mkN "vas" "vasat" ;
-- lin john_PN = mkPN "" ;
-- lin jump_V = mkV "" ;
-- lin kill_V2 = mkV2 "" ;
lin king_N = mkN "király" "királyt" ;
lin king_N = humanN (mkN "király" "királyt") ;
lin knee_N = mkN "térd" "térdet";
-- lin know_V2 = mkV2 "" ;
-- lin know_VQ = mkVQ "" ;
@@ -223,12 +223,12 @@ lin love_N = mkN "szerelem" "szerelmet";
----
-- M
lin man_N = mkN "férfi" "ak" harmA ; -- force plural allomorph and a-harmony
lin man_N = humanN (mkN "férfi" "ak" harmA) ; -- force plural allomorph and a-harmony
lin married_A2 = mkA2 "házas" Ins ;
lin meat_N = mkN "hús" "húst";
lin milk_N = mkN "tej" "tejet" ;
lin moon_N = mkN "hold" "holdat" ;
lin mother_N2 = mkN2 (mkN "anya" "anyát") ;
lin mother_N2 = mkN2 (humanN (mkN "anya" "anyát")) ;
lin mountain_N = mkN "hegy" "hegyet";
lin mouth_N = mkN "száj" "szájat" ;
lin music_N = mkN "zene" "zenét";
@@ -259,12 +259,12 @@ lin paper_N = mkN "papír" "papírt" "papírok" "papírja" ;
-- lin paris_PN = mkPN "Paris" ;
lin peace_N = mkN "béke" "békét";
lin pen_N = mkN "toll" "tollat" ;
lin person_N = mkN "ember" "embert";
lin person_N = humanN (mkN "ember" "embert");
lin planet_N = mkN "bolygó" "bolygót" ;
lin plastic_N = mkN "műanyag" "műanyagot" "műanyagok" "műanyaga" ;
-- lin play_V = mkV "" ;
lin policeman_N = mkN "rendőr" "rendőrt"; --the police "rendőrség"
lin priest_N = mkN "pap" "papot" "papok" "papja" ;
lin policeman_N = humanN (mkN "rendőr" "rendőrt"); --the police "rendőrség"
lin priest_N = humanN (mkN "pap" "papot" "papok" "papja") ;
-- lin pull_V2 = mkV2 "" ;
-- lin push_V2 = mkV2 "" ;
-- lin put_V2 = mkV2 "" ;
@@ -272,12 +272,12 @@ lin priest_N = mkN "pap" "papot" "papok" "papja" ;
-- --------
-- -- Q - R
--
lin queen_N = mkN "kírálynő" "kírálynőt" ;
lin queen_N = humanN (mkN "kírálynő" "kírálynőt") ;
lin question_N = mkN "kérdés" "kérdést" ;
lin radio_N = mkN "rádió" "rádiót" ;
lin rain_N = mkN "eső" "esőt" ;
-- lin rain_V0 = mkV "" ;
-- lin read_V2 = mkV2 "" ;
lin read_V2 = mkV2 "olvas" ;
lin ready_A = mkA "kész" ;
lin reason_N = mkN "ok" "okot" "okok" "oka" ;
lin red_A = mkA "piros" ;
@@ -363,7 +363,7 @@ lin table_N = mkN "asztal" "asztalt";
lin tail_N = mkN "farok" "farkot";
lin talk_V3 = mkV3 "beszél" ;
-- lin teach_V2 = mkV2 "" ;
lin teacher_N = mkN "tanár" "tanárt" ;
lin teacher_N = humanN (mkN "tanár" "tanárt") ;
lin television_N = mkN "tévé" "tévét" ; --also "televízió" but not used
lin thick_A = mkA "vastag" ;
lin thin_A = mkA "vekony" ;
@@ -401,14 +401,14 @@ lin water_N = mkN "víz" "vizet" ;
lin wet_A = mkA "nedves" ;
lin white_A = mkA "fehér" ;
lin wide_A = mkA "széles" ;
lin wife_N = mkN "feleség" "feleséget" ;
lin wife_N = humanN (mkN "feleség" "feleséget") ;
-- lin win_V2 = mkV2 "" ;
lin wind_N = mkN "szél" "szelet" ;
lin window_N = mkN "ablak" "ablakot" "ablakok" "ablaka" ;
lin wine_N = mkN "bor" "bort";
lin wing_N = mkN "szárny" "szárnyat";
-- lin wipe_V2 = mkV2 "" ;
lin woman_N = mkN "nő" "nőt" ;
lin woman_N = humanN (mkN "nő" "nőt") ;
-- lin wonder_VQ = mkVQ "" ;
lin wood_N = mkN "fa" "fát"; --same as tree
lin worm_N = mkN "féreg" "férget"; --also "kukac"

30
src/hungarian/NamesHun.gf Normal file
View File

@@ -0,0 +1,30 @@
concrete NamesHun of Names = CatHun ** open ResHun, Prelude in {
lin
GivenName gn = gn ** {g = Human ; objdef = Def} ;
MaleSurname sn = sn ** {g = Human ; objdef = Def} ;
FemaleSurname sn = sn ** {g = Human ; objdef = Def} ;
PlSurname sn = sn ** {g = Human ; objdef = Def ; agr = <P3,Pl>} ;
FullName gn sn = emptyNP ** {
s = \\p,c => gn.s ! p ! Nom ++ sn.s ! p ! c ;
agr = <P3,Sg> ;
objdef = Def ;
g = Human ;
postmod = [] ;
empty = []
} ;
UseLN ln = ln ** {objdef = Def} ;
PlainLN ln = ln ** {objdef = Def} ;
InLN ln = {
s = ln.s ! NoPoss ! Ine ;
isPre = False
} ;
AdjLN ap ln = ln ** {
s = \\p,c => ap.s ! Sg ! Nom ++ ln.s ! p ! c
} ;
}

73
src/hungarian/NounHun.gf
View File

@@ -3,6 +3,10 @@ concrete NounHun of Noun = CatHun ** open
flags optimize=all_subs ;
oper
hunV : pattern Str = #("a"|"e"|"i"|"o"|"u"|"ö"|"ü"|
"á"|"é"|"í"|"ó"|"ú"|"ő"|"ű") ;
lin
--2 Noun phrases
@@ -65,7 +69,7 @@ concrete NounHun of Noun = CatHun ** open
-- : NP -> RS -> NP ; -- Paris, which is here
RelNP np rs = np ** {
s = \\p,c => np.s ! p ! c ++ bindComma ++ rs.s ! np.agr.p2 ! c ;
s = \\p,c => np.s ! p ! c ++ bindComma ++ rs.s ! np.g ! np.agr.p2 ! c ;
} ;
-- Determiners can form noun phrases directly.
@@ -144,22 +148,24 @@ concrete NounHun of Noun = CatHun ** open
-- : Numeral -> Card ;
NumNumeral num = num ;
{-
-- : AdN -> Card -> Card ;
AdNum adn card = card ** { s = adn.s ++ card.s } ;
AdNum adn card = card ** { s = \\p => adn.s ++ card.s ! p } ;
-- : Digits -> Ord ;
OrdDigits digs = digs ** { s = digs.s ! NOrd } ;
OrdDigits digs = {
s = \\_,_ => digs.s ! NOrd ;
n = Sg
} ;
-- : Numeral -> Ord ;
OrdNumeral num = num ** {
s = \\_ => num.ord
OrdNumeral num = {
s = \\_,_ => num.s ! Attrib ;
n = Sg
} ;
-}
-- : A -> Ord ;
OrdSuperl a = {
s = \\n,c =>
let adj : Noun = (a ** {s = a.s ! Superl}) in
let adj : Noun = (a ** {s = a.s ! Superl; g=NonHuman}) in
caseFromStem glue adj c n ;
n = Sg -- ?? is this meaningful?
} ;
@@ -172,7 +178,7 @@ concrete NounHun of Noun = CatHun ** open
-- : Quant
DefArt = mkQuant "a" "a" ** {
s,
sp = \\_,_ => pre {"a" ; "az" / v } ;
sp = \\_,_ => pre {"a" ; "az" / hunV } ;
dt = DefDet ;
} ;
@@ -185,7 +191,10 @@ concrete NounHun of Noun = CatHun ** open
-- : Pron -> Quant
PossPron pron = pron ** {
s,sp = \\_ => pron.s ;
s,sp = \\_,_ => case pron.agr of {
<P3,_> => "az" ++ pron.s ! Nom ;
_ => pre {"a" ; "az" / hunV} ++ pron.s ! Nom
} ;
dt = DetPoss (agr2pstem pron.agr) ;
caseagr = False ;
} ;
@@ -200,7 +209,9 @@ concrete NounHun of Noun = CatHun ** open
} ;
-- : N2 -> NP -> CN ;
-- ComplN2 n2 np =
ComplN2 n2 np = (UseN n2) ** {
compl = \\n,c => np.s ! NoPoss ! Dat ++ np.postmod
} ;
-- : N3 -> NP -> N2 ; -- distance from this city (to Paris)
-- ComplN3 n3 np =
@@ -220,7 +231,7 @@ concrete NounHun of Noun = CatHun ** open
-- : CN -> RS -> CN ;
RelCN cn rs = cn ** {
compl = \\n,c => cn.compl ! n ! c ++ rs.s ! n ! c
compl = \\n,c => cn.compl ! n ! c ++ rs.s ! cn.g ! n ! c
} ;
-- : CN -> Adv -> CN ;
@@ -234,7 +245,9 @@ concrete NounHun of Noun = CatHun ** open
-- to decide. Sentential complements are defined in VerbHun.
-- : CN -> SC -> CN ; -- question where she sleeps
-- SentCN cn sc = cn ** { } ;
SentCN cn sc = cn ** {
compl = \\n,c => cn.compl ! n ! c ++ sc.s
} ;
--2 Apposition
@@ -248,29 +261,37 @@ concrete NounHun of Noun = CatHun ** open
--2 Possessive and partitive constructs
-- : PossNP : CN -> NP -> CN ;
-- PossNP cn np = cn ** {
-- compl = \\n,c => cn.compl ! n ! c ++ np.s ! Poss P3 n ! c -- TODO check
-- } ;
PossNP cn np = cn ** {
compl = \\n,c => cn.compl ! n ! c ++ np.s ! NoPoss ! Dat ++ np.postmod
} ;
-- : CN -> NP -> CN ; -- glass of wine / two kilos of red apples
-- PartNP cn np = cn ** {
-- } ;
PartNP cn np = cn ** {
compl = \\n,c => cn.compl ! n ! c ++ np.s ! NoPoss ! Nom ++ np.postmod
} ;
{-
-- : Det -> NP -> NP ; -- three of them, some of the boys
CountNP det np = emptyNP ** det ** {
s = \\_,c => det.sp ! c ++ np.s ! NoPoss ! Ela ++ np.postmod ;
agr = <P3,det.n> ;
objdef = dt2objdef det.dt
} ;
-- This is different from the partitive, as shown by many languages.
-- : Det -> NP -> NP ;
CountNP det np = np **
{ } ; -- Nonsense for DefArt or IndefArt
-- : Decimal -> MU -> NP ;
QuantityNP dec mu = indeclNP
(case mu.isPre of {
True => mu.s ++ dec.s ! NCard ;
False => dec.s ! NCard ++ mu.s
}) ** {
objdef = Def
} ;
--3 Conjoinable determiners and ones with adjectives
-- : DAP -> AP -> DAP ; -- the large (one)
AdjDAP dap ap = dap ** { } ;
AdjDAP dap ap = dap ;
-- : Det -> DAP ; -- this (or that)
DetDAP det = det ;
-}
}

7
src/hungarian/NounMorphoHun.gf
View File

@@ -1,7 +1,7 @@
resource NounMorphoHun = ParamHun ** open Prelude, Predef in {
oper
Noun = {s : NumCaseStem => Str ; h : Harm} ;
Noun = {s : NumCaseStem => Str ; h : Harm ; g : Gender} ;
-- Paradigm functions
-- http://www.cse.chalmers.se/~aarne/articles/smart-preprint.pdf
@@ -275,6 +275,7 @@ oper
PossdSg_PossrSg1P2 => init possdSg_PossrSg1P2 ;
PossdPl => possdPl } ;
h = h ;
g = NonHuman
} ;
@@ -571,7 +572,7 @@ oper
<_,_ + #v> => endCaseVow ;
<_,_ + #v + ("sz"|"z"|"s"|"zs"|"j"|"ly"|"l"|"r"|"n"|"ny"|"ssz"
|"zz"|"ss"|"ll"|"rr"|"nn"|"ns"|"nsz"|"nz")> => endCaseConsAcc ;
<True,_> => endCaseConsAccAt ;
<True,_> => endCaseCons ;
_ => endCaseCons } ;
-- Last consonant doubles before instrumental and translative
@@ -593,7 +594,7 @@ oper
-- All other singular forms and stems
c => w + endCaseSg c ! h } ;
g = NonHuman
} ;

