{-# LANGUAGE PatternGuards #-} module GF.Command.Commands ( allCommands, lookCommand, exec, isOpt, options, flags, needsTypeCheck, CommandInfo, CommandOutput ) where import PGF import PGF.CId import PGF.Linearize import PGF.VisualizeTree import PGF.Macros import PGF.Data ---- import PGF.Morphology import PGF.Printer import PGF.Probabilistic -- (getProbsFromFile,prProbabilities,defaultProbabilities) import PGF.Generate (generateRandomFrom) ---- import PGF.Tree (Tree(Fun), expr2tree, tree2expr) import PGF.Optimize import GF.Compile.Export import GF.Compile.ToAPI import GF.Compile.ExampleBased import GF.Infra.Option (noOptions, readOutputFormat, outputFormatsExpl) import GF.Infra.UseIO import GF.Data.ErrM ---- import GF.Command.Abstract import GF.Command.Messages import GF.Text.Lexing import GF.Text.Clitics import GF.Text.Transliterations import GF.Quiz import GF.Command.TreeOperations ---- temporary place for typecheck and compute import GF.Data.Operations import Data.Binary (encodeFile) import Data.List import Data.Maybe import qualified Data.Map as Map --import System.Cmd(system) -- use GF.Infra.UseIO.restricedSystem instead! import Text.PrettyPrint import Data.List (sort) import Debug.Trace import System.Random (newStdGen) ---- type CommandOutput = ([Expr],String) ---- errors, etc data CommandInfo = CommandInfo { exec :: [Option] -> [Expr] -> IO CommandOutput, synopsis :: String, syntax :: String, explanation :: String, longname :: String, options :: [(String,String)], flags :: [(String,String)], examples :: [String], needsTypeCheck :: Bool } emptyCommandInfo :: CommandInfo emptyCommandInfo = CommandInfo { exec = \_ ts -> return (ts,[]), ---- synopsis = "", syntax = "", explanation = "", longname = "", options = [], flags = [], examples = [], needsTypeCheck = True } lookCommand :: String -> Map.Map String CommandInfo -> Maybe CommandInfo lookCommand = Map.lookup commandHelpAll :: PGFEnv -> [Option] -> String commandHelpAll pgf opts = unlines [commandHelp (isOpt "full" opts) (co,info) | (co,info) <- Map.assocs (allCommands pgf)] commandHelp :: Bool -> (String,CommandInfo) -> String commandHelp full (co,info) = unlines $ [ co ++ ", " ++ longname info, synopsis info] ++ if full then [ "", "syntax:" ++++ " " ++ syntax info, "", explanation info, "options:" ++++ unlines [" -" ++ o ++ "\t" ++ e | (o,e) <- options info], "flags:" ++++ unlines [" -" ++ o ++ "\t" ++ e | (o,e) <- flags info], "examples:" ++++ unlines [" " ++ s | s <- examples info] ] else [] -- for printing with txt2tags formatting commandHelpTags :: Bool -> (String,CommandInfo) -> String commandHelpTags full (co,info) = unlines $ [ "#VSPACE","","#NOINDENT", lit co ++ " = " ++ lit (longname info) ++ ": " ++ "//" ++ synopsis info ++ ".//"] ++ if full then [ "","#TINY","", explanation info, "- Syntax: ``" ++ syntax info ++ "``", "- Options:\n" ++++ unlines [" | ``-" ++ o ++ "`` | " ++ e | (o,e) <- options info], "- Flags:\n" ++++ unlines [" | ``-" ++ o ++ "`` | " ++ e | (o,e) <- flags info], "- Examples:\n```" ++++ unlines [" " ++ s | s <- examples info], "```", "", "#NORMAL", "" ] else [] where lit s = "``" ++ s ++ "``" type PGFEnv = (PGF, Map.Map Language Morpho) -- this list must no more be kept sorted by the command name allCommands :: PGFEnv -> Map.Map String CommandInfo allCommands env@(pgf, mos) = Map.fromList [ ("!", emptyCommandInfo { synopsis = "system command: escape to system shell", syntax = "! SYSTEMCOMMAND", examples = [ "! ls *.gf -- list all GF files in the working directory" ], needsTypeCheck = False }), ("?", emptyCommandInfo { synopsis = "system pipe: send value from previous command to a system command", syntax = "? SYSTEMCOMMAND", examples = [ "gt | l | ? wc -- generate, linearize, word-count" ], needsTypeCheck = False }), ("aw", emptyCommandInfo { longname = "align_words", synopsis = "show word alignments between languages graphically", explanation = unlines [ "Prints a set of strings in the .dot format (the graphviz format).", "The graph can be saved in a file by the wf command as usual.", "If the -view flag is defined, the graph is saved in a temporary file", "which is processed by graphviz and displayed by the program indicated", "by the flag. The target format is postscript, unless overridden by the", "flag -format." ], exec = \opts es -> do let langs = optLangs opts if isOpt "giza" opts then do let giz = map (gizaAlignment pgf (head $ langs, head $ tail $ langs)) es let lsrc = unlines $ map (\(x,_,_) -> x) giz let ltrg = unlines $ map (\(_,x,_) -> x) giz let align = unlines $ map (\(_,_,x) -> x) giz let grph = if null es then [] else lsrc ++ "\n--end_source--\n\n"++ltrg++"\n-end_target--\n\n"++align return $ fromString grph else do let grph = if null es then [] else graphvizAlignment