---------------------------------------------------------------------- -- | -- Module : Custom -- Maintainer : AR -- Stability : (stable) -- Portability : (portable) -- -- > CVS $Date: 2005/11/16 10:21:21 $ -- > CVS $Author: peb $ -- > CVS $Revision: 1.85 $ -- -- A database for customizable GF shell commands. -- -- databases for customizable commands. AR 21\/11\/2001. -- for: grammar parsers, grammar printers, term commands, string commands. -- idea: items added here are usable throughout GF; nothing else need be edited. -- they are often usable through the API: hence API cannot be imported here! -- -- Major redesign 3\/4\/2002: the first entry in each database is DEFAULT. -- If no other value is given, the default is selected. -- Because of this, two invariants have to be preserved: -- -- - no databases may be empty -- -- - additions are made to the end of the database ----------------------------------------------------------------------------- module GF.UseGrammar.Custom where import GF.Data.Operations import GF.Text.Text import GF.UseGrammar.Tokenize import GF.Grammar.Values import qualified GF.Grammar.Grammar as G import qualified GF.Canon.AbsGFC as A import qualified GF.Canon.GFC as C import qualified GF.Canon.CanonToGFCC as GFCC import qualified GF.Canon.CanonToJS as JS (prCanon2js) import qualified GF.Source.AbsGF as GF import qualified GF.Grammar.MMacros as MM import GF.FCFG.ToFCFG import GF.Grammar.AbsCompute import GF.Grammar.TypeCheck import GF.UseGrammar.Generate import GF.UseGrammar.MatchTerm import GF.UseGrammar.Linear (unoptimizeCanon) ------import Compile import GF.Compile.ShellState import GF.UseGrammar.Editing import GF.UseGrammar.Paraphrases import GF.Infra.Option import GF.CF.CF import GF.CF.CFIdent import GF.Canon.CanonToGrammar import GF.CF.PPrCF import GF.CF.PrLBNF import GF.Grammar.PrGrammar import GF.Compile.PrOld import GF.Canon.MkGFC import GF.Speech.PrGSL (gslPrinter) import GF.Speech.PrJSGF (jsgfPrinter) import GF.Speech.PrSRGS import GF.Speech.PrSRGS_ABNF import qualified GF.Speech.SISR as SISR import GF.Speech.PrSLF import GF.Speech.PrFA (faGraphvizPrinter,regularPrinter,faCPrinter) import GF.Speech.PrRegExp (regexpPrinter,multiRegexpPrinter) import GF.Speech.GrammarToVoiceXML (grammar2vxml) import GF.Data.Zipper import GF.UseGrammar.Statistics import GF.UseGrammar.Morphology import GF.UseGrammar.Information import GF.API.GrammarToHaskell import GF.API.GrammarToTransfer -----import GrammarToCanon (showCanon, showCanonOpt) -----import qualified GrammarToGFC as GFC import GF.Probabilistic.Probabilistic (prProbs) -- the cf parsing algorithms import GF.CF.ChartParser -- OBSOLETE import qualified GF.Parsing.CF as PCF import qualified GF.OldParsing.ParseCF as PCFOld -- OBSOLETE -- grammar conversions -- peb 19/4-04 -- see also customGrammarPrinter import qualified GF.OldParsing.ConvertGrammar as CnvOld -- OBSOLETE import qualified GF.Printing.PrintParser as PrtOld -- OBSOLETE import qualified GF.Infra.Print as Prt import qualified GF.Conversion.GFC as Cnv import qualified GF.Conversion.Types as CnvTypes import qualified GF.Conversion.Haskell as CnvHaskell import qualified GF.Conversion.Prolog as CnvProlog import qualified GF.Conversion.TypeGraph as CnvTypeGraph import GF.Canon.Unparametrize import GF.Canon.Subexpressions import GF.Canon.AbsToBNF import GF.Canon.GFC import qualified GF.Canon.MkGFC as MC import GF.CFGM.PrintCFGrammar (prCanonAsCFGM) import GF.Visualization.VisualizeGrammar (visualizeCanonGrammar, visualizeSourceGrammar) import