79
src/hungarian/NumeralHun.gf
View File

@@ -27,59 +27,77 @@ lin
n9 = mkNum3 "kilenc" "kilencven" "kilencedik" ;
-- : Sub10 ; -- 1
pot01 = mkNum3 "egy" "tíz" "első" ** {n=Sg} ;
pot01 = mkNum3 "egy" "tíz" "első" ;
-- : Digit -> Sub10 ; -- d * 1
pot0 d = d ;
-- : Sub100 ; -- 10
pot110 = {s = table {p => "tíz"} ; n = numNumber ; numtype = IsNum} ;
pot110 = {s = table {p => "tíz"}} ;
-- : Sub100 ; -- 11
pot111 = {s = table {p => "tizenegy"} ; n = numNumber ; numtype = IsNum} ;
pot111 = {s = table {p => "tizenegy"}} ;
-- : Digit -> Sub100 ; -- 10 + d
pot1to19 d =
{s = table {p => "tizen" ++ d.s ! <Unit,p>} ;
n = numNumber ; numtype = IsNum} ;
{s = table {p => "tizen" ++ d.s ! <Unit,p>}} ;
-- : Sub10 -> Sub100 ; -- coercion of 1..9
pot0as1 n =
{s = table {p => n.s ! <Unit,p>} ;
n = numNumber ; numtype = IsNum} ;
{s = table {p => n.s ! <Unit,p>}} ;
-- : Digit -> Sub100 ; -- d * 10
pot1 d =
{s = table {p => d.s ! <Ten,p>} ;
n = numNumber ; numtype = IsNum} ;
{s = table {p => d.s ! <Ten,p>}} ;
-- : Digit -> Sub10 -> Sub100 ; -- d * 10 + n
pot1plus d e =
{s = table {p => (d.s ! <Ten,Attrib>) ++ e.s ! <Unit,p>} ;
n = numNumber ; numtype = IsNum} ;
{s = table {p => (d.s ! <Ten,Attrib>) ++ e.s ! <Unit,p>}} ;
-- : Sub100 -> Sub1000 ; -- coercion of 1..99
pot1as2 n = n ;
-- : Sub1000 ; -- a hundred
pot21 =
{s = table {p => "száz"}} ;
-- : Sub10 -> Sub1000 ; -- m * 100
pot2 d =
{s = table {p => (d.s ! <Unit,Attrib>) ++ "száz"} ;
n = numNumber ; numtype = IsNum} ;
{s = table {p => (d.s ! <Unit,Attrib>) ++ "száz"}} ;
-- : Sub10 -> Sub100 -> Sub1000 ; -- m * 100 + n
pot2plus d e =
{s = table {p => (d.s ! <Unit,Attrib>) ++ "száz" ++ e.s ! p} ;
n = numNumber ; numtype = IsNum} ;
{s = table {p => (d.s ! <Unit,Attrib>) ++ "száz" ++ e.s ! p}} ;
-- : Sub1000 -> Sub1000000 ; -- coercion of 1..999
pot2as3 n = n ;
-- : Sub1000000 ; -- a thousand
pot31 =
{s = table {p => "ezer"}} ;
-- : Sub1000 -> Sub1000000 ; -- m * 1000
pot3 n =
{s = table {p => n.s ! Attrib ++ "ezer"} ;
n = numNumber ; numtype = IsNum} ;
{s = table {p => n.s ! Attrib ++ "ezer"}} ;
-- : Sub1000 -> Sub1000 -> Sub1000000 ; -- m * 1000 + n
pot3plus n m =
{s = table {p => n.s ! Attrib ++ "ezer" ++ m.s ! p} ;
n = numNumber ; numtype = IsNum} ;
{s = table {p => n.s ! Attrib ++ "ezer" ++ m.s ! p}} ;
pot3decimal d =
{s = table {p => d.s ! NCard ++ "ezer"}} ;
pot3as4 n = n ;
pot41 =
{s = table {p => "egymillió"}} ;
pot4 n =
{s = table {p => n.s ! Attrib ++ "millió"}} ;
pot4plus n m =
{s = table {p => n.s ! Attrib ++ "millió" ++ m.s ! p}} ;
pot4as5 n = n ;
pot4decimal d =
{s = table {p => d.s ! NCard ++ "millió"}} ;
pot51 =
{s = table {p => "egymilliárd"}} ;
pot5 n =
{s = table {p => n.s ! Attrib ++ "milliárd"}} ;
pot5plus n m =
{s = table {p => n.s ! Attrib ++ "milliárd" ++ m.s ! p}} ;
pot5decimal d =
{s = table {p => d.s ! NCard ++ "milliárd"}} ;
oper
LinDigit : Type = {s : DForm*Place => Str ; n : Number} ;
LinDigit : Type = {s : DForm*Place => Str} ;
mkNum3 : (x1,_,x3 : Str) -> LinDigit = \három,harminc,harmadik ->
mkNum5 három harminc három harminc harmadik ;
@@ -89,13 +107,8 @@ oper
<Ten,Indep> => ti ;
<Unit,Attrib> => ua ;
<Ten, Attrib> => ta } ;
-- ord = ord ; -- TODO figure out where to use ordinal
n = numNumber ;
numType = IsNum ;
} ;
numNumber = Sg ;
-- numerals as sequences of digits
lincat
Dig = TDigit ;
@@ -106,8 +119,7 @@ oper
-- : Dig -> Digits -> Digits ; -- 876
IIDig d i = {
s = \\x => d.s ++ BIND ++ i.s ! x ;
n = numNumber
s = \\x => d.s ++ BIND ++ i.s ! x
} ;
D_0 = mkDig "0" ;
@@ -122,21 +134,26 @@ oper
D_9 = mkDig "9" ;
PosDecimal d = d ** {hasDot=False} ;
NegDecinal d = {
NegDecimal d = {
s = \\x => "-" ++ BIND ++ d.s ! x ;
n = numNumber ;
hasDot=False
} ;
IFrac d i = {
s = \\x => d.s ! x ++
case d.hasDot of {
True => BIND ;
False => BIND ++ "." ++ BIND
} ++ i.s ;
hasDot=True
} ;
oper
mkDig : Str -> TDigit = \s -> {
s = s ;
n = numNumber
} ;
TDigit = {
s : Str ; -- TODO add ordinals
n : Number
} ;
}

14
src/hungarian/ParadigmsHun.gf
View File

@@ -25,6 +25,8 @@ oper
mkN : (unoka : Str) -> (testvér : N) -> N ; -- Compound noun. Use: `mkN "unoka" (mkN "testvér")` (would give wrong harmony with `mkN "unokatestvér"`)
} ;
humanN : N -> N = \n -> n ** {g = Human} ;
mkPN : overload {
mkPN : Str -> PN ; -- Singular PN out of a string
mkPN : Str -> Number -> PN -- PN with a given number
@@ -58,6 +60,7 @@ oper
-- Verbs
mkV : overload {
mkV : (sg3 : Str) -> V ; -- Predictable verb. Takes singular P3 form in present tense.
mkV : (x1,_,_,_,_,_,_,_,_,_,_,_,x13 : Str) -> V ; -- Full present, past, and infinitive forms.
-- mkV : (nore : Str) -> (hada : V) -> V ; -- Add a prefix to an existing verb, e.g. 노래+하다
} ;
@@ -227,7 +230,12 @@ oper
-- mkV : (nore : Str) -> (hada : V) -> V = \nore,hada -> hada ** {
-- s = \\vf => nore + hada.s ! vf} ;
mkV : (x1,_,_,_,_,_,x7 : Str) -> V = \sg1,sg2,sg3,pl1,pl2,pl3,inf ->
lin V (mkVerbFull sg1 sg2 sg3 pl1 pl2 pl3 inf) ;
lin V (mkVerbPres sg1 sg2 sg3 pl1 pl2 pl3 inf) ;
mkV : (x1,_,_,_,_,_,_,_,_,_,_,_,_,_,x15 : Str) -> V =
\sg1,sg2,sg3,pl1,pl2,pl3,pastSg1,pastSg2,pastSg3,pastPl1,pastPl2,pastPl3,inf,ppart,apart ->
lin V (mkVerbFull sg1 sg2 sg3 pl1 pl2 pl3
pastSg1 pastSg2 pastSg3 pastPl1 pastPl2 pastPl3
inf ppart apart) ;
} ;
copula = lin V ResHun.copula ;
@@ -279,6 +287,7 @@ oper
mkV3 = overload {
mkV3 : (plain : Str) -> V3 = \v3 -> lin V3 (mkVerb3 v3) ;
mkV3 : V -> V3 = \v -> lin V3 (v2tov3 (vtov2 v)) ;
} ;
mkPrep = overload {
@@ -292,6 +301,7 @@ oper
= \c -> lin Prep (ResHun.caseAdp c) ;
mkInterj : Str -> Interj = \s -> lin Interj {s = s} ;
--------------------------------------------------------------------------------
mkMU : Str -> MU = \s -> lin MU {s=s; isPre=False} ;
}

21
src/hungarian/ParamHun.gf
View File

@@ -56,6 +56,7 @@ oper
-- Nouns
param
Gender = Human | NonHuman ;
NumCaseStem =
SgNom | SgAccStem | SgSup -- These may use 2-3 different stems
@@ -73,16 +74,16 @@ param
Case =
Nom | Acc | Dat
-- | Ill -- Locatives
| Ill -- Locatives
| Ine
| Ela
| All
| Ade
| Abl
-- | Sub
| Sub
| Sup
-- | Del
-- | Cau -- Causal-final 'for the purpose of, for the reason that'
| Del
| Cau -- Causal-final 'for the purpose of, for the reason that'
| Ins -- Instrumental
| Tra -- Translative
-- | Ess | Ter | For
@@ -198,14 +199,10 @@ param
VForm =
VInf
| VPres Person Number ;
oper
agr2vf : Person*Number -> VForm = \pn ->
case <pn.p1,pn.p2> of {
<p,n> => VPres p n
} ;
| VPres Person Number
| VPast Person Number
| VPresPart
| VAdvPart ;
--------------------------------------------------------------------------------
-- Clauses

8
src/hungarian/PhraseHun.gf
View File

@@ -6,11 +6,11 @@ concrete PhraseHun of Phrase = CatHun ** open Prelude, ResHun in {
UttS s = s ;
UttQS qs = qs ;
UttIAdv iadv = iadv ;
{-
UttImpSg pol imp =
{s = pol.s ++ imp.s ! Sg ! pol.p} ;
UttImpPl pol imp =
UttImpPol = UttImpSg ;
-}
{s = pol.s ++ imp.s ! Pl ! pol.p} ;
UttImpPol = UttImpPl ;
UttIP,
UttNP = \np -> {s = linNP np} ;
UttVP vp = {s = vp.obj ++ vp.adv ++ vp.s ! VInf} ;
@@ -24,6 +24,6 @@ concrete PhraseHun of Phrase = CatHun ** open Prelude, ResHun in {
-- PConjConj conj = {s = conj.s1 ++ conj.s2 ! …} ;
NoVoc = {s = []} ;
-- VocNP np = { s = "," ++ np.s ! … } ; -}
VocNP np = {s = bindComma ++ linNP np} ;
}

50
src/hungarian/QuestionHun.gf
View File

@@ -1,40 +1,49 @@
concrete QuestionHun of Question = CatHun ** open
Prelude, ResHun, ParadigmsHun, (NH=NounHun) in {
Prelude, ResHun, ParadigmsHun, (NH=NounHun), (VH=VerbHun) in {
-- A question can be formed from a clause ('yes-no question') or
-- with an interrogative.
{-
lincat
QVP = VerbPhrase ;
lin
-- : Cl -> QCl ;
QuestCl =
QuestCl cl = cl ;
-- : IP -> VP -> QCl ;
QuestVP ip vp =
QuestVP ip vp = predVP ip vp ;
-- : IP -> ClSlash -> QCl ; -- whom does John love
QuestSlash ip cls =
QuestSlash ip cls = {
s = \\t,a,p => ip.s ! NoPoss ! cls.c2 ++ cls.s ! t ! a ! p
} ;
-- : IAdv -> Cl -> QCl ; -- why does John walk
QuestIAdv iadv cls =
QuestIAdv iadv cls = {
s = \\t,a,p => iadv.s ++ cls.s ! t ! a ! p
} ;
-- : IComp -> NP -> QCl ; -- where is John?
QuestIComp icomp np =
QuestIComp icomp np = {
s = \\_,_,p =>
icomp.s ++ if_then_Pol p [] "nem" ++ linNP np
} ;
-- Interrogative pronouns can be formed with interrogative
-- determiners, with or without a noun.
-- : IDet -> CN -> IP ; -- which five songs
IdetCN idet cn = {…} ** NH.DetCN idet cn ;
IdetCN idet cn = NH.DetCN idet cn ;
-- : IDet -> IP ; -- which five
IdetIP idet = {…} ** NH.DetNP idet ;
IdetIP idet = NH.DetNP idet ;
-- They can be modified with adverbs.
-- : IP -> Adv -> IP ; -- who in Paris
--AdvIP = NH.AdvNP ;
AdvIP = NH.AdvNP ;
-- Interrogative quantifiers have number forms and can take number modifiers.
@@ -43,12 +52,14 @@ concrete QuestionHun of Question = CatHun ** open
-- Interrogative adverbs can be formed prepositionally.
-- : Prep -> IP -> IAdv ; -- with whom
PrepIP prep ip = ;
PrepIP prep ip = {s = applyAdp prep ip} ;
-- They can be modified with other adverbs.
-- : IAdv -> Adv -> IAdv ; -- where in Paris
-- AdvIAdv iadv adv =
AdvIAdv iadv adv = {
s = iadv.s ++ adv.s
} ;
-- Interrogative complements to copulas can be both adverbs and
-- pronouns.
@@ -57,21 +68,16 @@ concrete QuestionHun of Question = CatHun ** open
CompIAdv iadv = iadv ; -- where (is it)
-- : IP -> IComp ;
CompIP ip = {s = ip.s ! Abs} ; -- who (is it)
CompIP ip = {s = ip.s ! NoPoss ! Nom} ; -- who (is it)
-- More $IP$, $IDet$, and $IAdv$ are defined in $Structural$.
-- Wh questions with two or more question words require a new, special category.
cat
QVP ; -- buy what where
fun
ComplSlashIP : VPSlash -> IP -> QVP ; -- buys what
AdvQVP : VP -> IAdv -> QVP ; -- lives where
AddAdvQVP : QVP -> IAdv -> QVP ; -- buys what where
QuestQVP : IP -> QVP -> QCl ; -- who buys what where
-}
ComplSlashIP vps ip = VH.insertObj vps ip ;
AdvQVP vp iadv = vp ** {adv = vp.adv ++ iadv.s} ;
AddAdvQVP qvp iadv = qvp ** {adv = qvp.adv ++ iadv.s} ;
QuestQVP ip qvp = predVP ip qvp ;
}

34
src/hungarian/RelativeHun.gf
View File

@@ -13,16 +13,30 @@ lin
-- : RP ;
IdRP = {s =
table {Sg => caseTable "ami" "amit" "aminek" -- nom, acc, dat
"amibe" "amiben" "amiből" -- ill, ine, ela
"amihez" "aminél" "amitől" -- all, ade, abl
"amire" "amin" "amiről" -- sub, sup, del
"amiért" "amivel" "amivé" ; -- cau, ins, tra
Pl => caseTable "amik" "amiket" "amiknek" -- nom, acc, dat
"amikbe" "amikben" "amikből" -- ill, ine, ela
"amikhez" "amiknél" "amiktől" -- all, ade, abl
"amikre" "amiken" "amikről" -- sub, sup, del
"amikért" "amikkel" "amikké"}; -- cau, ins, tra
table {
Human =>
table {Sg => caseTable "aki" "akit" "akinek" -- nom, acc, dat
"akibe" "akiben" "akiből" -- ill, ine, ela
"akihez" "akinél" "akitől" -- all, ade, abl
"akire" "akin" "akiről" -- sub, sup, del
"akiért" "akivel" "akivé" ; -- cau, ins, tra
Pl => caseTable "akik" "akiket" "akiknek" -- nom, acc, dat
"akikbe" "akikben" "akikből" -- ill, ine, ela
"akikhez" "akikl" "akiktől" -- all, ade, abl
"akikre" "akiken" "akikről" -- sub, sup, del
"akikért" "akikkel" "akikké"} ; -- cau, ins, tra
NonHuman =>
table {Sg => caseTable "ami" "amit" "aminek" -- nom, acc, dat
"amibe" "amiben" "amiből" -- ill, ine, ela
"amihez" "aminél" "amitől" -- all, ade, abl
"amire" "amin" "amiről" -- sub, sup, del
"amiért" "amivel" "amivé" ; -- cau, ins, tra
Pl => caseTable "amik" "amiket" "amiknek" -- nom, acc, dat
"amikbe" "amikben" "amikből" -- ill, ine, ela
"amikhez" "amiknél" "amiktől" -- all, ade, abl
"amikre" "amiken" "amikről" -- sub, sup, del
"amikért" "amikkel" "amikké"} -- cau, ins, tra
} ;
} ;
-- : Prep -> NP -> RP -> RP ; -- the mother of whom