pgf langs (head es) if isFlag "view" opts || isFlag "format" opts then do let file s = "_grph." ++ s let view = optViewGraph opts let format = optViewFormat opts restricted $ writeUTF8File (file "dot") grph restrictedSystem $ "dot -T" ++ format ++ " " ++ file "dot" ++ " > " ++ file format restrictedSystem $ view ++ " " ++ file format return void else return $ fromString grph, examples = [ "gr | aw -- generate a tree and show word alignment as graph script", "gr | aw -view=\"open\" -- generate a tree and display alignment on Mac", "gr | aw -view=\"eog\" -- generate a tree and display alignment on Ubuntu", "gt | aw -giza | wf -file=aligns -- generate trees, send giza alignments to file" ], options = [ ("giza", "show alignments in the Giza format; the first two languages") ], flags = [ ("format","format of the visualization file (default \"png\")"), ("lang", "alignments for this list of languages (default: all)"), ("view", "program to open the resulting file") ] }), ("ca", emptyCommandInfo { longname = "clitic_analyse", synopsis = "print the analyses of all words into stems and clitics", explanation = unlines [ "Analyses all words into all possible combinations of stem + clitics.", "The analysis is returned in the format stem &+ clitic1 &+ clitic2 ...", "which is hence the inverse of 'pt -bind'. The list of clitics is give", "by the flag '-clitics'. The list of stems is given as the list of words", "of the language given by the '-lang' flag." ], exec = \opts -> case opts of _ | isOpt "raw" opts -> return . fromString . unlines . map (unwords . map (concat . intersperse "+")) . map (getClitics (isInMorpho (optMorpho opts)) (optClitics opts)) . concatMap words . toStrings _ -> return . fromStrings . getCliticsText (isInMorpho (optMorpho opts)) (optClitics opts) . concatMap words . toStrings, flags = [ ("clitics","the list of possible clitics (comma-separated, no spaces)"), ("lang", "the language of analysis") ], options = [ ("raw", "analyse each word separately (not suitable input for parser)") ], examples = [ "ca -lang=Fin -clitics=ko,ni \"nukkuuko minun vaimoni\" | p -- to parse Finnish" ] }), ("cc", emptyCommandInfo { longname = "compute_concrete", syntax = "cc (-all | -table | -unqual)? TERM", synopsis = "computes concrete syntax term using a source grammar", explanation = unlines [ "Compute TERM by concrete syntax definitions. Uses the topmost", "module (the last one imported) to resolve constant names.", "N.B.1 You need the flag -retain when importing the grammar, if you want", "the definitions to be retained after compilation.", "N.B.2 The resulting term is not a tree in the sense of abstract syntax", "and hence not a valid input to a Tree-expecting command.", "This command must be a line of its own, and thus cannot be a part", "of a pipe." ], options = [ ("all","pick all strings (forms and variants) from records and tables"), ("list","all strings, comma-separated on one line"), ("one","pick the first strings, if there is any, from records and tables"), ("table","show all strings labelled by parameters"), ("unqual","hide qualifying module names") ], needsTypeCheck = False }), ("dc", emptyCommandInfo { longname = "define_command", syntax = "dc IDENT COMMANDLINE", synopsis = "define a command macro", explanation = unlines [ "Defines IDENT as macro for COMMANDLINE, until IDENT gets redefined.", "A call of the command has the form %IDENT. The command may take an", "argument, which in COMMANDLINE is marked as ?0. Both strings and", "trees can be arguments. Currently at most one argument is possible.", "This command must be a line of its own, and thus cannot be a part", "of a pipe." ], needsTypeCheck = False }), ("dg", emptyCommandInfo { longname = "dependency_graph", syntax = "dg (-only=MODULES)?", synopsis = "print module dependency graph", explanation = unlines [ "Prints the dependency graph of source modules.", "Requires that import has been done with the -retain flag.", "The graph is written in the file _gfdepgraph.dot", "which can be further processed by Graphviz (the system command 'dot').", "By default, all modules are shown, but the -only flag restricts them", "by a comma-separated list of patterns, where 'name*' matches modules", "whose name has prefix 'name', and other patterns match modules with", "exactly the same name. The graphical conventions are:", " solid box = abstract, solid ellipse = concrete, dashed ellipse = other", " solid arrow empty head = of, solid arrow = **, dashed arrow = open", " dotted arrow = other dependency" ], flags = [ ("only","list of modules included (default: all), literally or by prefix*") ], examples = [ "dg -only=SyntaxEng,Food* -- shows only SyntaxEng, and those with prefix Food" ], needsTypeCheck = False }), ("dt", emptyCommandInfo { longname = "define_tree", syntax = "dt IDENT (TREE | STRING | \"<\" COMMANDLINE)", synopsis = "define a tree or string macro", explanation = unlines [ "Defines IDENT as macro for TREE or STRING, until IDENT gets redefined.", "The defining value can also come from a command, preceded by \"<\".", "If the command gives many values, the first one is selected.", "A use of the macro has the form %IDENT. Currently this use cannot be", "a subtree of another tree. This command must be a line of its own", "and thus cannot be a part of a pipe." ], examples = [ ("dt ex \"hello world\" -- define ex as string"), ("dt ex UseN man_N -- define ex as string"), ("dt ex < p -cat=NP \"the man in the car\" -- define ex as parse result"), ("l -lang=LangSwe %ex | ps -to_utf8 -- linearize the tree ex") ], needsTypeCheck = False }), ("e", emptyCommandInfo { longname = "empty", synopsis = "empty the environment" }), ("eb", emptyCommandInfo { longname = "example_based", syntax = "eb (-probs=FILE | -lang=LANG)* -file=FILE.gfe", synopsis = "converts .gfe files to .gf files by parsing examples to trees", explanation = unlines [ "Reads FILE.gfe and writes FILE.gf. Each expression of form", "'%ex CAT QUOTEDSTRING' in FILE.gfe is replaced by a syntax tree.", "This tree is the first one returned by the parser; a biased ranking", "can be used to regulate the order. If there are more than one parses", "the rest are shown in comments, with probabilities if the order is biased.", "The probabilities flag and configuration file is similar to the commands", "gr and rt. Notice that the command doesn't change the environment,", "but the resulting .gf file must be imported separately." ], options = [ ("api","convert trees to overloaded API expressions (using Syntax not Lang)") ], flags = [ ("file","the file to be converted (suffix .gfe must be given)"), ("lang","the language in which to parse"), ("probs","file with probabilities to rank the parses") ], exec = \opts _ -> do let file = optFile opts pgf <- optProbs opts pgf let printer = if (isOpt "api" opts) then exprToAPI else (showExpr []) let conf = configureExBased pgf (optMorpho opts) (optLang opts) printer (file',ws) <- parseExamplesInGrammar conf file if null ws then return () else putStrLn ("unknown words: " ++ unwords ws) return (fromString ("wrote " ++ file')), needsTypeCheck = False }), ("gr", emptyCommandInfo { longname = "generate_random", synopsis = "generate random trees in the current abstract syntax", syntax = "gr [-cat=CAT] [-number=INT]", examples = [ "gr -- one tree in the startcat of the current grammar", "gr -cat=NP -number=16 -- 16 trees in the category NP", "gr -lang=LangHin,LangTha -cat=Cl -- Cl, both in LangHin and LangTha", "gr -probs=FILE -- generate with bias", "gr (AdjCN ? (UseN ?)) -- generate trees of form (AdjCN ? (UseN ?))" ], explanation = unlines [ "Generates a list of random trees, by default one tree.", "If a tree argument is given, the command completes the Tree with values to", "all metavariables in the tree. The generation can be biased by probabilities,", "given in a file in the -probs flag." ], flags = [ ("cat","generation category"), ("lang","uses only functions that have linearizations in all these languages"), ("number","number of trees generated"), ("depth","the maximum generation depth"), ("probs", "file with biased probabilities (format 'f 0.4' one by line)") ], exec = \opts xs -> do pgf <- optProbs opts (optRestricted opts) gen <- newStdGen let dp = valIntOpts "depth" 4 opts let ts = case mexp xs of Just ex -> generateRandomFromDepth gen pgf ex (Just dp) Nothing -> generateRandomDepth gen pgf (optType opts) (Just dp) returnFromExprs $ take (optNum opts) ts }), ("gt", emptyCommandInfo { longname = "generate_trees", synopsis = "generates a list of trees, by default exhaustive", explanation = unlines [ "Generates all trees of a given category, with increasing depth.", "By default, the depth is 4, but this can be changed by a flag.", "If a Tree argument is given, the command completes the Tree with values", "to all metavariables in the tree." ], flags = [ ("cat","the generation category"), ("depth","the maximum generation depth"), ("lang","excludes functions that have no linearization in this language"), ("number","the number of trees generated") ], examples = [ "gt -- all trees in the startcat, to depth 4", "gt -cat=NP -number=16 -- 16 trees in the category NP", "gt -cat=NP -depth=2 -- trees in the category NP to depth 2", "gt (AdjCN ? (UseN ?)) -- trees of form (AdjCN ? (UseN ?))" ], exec = \opts xs -> do let pgfr = optRestricted opts let dp = valIntOpts "depth" 4 opts let ts = case mexp xs of Just ex -> generateFromDepth pgfr ex (Just dp) Nothing -> generateAllDepth pgfr (optType opts) (Just