GF.API.MyParser import GF.Infra.UseIO import Control.Monad import Data.Char import Data.Maybe (fromMaybe) -- character codings import GF.Text.Unicode import GF.Text.UTF8 (decodeUTF8) import GF.Text.Greek (mkGreek) import GF.Text.Arabic (mkArabic) import GF.Text.Hebrew (mkHebrew) import GF.Text.Russian (mkRussian, mkRusKOI8) import GF.Text.Ethiopic (mkEthiopic) import GF.Text.Tamil (mkTamil) import GF.Text.OCSCyrillic (mkOCSCyrillic) import GF.Text.LatinASupplement (mkLatinASupplement) import GF.Text.Devanagari (mkDevanagari) import GF.Text.Hiragana (mkJapanese) import GF.Text.ExtendedArabic (mkArabic0600) import GF.Text.ExtendedArabic (mkExtendedArabic) import GF.Text.ExtraDiacritics (mkExtraDiacritics) -- minimal version also used in Hugs. AR 2/12/2002. -- databases for customizable commands. AR 21/11/2001 -- for: grammar parsers, grammar printers, term commands, string commands -- idea: items added here are usable throughout GF; nothing else need be edited -- they are often usable through the API: hence API cannot be imported here! -- Major redesign 3/4/2002: the first entry in each database is DEFAULT. -- If no other value is given, the default is selected. -- Because of this, two invariants have to be preserved: -- - no databases may be empty -- - additions are made to the end of the database -- * these are the databases; the comment gives the name of the flag -- | grammarFormat, \"-format=x\" or file suffix customGrammarParser :: CustomData (FilePath -> IOE C.CanonGrammar) -- | grammarPrinter, \"-printer=x\" customGrammarPrinter :: CustomData (Options -> StateGrammar -> String) -- | multiGrammarPrinter, \"-printer=x\" customMultiGrammarPrinter :: CustomData (Options -> CanonGrammar -> String) -- | syntaxPrinter, \"-printer=x\" customSyntaxPrinter :: CustomData (GF.Grammar -> String) -- | termPrinter, \"-printer=x\" customTermPrinter :: CustomData (StateGrammar -> Tree -> String) -- | termCommand, \"-transform=x\" customTermCommand :: CustomData (StateGrammar -> Tree -> [Tree]) -- | editCommand, \"-edit=x\" customEditCommand :: CustomData (StateGrammar -> Action) -- | filterString, \"-filter=x\" customStringCommand :: CustomData (StateGrammar -> String -> String) -- | useParser, \"-parser=x\" customParser :: CustomData (StateGrammar -> CFCat -> CFParser) -- | useTokenizer, \"-lexer=x\" customTokenizer :: CustomData (StateGrammar -> String -> [[CFTok]]) -- | useUntokenizer, \"-unlexer=x\" --- should be from token list to string customUntokenizer :: CustomData (StateGrammar -> String -> String) -- | uniCoding, \"-coding=x\" -- -- contains conversions from different codings to the internal -- unicode coding customUniCoding :: CustomData (String -> String) -- | this is the way of selecting an item customOrDefault :: Options -> OptFun -> CustomData a -> a customOrDefault opts optfun db = maybe (defaultCustomVal db) id $ customAsOptVal opts optfun db -- | to produce menus of custom operations customInfo :: CustomData a -> (String, [String]) customInfo c = (titleCustomData c, map (ciStr . fst) (dbCustomData c)) ------------------------------- -- * types and stuff type CommandId = String strCI :: String -> CommandId strCI = id ciStr :: CommandId -> String ciStr = id ciOpt :: CommandId -> Option ciOpt = iOpt newtype CustomData a = CustomData (String, [(CommandId,a)]) customData :: String -> [(CommandId, a)] -> CustomData a customData title db = CustomData (title,db) dbCustomData :: CustomData a -> [(CommandId, a)] dbCustomData (CustomData (_,db)) = db titleCustomData :: CustomData a -> String titleCustomData (CustomData (t,_)) = t lookupCustom :: CustomData a -> CommandId -> Maybe a lookupCustom = flip lookup . dbCustomData customAsOptVal :: Options -> OptFun -> CustomData a -> Maybe a customAsOptVal opts optfun db = do arg <- getOptVal opts optfun lookupCustom db (strCI arg) -- | take the first entry from the database defaultCustomVal :: CustomData a -> a defaultCustomVal (CustomData (s,db)) = ifNull (error ("empty database:" +++ s)) (snd . head) db ------------------------------------------------------------------------- -- * and here's the customizable part: -- grammar parsers: the ID is also used as file name suffix customGrammarParser = customData "Grammar parsers, selected by file name suffix" $ [ ------ (strCI "gf", compileModule noOptions) -- DEFAULT -- add your own grammar parsers here ] customGrammarPrinter = customData "Grammar printers, selected by option -printer=x" $ [ (strCI "gfc", \_ -> prCanon . stateGrammarST) -- DEFAULT ,(strCI "gf", \_ -> err id prGrammar . canon2sourceGrammar . stateGrammarST) ,(strCI "cf", \_ -> prCF . stateCF) ,(strCI "old", \_ -> printGrammarOld . stateGrammarST) ,(strCI "gsl", gslPrinter) ,(strCI "jsgf", jsgfPrinter Nothing) ,(strCI "jsgf_sisr_old", jsgfPrinter (Just SISR.SISROld)) ,(strCI "srgs_xml", srgsXmlPrinter Nothing False) ,(strCI "srgs_xml_non_rec", srgsXmlNonRecursivePrinter) ,(strCI "srgs_xml_prob", srgsXmlPrinter Nothing True) ,(strCI "srgs_xml_sisr_old", srgsXmlPrinter (Just SISR.SISROld) False) ,(strCI "srgs_abnf", srgsAbnfPrinter Nothing False) ,(strCI "srgs_abnf_non_rec", srgsAbnfNonRecursivePrinter) ,(strCI "srgs_abnf_sisr_old", srgsAbnfPrinter (Just SISR.SISROld) False) ,(strCI "vxml", grammar2vxml) ,(strCI "slf", slfPrinter) ,(strCI "slf_graphviz", slfGraphvizPrinter) ,(strCI "slf_sub", slfSubPrinter) ,(strCI "slf_sub_graphviz", slfSubGraphvizPrinter) ,(strCI "fa_graphviz", faGraphvizPrinter) ,(strCI "fa_c", faCPrinter) ,(strCI "regexp", regexpPrinter) ,(strCI "regexps", multiRegexpPrinter) ,(strCI "regular", regularPrinter) ,(strCI "plbnf", \_ -> prLBNF True) ,(strCI "lbnf", \_ -> prLBNF False) ,(strCI "bnf", \_ -> prBNF False) ,(strCI "absbnf", \_ -> abstract2bnf . stateGrammarST) ,(strCI "haskell", \_ -> grammar2haskell . stateGrammarST) ,(strCI "haskell_gadt", \_ -> grammar2haskellGADT . stateGrammarST) ,(strCI "transfer", \_ -> grammar2transfer . stateGrammarST) ,(strCI "morpho", \_ -> prMorpho . stateMorpho) ,(strCI "fullform",\_ -> prFullForm . stateMorpho) ,(strCI "opts", \_ -> prOpts . stateOptions) ,(strCI "words", \_ -> unwords . stateGrammarWords) ,(strCI "printnames", \_ -> C.prPrintnamesGrammar . stateGrammarST) ,(strCI "stat", \_ -> prStatistics . stateGrammarST) ,(strCI "probs", \_ -> prProbs . stateProbs) ,(strCI "unpar", \_ -> prCanon . unparametrizeCanon . stateGrammarST) ,(strCI "subs", \_ -> prSubtermStat . stateGrammarST) {- ---- (strCI "gf", prt . st2grammar . stateGrammarST) -- DEFAULT ,(strCI "canon", showCanon "Lang" . stateGrammarST) ,(strCI "gfc", GFC.showGFC . stateGrammarST) ,(strCI "canonOpt",showCanonOpt "Lang" . stateGrammarST) -} -- add your own grammar printers here -- grammar conversions: ,(strCI "mcfg", \_ -> Prt.prt . stateMCFG) ,(strCI "fcfg", \_ -> Prt.prt . stateFCFG) ,(strCI "bfcfg", \_ -> printFGrammar . stateFCFG) ,(strCI "cfg", \_ -> Prt.prt . stateCFG) ,(strCI "pinfo", \_ -> Prt.prt . statePInfo) ,(strCI "abstract", \_ -> Prt.prtAfter "\n" . Cnv.gfc2abstract . stateGrammarLang) ,(strCI "functiongraph",\_ -> CnvTypeGraph.prtFunctionGraph . Cnv.gfc2simple noOptions . stateGrammarLang) ,(strCI "typegraph", \_ -> CnvTypeGraph.prtTypeGraph . Cnv.gfc2simple noOptions . stateGrammarLang) ,(strCI "gfc-haskell", \_ -> CnvHaskell.prtSGrammar . uncurry Cnv.gfc2simple . stateGrammarLangOpts) ,(strCI "mcfg-haskell", \_ -> CnvHaskell.prtMGrammar . stateMCFG) ,(strCI "cfg-haskell", \_ -> CnvHaskell.prtCGrammar . stateCFG) ,(strCI "gfc-prolog", \_ -> CnvProlog.prtSGrammar . uncurry Cnv.gfc2simple . stateGrammarLangOpts) ,(strCI "mcfg-prolog", \_ -> CnvProlog.prtMGrammar . stateMCFG) ,(strCI "cfg-prolog", \_ -> CnvProlog.prtCGrammar . stateCFG) -- obsolete, or only for testing: ,(strCI "abs-skvatt", \_ -> Cnv.abstract2skvatt . Cnv.gfc2abstract . stateGrammarLang) ,(strCI "cfg-skvatt", \_ -> Cnv.cfg2skvatt . stateCFG) ,(strCI "simple", \_ -> Prt.prt . uncurry Cnv.gfc2simple . stateGrammarLangOpts) ,(strCI "mcfg-erasing", \_ -> Prt.prt . fst . snd . uncurry Cnv.convertGFC . stateGrammarLangOpts) -- ,(strCI "mcfg-old", PrtOld.prt . CnvOld.mcfg . statePInfoOld) -- ,(strCI "cfg-old", PrtOld.prt . CnvOld.cfg . statePInfoOld) ] where stateGrammarLangOpts s = (stateOptions s, stateGrammarLang s) customMultiGrammarPrinter = customData "Printers for multiple grammars, selected by option -printer=x" $ [ (strCI "gfcm", const MC.prCanon) ,(strCI "gfcc", const GFCC.prCanon2gfcc) ,(strCI "js", JS.prCanon2js) ,(strCI "header", const (MC.prCanonMGr . unoptimizeCanon)) ,(strCI "cfgm", prCanonAsCFGM) ,(strCI "graph", visualizeCanonGrammar) ,(strCI "missing", const missingLinCanonGrammar) -- to prolog format: ,(strCI "gfc-prolog", CnvProlog.prtSMulti) ,(strCI "mcfg-prolog", CnvProlog.prtMMulti) ,(strCI "cfg-prolog", CnvProlog.prtCMulti) ] customSyntaxPrinter = customData "Syntax printers, selected by option -printer=x" $ [ -- add your own grammar printers here ] customTermPrinter = customData "Term printers, selected by option -printer=x" $ [ (strCI "gf", const prt) -- DEFAULT -- add your own term printers here ] customTermCommand = customData "Term transformers, selected by option -transform=x" $ [ (strCI "identity", \_ t -> [t]) -- DEFAULT ,(strCI "compute", \g t -> let gr = grammar g in err (const [t]) return (exp2termCommand gr (computeAbsTerm gr) t)) ,(strCI "nodup", \_ t -> if (hasDupIdent $ tree2exp t) then [] else [t]) ,(strCI "nodupatom", \_ t -> if (hasDupAtom $ tree2exp t) then [] else [t]) ,(strCI "paraphrase", \g t -> let gr = grammar g in exp2termlistCommand gr (mkParaphrases gr) t) ,(strCI "generate", \g t -> let gr = grammar g cat = actCat $ tree2loc t --- not needed in [tr | t <- generateTrees noOptions gr cat 2 Nothing (Just t), Ok tr <- [annotate gr $ MM.qualifTerm (absId g) t]]) ,(strCI "typecheck", \g t -> err (const []) (return . loc2tree) (reCheckStateReject (grammar g) (tree2loc t))) ,(strCI "solve", \g t -> err (const []) (return . loc2tree) (solveAll (grammar g) (tree2loc t) >>= rejectUnsolvable)) ,(strCI "context", \g t -> err (const [t]) (return . loc2tree) (contextRefinements (grammar g) (tree2loc t))) ,(strCI "reindex", \g t -> let gr = grammar g in err (const [t]) return (exp2termCommand gr (return . MM.reindexTerm) t)) --- ,(strCI "delete", \g t -> [MM.mExp0]) -- add your own term commands here ] customEditCommand = customData "Editor state transformers, selected by option -edit=x" $ [ (strCI "identity", const return) -- DEFAULT ,(strCI "typecheck", \g -> reCheckState (grammar g)) ,(strCI "solve", \g -> solveAll (grammar g)) ,(strCI "context", \g -> contextRefinements (grammar