162
src/hungarian/ResHun.gf
View File

@@ -15,7 +15,7 @@ resource ResHun = NounMorphoHun ** open Prelude, Predef in {
oper
CNoun : Type = Noun ** {
compl : Number => Case => Str ;
postmod : Str ;
postmod : Str
} ;
mkCaseNoun : Str -> Number => Case => Str = \s ->
@@ -75,6 +75,7 @@ oper
agr : Person*Number ;
objdef : ObjDef ;
empty : Str ; -- standard trick for pro-drop
g : Gender ;
} ;
NounPhrase : Type = BaseNP ** {
@@ -86,6 +87,7 @@ oper
s = \\_,_ => [] ;
agr = <P3,Sg> ;
objdef = Indef ;
g = NonHuman ;
postmod, empty = [] ;
} ;
@@ -395,6 +397,24 @@ oper
<P3,Pl> => harm "nak" "nek" -- TODO allomorphs -anak, -enek
} ;
endingsPastIndef : VerbEndings = table {
<P1,Sg> => harm3 "tam" "tem" "tem" ;
<P2,Sg> => harm "tál" "tél" ;
<P3,Sg> => harm1 "t" ;
<P1,Pl> => harm "tunk" "tünk" ;
<P2,Pl> => harm3 "tatok" "tetek" "tötök" ;
<P3,Pl> => harm "tak" "tek"
} ;
endingsPastDef : VerbEndings = table {
<P1,Sg> => harm3 "tam" "tem" "tem" ;
<P2,Sg> => harm "tad" "ted" ;
<P3,Sg> => harm "ta" "te" ;
<P1,Pl> => harm "tuk" "tük" ;
<P2,Pl> => harm "tátok" "tétek" ;
<P3,Pl> => harm "ták" "ték"
} ;
BaseVerb : Type = {
sc : SubjCase ; -- subject case
} ;
@@ -406,7 +426,7 @@ oper
c2 : Case -- object case
} ;
Verb3 : Type = Verb2 ** {
-- c3 : Case -- indirect object case
c3 : Case -- indirect object case
} ;
datV2 : Verb -> Verb2 = \v -> {
@@ -418,18 +438,44 @@ oper
mkVerb2 : Str -> Verb2 = \sg3 -> vtov2 (mkVerb sg3) ;
mkVerb3 : Str -> Verb3 = \sg3 -> v2tov3 (mkVerb2 sg3) ;
futureAux : ObjDef -> Person -> Number -> Str = \od,p,n ->
case <od,p,n> of {
<Indef,P1,Sg> => "fogok" ;
<Indef,P2,Sg> => "fogsz" ;
<Indef,P3,Sg> => "fog" ;
<Indef,P1,Pl> => "fogunk" ;
<Indef,P2,Pl> => "fogtok" ;
<Indef,P3,Pl> => "fognak" ;
<Def,P1,Sg> => "fogom" ;
<Def,P2,Sg> => "fogod" ;
<Def,P3,Sg> => "fogja" ;
<Def,P1,Pl> => "fogjuk" ;
<Def,P2,Pl> => "fogjátok" ;
<Def,P3,Pl> => "fogják"
} ;
vtov2 : Verb -> Verb2 = \v -> v ** {
s = table {
Def => let vDef : Verb = mkVerbReg endingsDef (v.s ! VInf) (v.s ! VPres P3 Sg)
Def => let vDef : Verb = mkVerbRegPast endingsDef endingsPastDef
(v.s ! VInf) (v.s ! VPres P3 Sg)
in vDef.s ;
Indef => v.s } ;
c2 = Acc
} ;
v2tov3 : Verb2 -> Verb3 = \v -> v ** {c3 = Dat} ;
mkVerb : (sg3 : Str) -> Verb = mkVerbReg endingsIndef "TODO:infinitive" ; -- TODO
mkVerb : (sg3 : Str) -> Verb = \sg3 ->
let inf : Str
= case sg3 of {
_ + ("ít" | (#c + #c)) => sg3 + harm3 "ani" "eni" "eni" ! getHarm sg3 ;
_ => sg3 + "ni"
}
in mkVerbReg endingsIndef inf sg3 ;
mkVerbReg : VerbEndings -> (inf, stem : Str) -> Verb = \hf,inf,stem ->
mkVerbReg : VerbEndings -> (inf, stem : Str) -> Verb =
\hf,inf,stem -> mkVerbRegPast hf endingsPastIndef inf stem ;
mkVerbRegPast : VerbEndings -> VerbEndings -> (inf, stem : Str) -> Verb = \hf,pastHf,inf,stem ->
let h : Harm = getHarm stem ;
sg1 : Str = stem + hf ! <P1,Sg> ! h ;
sg2 : Str = stem + hf ! <P2,Sg> ! h ;
@@ -437,10 +483,43 @@ oper
pl1 : Str = stem + hf ! <P1,Pl> ! h ;
pl2 : Str = stem + hf ! <P2,Pl> ! h ;
pl3 : Str = stem + hf ! <P3,Pl> ! h ;
in mkVerbFull sg1 sg2 sg3 pl1 pl2 pl3 inf ;
pastSg1 : Str = stem + pastHf ! <P1,Sg> ! h ;
pastSg2 : Str = stem + pastHf ! <P2,Sg> ! h ;
pastSg3 : Str = stem + pastHf ! <P3,Sg> ! h ;
pastPl1 : Str = stem + pastHf ! <P1,Pl> ! h ;
pastPl2 : Str = stem + pastHf ! <P2,Pl> ! h ;
pastPl3 : Str = stem + pastHf ! <P3,Pl> ! h ;
ppart : Str = case sg3 of {
x + "o" + y@("g"|"l") => x+y+"ó" ;
_ + ("ér"|"éz"|"ít") => sg3 + "ő" ;
_ => sg3 + "ó"
} ;
apart : Str = sg3 + harm "va" "ve" ! h
in mkVerbFull sg1 sg2 sg3 pl1 pl2 pl3
pastSg1 pastSg2 pastSg3 pastPl1 pastPl2 pastPl3
inf ppart apart ;
mkVerbFull : (x1,_,_,_,_,_,x7 : Str) -> Verb =
\sg1,sg2,sg3,pl1,pl2,pl3,inf -> {
mkVerbPres : (x1,_,_,_,_,_,x7 : Str) -> Verb =
\sg1,sg2,sg3,pl1,pl2,pl3,inf ->
let h : Harm = getHarm sg3 ;
pastSg1 : Str = sg3 + endingsPastIndef ! <P1,Sg> ! h ;
pastSg2 : Str = sg3 + endingsPastIndef ! <P2,Sg> ! h ;
pastSg3 : Str = sg3 + endingsPastIndef ! <P3,Sg> ! h ;
pastPl1 : Str = sg3 + endingsPastIndef ! <P1,Pl> ! h ;
pastPl2 : Str = sg3 + endingsPastIndef ! <P2,Pl> ! h ;
pastPl3 : Str = sg3 + endingsPastIndef ! <P3,Pl> ! h ;
ppart : Str = case sg3 of {
x + "o" + y@("g"|"l") => x+y+"ó" ;
_ + ("ér"|"éz"|"ít") => sg3 + "ő" ;
_ => sg3 + "ó"
} ;
apart : Str = sg3 + harm "va" "ve" ! h
in mkVerbFull sg1 sg2 sg3 pl1 pl2 pl3
pastSg1 pastSg2 pastSg3 pastPl1 pastPl2 pastPl3
inf ppart apart ;
mkVerbFull : (x1,_,_,_,_,_,_,_,_,_,_,_,_,_,x15 : Str) -> Verb =
\sg1,sg2,sg3,pl1,pl2,pl3,pastSg1,pastSg2,pastSg3,pastPl1,pastPl2,pastPl3,inf,ppart,apart -> {
s = table {
VInf => inf ;
VPres P1 Sg => sg1 ;
@@ -448,7 +527,15 @@ oper
VPres P3 Sg => sg3 ;
VPres P1 Pl => pl1 ;
VPres P2 Pl => pl2 ;
VPres P3 Pl => pl3
VPres P3 Pl => pl3 ;
VPast P1 Sg => pastSg1 ;
VPast P2 Sg => pastSg2 ;
VPast P3 Sg => pastSg3 ;
VPast P1 Pl => pastPl1 ;
VPast P2 Pl => pastPl2 ;
VPast P3 Pl => pastPl3 ;
VPresPart => ppart ;
VAdvPart => apart
} ;
sc = SCNom
} ;
@@ -460,7 +547,15 @@ oper
"vagyunk"
"vagytok"
"vannak"
"lenni" ;
"voltam"
"voltál"
"volt"
"voltunk"
"voltatok"
"voltak"
"lenni"
"levő"
"léve" ;
megvan : Verb = copula ** {
s = \\vf => "meg" + copula.s ! vf ;
@@ -489,8 +584,22 @@ oper
adv = [] ;
} ;
insertAdv : VerbPhrase -> SS -> VerbPhrase = \vp,adv -> vp ** {adv = adv.s} ;
insertAdvSlash : VPSlash -> SS -> VPSlash = \vps,adv -> vps ** {adv = adv.s} ;
insertAdv : VerbPhrase -> SS -> VerbPhrase = \vp,adv -> vp ** {adv = vp.adv ++ adv.s} ;
insertAdvSlash : VPSlash -> SS -> VPSlash = \vps,adv -> vps ** {adv = vps.adv ++ adv.s} ;
infVP : VerbPhrase -> Str = \vp ->
vp.obj ++ vp.adv ++ vp.s ! VInf ;
infVPSlash : VPSlash -> Str = \vps ->
vps.adv ++ vps.s ! Indef ! VInf ;
verbStemFromInf : Str -> Str = \inf ->
case inf of {
stem + "ani" => stem ;
stem + "eni" => stem ;
stem + "ni" => stem ;
_ => inf
} ;
--------------------------------------------------------------------------------
-- Cl, S
@@ -515,7 +624,11 @@ oper
SCDat => Dat }
in linNP' NoPoss subjcase np
++ if_then_Pol p [] "nem"
++ vp.s ! agr2vf np.agr
++ case <t,np.agr.p1,np.agr.p2> of {
<Past,p,n> => vp.s ! VPast p n ;
<Fut,p,n> => futureAux Indef p n ++ vp.s ! VInf ;
<_,p,n> => vp.s ! VPres p n
}
++ vp.obj -- ! np.agr
++ vp.adv
++ np.empty -- standard trick for prodrop+metavariable problem
@@ -523,27 +636,32 @@ oper
-- Relative
RP : Type = {s : Number => Case => Str} ;
RClause : Type = {s : Tense => Anteriority => Polarity => Number => Case => Str} ;
RP : Type = {s : Gender => Number => Case => Str} ;
RClause : Type = {s : Tense => Anteriority => Polarity => Gender => Number => Case => Str} ;
relVP : RP -> VerbPhrase -> RClause = \rp -> relVP' (rp ** {agr=<P3,Sg>}) ;
relVP' : RP ** {agr : Person*Number} -> VerbPhrase -> RClause = \rp,vp -> {
s = \\t,a,p,n,c => let subjcase : Case = case vp.sc of {
s = \\t,a,p,g,n,c => let subjcase : Case = case vp.sc of {
SCNom => Nom ;
SCDat => Dat }
in rp.s ! n ! subjcase
in rp.s ! g ! n ! subjcase
++ if_then_Pol p [] "nem"
++ vp.obj -- ! <rp.agr.p1,n>
++ vp.adv
++ vp.s ! VPres rp.agr.p1 n -- variable by number
++ case <t,rp.agr.p1,n> of {
<Past,p,n> => vp.s ! VPast p n ;
<Fut,p,n> => futureAux Indef p n ++ vp.s ! VInf ;
<_,p,n> => vp.s ! VPres p n
} -- variable by number
} ;
relSlash : RP -> ClSlash -> RClause = \rp,cls -> {
s = \\t,a,p,n,c => let objcase : Case = case cls.c2 of {
Acc => c ;
_ => cls.c2 }
in rp.s ! n ! objcase
s = \\t,a,p,g,n,c => let objcase : Case = case cls.c2 of {
Acc => c ;
_ => cls.c2
}
in rp.s ! g ! n ! objcase
++ cls.s ! t ! a ! p
} ;
--------------------------------------------------------------------------------

48
src/hungarian/SentenceHun.gf
View File

@@ -11,16 +11,24 @@ lin
PredVP = predVP ;
-- : SC -> VP -> Cl ; -- that she goes is good (Saeed p. 94)
--PredSCVP sc vp = ;
PredSCVP sc vp = predVP (indeclNP sc.s) vp ;
--2 Clauses missing object noun phrases
-- : NP -> VPSlash -> ClSlash ;
SlashVP np vps = predVP np (vps ** {s = vps.s ! Indef ; obj = []}) ;
{-
-- : ClSlash -> Adv -> ClSlash ; -- (whom) he sees today
AdvSlash cls adv = cls ** insertAdv adv cls ;
-- SlashPrep : Cl -> Prep -> ClSlash ; -- (with whom) he walks
-- : ClSlash -> Adv -> ClSlash ; -- (whom) he sees today
AdvSlash cls adv = cls ** {
s = \\t,a,p => cls.s ! t ! a ! p ++ adv.s
} ;
-- : Cl -> Prep -> ClSlash ; -- (with whom) he walks
SlashPrep cl prep = cl ** {
c2 = prep.c ;
s = \\t,a,p => cl.s ! t ! a ! p ++ prep.s
} ;
{-
-- : NP -> VS -> SSlash -> ClSlash ; -- (whom) she says that he loves
-- SlashVS np vs ss = {} ;
@@ -31,21 +39,27 @@ lin
} ;
--2 Imperatives
-}
-- : VP -> Imp ;
ImpVP vp = {s = \\num,pol => linVP (VImp num pol) Statement vp} ;
ImpVP vp = {
s = \\num,pol =>
if_then_Pol pol [] "ne"
++ vp.s ! VPres P2 num
++ vp.obj
++ vp.adv
} ;
--2 Embedded sentences
-- : Adv -> Imp -> Imp ;
AdvImp adv imp = {
s = \\num,pol => adv.s ++ imp.s ! num ! pol
} ;
--2 Sentences
-- : S -> SC ;
EmbedS s = {s = s.s ! True} ; -- choose subordinate
EmbedS s = {s = s.s} ;
-- : QS -> SC ;
-- EmbedQS qs = { } ;
-- : VP -> SC ;
EmbedVP vp = {s = infVP vp} ;
-}
--2 Sentences
EmbedQS qs = {s = qs.s} ;
-- : Temp -> Pol -> Cl -> S ;
UseCl t p cl = {
@@ -56,7 +70,7 @@ lin
UseQCl t p cl = {s = t.s ++ p.s ++ cl.s ! t.t ! t.a ! p.p} ;
-- : Temp -> Pol -> RCl -> RS ;
UseRCl t p cl = {s = \\n,c => t.s ++ p.s ++ cl.s ! t.t ! t.a ! p.p ! n ! c} ;
UseRCl t p cl = {s = \\g,n,c => t.s ++ p.s ++ cl.s ! t.t ! t.a ! p.p ! g ! n ! c} ;
-- AdvS : Adv -> S -> S ; -- then I will go home
AdvS = advS "" ;
@@ -65,7 +79,9 @@ lin
ExtAdvS = advS (SOFT_BIND ++ ",");
-- : S -> Subj -> S -> S ;
-- SSubjS s1 subj s2 = AdvS (AK.SubjS subj s2) s1 ;
SSubjS s1 subj s2 = {
s = s1.s ++ bindComma ++ subj.s ++ s2.s
} ;
-- : S -> RS -> S ; -- she sleeps, which is good
-- RelS sent rs = advS {s = rs.s ! Sg3 Masc ++ SOFT_BIND ++ ","} sent ;