dp) returnFromExprs $ take (optNumInf opts) ts }), ("h", emptyCommandInfo { longname = "help", syntax = "h (-full)? COMMAND?", synopsis = "get description of a command, or a the full list of commands", explanation = unlines [ "Displays information concerning the COMMAND.", "Without argument, shows the synopsis of all commands." ], options = [ ("changes","give a summary of changes from GF 2.9"), ("coding","give advice on character encoding"), ("full","give full information of the commands"), ("license","show copyright and license information") ], exec = \opts ts -> let msg = case ts of _ | isOpt "changes" opts -> changesMsg _ | isOpt "coding" opts -> codingMsg _ | isOpt "license" opts -> licenseMsg [t] -> let co = getCommandOp (showExpr [] t) in case lookCommand co (allCommands env) of ---- new map ??!! Just info -> commandHelp True (co,info) _ -> "command not found" _ -> commandHelpAll env opts in return (fromString msg), needsTypeCheck = False }), ("i", emptyCommandInfo { longname = "import", synopsis = "import a grammar from source code or compiled .pgf file", explanation = unlines [ "Reads a grammar from File and compiles it into a GF runtime grammar.", "If its abstract is different from current state, old modules are discarded.", "If its abstract is the same and a concrete with the same name is already in the state", "it is overwritten - but only if compilation succeeds.", "The grammar parser depends on the file name suffix:", " .cf context-free (labelled BNF) source", " .ebnf extended BNF source", " .gfm multi-module GF source", " .gf normal GF source", " .gfo compiled GF source", " .pgf precompiled grammar in Portable Grammar Format" ], flags = [ ("probs","file with biased probabilities for generation") ], options = [ -- ["gfo", "src", "no-cpu", "cpu", "quiet", "verbose"] ("retain","retain operations (used for cc command)"), ("src", "force compilation from source"), ("v", "be verbose - show intermediate status information") ], needsTypeCheck = False }), ("l", emptyCommandInfo { longname = "linearize", synopsis = "convert an abstract syntax expression to string", explanation = unlines [ "Shows the linearization of a Tree by the grammars in scope.", "The -lang flag can be used to restrict this to fewer languages.", "A sequence of string operations (see command ps) can be given", "as options, and works then like a pipe to the ps command, except", "that it only affect the strings, not e.g. the table labels.", "These can be given separately to each language with the unlexer flag", "whose results are prepended to the other lexer flags. The value of the", "unlexer flag is a space-separated list of comma-separated string operation", "sequences; see example." ], examples = [ "l -lang=LangSwe,LangNor no_Utt -- linearize tree to LangSwe and LangNor", "gr -lang=LangHin -cat=Cl | l -table -to_devanagari -- hindi table", "l -unlexer=\"LangAra=to_arabic LangHin=to_devanagari\" -- different unlexers" ], exec = \opts -> return . fromStrings . optLins opts, options = [ ("all","show all forms and variants, one by line (cf. l -list)"), ("bracket","show tree structure with brackets and paths to nodes"), ("groups","all languages, grouped by lang, remove duplicate strings"), ("list","show all forms and variants, comma-separated on one line (cf. l -all)"), ("multi","linearize to all languages (default)"), ("table","show all forms labelled by parameters"), ("treebank","show the tree and tag linearizations with language names") ] ++ stringOpOptions, flags = [ ("lang","the languages of linearization (comma-separated, no spaces)"), ("unlexer","set unlexers separately to each language (space-separated)") ] }), ("ma", emptyCommandInfo { longname = "morpho_analyse", synopsis = "print the morphological analyses of all words in the string", explanation = unlines [ "Prints all the analyses of space-separated words in the input string,", "using the morphological analyser of the actual grammar (see command pg)" ], exec = \opts -> case opts of _ | isOpt "missing" opts -> return . fromString . unwords . morphoMissing (optMorpho opts) . concatMap words . toStrings _ -> return . fromString . unlines . map prMorphoAnalysis . concatMap (morphos opts) . concatMap words . toStrings , flags = [ ("lang","the languages of analysis (comma-separated, no spaces)") ], options = [ ("missing","show the list of unknown words in the input") ] }), ("mq", emptyCommandInfo { longname = "morpho_quiz", synopsis = "start a morphology quiz", syntax = "mq (-cat=CAT)? (-probs=FILE)? TREE?", exec = \opts xs -> do let lang = optLang opts let typ = optType opts pgf <- optProbs opts pgf let mt = mexp xs morphologyQuiz mt pgf lang typ return void, flags = [ ("lang","language of the quiz"), ("cat","category of the quiz"), ("number","maximum