g)) ,(strCI "compute", \g -> computeSubTree (grammar g)) ,(strCI "paraphrase", const return) --- done ad hoc on top level ,(strCI "generate", const return) --- done ad hoc on top level ,(strCI "transfer", const return) --- done ad hoc on top level -- add your own edit commands here ] customStringCommand = customData "String filters, selected by option -filter=x" $ [ (strCI "identity", const $ id) -- DEFAULT ,(strCI "erase", const $ const "") ,(strCI "take100", const $ take 100) ,(strCI "text", const $ formatAsText) ,(strCI "code", const $ formatAsCode) ---- ,(strCI "latexfile", const $ mkLatexFile) ,(strCI "length", const $ show . length) -- add your own string commands here ] customParser = customData "Parsers, selected by option -parser=x" $ [ (strCI "chart", PCFOld.parse "ibn" . stateCF) -- DEPRECATED ,(strCI "bottomup", PCF.parse "gb" . stateCF) ,(strCI "topdown", PCF.parse "gt" . stateCF) -- commented for now, since there's a bug in the incremental algorithm: -- ,(strCI "incremental", PCF.parse "ib" . stateCF) -- ,(strCI "incremental-bottomup", PCF.parse "ib" . stateCF) -- ,(strCI "incremental-topdown", PCF.parse "it" . stateCF) ,(strCI "old", chartParser . stateCF) -- DEPRECATED ,(strCI "myparser", myParser) -- add your own parsers here ] customTokenizer = let sg = singleton in customData "Tokenizers, selected by option -lexer=x" $ [ (strCI "words", const $ sg . tokWords) ,(strCI "literals", const $ sg . tokLits) ,(strCI "vars", const $ sg . tokVars) ,(strCI "chars", const $ sg . map (tS . singleton)) ,(strCI "code", const $ sg . lexHaskell) ,(strCI "codevars", \gr -> sg . (lexHaskellVar $ stateIsWord gr)) ,(strCI "textvars", \gr -> sg . (lexTextVar $ stateIsWord gr)) ,(strCI "text", const $ sg . lexText) ,(strCI "unglue", \gr -> sg . map tS . decomposeWords (stateMorpho gr)) ,(strCI "codelit", \gr -> sg . (lexHaskellLiteral $ stateIsWord gr)) ,(strCI "textlit", \gr -> sg . (lexTextLiteral $ stateIsWord gr)) ,(strCI "codeC", const $ sg . lexC2M) ,(strCI "ignore", \gr -> sg . lexIgnore (stateIsWord gr) . tokLits) ,(strCI "subseqs", \gr -> subSequences . lexIgnore (stateIsWord gr) . tokLits) ,(strCI "codeCHigh", const $ sg . lexC2M' True) -- add your own tokenizers here ] customUntokenizer = customData "Untokenizers, selected by option -unlexer=x" $ [ (strCI "unwords", const $ id) -- DEFAULT ,(strCI "text", const $ formatAsText) ,(strCI "html", const $ formatAsHTML) ,(strCI "latex", const $ formatAsLatex) ,(strCI "code", const $ formatAsCode) ,(strCI "concat", const $ filter (not . isSpace)) ,(strCI "textlit", const $ formatAsTextLit) ,(strCI "codelit", const $ formatAsCodeLit) ,(strCI "concat", const $ concatRemSpace) ,(strCI "glue", const $ performBinds) ,(strCI "finnish", const $ performBindsFinnish) ,(strCI "reverse", const $ reverse) ,(strCI "bind", const $ performBinds) -- backward compat -- add your own untokenizers here ] customUniCoding = customData "Alphabet codings, selected by option -coding=x" $ [ (strCI "latin1", id) -- DEFAULT ,(strCI "utf8", decodeUTF8) ,(strCI "greek", treat [] mkGreek) ,(strCI "hebrew", mkHebrew) ,(strCI "arabic", mkArabic) ,(strCI "russian", treat [] mkRussian) ,(strCI "russianKOI8", mkRusKOI8) ,(strCI "ethiopic", mkEthiopic) ,(strCI "tamil", mkTamil) ,(strCI "OCScyrillic", mkOCSCyrillic) ,(strCI "devanagari", mkDevanagari) ,(strCI "latinasupplement", mkLatinASupplement) ,(strCI "japanese", mkJapanese) ,(strCI "arabic0600", mkArabic0600) ,(strCI "extendedarabic", mkExtendedArabic) ,(strCI "extradiacritics", mkExtraDiacritics) ]