55
src/hungarian/StructuralHun.gf
View File

@@ -121,21 +121,54 @@ lin under_Prep = nomAdp "alatt" ;
-- Pron
-- Pronouns are closed class, no constructor in ParadigmsHun.
i_Pron = pronTable ! <P1,Sg> ;
i_Pron = pronTable ! <P1,Sg> ** {g = Human} ;
youPol_Pron,
youSg_Pron = pronTable ! <P2,Sg> ;
youSg_Pron = pronTable ! <P2,Sg> ** {g = Human} ;
he_Pron,
she_Pron,
she_Pron = pronTable ! <P3,Sg> ** {g = Human} ;
it_Pron = pronTable ! <P3,Sg> ;
we_Pron = pronTable ! <P1,Pl> ;
youPl_Pron = pronTable ! <P2,Pl> ;
they_Pron = pronTable ! <P3,Pl> ;
--lin whatPl_IP = ;
--lin whatSg_IP = :
--lin whoPl_IP = ;
--lin whoSg_IP = ;
we_Pron = pronTable ! <P1,Pl> ** {g = Human} ;
youPl_Pron = pronTable ! <P2,Pl> ** {g = Human} ;
they_Pron = pronTable ! <P3,Pl> ** {g = Human} ;
lin whatPl_IP = emptyNP ** {
s = \\_ => caseTable "mi" "mit" "minek"
"mibe" "miben" "miből"
"mihez" "minél" "mitől"
"mire" "min" "miről"
"miért" "mivel" "mivé" ;
agr = <P3,Pl> ;
objdef = Def
} ;
lin whatSg_IP = emptyNP ** {
s = \\_ => caseTable "mi" "mit" "minek"
"mibe" "miben" "miből"
"mihez" "minél" "mitől"
"mire" "min" "miről"
"miért" "mivel" "mivé" ;
agr = <P3,Sg> ;
objdef = Def
} ;
lin whoPl_IP = emptyNP ** {
s = \\_ => caseTable "ki" "kit" "kinek"
"kibe" "kiben" "kiből"
"kihez" "kinél" "kitől"
"kire" "kin" "kiről"
"kiért" "kivel" "kivé" ;
agr = <P3,Pl> ;
objdef = Def ;
g = Human
} ;
lin whoSg_IP = emptyNP ** {
s = \\_ => caseTable "ki" "kit" "kinek"
"kibe" "kiben" "kiből"
"kihez" "kinél" "kitől"
"kire" "kin" "kiről"
"kiért" "kivel" "kivé" ;
agr = <P3,Pl> ;
objdef = Def ;
g = Human
} ;
-------
-- Subj

81
src/hungarian/VerbHun.gf
View File

@@ -21,48 +21,59 @@ lin
-- } ;
-- : VS -> S -> VP ;
-- ComplVS vs s =
-- let vps = useV vs ;
-- subord = SubjS {s=""} s ;
-- in vps ** {} ;
ComplVS vs s = useV vs ** {
adv = "hogy" ++ s.s
} ;
{-
-- : VQ -> QS -> VP ;
ComplVQ vq qs = ;
ComplVQ vq qs = useV vq ** {
adv = qs.s
} ;
-- : VA -> AP -> VP ; -- they become red
ComplVA va ap = ResHun.insertObj (CompAP ap).s (useV va) ;
ComplVA va ap = useV va ** {
adv = ap.s ! Sg ! Nom ++ ap.compl ! Sg
} ;
--------
-- Slash
-}
-- : V2 -> VPSlash
SlashV2a = ResHun.useVc ;
{-
-- : V3 -> NP -> VPSlash ; -- give it (to her)
Slash2V3 v3 np = v3 ** {
adv = np.s ! NoPoss ! v3.c2 ++ np.postmod ;
c2 = v3.c3
} ;
-- : V3 -> NP -> VPSlash ; -- give (it) to her
Slash2V3,
Slash3V3 = \v3 -> insertObj (useVc3 v3) ;
Slash3V3 v3 np = v3 ** {
adv = np.s ! NoPoss ! v3.c3 ++ np.postmod ;
c2 = v3.c2
} ;
-- : V2S -> S -> VPSlash ; -- answer (to him) that it is good
SlashV2S v2s s =
let vps = useVc v2s ;
subord = SubjS {s=""} s ;
in vps ** {obj = } ;
SlashV2S v2s s = useVc v2s ** {
adv = "hogy" ++ s.s
} ;
-- : V2V -> VP -> VPSlash ; -- beg (her) to go
SlashV2V v2v vp = ;
SlashV2V v2v vp = useVc v2v ** {
adv = infVP vp
} ;
-- : V2Q -> QS -> VPSlash ; -- ask (him) who came
SlashV2Q v2q qs = ;
SlashV2Q v2q qs = useVc v2q ** {
adv = qs.s
} ;
-- : V2A -> AP -> VPSlash ; -- paint (it) red
SlashV2A v2a ap = useVc v2a ** {
aComp = \\_ => (CompAP ap).aComp ! Sg3 Masc
adv = ap.s ! Sg ! Nom ++ ap.compl ! Sg
} ;
-}
-- : VPSlash -> NP -> VP
ComplSlash = insertObj ;
{-
@@ -89,19 +100,27 @@ lin
-- : VPSlash -> Adv -> VPSlash ; -- use (it) here
AdvVPSlash = insertAdvSlash ;
{-
-- : VP -> Adv -> VP ; -- sleep , even though ...
ExtAdvVP vp adv = vp ** { } ;
ExtAdvVP vp adv = vp ** {
adv = vp.adv ++ bindComma ++ adv.s
} ;
-- : AdV -> VP -> VP ; -- always sleep
AdVVP adv vp = vp ** { } ;
AdVVP adv vp = vp ** {
s = \\vf => adv.s ++ vp.s ! vf
} ;
-- : AdV -> VPSlash -> VPSlash ; -- always use (it)
AdVVPSlash adv vps = vps ** { } ;
AdVVPSlash adv vps = vps ** {
s = \\o,vf => adv.s ++ vps.s ! o ! vf
} ;
-- : VP -> Prep -> VPSlash ; -- live in (it)
VPSlashPrep vp prep =
-}
VPSlashPrep vp prep = vp ** {
s = \\_ => vp.s ;
adv = vp.obj ++ vp.adv ++ prep.s ;
c2 = prep.c
} ;
--2 Complements to copula
@@ -111,8 +130,10 @@ lin
CompAP ap = UseCopula ** {
s = \\vf => case vf of {
VPres P3 n => ap.s ! n ! Nom ++ ap.compl ! n ;
VPres _ n => ap.s ! n ! Nom ++ copula.s ! vf ++ ap.compl ! n ;
_ => ap.s ! Sg ! Nom ++ copula.s ! vf ++ ap.compl ! Sg } ;
VPres _ n => ap.s ! n ! Nom ++ copula.s ! vf ++ ap.compl ! n ;
VPast _ n => ap.s ! n ! Nom ++ copula.s ! vf ++ ap.compl ! n ;
_ => ap.s ! Sg ! Nom ++ copula.s ! vf ++ ap.compl ! Sg
} ;
} ;
-- : CN -> Comp ;
@@ -164,9 +185,13 @@ insertObj : ResHun.VPSlash -> NounPhrase -> VerbPhrase = \vps,np -> vps ** {
<SCDat,Nom> =>
let agr : Person*Number = case vf of {
VPres p n => <p,n> ;
VPast p n => <p,n> ;
_ => <P3,Sg> } ;
objvf : VForm = case vf of {
VPast _ _ => VPast np.agr.p1 np.agr.p2 ;
_ => VPres np.agr.p1 np.agr.p2 } ;
in np.s ! Poss agr.p1 agr.p2 ! vps.c2
++ vps.s ! np.objdef ! agr2vf np.agr ;
++ vps.s ! np.objdef ! objvf ;
-- Default case: Verb agrees in person and number with subject
_ => vps.s ! np.objdef ! vf } ;

80
src/kazakh/CatKaz.gf
View File

@@ -1,13 +1,69 @@
concrete CatKaz of Cat = CommonX ** open ResKaz in {
lincat N = Noun ;
lincat N2 = Noun ** {c2 : Compl} ;
lincat N3 = Noun ** {c2,c3 : Compl} ;
lincat V, VA, VV, VS, VQ = Verb ;
lincat V2, V2S, V2Q = Verb ** {c2 : Compl} ;
lincat V3, V2A, V2V = Verb ** {c2,c3 : Compl} ;
lincat A = {s : Str} ;
lincat A2 = A ** {c2 : Compl} ;
lincat Prep = Compl ;
concrete CatKaz of Cat = CommonX ** open Prelude,ResKaz in {
lincat A = {s : Str} ;
lincat A2 = A ** {c2 : Compl} ;
lincat ACard = {s : Str} ;
lincat AP = {s : Str} ;
lincat CN = {s : Case => Str} ;
lincat Card = {s : Str} ;
lincat Cl = {infinitive : Case => Str} ;
lincat ClSlash = {s : Str} ;
lincat Comp = {s : Str} ;
lincat Conj = {s : Str} ;
lincat DAP = {s : Str} ;
lincat Decimal = {s : Str} ;
lincat Det = {s : Str; n : Number} ;
lincat Digits = {s : Str} ;
lincat GN = {s : Str} ;
lincat IComp = {s : Str} ;
lincat IDet = {s : Str} ;
lincat IP = {s : Str} ;
lincat IQuant = {s : Str} ;
lincat Imp = {s : Str} ;
lincat LN = {s : Str} ;
lincat N = {s : Case => Number => Str;
poss : Number => Person => Number => Str} ;
lincat N2 = {s : Case => Number => Str;
poss : Number => Person => Number => Str; c2 : {s : Str}} ;
lincat N3 = {s : Case => Number => Str;
poss : Number => Person => Number => Str; c2 : {s : Str};
c3 : {s : Str}} ;
lincat NP = {s : Case => Str} ;
lincat Num = {s : Str; n : Number} ;
lincat Numeral = {s : Str} ;
lincat Ord = {s : Str} ;
lincat PN = {s : Str} ;
lincat Predet = {s : Str} ;
lincat Prep = Compl ;
lincat Pron = {s : Str} ;
lincat QCl = {s : Str} ;
lincat QS = {s : Str} ;
lincat Quant = {s : Str} ;
lincat RCl = {s : Str} ;
lincat RP = {s : Str} ;
lincat RS = {s : Str} ;
lincat S = {s : Str} ;
lincat SN = {s : Str} ;
lincat SSlash = {s : Str} ;
lincat Subj = {s : Str} ;
lincat V = Verb ;
lincat VV,VS,VQ,VA = Verb ;
lincat V2 = Verb ** {c2 : Compl} ;
lincat V3,V2A,V2S,V2Q,V2V = Verb ** {c2,c3 : Compl} ;
lincat VP = {infinitive : Case => Str;
indicative : {fut : Case => Str;
pres : {progressive : Polarity => Case => Str;
noAspect : Polarity => Case => Str};
past : {perfect : Polarity => Case => Str;
progressive : Polarity => Case => Str;
noAspect : Polarity => Case => Str}};
subjunctive : Person => Case => Str} ;
lincat VPSlash = {infinitive : Str;
indicative : {fut : Str;
pres : {progressive : Polarity => Person => Number => Str;
noAspect : Polarity => Person => Number => Str};
past : {perfect : Polarity => Person => Number => Str;
progressive : Polarity => Person => Number => Str;
noAspect : Polarity => Person => Number => Str}};
imperative : Polarity => Formality => Number => Str;
subjunctive : Person => Number => Str} ;
}