number of questions"), ("probs","file with biased probabilities for generation") ] }), ("p", emptyCommandInfo { longname = "parse", synopsis = "parse a string to abstract syntax expression", explanation = unlines [ "Shows all trees returned by parsing a string in the grammars in scope.", "The -lang flag can be used to restrict this to fewer languages.", "The default start category can be overridden by the -cat flag.", "See also the ps command for lexing and character encoding.", "", "The -openclass flag is experimental and allows some robustness in ", "the parser. For example if -openclass=\"A,N,V\" is given, the parser", "will accept unknown adjectives, nouns and verbs with the resource grammar." ], exec = \opts ts -> return $ fromParse opts (concat [map ((,) s) (par opts s) | s <- toStrings ts]), flags = [ ("cat","target category of parsing"), ("lang","the languages of parsing (comma-separated, no spaces)"), ("openclass","list of open-class categories for robust parsing"), ("depth","maximal depth for proof search if the abstract syntax tree has meta variables") ], options = [ ("bracket","prints the bracketed string from the parser") ] }), ("pg", emptyCommandInfo { ----- longname = "print_grammar", synopsis = "print the actual grammar with the given printer", explanation = unlines [ "Prints the actual grammar, with all involved languages.", "In some printers, this can be restricted to a subset of languages", "with the -lang=X,Y flag (comma-separated, no spaces).", "The -printer=P flag sets the format in which the grammar is printed.", "N.B.1 Since grammars are compiled when imported, this command", "generally shows a grammar that looks rather different from the source.", "N.B.2 Another way to produce different formats is to use 'gf -make',", "the batch compiler. The following values are available both for", "the batch compiler (flag -output-format) and the print_grammar", "command (flag -printer):", "" ] ++ unlines (sort [ " " ++ opt ++ "\t\t" ++ expl | ((opt,_),expl) <- outputFormatsExpl, take 1 expl /= "*" ]), exec = \opts _ -> prGrammar opts, flags = [ --"cat", ("file", "set the file name when printing with -pgf option"), ("lang", "select languages for the some options (default all languages)"), ("printer","select the printing format (see flag values above)") ], options = [ ("cats", "show just the names of abstract syntax categories"), ("fullform", "print the fullform lexicon"), ("funs", "show just the names and types of abstract syntax functions"), ("langs", "show just the names of top concrete syntax modules"), ("lexc", "print the lexicon in Xerox LEXC format"), ("missing","show just the names of functions that have no linearization"), ("opt", "optimize the generated pgf"), ("pgf", "write current pgf image in file"), ("words", "print the list of words") ], examples = [ ("pg -funs | ? grep \" S ;\" -- show functions with value cat S") ] }), ("ph", emptyCommandInfo { longname = "print_history", synopsis = "print command history", explanation = unlines [ "Prints the commands issued during the GF session.", "The result is readable by the eh command.", "The result can be used as a script when starting GF." ], examples = [ "ph | wf -file=foo.gfs -- save the history into a file" ] }), ("ps", emptyCommandInfo { longname = "put_string", syntax = "ps OPT? STRING", synopsis = "return a string, possibly processed with a function", explanation = unlines [ "Returns a string obtained from its argument string by applying", "string processing functions in the order given in the command line", "option list. Thus 'ps -f -g s' returns g (f s). Typical string processors", "are lexers and unlexers, but also character encoding conversions are possible.", "The unlexers preserve the division of their input to lines.", "To see transliteration tables, use command ut." ], examples = [ "l (EAdd 3 4) | ps -code -- linearize code-like output", "ps -lexer=code | p -cat=Exp -- parse code-like input", "gr -cat=QCl | l | ps -bind -- linearization output from LangFin", "ps -to_devanagari \"A-p\" -- show Devanagari in UTF8 terminal", "rf -file=Hin.gf | ps -env=quotes -to_devanagari -- convert translit to UTF8", "rf -file=Ara.gf | ps -from_utf8 -env=quotes -from_arabic -- convert UTF8 to transliteration", "ps -to=chinese.trans \"abc\" -- apply transliteration defined in file chinese.trans" ], exec = \opts x -> do let (os,fs) = optsAndFlags opts trans <- optTranslit opts return ((fromString . trans . stringOps (envFlag fs) (map prOpt os) . toString) x), options = stringOpOptions, flags = [ ("env","apply in this environment only"), ("from","backward-apply transliteration defined in this file (format 'unicode translit' per line)"), ("to", "forward-apply transliteration defined in this