196
src/kazakh/DocumentationKaz.gf
View File

@@ -34,118 +34,118 @@ lin InflectionV, InflectionV2, InflectionV3, InflectionV2V, InflectionV2S,
InflectionVQ, InflectionVA = \x -> {
t="v" ;
s1="" ;
s2=heading2 "Infinitive" ++ paragraph (x.Infinitive) ++
-- tr (th "Indicative" ++ th "Fut" ++ td (x.Indicative.Fut)) ++
s2=heading2 "Infinitive" ++ paragraph (x.infinitive) ++
-- tr (th "Indicative" ++ th "Fut" ++ td (x.indicative.Fut)) ++
heading2 "Present"++
frameTable (
tr (intagAttr "th" "rowspan=\"6\"" "Pos" ++ intagAttr "th" "rowspan=\"2\"" "P1" ++ th "Sg" ++ td (x.Indicative.Pres.noAspect ! Pos ! P1 ! Sg)) ++
tr (th "Pl" ++ td (x.Indicative.Pres.noAspect ! Pos ! P1 ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2 Informal" ++ th "Sg" ++ td (x.Indicative.Pres.noAspect ! Pos ! P2 Informal ! Sg)) ++
tr (th "Pl" ++ td (x.Indicative.Pres.noAspect ! Pos ! P2 Informal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2 Formal" ++ th "Sg" ++ td (x.Indicative.Pres.noAspect ! Pos ! P2 Formal ! Sg)) ++
tr (th "Pl" ++ td (x.Indicative.Pres.noAspect ! Pos ! P2 Formal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P3" ++ th "Sg" ++ td (x.Indicative.Pres.noAspect ! Pos ! P3 ! Sg)) ++
tr (th "Pl" ++ td (x.Indicative.Pres.noAspect ! Pos ! P3 ! Pl)) ++
tr (intagAttr "th" "rowspan=\"6\"" "Neg" ++ intagAttr "th" "rowspan=\"2\"" "P1" ++ th "Sg" ++ td (x.Indicative.Pres.noAspect ! Neg ! P1 ! Sg)) ++
tr (th "Pl" ++ td (x.Indicative.Pres.noAspect ! Neg ! P1 ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2 Informal" ++ th "Sg" ++ td (x.Indicative.Pres.noAspect ! Neg ! P2 Informal ! Sg)) ++
tr (th "Pl" ++ td (x.Indicative.Pres.noAspect ! Neg ! P2 Formal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2 Formal" ++ th "Sg" ++ td (x.Indicative.Pres.noAspect ! Neg ! P2 Formal ! Sg)) ++
tr (th "Pl" ++ td (x.Indicative.Pres.noAspect ! Neg ! P2 Formal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P3" ++ th "Sg" ++ td (x.Indicative.Pres.noAspect ! Neg ! P3 ! Sg)) ++
tr (th "Pl" ++ td (x.Indicative.Pres.noAspect ! Neg ! P3 ! Pl))) ++
tr (intagAttr "th" "rowspan=\"6\"" "Pos" ++ intagAttr "th" "rowspan=\"2\"" "P1" ++ th "Sg" ++ td (x.indicative.pres.noAspect ! Pos ! P1 ! Sg)) ++
tr (th "Pl" ++ td (x.indicative.pres.noAspect ! Pos ! P1 ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2 Informal" ++ th "Sg" ++ td (x.indicative.pres.noAspect ! Pos ! P2 Informal ! Sg)) ++
tr (th "Pl" ++ td (x.indicative.pres.noAspect ! Pos ! P2 Informal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2 Formal" ++ th "Sg" ++ td (x.indicative.pres.noAspect ! Pos ! P2 Formal ! Sg)) ++
tr (th "Pl" ++ td (x.indicative.pres.noAspect ! Pos ! P2 Formal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P3" ++ th "Sg" ++ td (x.indicative.pres.noAspect ! Pos ! P3 ! Sg)) ++
tr (th "Pl" ++ td (x.indicative.pres.noAspect ! Pos ! P3 ! Pl)) ++
tr (intagAttr "th" "rowspan=\"6\"" "Neg" ++ intagAttr "th" "rowspan=\"2\"" "P1" ++ th "Sg" ++ td (x.indicative.pres.noAspect ! Neg ! P1 ! Sg)) ++
tr (th "Pl" ++ td (x.indicative.pres.noAspect ! Neg ! P1 ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2 Informal" ++ th "Sg" ++ td (x.indicative.pres.noAspect ! Neg ! P2 Informal ! Sg)) ++
tr (th "Pl" ++ td (x.indicative.pres.noAspect ! Neg ! P2 Formal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2 Formal" ++ th "Sg" ++ td (x.indicative.pres.noAspect ! Neg ! P2 Formal ! Sg)) ++
tr (th "Pl" ++ td (x.indicative.pres.noAspect ! Neg ! P2 Formal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P3" ++ th "Sg" ++ td (x.indicative.pres.noAspect ! Neg ! P3 ! Sg)) ++
tr (th "Pl" ++ td (x.indicative.pres.noAspect ! Neg ! P3 ! Pl))) ++
heading2 "Present Progressive"++
frameTable (
tr (intagAttr "th" "rowspan=\"6\"" "Pos" ++ intagAttr "th" "rowspan=\"2\"" "P1" ++ th "Sg" ++ td (x.Indicative.Pres.Progressive ! Pos ! P1 ! Sg))++
tr (th "Pl" ++ td (x.Indicative.Pres.Progressive ! Pos ! P1 ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2 Informal" ++ th "Sg" ++ td (x.Indicative.Pres.Progressive ! Pos ! P2 Informal ! Sg)) ++
tr (th "Pl" ++ td (x.Indicative.Pres.Progressive ! Pos ! P2 Informal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2 Formal" ++ th "Sg" ++ td (x.Indicative.Pres.Progressive ! Pos ! P2 Formal ! Sg)) ++
tr (th "Pl" ++ td (x.Indicative.Pres.Progressive ! Pos ! P2 Formal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P3" ++ th "Sg" ++ td (x.Indicative.Pres.Progressive ! Pos ! P3 ! Sg)) ++
tr (th "Pl" ++ td (x.Indicative.Pres.Progressive ! Pos ! P3 ! Pl)) ++
tr (intagAttr "th" "rowspan=\"6\"" "Neg" ++ intagAttr "th" "rowspan=\"2\"" "P1" ++ th "Sg" ++ td (x.Indicative.Pres.Progressive ! Neg ! P1 ! Sg)) ++
tr (th "Pl" ++ td (x.Indicative.Pres.Progressive ! Neg ! P1 ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2 Informal" ++ th "Sg" ++ td (x.Indicative.Pres.Progressive ! Neg ! P2 Informal ! Sg)) ++
tr (th "Pl" ++ td (x.Indicative.Pres.Progressive ! Neg ! P2 Informal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2 Formal" ++ th "Sg" ++ td (x.Indicative.Pres.Progressive ! Neg ! P2 Formal ! Sg)) ++
tr (th "Pl" ++ td (x.Indicative.Pres.Progressive ! Neg ! P2 Formal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P3" ++ th "Sg" ++ td (x.Indicative.Pres.Progressive ! Neg ! P3 ! Sg)) ++
tr (th "Pl" ++ td (x.Indicative.Pres.Progressive ! Neg ! P3 ! Pl))) ++
tr (intagAttr "th" "rowspan=\"6\"" "Pos" ++ intagAttr "th" "rowspan=\"2\"" "P1" ++ th "Sg" ++ td (x.indicative.pres.progressive ! Pos ! P1 ! Sg))++
tr (th "Pl" ++ td (x.indicative.pres.progressive ! Pos ! P1 ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2 Informal" ++ th "Sg" ++ td (x.indicative.pres.progressive ! Pos ! P2 Informal ! Sg)) ++
tr (th "Pl" ++ td (x.indicative.pres.progressive ! Pos ! P2 Informal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2 Formal" ++ th "Sg" ++ td (x.indicative.pres.progressive ! Pos ! P2 Formal ! Sg)) ++
tr (th "Pl" ++ td (x.indicative.pres.progressive ! Pos ! P2 Formal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P3" ++ th "Sg" ++ td (x.indicative.pres.progressive ! Pos ! P3 ! Sg)) ++
tr (th "Pl" ++ td (x.indicative.pres.progressive ! Pos ! P3 ! Pl)) ++
tr (intagAttr "th" "rowspan=\"6\"" "Neg" ++ intagAttr "th" "rowspan=\"2\"" "P1" ++ th "Sg" ++ td (x.indicative.pres.progressive ! Neg ! P1 ! Sg)) ++
tr (th "Pl" ++ td (x.indicative.pres.progressive ! Neg ! P1 ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2 Informal" ++ th "Sg" ++ td (x.indicative.pres.progressive ! Neg ! P2 Informal ! Sg)) ++
tr (th "Pl" ++ td (x.indicative.pres.progressive ! Neg ! P2 Informal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2 Formal" ++ th "Sg" ++ td (x.indicative.pres.progressive ! Neg ! P2 Formal ! Sg)) ++
tr (th "Pl" ++ td (x.indicative.pres.progressive ! Neg ! P2 Formal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P3" ++ th "Sg" ++ td (x.indicative.pres.progressive ! Neg ! P3 ! Sg)) ++
tr (th "Pl" ++ td (x.indicative.pres.progressive ! Neg ! P3 ! Pl))) ++
heading2 "Past" ++
frameTable (
tr (intagAttr "th" "rowspan=\"6\"" "Pos" ++ intagAttr "th" "rowspan=\"2\"" "P1" ++ th "Sg" ++ td (x.Indicative.Past.noAspect ! Pos ! P1 ! Sg)) ++
tr (th "Pl" ++ td (x.Indicative.Past.noAspect ! Pos ! P1 ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2 Informal" ++ th "Sg" ++ td (x.Indicative.Past.noAspect ! Pos ! P2 Informal ! Sg)) ++
tr (th "Pl" ++ td (x.Indicative.Past.noAspect ! Pos ! P2 Informal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2 Formal" ++ th "Sg" ++ td (x.Indicative.Past.noAspect ! Pos ! P2 Formal ! Sg)) ++
tr (th "Pl" ++ td (x.Indicative.Past.noAspect ! Pos ! P2 Formal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P3" ++ th "Sg" ++ td (x.Indicative.Past.noAspect ! Pos ! P3 ! Sg)) ++
tr (th "Pl" ++ td (x.Indicative.Past.noAspect ! Pos ! P3 ! Pl)) ++
tr (intagAttr "th" "rowspan=\"6\"" "Neg" ++ intagAttr "th" "rowspan=\"2\"" "P1" ++ th "Sg" ++ td (x.Indicative.Past.noAspect ! Neg ! P1 ! Sg)) ++
tr (th "Pl" ++ td (x.Indicative.Past.noAspect ! Neg ! P1 ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2 Informal" ++ th "Sg" ++ td (x.Indicative.Past.noAspect ! Neg ! P2 Informal ! Sg)) ++
tr (th "Pl" ++ td (x.Indicative.Past.noAspect ! Neg ! P2 Informal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2 Formal" ++ th "Sg" ++ td (x.Indicative.Past.noAspect ! Neg ! P2 Formal ! Sg)) ++
tr (th "Pl" ++ td (x.Indicative.Past.noAspect ! Neg ! P2 Formal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P3" ++ th "Sg" ++ td (x.Indicative.Past.noAspect ! Neg ! P3 ! Sg)) ++
tr (th "Pl" ++ td (x.Indicative.Past.noAspect ! Neg ! P3 ! Pl))) ++
tr (intagAttr "th" "rowspan=\"6\"" "Pos" ++ intagAttr "th" "rowspan=\"2\"" "P1" ++ th "Sg" ++ td (x.indicative.past.noAspect ! Pos ! P1 ! Sg)) ++
tr (th "Pl" ++ td (x.indicative.past.noAspect ! Pos ! P1 ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2 Informal" ++ th "Sg" ++ td (x.indicative.past.noAspect ! Pos ! P2 Informal ! Sg)) ++
tr (th "Pl" ++ td (x.indicative.past.noAspect ! Pos ! P2 Informal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2 Formal" ++ th "Sg" ++ td (x.indicative.past.noAspect ! Pos ! P2 Formal ! Sg)) ++
tr (th "Pl" ++ td (x.indicative.past.noAspect ! Pos ! P2 Formal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P3" ++ th "Sg" ++ td (x.indicative.past.noAspect ! Pos ! P3 ! Sg)) ++
tr (th "Pl" ++ td (x.indicative.past.noAspect ! Pos ! P3 ! Pl)) ++
tr (intagAttr "th" "rowspan=\"6\"" "Neg" ++ intagAttr "th" "rowspan=\"2\"" "P1" ++ th "Sg" ++ td (x.indicative.past.noAspect ! Neg ! P1 ! Sg)) ++
tr (th "Pl" ++ td (x.indicative.past.noAspect ! Neg ! P1 ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2 Informal" ++ th "Sg" ++ td (x.indicative.past.noAspect ! Neg ! P2 Informal ! Sg)) ++
tr (th "Pl" ++ td (x.indicative.past.noAspect ! Neg ! P2 Informal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2 Formal" ++ th "Sg" ++ td (x.indicative.past.noAspect ! Neg ! P2 Formal ! Sg)) ++
tr (th "Pl" ++ td (x.indicative.past.noAspect ! Neg ! P2 Formal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P3" ++ th "Sg" ++ td (x.indicative.past.noAspect ! Neg ! P3 ! Sg)) ++
tr (th "Pl" ++ td (x.indicative.past.noAspect ! Neg ! P3 ! Pl))) ++
heading2 "Past Perfect" ++
frameTable (
tr (intagAttr "th" "rowspan=\"6\"" "Pos" ++ intagAttr "th" "rowspan=\"2\"" "P1" ++ th "Sg" ++ td (x.Indicative.Past.Perfect ! Pos ! P1 ! Sg)) ++
tr (th "Pl" ++ td (x.Indicative.Past.Perfect ! Pos ! P1 ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2 Informal" ++ th "Sg" ++ td (x.Indicative.Past.Perfect ! Pos ! P2 Informal ! Sg)) ++
tr (th "Pl" ++ td (x.Indicative.Past.Perfect ! Pos ! P2 Informal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2 Formal" ++ th "Sg" ++ td (x.Indicative.Past.Perfect ! Pos ! P2 Formal ! Sg)) ++
tr (th "Pl" ++ td (x.Indicative.Past.Perfect ! Pos ! P2 Formal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P3" ++ th "Sg" ++ td (x.Indicative.Past.Perfect ! Pos ! P3 ! Sg)) ++
tr (th "Pl" ++ td (x.Indicative.Past.Perfect ! Pos ! P3 ! Pl)) ++
tr (intagAttr "th" "rowspan=\"6\"" "Neg" ++ intagAttr "th" "rowspan=\"2\"" "P1" ++ th "Sg" ++ td (x.Indicative.Past.Perfect ! Neg ! P1 ! Sg)) ++
tr (th "Pl" ++ td (x.Indicative.Past.Perfect ! Neg ! P1 ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2 Informal" ++ th "Sg" ++ td (x.Indicative.Past.Perfect ! Neg ! P2 Informal ! Sg)) ++
tr (th "Pl" ++ td (x.Indicative.Past.Perfect ! Neg ! P2 Informal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2 Formal" ++ th "Sg" ++ td (x.Indicative.Past.Perfect ! Neg ! P2 Formal ! Sg)) ++
tr (th "Pl" ++ td (x.Indicative.Past.Perfect ! Neg ! P2 Formal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P3" ++ th "Sg" ++ td (x.Indicative.Past.Perfect ! Neg ! P3 ! Sg)) ++
tr (th "Pl" ++ td (x.Indicative.Past.Perfect ! Neg ! P3 ! Pl))) ++
tr (intagAttr "th" "rowspan=\"6\"" "Pos" ++ intagAttr "th" "rowspan=\"2\"" "P1" ++ th "Sg" ++ td (x.indicative.past.perfect ! Pos ! P1 ! Sg)) ++
tr (th "Pl" ++ td (x.indicative.past.perfect ! Pos ! P1 ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2 Informal" ++ th "Sg" ++ td (x.indicative.past.perfect ! Pos ! P2 Informal ! Sg)) ++
tr (th "Pl" ++ td (x.indicative.past.perfect ! Pos ! P2 Informal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2 Formal" ++ th "Sg" ++ td (x.indicative.past.perfect ! Pos ! P2 Formal ! Sg)) ++
tr (th "Pl" ++ td (x.indicative.past.perfect ! Pos ! P2 Formal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P3" ++ th "Sg" ++ td (x.indicative.past.perfect ! Pos ! P3 ! Sg)) ++
tr (th "Pl" ++ td (x.indicative.past.perfect ! Pos ! P3 ! Pl)) ++
tr (intagAttr "th" "rowspan=\"6\"" "Neg" ++ intagAttr "th" "rowspan=\"2\"" "P1" ++ th "Sg" ++ td (x.indicative.past.perfect ! Neg ! P1 ! Sg)) ++
tr (th "Pl" ++ td (x.indicative.past.perfect ! Neg ! P1 ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2 Informal" ++ th "Sg" ++ td (x.indicative.past.perfect ! Neg ! P2 Informal ! Sg)) ++
tr (th "Pl" ++ td (x.indicative.past.perfect ! Neg ! P2 Informal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2 Formal" ++ th "Sg" ++ td (x.indicative.past.perfect ! Neg ! P2 Formal ! Sg)) ++
tr (th "Pl" ++ td (x.indicative.past.perfect ! Neg ! P2 Formal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P3" ++ th "Sg" ++ td (x.indicative.past.perfect ! Neg ! P3 ! Sg)) ++
tr (th "Pl" ++ td (x.indicative.past.perfect ! Neg ! P3 ! Pl))) ++
heading2 "Past Progressive" ++
frameTable (
tr (intagAttr "th" "rowspan=\"6\"" "Pos" ++ intagAttr "th" "rowspan=\"2\"" "P1" ++ th "Sg" ++ td (x.Indicative.Past.Progressive ! Pos ! P1 ! Sg)) ++
tr (th "Pl" ++ td (x.Indicative.Past.Progressive ! Pos ! P1 ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2 Informal" ++ th "Sg" ++ td (x.Indicative.Past.Progressive ! Pos ! P2 Informal ! Sg)) ++
tr (th "Pl" ++ td (x.Indicative.Past.Progressive ! Pos ! P2 Informal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2 Formal" ++ th "Sg" ++ td (x.Indicative.Past.Progressive ! Pos ! P2 Formal ! Sg)) ++
tr (th "Pl" ++ td (x.Indicative.Past.Progressive ! Pos ! P2 Formal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P3" ++ th "Sg" ++ td (x.Indicative.Past.Progressive ! Pos ! P3 ! Sg)) ++
tr (th "Pl" ++ td (x.Indicative.Past.Progressive ! Pos ! P3 ! Pl)) ++
tr (intagAttr "th" "rowspan=\"6\"" "Neg" ++ intagAttr "th" "rowspan=\"2\"" "P1" ++ th "Sg" ++ td (x.Indicative.Past.Progressive ! Neg ! P1 ! Sg)) ++
tr (th "Pl" ++ td (x.Indicative.Past.Progressive ! Neg ! P1 ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2 Informal" ++ th "Sg" ++ td (x.Indicative.Past.Progressive ! Neg ! P2 Informal ! Sg)) ++
tr (th "Pl" ++ td (x.Indicative.Past.Progressive ! Neg ! P2 Informal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2 Formal" ++ th "Sg" ++ td (x.Indicative.Past.Progressive ! Neg ! P2 Formal ! Sg)) ++
tr (th "Pl" ++ td (x.Indicative.Past.Progressive ! Neg ! P2 Formal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P3" ++ th "Sg" ++ td (x.Indicative.Past.Progressive ! Neg ! P3 ! Sg)) ++
tr (th "Pl" ++ td (x.Indicative.Past.Progressive ! Neg ! P3 ! Pl))) ++
tr (intagAttr "th" "rowspan=\"6\"" "Pos" ++ intagAttr "th" "rowspan=\"2\"" "P1" ++ th "Sg" ++ td (x.indicative.past.progressive ! Pos ! P1 ! Sg)) ++
tr (th "Pl" ++ td (x.indicative.past.progressive ! Pos ! P1 ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2 Informal" ++ th "Sg" ++ td (x.indicative.past.progressive ! Pos ! P2 Informal ! Sg)) ++
tr (th "Pl" ++ td (x.indicative.past.progressive ! Pos ! P2 Informal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2 Formal" ++ th "Sg" ++ td (x.indicative.past.progressive ! Pos ! P2 Formal ! Sg)) ++
tr (th "Pl" ++ td (x.indicative.past.progressive ! Pos ! P2 Formal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P3" ++ th "Sg" ++ td (x.indicative.past.progressive ! Pos ! P3 ! Sg)) ++
tr (th "Pl" ++ td (x.indicative.past.progressive ! Pos ! P3 ! Pl)) ++
tr (intagAttr "th" "rowspan=\"6\"" "Neg" ++ intagAttr "th" "rowspan=\"2\"" "P1" ++ th "Sg" ++ td (x.indicative.past.progressive ! Neg ! P1 ! Sg)) ++
tr (th "Pl" ++ td (x.indicative.past.progressive ! Neg ! P1 ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2 Informal" ++ th "Sg" ++ td (x.indicative.past.progressive ! Neg ! P2 Informal ! Sg)) ++
tr (th "Pl" ++ td (x.indicative.past.progressive ! Neg ! P2 Informal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2 Formal" ++ th "Sg" ++ td (x.indicative.past.progressive ! Neg ! P2 Formal ! Sg)) ++
tr (th "Pl" ++ td (x.indicative.past.progressive ! Neg ! P2 Formal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P3" ++ th "Sg" ++ td (x.indicative.past.progressive ! Neg ! P3 ! Sg)) ++
tr (th "Pl" ++ td (x.indicative.past.progressive ! Neg ! P3 ! Pl))) ++
heading2 "Imperative" ++
frameTable (
tr (intagAttr "th" "rowspan=\"4\"" "Pos" ++ intagAttr "th" "rowspan=\"2\"" "Informal" ++ th "Sg" ++ td (x.Imperative_Jussive ! Pos ! Informal ! Sg)) ++
tr (th "Pl" ++ td (x.Imperative_Jussive ! Pos ! Informal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "Formal" ++ th "Sg" ++ td (x.Imperative_Jussive ! Pos ! Formal ! Sg)) ++
tr (th "Pl" ++ td (x.Imperative_Jussive ! Pos ! Formal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"4\"" "Neg" ++ intagAttr "th" "rowspan=\"2\"" "Informal" ++ th "Sg" ++ td (x.Imperative_Jussive ! Neg ! Informal ! Sg)) ++
tr (th "Pl" ++ td (x.Imperative_Jussive ! Neg ! Informal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "Formal" ++ th "Sg" ++ td (x.Imperative_Jussive ! Neg ! Formal ! Sg)) ++
tr (th "Pl" ++ td (x.Imperative_Jussive ! Neg ! Formal ! Pl))) ++
tr (intagAttr "th" "rowspan=\"4\"" "Pos" ++ intagAttr "th" "rowspan=\"2\"" "Informal" ++ th "Sg" ++ td (x.imperative ! Pos ! Informal ! Sg)) ++
tr (th "Pl" ++ td (x.imperative ! Pos ! Informal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "Formal" ++ th "Sg" ++ td (x.imperative ! Pos ! Formal ! Sg)) ++
tr (th "Pl" ++ td (x.imperative ! Pos ! Formal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"4\"" "Neg" ++ intagAttr "th" "rowspan=\"2\"" "Informal" ++ th "Sg" ++ td (x.imperative ! Neg ! Informal ! Sg)) ++
tr (th "Pl" ++ td (x.imperative ! Neg ! Informal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "Formal" ++ th "Sg" ++ td (x.imperative ! Neg ! Formal ! Sg)) ++
tr (th "Pl" ++ td (x.imperative ! Neg ! Formal ! Pl))) ++
heading2 "Subjunctive" ++
frameTable (
tr (intagAttr "th" "rowspan=\"2\"" "P1" ++ th "Sg" ++ td (x.Subjunctive ! P1 ! Sg)) ++
tr (th "Pl" ++ td (x.Subjunctive ! P1 ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2 Informal" ++ th "Sg" ++ td (x.Subjunctive ! P2 Informal ! Sg)) ++
tr (th "Pl" ++ td (x.Subjunctive ! P2 Informal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2 Formal" ++ th "Sg" ++ td (x.Subjunctive ! P2 Formal ! Sg)) ++
tr (th "Pl" ++ td (x.Subjunctive ! P2 Formal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P3" ++ th "Sg" ++ td (x.Subjunctive ! P3 ! Sg)) ++
tr (th "Pl" ++ td (x.Subjunctive ! P3 ! Pl))) ;
tr (intagAttr "th" "rowspan=\"2\"" "P1" ++ th "Sg" ++ td (x.subjunctive ! P1 ! Sg)) ++
tr (th "Pl" ++ td (x.subjunctive ! P1 ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2 Informal" ++ th "Sg" ++ td (x.subjunctive ! P2 Informal ! Sg)) ++
tr (th "Pl" ++ td (x.subjunctive ! P2 Informal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P2 Formal" ++ th "Sg" ++ td (x.subjunctive ! P2 Formal ! Sg)) ++
tr (th "Pl" ++ td (x.subjunctive ! P2 Formal ! Pl)) ++
tr (intagAttr "th" "rowspan=\"2\"" "P3" ++ th "Sg" ++ td (x.subjunctive ! P3 ! Sg)) ++
tr (th "Pl" ++ td (x.subjunctive ! P3 ! Pl))) ;
s3=[]
} ;