file") ] }), ("pt", emptyCommandInfo { longname = "put_tree", syntax = "ps OPT? TREE", synopsis = "return a tree, possibly processed with a function", explanation = unlines [ "Returns a tree obtained from its argument tree by applying", "tree processing functions in the order given in the command line", "option list. Thus 'pt -f -g s' returns g (f s). Typical tree processors", "are type checking and semantic computation." ], examples = [ "pt -compute (plus one two) -- compute value", "p \"4 dogs love 5 cats\" | pt -transfer=digits2numeral | l -- four...five..." ], exec = \opts -> returnFromExprs . takeOptNum opts . treeOps opts, options = treeOpOptions pgf, flags = [("number","take at most this many trees")] ++ treeOpFlags pgf }), ("q", emptyCommandInfo { longname = "quit", synopsis = "exit GF interpreter" }), ("r", emptyCommandInfo { longname = "reload", synopsis = "repeat the latest import command" }), ("rf", emptyCommandInfo { longname = "read_file", synopsis = "read string or tree input from a file", explanation = unlines [ "Reads input from file. The filename must be in double quotes.", "The input is interpreted as a string by default, and can hence be", "piped e.g. to the parse command. The option -tree interprets the", "input as a tree, which can be given e.g. to the linearize command.", "The option -lines will result in a list of strings or trees, one by line." ], options = [ ("lines","return the list of lines, instead of the singleton of all contents"), ("tree","convert strings into trees") ], exec = \opts _ -> do let file = valStrOpts "file" "_gftmp" opts let exprs [] = ([],empty) exprs ((n,s):ls) | null s = exprs ls exprs ((n,s):ls) = case readExpr s of Just e -> let (es,err) = exprs ls in case inferExpr pgf e of Right (e,t) -> (e:es,err) Left tcerr -> (es,text "on line" <+> int n <> colon $$ nest 2 (ppTcError tcerr) $$ err) Nothing -> let (es,err) = exprs ls in (es,text "on line" <+> int n <> colon <+> text "parse error" $$ err) returnFromLines ls = case exprs ls of (es, err) | null es -> return ([], render (err $$ text "no trees found")) | otherwise -> return (es, render err) s <- readFile file case opts of _ | isOpt "lines" opts && isOpt "tree" opts -> returnFromLines (zip [1..] (lines s)) _ | isOpt "tree" opts -> returnFromLines [(1,s)] _ | isOpt "lines" opts -> return (fromStrings $ lines s) _ -> return (fromString s), flags = [("file","the input file name")] }), ("rt", emptyCommandInfo { longname = "rank_trees", synopsis = "show trees in an order of decreasing probability", explanation = unlines [ "Order trees from the most to the least probable, using either", "even distribution in each category (default) or biased as specified", "by the file given by flag -probs=FILE, where each line has the form", "'function probability', e.g. 'youPol_Pron 0.01'." ], exec = \opts ts -> do pgf <- optProbs opts pgf let tds = rankTreesByProbs pgf ts if isOpt "v" opts then putStrLn $ unlines [showExpr [] t ++ "\t--" ++ show d | (t,d) <- tds] else return () returnFromExprs $ map fst tds, flags = [ ("probs","probabilities from this file (format 'f 0.6' per line)") ], options = [ ("v","show all trees with their probability scores") ], examples = [ "p \"you are here\" | rt -probs=probs | pt -number=1 -- most probable result", "se utf8 -- set encoding to utf8 (default)" ] }), ("tq", emptyCommandInfo { longname = "translation_quiz", syntax = "tq -from=LANG -to=LANG (-cat=CAT)? (-probs=FILE)? TREE?", synopsis = "start a translation quiz", exec = \opts xs -> do let from = optLangFlag "from" opts let to = optLangFlag "to" opts let typ = optType opts let mt = mexp xs pgf <- optProbs opts pgf translationQuiz mt pgf from to typ return void, flags = [ ("from","translate from this language"), ("to","translate to this language"), ("cat","translate in this category"), ("number","the maximum number of questions"), ("probs","file with biased probabilities for generation") ], examples = [ ("tq -from=Eng -to=Swe -- any trees in startcat"), ("tq -from=Eng -to=Swe (AdjCN (PositA ?2) (UseN ?)) -- only trees of this form") ] }), ("se", emptyCommandInfo { longname = "set_encoding", synopsis = "set the encoding used in current terminal", syntax = "se ID", examples = [ "se cp1251 -- set encoding to cp1521", "se utf8 -- set encoding to utf8 (default)" ], needsTypeCheck = False }), ("sp", emptyCommandInfo { longname = "system_pipe", synopsis = "send argument to a system command", syntax = "sp -command=\"SYSTEMCOMMAND\", alt. ? SYSTEMCOMMAND", exec = \opts arg -> do let tmpi = "_tmpi" --- let tmpo = "_tmpo" restricted $ writeFile tmpi $ toString arg let syst = optComm opts ++ " " ++ tmpi restrictedSystem $ syst ++ " <" ++ tmpi ++ " >" ++ tmpo s <- readFile tmpo return $ fromString s, flags = [ ("command","the