756
src/kazakh/MorphoKaz.gf
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File diff suppressed because it is too large Load Diff

16
src/kazakh/ResKaz.gf
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@@ -81,12 +81,12 @@ oper mkNoun : (_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_ : Str
param Polarity = Pos | Neg ;
oper Verb = {Infinitive: Str; Indicative: {Fut: Str; Pres: {Progressive: Polarity => Person => Number => Str; noAspect: Polarity => Person => Number => Str}; Past: {Perfect: Polarity => Person => Number => Str; Progressive: Polarity => Person => Number => Str; noAspect: Polarity => Person => Number => Str}}; Imperative_Jussive: Polarity => Formality => Number => Str; Subjunctive: Person => Number => Str} ; -- 113
oper Verb = {infinitive: Str; indicative: {fut: Str; pres: {progressive: Polarity => Person => Number => Str; noAspect: Polarity => Person => Number => Str}; past: {perfect: Polarity => Person => Number => Str; progressive: Polarity => Person => Number => Str; noAspect: Polarity => Person => Number => Str}}; imperative: Polarity => Formality => Number => Str; subjunctive: Person => Number => Str} ; -- 113
oper mkVerb : (_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_ : Str) -> Verb =
\f1,f2,f3,f4,f5,f6,f7,f8,f9,f10,f11,f12,f13,f14,f15,f16,f17,f18,f19,f20,f21,f22,f23,f24,f25,f26,f27,f28,f29,f30,f31,f32,f33,f34,f35,f36,f37,f38,f39,f40,f41,f42,f43,f44,f45,f46,f47,f48,f49,f50,f51,f52,f53,f54,f55,f56,f57,f58,f59,f60,f61,f62,f63,f64,f65,f66,f67,f68,f69,f70,f71,f72,f73,f74,f75,f76,f77,f78,f79,f80,f81,f82,f83,f84,f85,f86,f87,f88,f89,f90,f91,f92,f93,f94,f95,f96,f97,f98 ->
{ Infinitive = f1 ;
Indicative = { Fut = f2 ;
Pres = { Progressive = table {
{ infinitive = f1 ;
indicative = { fut = f2 ;
pres = { progressive = table {
Pos => table {
P1 => table {
Sg => f3 ;
@@ -163,7 +163,7 @@ oper mkVerb : (_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_
}
}
} ;
Past = { Perfect = table {
past = { perfect = table {
Pos => table {
P1 => table {
Sg => f35 ;
@@ -201,7 +201,7 @@ oper mkVerb : (_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_
}
}
} ;
Progressive = table {
progressive = table {
Pos => table {
P1 => table {
Sg => f51 ;
@@ -279,7 +279,7 @@ oper mkVerb : (_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_
}
}
} ;
Imperative_Jussive = table {
imperative = table {
Pos => table {
Informal => table {
Sg => f83 ;
@@ -301,7 +301,7 @@ oper mkVerb : (_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_,_
}
}
} ;
Subjunctive = table {
subjunctive = table {
P1 => table {
Sg => f91 ;
Pl => f92

15
src/latvian/CatLav.gf
View File

@@ -1,6 +1,6 @@
--# -path=.:abstract:common:prelude
concrete CatLav of Cat = CommonX - [Adv, CAdv] ** open ResLav, Prelude in {
concrete CatLav of Cat = CommonX - [Adv, CAdv, Voc] ** open ResLav, Prelude in {
flags
@@ -110,7 +110,18 @@ lincat
N3 = Noun ** {prep1, prep2 : Preposition ; isPre1, isPre2 : Bool} ;
PN,LN = ProperNoun ;
-- TODO Make most proper nouns more similar to nouns:
-- (1) given names GN should have both numbers (to fit with Tēzaurs and to be
-- able to express that there are multiple people in the room with the
-- same name)
-- (2) family names SN being inflected on gender doesn't fit neither with
-- Tēzaurs, nor with the fact that for some masc surnames there are
-- multiple legaly valid fem variants
-- (3) if PN is meant to be generic proper noun, it might also be inflected
-- in number
-- In general Latvian tends to make every noun inflectable in all cases/numbers,
-- the plural-only placenames like "Cēsis" is the one very stable exception.
PN,LN = ProperNoun ;
GN = {s : Case => Str ; gend : Gender} ;
SN = {s : Gender => Case => Str; pl : Case => Str} ;

6
src/latvian/ParadigmsNounsLav.gf
View File

@@ -80,7 +80,8 @@ oper
mkNounByDeclPal : Str -> Declension -> Bool -> Noun = \lemma,decl,pal ->
case decl of {
D0|D1|D2|D3 => mkNounByGendDeclPal lemma Masc decl pal ;
D4|D5|D6|DR => mkNounByGendDeclPal lemma Fem decl pal
D4|D5|D6|DR => mkNounByGendDeclPal lemma Fem decl pal ;
DG => mkNounByGendDeclPal nonExist Fem decl pal -- FIX ME REMAKE
} ;
-- Specified gender and declension; default palatalization
@@ -97,7 +98,8 @@ oper
D4 => mkNoun_D4 lemma gend ;
D5 => mkNoun_D5 lemma gend pal ;
D6 => mkNoun_D6 lemma gend pal ;
DR => mkNoun_DR lemma
DR => mkNoun_DR lemma ;
DG => mkNoun_DR nonExist -- FIX ME REMAKE
} ;
-- Indeclinable noun

6
src/latvian/ParadigmsVerbsLav.gf
View File

@@ -43,13 +43,15 @@ oper
mkRegVerb : Str -> Conjugation -> Verb_TMP = \lemma,conj ->
case conj of {
C2 => mkVerb_C2 lemma ;
C3 => mkVerb_C3 lemma
C3 => mkVerb_C3 lemma ;
C1|CI => mkVerb_C3 nonExist -- FIX ME REMAKE
} ;
mkReflVerb : Str -> Conjugation -> Verb_TMP = \lemma,conj ->
case conj of {
C2 => mkVerb_C2_Refl lemma ;
C3 => mkVerb_C3_Refl lemma
C3 => mkVerb_C3_Refl lemma ;
C1|CI => mkVerb_C3_Refl nonExist -- FIX ME REMAKE
} ;
filter_Neg : Verb_TMP -> Verb_TMP = \full -> {

574
src/latvian/PortedMorphoParadigmsLav.gf Normal file
View File

@@ -0,0 +1,574 @@
--# -path=.:abstract:common:prelude
-- Contents of this file are automatically ported paradigms from
-- https://github.com/LUMII-AILab/Morphology/blob/master/src/main/resources/Lexicon_v2.xml
-- NB: Do NOT edit this without consulting lauma@ailab.lv or normundsg@ailab.lv
-- Otherwise your changes might get accidentally revoked!
resource PortedMorphoParadigmsLav = open PortedMorphoStemchangesLav, ResLav in {
flags coding = utf8 ;
oper
noun_1a_fromStems : Str -> Noun = \stem ->
{
s = table {
Pl => table {
Acc => stem + "us" ;
Dat => stem + "iem" ;
Loc => stem + "os" ;
Nom => stem + "i" ;
Voc => stem + "i" ;
Gen => stem + "u"
} ;
Sg => table {
Acc => stem + "u" ;
Dat => stem + "am" ;
Loc => stem + "ā" ;
Nom => stem + "s" ;
Voc => variants { stem + "s" ; stem + "" } ;
Gen => stem + "a"
}
} ;
gend = Masc
} ;
noun_1a_fromLemma : Str -> Noun = \lemma ->
case lemma of {
stem + "s" => noun_1a_fromStems stem ;
_ => Predef.error ("noun_1a_fromLemma is only applicable for words that end in -s, tried to apply to" ++ lemma)
} ;
noun_1a_fromNomPl : Str -> Noun = \lemma ->
case lemma of {
stem + "i" => noun_1a_fromStems stem ;
_ => Predef.error ("noun_1a_fromNomPl is only applicable for words that end in -i, tried to apply to" ++ lemma)
} ;
noun_1b_fromStems : Str -> Noun = \stem ->
{
s = table {
Pl => table {
Acc => stem + "us" ;
Dat => stem + "iem" ;
Loc => stem + "os" ;
Nom => stem + "i" ;
Voc => stem + "i" ;
Gen => stem + "u"
} ;
Sg => table {
Acc => stem + "u" ;
Dat => stem + "am" ;
Loc => stem + "ā" ;
Nom => stem + "š" ;
Voc => variants { stem + "š" ; stem + "" } ;
Gen => stem + "a"
}
} ;
gend = Masc
} ;
noun_1b_fromLemma : Str -> Noun = \lemma ->
case lemma of {
stem + "š" => noun_1b_fromStems stem ;
_ => Predef.error ("noun_1b_fromLemma is only applicable for words that end in -š, tried to apply to" ++ lemma)
} ;
noun_1b_fromNomPl : Str -> Noun = \lemma ->
case lemma of {
stem + "i" => noun_1b_fromStems stem ;
_ => Predef.error ("noun_1b_fromNomPl is only applicable for words that end in -i, tried to apply to" ++ lemma)
} ;
noun_2a_fromStems : Str -> Noun = \stem ->
{
s = table {
Pl => table {
Acc => stemchangeSimple 1 stem + "us" ;
Dat => stemchangeSimple 1 stem + "iem" ;
Loc => stemchangeSimple 1 stem + "os" ;
Nom => stemchangeSimple 1 stem + "i" ;
Voc => stemchangeSimple 1 stem + "i" ;
Gen => stemchangeSimple 1 stem + "u"
} ;
Sg => table {
Acc => stem + "i" ;
Dat => stem + "im" ;
Loc => stem + "ī" ;
Nom => stem + "is" ;
Voc => stem + "i" ;
Gen => stemchangeSimple 1 stem + "a"
}
} ;
gend = Masc
} ;
noun_2a_fromLemma : Str -> Noun = \lemma ->
case lemma of {
stem + "is" => noun_2a_fromStems stem ;
_ => Predef.error ("noun_2a_fromLemma is only applicable for words that end in -is, tried to apply to" ++ lemma)
} ;
noun_2a_fromNomPl : Str -> Noun = \lemma ->
case lemma of {
stem + "i" => noun_2a_fromStems stem ;
_ => Predef.error ("noun_2a_fromNomPl is only applicable for words that end in -i, tried to apply to" ++ lemma)
} ;
noun_2c_fromStems : Str -> Noun = \stem ->
{
s = table {
Pl => table {
Acc => stemchangeSimple 1 stem + "us" ;
Dat => stemchangeSimple 1 stem + "iem" ;
Loc => stemchangeSimple 1 stem + "os" ;
Nom => stemchangeSimple 1 stem + "i" ;
Voc => stemchangeSimple 1 stem + "i" ;
Gen => stemchangeSimple 1 stem + "u"
} ;
Sg => table {
Acc => stem + "i" ;
Dat => stem + "im" ;
Loc => stem + "ī" ;
Nom => stem + "s" ;
Voc => variants { stem + "" ; stem + "s" } ;
Gen => stem + "s"
}
} ;
gend = Masc
} ;
noun_2c_fromLemma : Str -> Noun = \lemma ->
case lemma of {
stem + "s" => noun_2c_fromStems stem ;
_ => Predef.error ("noun_2c_fromLemma is only applicable for words that end in -s, tried to apply to" ++ lemma)
} ;
noun_2c_fromNomPl : Str -> Noun = \lemma ->
case lemma of {
stem + "i" => noun_2c_fromStems stem ;
_ => Predef.error ("noun_2c_fromNomPl is only applicable for words that end in -i, tried to apply to" ++ lemma)
} ;
noun_2d_fromStems : Str -> Noun = \stem ->
{
s = table {
Pl => table {
Acc => stemchangeSimple 1 stem + "us" ;
Dat => stemchangeSimple 1 stem + "iem" ;
Loc => stemchangeSimple 1 stem + "os" ;
Nom => stemchangeSimple 1 stem + "i" ;
Voc => stemchangeSimple 1 stem + "i" ;
Gen => stemchangeSimple 1 stem + "u"
} ;
Sg => table {
Acc => stem + "i" ;
Dat => stem + "im" ;
Loc => stem + "ī" ;
Nom => stem + "s" ;
Voc => stem + "i" ;
Gen => stemchangeSimple 1 stem + "a"
}
} ;
gend = Masc
} ;
noun_2d_fromLemma : Str -> Noun = \lemma ->
case lemma of {
stem + "s" => noun_2d_fromStems stem ;
_ => Predef.error ("noun_2d_fromLemma is only applicable for words that end in -s, tried to apply to" ++ lemma)
} ;
noun_2d_fromNomPl : Str -> Noun = \lemma ->
case lemma of {
stem + "i" => noun_2d_fromStems stem ;
_ => Predef.error ("noun_2d_fromNomPl is only applicable for words that end in -i, tried to apply to" ++ lemma)
} ;
noun_3m_fromStems : Str -> Noun = \stem ->
{
s = table {
Pl => table {
Acc => stem + "us" ;
Dat => stem + "iem" ;
Loc => stem + "os" ;
Nom => stem + "i" ;
Voc => stem + "i" ;
Gen => stem + "u"
} ;
Sg => table {
Acc => stem + "u" ;
Dat => stem + "um" ;
Loc => stem + "ū" ;
Nom => stem + "us" ;
Voc => variants { stem + "us" ; stem + "u" } ;
Gen => stem + "us"
}
} ;
gend = Masc
} ;
noun_3m_fromLemma : Str -> Noun = \lemma ->
case lemma of {
stem + "us" => noun_3m_fromStems stem ;
_ => Predef.error ("noun_3m_fromLemma is only applicable for words that end in -us, tried to apply to" ++ lemma)
} ;
noun_3m_fromNomPl : Str -> Noun = \lemma ->
case lemma of {
stem + "i" => noun_3m_fromStems stem ;
_ => Predef.error ("noun_3m_fromNomPl is only applicable for words that end in -i, tried to apply to" ++ lemma)
} ;
noun_4f_fromStems : Str -> Noun = \stem ->
{
s = table {
Pl => table {
Acc => stem + "as" ;
Dat => stem + "ām" ;
Loc => stem + "ās" ;
Nom => stem + "as" ;
Voc => stem + "as" ;
Gen => stem + "u"
} ;
Sg => table {
Acc => stem + "u" ;
Dat => stem + "ai" ;
Loc => stem + "ā" ;
Nom => stem + "a" ;
Voc => variants { stem + "a" ; stemchangeSimple 17 stem + "" } ;
Gen => stem + "as"
}
} ;
gend = Fem
} ;
noun_4f_fromLemma : Str -> Noun = \lemma ->
case lemma of {
stem + "a" => noun_4f_fromStems stem ;
_ => Predef.error ("noun_4f_fromLemma is only applicable for words that end in -a, tried to apply to" ++ lemma)
} ;
noun_4f_fromNomPl : Str -> Noun = \lemma ->
case lemma of {
stem + "as" => noun_4f_fromStems stem ;
_ => Predef.error ("noun_4f_fromNomPl is only applicable for words that end in -as, tried to apply to" ++ lemma)
} ;
noun_4m_fromStems : Str -> Noun = \stem ->
{
s = table {
Pl => table {
Acc => stem + "as" ;
Dat => stem + "ām" ;
Loc => stem + "ās" ;
Nom => stem + "as" ;
Voc => stem + "as" ;
Gen => stem + "u"
} ;
Sg => table {
Acc => stem + "u" ;
Dat => stem + "am" ;
Loc => stem + "ā" ;
Nom => stem + "a" ;
Voc => stem + "a" ;
Gen => stem + "as"
}
} ;
gend = Masc
} ;
noun_4m_fromLemma : Str -> Noun = \lemma ->
case lemma of {
stem + "a" => noun_4m_fromStems stem ;
_ => Predef.error ("noun_4m_fromLemma is only applicable for words that end in -a, tried to apply to" ++ lemma)
} ;
noun_4m_fromNomPl : Str -> Noun = \lemma ->
case lemma of {
stem + "as" => noun_4m_fromStems stem ;
_ => Predef.error ("noun_4m_fromNomPl is only applicable for words that end in -as, tried to apply to" ++ lemma)
} ;
noun_5fa_fromStems : Str -> Noun = \stem ->
{
s = table {
Pl => table {
Acc => stem + "es" ;
Dat => stem + "ēm" ;
Loc => stem + "ēs" ;
Nom => stem + "es" ;
Voc => stem + "es" ;
Gen => stemchangeSimple 1 stem + "u"
} ;
Sg => table {
Acc => stem + "i" ;
Dat => stem + "ei" ;
Loc => stem + "ē" ;
Nom => stem + "e" ;
Voc => variants { stem + "e" ; stemchangeSimple 17 stem + "" } ;
Gen => stem + "es"
}
} ;
gend = Fem
} ;
noun_5fa_fromLemma : Str -> Noun = \lemma ->
case lemma of {
stem + "e" => noun_5fa_fromStems stem ;
_ => Predef.error ("noun_5fa_fromLemma is only applicable for words that end in -e, tried to apply to" ++ lemma)
} ;
noun_5fa_fromNomPl : Str -> Noun = \lemma ->
case lemma of {
stem + "es" => noun_5fa_fromStems stem ;
_ => Predef.error ("noun_5fa_fromNomPl is only applicable for words that end in -es, tried to apply to" ++ lemma)
} ;
noun_5ma_fromStems : Str -> Noun = \stem ->
{
s = table {
Pl => table {
Acc => stem + "es" ;
Dat => stem + "ēm" ;
Loc => stem + "ēs" ;
Nom => stem + "es" ;
Voc => stem + "es" ;
Gen => stemchangeSimple 1 stem + "u"
} ;
Sg => table {
Acc => stem + "i" ;
Dat => stem + "em" ;
Loc => stem + "ē" ;
Nom => stem + "e" ;
Voc => stem + "e" ;
Gen => stem + "es"
}
} ;
gend = Masc
} ;
noun_5ma_fromLemma : Str -> Noun = \lemma ->
case lemma of {
stem + "e" => noun_5ma_fromStems stem ;
_ => Predef.error ("noun_5ma_fromLemma is only applicable for words that end in -e, tried to apply to" ++ lemma)
} ;
noun_5ma_fromNomPl : Str -> Noun = \lemma ->
case lemma of {
stem + "es" => noun_5ma_fromStems stem ;
_ => Predef.error ("noun_5ma_fromNomPl is only applicable for words that end in -es, tried to apply to" ++ lemma)
} ;
noun_6a_fromStems : Str -> Noun = \stem ->
{
s = table {
Pl => table {
Acc => stem + "is" ;
Dat => stem + "īm" ;
Loc => stem + "īs" ;
Nom => stem + "is" ;
Voc => stem + "is" ;
Gen => stemchangeSimple 1 stem + "u"
} ;
Sg => table {
Acc => stem + "i" ;
Dat => stem + "ij" ;
Loc => stem + "ī" ;
Nom => stem + "s" ;
Voc => stem + "s" ;
Gen => stem + "s"
}
} ;
gend = Fem
} ;
noun_6a_fromLemma : Str -> Noun = \lemma ->
case lemma of {
stem + "s" => noun_6a_fromStems stem ;
_ => Predef.error ("noun_6a_fromLemma is only applicable for words that end in -s, tried to apply to" ++ lemma)
} ;
noun_6a_fromNomPl : Str -> Noun = \lemma ->
case lemma of {
stem + "is" => noun_6a_fromStems stem ;
_ => Predef.error ("noun_6a_fromNomPl is only applicable for words that end in -is, tried to apply to" ++ lemma)
} ;
noun_3f_fromStems : Str -> Noun = \stem ->
{
s = table {
Pl => table {
Acc => stem + "us" ;
Dat => stem + "ūm" ;
Loc => stem + "ūs" ;
Nom => stem + "us" ;
Voc => stem + "us" ;
Gen => stem + "u"
} ;
Sg => table {
Acc => stem + "u" ;
Dat => stem + "ui" ;
Loc => stem + "ū" ;
Nom => stem + "us" ;
Voc => variants { stem + "us" ; stem + "u" } ;
Gen => stem + "us"
}
} ;
gend = Fem
} ;
noun_3f_fromLemma : Str -> Noun = \lemma ->
case lemma of {
stem + "us" => noun_3f_fromStems stem ;
_ => Predef.error ("noun_3f_fromLemma is only applicable for words that end in -us, tried to apply to" ++ lemma)
} ;
noun_3f_fromNomPl : Str -> Noun = \lemma ->
case lemma of {
stem + "us" => noun_3f_fromStems stem ;
_ => Predef.error ("noun_3f_fromNomPl is only applicable for words that end in -us, tried to apply to" ++ lemma)
} ;
noun_6b_fromStems : Str -> Noun = \stem ->
{
s = table {
Pl => table {
Acc => stem + "is" ;
Dat => stem + "īm" ;
Loc => stem + "īs" ;
Nom => stem + "is" ;
Voc => stem + "is" ;
Gen => stem + "u"
} ;
Sg => table {
Acc => stem + "i" ;
Dat => stem + "ij" ;
Loc => stem + "ī" ;
Nom => stem + "s" ;
Voc => stem + "s" ;
Gen => stem + "s"
}
} ;
gend = Fem
} ;
noun_6b_fromLemma : Str -> Noun = \lemma ->
case lemma of {
stem + "s" => noun_6b_fromStems stem ;
_ => Predef.error ("noun_6b_fromLemma is only applicable for words that end in -s, tried to apply to" ++ lemma)
} ;
noun_6b_fromNomPl : Str -> Noun = \lemma ->
case lemma of {
stem + "is" => noun_6b_fromStems stem ;
_ => Predef.error ("noun_6b_fromNomPl is only applicable for words that end in -is, tried to apply to" ++ lemma)
} ;
noun_5fb_fromStems : Str -> Noun = \stem ->
{
s = table {
Pl => table {
Acc => stem + "es" ;
Dat => stem + "ēm" ;
Loc => stem + "ēs" ;
Nom => stem + "es" ;
Voc => stem + "es" ;
Gen => stem + "u"
} ;
Sg => table {
Acc => stem + "i" ;
Dat => stem + "ei" ;
Loc => stem + "ē" ;
Nom => stem + "e" ;
Voc => variants { stem + "e" ; stemchangeSimple 17 stem + "" } ;
Gen => stem + "es"
}
} ;
gend = Fem
} ;
noun_5fb_fromLemma : Str -> Noun = \lemma ->
case lemma of {
stem + "e" => noun_5fb_fromStems stem ;
_ => Predef.error ("noun_5fb_fromLemma is only applicable for words that end in -e, tried to apply to" ++ lemma)
} ;
noun_5fb_fromNomPl : Str -> Noun = \lemma ->
case lemma of {
stem + "es" => noun_5fb_fromStems stem ;
_ => Predef.error ("noun_5fb_fromNomPl is only applicable for words that end in -es, tried to apply to" ++ lemma)
} ;
noun_5mb_fromStems : Str -> Noun = \stem ->
{
s = table {
Pl => table {
Acc => stem + "es" ;
Dat => stem + "ēm" ;
Loc => stem + "ēs" ;
Nom => stem + "es" ;
Voc => stem + "es" ;
Gen => stem + "u"
} ;
Sg => table {
Acc => stem + "i" ;
Dat => stem + "em" ;
Loc => stem + "ē" ;
Nom => stem + "e" ;
Voc => stem + "e" ;
Gen => stem + "es"
}
} ;
gend = Masc
} ;
noun_5mb_fromLemma : Str -> Noun = \lemma ->
case lemma of {
stem + "e" => noun_5mb_fromStems stem ;
_ => Predef.error ("noun_5mb_fromLemma is only applicable for words that end in -e, tried to apply to" ++ lemma)
} ;
noun_5mb_fromNomPl : Str -> Noun = \lemma ->
case lemma of {
stem + "es" => noun_5mb_fromStems stem ;
_ => Predef.error ("noun_5mb_fromNomPl is only applicable for words that end in -es, tried to apply to" ++ lemma)
} ;
noun_2b_fromStems : Str -> Noun = \stem ->
{
s = table {
Pl => table {
Acc => stem + "us" ;
Dat => stem + "iem" ;
Loc => stem + "os" ;
Nom => stem + "i" ;
Voc => stem + "i" ;
Gen => stem + "u"
} ;
Sg => table {
Acc => stem + "i" ;
Dat => stem + "im" ;
Loc => stem + "ī" ;
Nom => stem + "is" ;
Voc => stem + "i" ;
Gen => variants { stem + "a" ; stemchangeSimple 1 stem + "a" }
}
} ;
gend = Masc
} ;
noun_2b_fromLemma : Str -> Noun = \lemma ->
case lemma of {
stem + "is" => noun_2b_fromStems stem ;
_ => Predef.error ("noun_2b_fromLemma is only applicable for words that end in -is, tried to apply to" ++ lemma)
} ;
noun_2b_fromNomPl : Str -> Noun = \lemma ->
case lemma of {
stem + "i" => noun_2b_fromStems stem ;
_ => Predef.error ("noun_2b_fromNomPl is only applicable for words that end in -i, tried to apply to" ++ lemma)
} ;
}

105
src/latvian/PortedMorphoStemchangesLav.gf Normal file
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@@ -0,0 +1,105 @@
--# -path=.:abstract:common:prelude
-- Here goes manually ported stemchanges from
-- https://github.com/LUMII-AILab/Morphology/blob/master/src/main/java/lv/semti/morphology/analyzer/Mijas.java
resource PortedMorphoStemchangesLav = open Prelude, Predef, ResLav in {
flags coding = utf8 ;
oper
stemchangeSimple : Int -> Str -> Str = \parId,stem ->
case parId of {
0 => stem ;
-- For nouns we need changes 0, 1, 17
1 => case stem of { -- nouns
s + ("kst") => s + "kš" ;
s + ("nst") => s + "nš" ;
s + ("ll") => s + "ļļ" ;
s + ("sl") => s + "šļ" ;
s + ("zl") => s + "žļ" ;
s + ("ln") => s + "ļņ" ;
s + ("nn") => s + "ņņ" ;
s + ("sn") => s + "šņ" ;
s + ("zn") => s + "žņ" ;
s + ("īt") => s + "īš" ;
s + ("d") => s + "ž" ;
s + ("t") => s + "š" ;
s + ("n") => s + "ņ" ;
s + ("s") => s + "š" ;
s + ("z") => s + "ž" ;
s + ("b"|"f"|"m"|"p"|"v") => stem + "j" ;
_ => stem
} ;
17 => case <stem, countSyllables stem > of { -- shortened vocative for fem nouns
<s + ("īt"|"iņ"), _ > => stem ;
--<_, 0|1> => variants {} ;
<_, 0|1> => nonExist ; -- Exception
<_, _> => stem
} ;
-- For full adjectives we need changes 0, 3, 34, 13
_ => error ("Unsupported stemchange")
};
stemchangeForAdjAdv : Int -> Str -> Definiteness -> Degree -> Str = \parId,stem,defi,deg ->
case parId of {
3 => case stem of {
s + "āk" => case deg of {
Posit => stem ;
_ => nonExist -- TODO what should go there for nonexisting forms?
};
_ => case deg of {
Posit => stem ;
Compar => stem + "āk" ;
Superl => case defi of {
Def => "vis" + stem + "āk" ;
Indef => nonExist
}
}
} ;
34 => case deg of { -- pēdēj-ais -> pēdē-jam, zaļ-š -> zaļa-jam
Posit => case stem of {
s + "ēj" => s + "ē" ;
_ => stem + "a"
} ;
Compar => stem + "āka" ;
Superl => case defi of {
Def => "vis" + stem + "āka" ;
Indef => nonExist
}
} ;
_ => case deg of { _ => stemchangeSimple parId stem }
} ;
-- Inari's trick for counting syllables https://inariksit.github.io/gf/2018/08/28/gf-gotchas.html#cute-way-to-count-syllables
-- pattern macro for vowels
v : pattern Str = #("a"|"ā"|"e"|"ē"|"i"|"ī"|"o"|"u"|"ū") ;
-- type alias for the helper function
SylCnt : Type = Bool -> Str -> Ints 10 ;
countSyllables : Str -> Ints 10 = go count False
where { -- synonym of let
go : SylCnt -> SylCnt = \f,wasVowel,word -> -- These three arguments come from the fact that SylCnt is the abovedefined 3rd order function.
case <word,wasVowel> of {
<#v + s, False> => Predef.plus (f True s) 1 ;
<#v + s, True> => f True s ;
<? + s, _> => f False s ;
_ => 0
} ;
-- end of recursion
scBase : SylCnt = \_,_ -> 0 ;
-- the function given to countSyllables
count : SylCnt = go (go (go (go (go (go (go (go (go (go (go (go (go (go (go (go (go (go (go (go (go (go (go (go (go (go (go (go (go (go (go (go (go (go (go (go (go (go (go (go scBase)))))))))))))))))))))))))))))))))))))))
} ;
}

53
src/latvian/PortedMorphoUtilsLav.gf Normal file
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@@ -0,0 +1,53 @@
--# -path=.:abstract:common:prelude
-- Here goes manually made utils used for automaticaly exported Tēzaurs lexicon.
resource PortedMorphoUtilsLav = open Prelude, Predef, ResLav in {
flags coding = utf8 ;
oper
changeNounForm : Number -> Case -> Str -> Noun -> Noun =
\N,C,form,noun -> noun ** {
s = \\n,c => case <n,N,c,C> of {
<Sg, Sg, Nom, Nom> |
<Sg, Sg, Gen, Gen> |
<Sg, Sg, Dat, Dat> |
<Sg, Sg, Voc, Voc> |
<Pl, Pl, Nom, Nom> |
<Pl, Pl, Gen, Gen> |
<Pl, Pl, Dat, Dat> |
<Pl, Pl, Voc, Voc> => form ;
_ => noun.s ! n ! c }
} ;
addNounForm : Number -> Case -> Str -> Noun -> Noun =
\N,C,form,noun -> noun ** {
s = \\n,c => case <n,N,c,C> of {
<Sg, Sg, Nom, Nom> |
<Sg, Sg, Gen, Gen> |
<Sg, Sg, Dat, Dat> |
<Sg, Sg, Voc, Voc> |
<Pl, Pl, Nom, Nom> |
<Pl, Pl, Gen, Gen> |
<Pl, Pl, Dat, Dat> |
<Pl, Pl, Voc, Voc> => variants {form ; noun.s ! n ! c} ;
_ => noun.s ! n ! c }
} ;
{- A note about GF restrictions as of 2025-08-27:
Following thing does not work, compiler asumes that N an C are free variables.
changeForm_ideal : Number -> Case -> Str -> Noun -> Noun ;
changeForm_ideal N C str noun = noun ** {NF N C => str} ;
Meanwhile this should work
changeForm_fixed : Str -> Noun -> Noun ;
changeForm_fixed str noun = noun ** {NF Sg Nom => str} ;
Related: https://github.com/GrammaticalFramework/gf-core/issues/198
Also Inari suggested to avoid using a function and write this thing inline:
Noun : Type = {s : NForm => Str} ;
myRegularNoun = {- … some noun …- } ;
mySpecialNoun = {s = myRegularNoun.s ** {NF Sg Acc => "special form"}} ;
-}
}

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16
src/latvian/README.md Normal file
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@@ -0,0 +1,16 @@
# Latvian GF Resource Grammar
There is an ongoing work to develop a wide-coverage reimplementation of the Latvian RGL morphology, based on [Tezaurs.lv](https://tezaurs.lv) dictionary data. Currently, the reimplementation covers noun paradigms and lexical entries, which will be followed by other parts of speech, eventually substituting the legacy Latvian RGL morphology.
The reimplemented morphology and lexicon module consists of the following components:
- `PortedMorphoParadigmsLav.gf`: automatically converted paradigm desrciptions from the [Latvian Morphological Toolkit](https://github.com/LUMII-AILab/Morphology/); please, DO NOT EDIT.
- `PortedMorphoStemchangesLav.gf`: manually ported stemchange functions for the above mentioned paradigms; must be kept aligned with the [source code](https://github.com/LUMII-AILab/Morphology/blob/master/src/main/java/lv/semti/morphology/analyzer/Mijas.java) of the toolkit.
- `PortedTezaursDictLav.gf` and `PortedTezaursDictLavAbs.gf`: automatically exported lexicon data from [Tezaurs.lv](https://tezaurs.lv); please, DO NOT EDIT.
- `PortedMorphoUtilsLav.gf`: utility functions.
For edits and improvements, please, contact us at lauma@ailab.lv!
## Acknowledgements
The work on porting Tezaurs.lv inflectional paradigms to GF and creating a wide-coverage computational GF lexicon for Latvian was funded by the Latvian Council of Science under the grant agreement lzp-2022/1-0443 ([Advancing Latvian Computational Lexical Resources for Natural Language Understanding and Generation](https://wordnet.ailab.lv/project2)).

6
src/latvian/ResLav.gf
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@@ -13,12 +13,12 @@ param
Case = Nom | Gen | Dat | Acc | Loc | Voc ;
Gender = Masc | Fem ;
Declension = D0 | D1 | D2 | D3 | D4 | D5 | D6 | DR ;
Declension = D0 | D1 | D2 | D3 | D4 | D5 | D6 | DR | DG; -- ammended for Tēzaurs.
-- Adjectives
Definiteness = Indef | Def ;
AType = AQual | ARel | AIndecl ;
AType = AQual | ARel | AIndecl ; -- Doesn't exactly fit with Tēzaurs system - AIndecl is not needed.
AForm =
AAdj Degree Definiteness Gender Number Case
@@ -27,7 +27,7 @@ param
-- Verbs
Voice = Act | Pass ;
Conjugation = C2 | C3 ; -- C1 - "irregular" verbs
Conjugation = C2 | C3 | C1 | CI ; -- C1 - "irregular" verbs ; ammended for Tēzaurs.
-- Verb moods:
-- Ind - indicative

17
src/latvian/VerbLav.gf
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@@ -185,15 +185,14 @@ lin
ComplSlash vpslash np =
let agr : Agreement = np.agr in {
v = vpslash.v ;
{-
compl = \\agr => case vpslash.voice of {
Act => vpslash.rightVal.s ++ np.s ! (vpslash.rightVal.c ! (fromAgr agr).num) ;
Pass => case vpslash.rightVal.c ! (fromAgr agr).num of {
Nom => np.s ! (vpslash.rightVal.c ! Sg) ;
_ => vpslash.rightVal.s ++ np.s ! (vpslash.rightVal.c ! (fromAgr agr).num)
}
} ++ vpslash.compl ! agr ;
-}
-- compl = \\agr => case vpslash.voice of {
-- Act => vpslash.rightVal.s ++ np.s ! (vpslash.rightVal.c ! (fromAgr agr).num) ;
-- Pass => case vpslash.rightVal.c ! (fromAgr agr).num of {
-- Nom => np.s ! (vpslash.rightVal.c ! Sg) ;
-- _ => vpslash.rightVal.s ++ np.s ! (vpslash.rightVal.c ! (fromAgr agr).num)
-- }
-- } ++ vpslash.compl ! agr ;
compl = \\agr => vpslash.rightVal.s ++
np.s ! (vpslash.rightVal.c ! (fromAgr agr).num) ++
vpslash.compl ! agr ;

19
src/macedonian/AdjectiveMkd.gf
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@@ -1,4 +1,23 @@
concrete AdjectiveMkd of Adjective = CatMkd ** open Prelude,ResMkd in {
lin AdAP a ap = {s = \\s,g => a.s ++ ap.s ! s ! g;
isPre = ap.isPre} ;
lin AdjOrd o = {s = o.s; isPre = False} ;
lin AdvAP ap adv = {
s = \\s,g => ap.s ! s ! g ++ adv.s;
isPre = False
} ;
lin CAdvAP c ap np = {s = \\s,g => c.s
++ ap.s ! s ! g ++ np.s ! RSubj;
isPre = ap.isPre} ;
lin ComparA a np = {s = \\s,g => "по" ++ BIND ++ a.s ! s ! g ++ "од" ++ np.s ! RPrep;
isPre = False} ;
lin ComplA2 a2 np = {s = \\s,g => a2.s ! s ! g ++ a2.c2.s ++ np.s ! RObj a2.c2.c;
isPre = False} ;
lin PositA a = a ** {isPre = True} ;
lin ReflA2 a2 = {s = \\s,g => a2.s ! s ! g; isPre = False} ;
lin SentAP ap sc = {s = \\s,g => ap.s ! s ! g ++ sc.s;
isPre = ap.isPre} ;
lin UseA2 a2 = {s = a2.s; isPre = True} ;
lin UseComparA a = {s = \\s,g => "по" ++ BIND ++ a.s ! s ! g; isPre = True} ;
}

9
src/macedonian/AdverbMkd.gf
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@@ -1,3 +1,12 @@
concrete AdverbMkd of Adverb = CatMkd ** open Prelude,ResMkd in {
lin AdAdv a a2 = {s = a.s ++ a2.s} ;
lin AdnCAdv c = {s = c.s} ;
lin ComparAdvAdj c a np = {s = c.s
++ a.s ! Indef ! np.a.g ++ np.s ! RSubj} ;
lin ComparAdvAdjS c a s = {s = c.s
++ a.s ! Indef ! GSg Masc ++ s.s} ;
lin PositAdAAdj a = {s = a.s ! Indef ! GSg Masc} ;
lin PositAdvAdj a = {s = a.adverb} ;
lin PrepNP p np = {s = p.s ++ np.s ! RPrep} ;
lin SubjS s s2 = {s = s.s ++ s2.s} ;
}

3
src/macedonian/AllMkd.gf
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@@ -1,7 +1,8 @@
--# -path=.:../abstract:../common:../prelude:../api
concrete AllMkd of AllMkdAbs =
LangMkd
LangMkd,
ExtendMkd
** {
} ;

3
src/macedonian/AllMkdAbs.gf
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@@ -1,7 +1,8 @@
--# -path=.:../abstract:../common:prelude
abstract AllMkdAbs =
Lang
Lang,
Extend
** {
} ;

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