system command applied to the argument") ], examples = [ "sp -command=\"wc\" \"foo\"", "gt | l | sp -command=\"grep \\\"who\\\"\" | sp -command=\"wc\"" ] }), ("so", emptyCommandInfo { longname = "show_operations", syntax = "so (-grep=STRING)* TYPE?", synopsis = "show all operations in scope, possibly restricted to a value type", explanation = unlines [ "Show the names and type signatures of all operations available in the current resource.", "This command requires a source grammar to be in scope, imported with 'import -retain'.", "The operations include the parameter constructors that are in scope.", "The optional TYPE filters according to the value type.", "The grep STRINGs filter according to other substrings of the type signatures.", "This command must be a line of its own, and thus cannot be a part", "of a pipe." ], flags = [ ("grep","substring used for filtering (the command can have many of these)") ], options = [ ("raw","show the types in computed forms (instead of category names)") ], needsTypeCheck = False }), ("ut", emptyCommandInfo { longname = "unicode_table", synopsis = "show a transliteration table for a unicode character set", exec = \opts _ -> do let t = concatMap prOpt (take 1 opts) let out = maybe "no such transliteration" characterTable $ transliteration t return $ fromString out, options = transliterationPrintNames }), ("vd", emptyCommandInfo { longname = "visualize_dependency", synopsis = "show word dependency tree graphically", explanation = unlines [ "Prints a dependency tree in the .dot format (the graphviz format, default)", "or the MaltParser/CoNLL format (flag -output=malt for training, malt_input)", "for unanalysed input.", "By default, the last argument is the head of every abstract syntax", "function; moreover, the head depends on the head of the function above.", "The graph can be saved in a file by the wf command as usual.", "If the -view flag is defined, the graph is saved in a temporary file", "which is processed by graphviz and displayed by the program indicated", "by the flag. The target format is png, unless overridden by the", "flag -format." ], exec = \opts es -> do let debug = isOpt "v" opts let file = valStrOpts "file" "" opts let outp = valStrOpts "output" "dot" opts mlab <- case file of "" -> return Nothing _ -> readFile file >>= return . Just . getDepLabels . lines let lang = optLang opts let grphs = unlines $ map (graphvizDependencyTree outp debug mlab Nothing pgf lang) es if isFlag "view" opts || isFlag "format" opts then do let file s = "_grphd." ++ s let view = optViewGraph opts let format = optViewFormat opts restricted $ writeUTF8File (file "dot") grphs restrictedSystem $ "dot -T" ++ format ++ " " ++ file "dot" ++ " > " ++ file format restrictedSystem $ view ++ " " ++ file format return void else return $ fromString grphs, examples = [ "gr | vd -- generate a tree and show dependency tree in .dot", "gr | vd -view=open -- generate a tree and display dependency tree on a Mac", "gr -number=1000 | vd -file=dep.labels -output=malt -- generate training treebank", "gr -number=100 | vd -file=dep.labels -output=malt_input -- generate test sentences" ], options = [ ("v","show extra information") ], flags = [ ("file","configuration file for labels per fun, format 'fun l1 ... label ... l2'"), ("format","format of the visualization file (default \"png\")"), ("output","output format of graph source (default \"dot\")"), ("view","program to open the resulting file (default \"open\")") ] }), ("vp", emptyCommandInfo { longname = "visualize_parse", synopsis = "show parse tree graphically", explanation = unlines [ "Prints a parse tree the .dot format (the graphviz format).", "The graph can be saved in a file by the wf command as usual.", "If the -view flag is defined, the graph is saved in a temporary file", "which is processed by graphviz and displayed by the program indicated", "by the flag. The target format is png, unless overridden by the", "flag -format." ], exec = \opts es -> do let lang = optLang opts let grph = if null es then [] else graphvizParseTree pgf lang (head es) if isFlag "view" opts || isFlag "format" opts then do let file s = "_grph." ++ s let view = optViewGraph opts let format = optViewFormat opts restricted $ writeUTF8File (file "dot") grph restrictedSystem $ "dot -T" ++ format ++ " " ++ file "dot" ++ " > " ++ file format restrictedSystem $ view ++ " " ++ file format return void else return $ fromString grph, examples = [ "p \"John walks\" | vp -- generate a tree and show parse tree as .dot script", "gr | vp -view=\"open\" -- generate a tree and display parse tree on a Mac" ], options = [ ], flags = [ ("format","format of the visualization file (default \"png\")"), ("view","program to open the resulting file (default \"open\")") ] }), ("vt", emptyCommandInfo { longname = "visualize_tree", synopsis = "show a set of trees graphically", explanation = unlines [ "Prints a set of trees in the .dot format (the graphviz format).", "The graph can be saved in a file by the wf command as usual.", "If the -view flag is defined, the graph is saved in a temporary file", "which is processed by graphviz and displayed by the program indicated", "by the flag. The target format is postscript, unless overridden by the", "flag -format.", "With option -mk, use for showing library style function names of form 'mkC'." ], exec = \opts es -> if isOpt "mk" opts then return $ fromString $ unlines $ map (tree2mk pgf) es else if isOpt "api" opts then do let ss = map exprToAPI es mapM_ putStrLn ss return void else do let funs = not (isOpt "nofun" opts) let cats = not (isOpt "nocat" opts) let grph = unlines (map (graphvizAbstractTree pgf (funs,cats)) es) -- True=digraph if isFlag "view" opts || isFlag "format" opts then do let file s = "_grph." ++ s let view = optViewGraph opts let format = optViewFormat opts restricted $ writeUTF8File (file "dot") grph restrictedSystem $ "dot -T" ++ format ++ " " ++ file "dot" ++ " > " ++ file format restrictedSystem $ view ++ " " ++ file format return void else return $ fromString grph, examples = [ "p \"hello\" | vt -- parse a string and show trees as graph script", "p \"hello\" | vt -view=\"open\" -- parse a string and display trees on a Mac" ], options = [ ("api", "show the tree with function names converted to 'mkC' with value cats C"), ("mk", "similar to -api, deprecated"), ("nofun","don't show functions but only categories"), ("nocat","don't show categories but only functions") ], flags = [ ("format","format of the visualization file (default \"png\")"), ("view","program to open the resulting file (default \"open\")") ] }), ("wf", emptyCommandInfo { longname = "write_file", synopsis = "send string or tree to a file", exec = \opts arg -> do let file = valStrOpts "file" "_gftmp" opts if isOpt "append" opts then restricted $ appendFile file (toString arg) else restricted $ writeUTF8File file (toString arg) return void, options = [ ("append","append to file, instead of overwriting it") ], flags = [("file","the output filename")] }), ("t", emptyCommandInfo { longname = "tokenize", synopsis = "Tokenize string usng the vocabulary", exec = execToktok env, options = [], flags = [("lang","The name of the concrete to use")] }), ("ai", emptyCommandInfo { longname = "abstract_info", syntax = "ai IDENTIFIER or ai EXPR", synopsis = "Provides an information about a function, an expression or a category from the abstract syntax", explanation = unlines [ "The command has one argument which is either function, expression or", "a category defined in the abstract syntax of the current grammar. ", "If the argument is a function then ?its type is printed out.", "If it is a category then the category definition is printed.", "If a whole expression is given it prints the expression with refined", "metavariables and the type of the expression." ], exec = \opts arg -> do case arg of [EFun id] -> case Map.lookup id (funs (abstract pgf)) of Just fd -> do putStrLn $ render (ppFun id fd) putStrLn ("Probability: "++show (probTree pgf (EFun id))) return void Nothing -> case Map.lookup id (cats (abstract pgf)) of Just hyps -> do putStrLn $ render (ppCat id hyps $$ if null (functionsToCat pgf id) then empty else space $$ vcat [ppFun fid (ty,0,Just [],0) | (fid,ty) <- functionsToCat pgf id]) return void Nothing -> do putStrLn ("unknown category of function identifier "++show id) return void [e] -> case inferExpr pgf e of Left tcErr -> error $ render (ppTcError tcErr) Right (e,ty) -> do putStrLn ("Expression: "++showExpr [] e) putStrLn ("Type: "++showType [] ty) putStrLn ("Probability: "++show (probTree pgf e)) return void _ -> do putStrLn "a single identifier or expression is expected from the command" return void, needsTypeCheck = False }) ] where par opts s = case optOpenTypes opts of [] -> [parse_ pgf lang (optType opts) (Just dp) s | lang <- optLangs opts] open_typs -> [parseWithRecovery pgf lang (optType opts) open_typs (Just dp) s | lang <- optLangs opts] where dp = valIntOpts "depth" 4 opts void = ([],[]) optLins opts ts = case opts of _ | isOpt "groups" opts -> map (unlines . snd) $ groupResults [[(lang, linear opts lang t) | lang <- optLangs opts] | t <- ts] _ -> map (optLin opts) ts optLin opts t = unlines $ case opts of _ | isOpt "treebank" opts -> (showCId (abstractName pgf) ++ ": " ++ showExpr [] t) : [showCId lang ++ ": " ++ linear opts lang t | lang <- optLangs opts] _ -> [linear opts lang t | lang <- optLangs opts] linear :: [Option] -> CId -> Expr -> String linear opts lang = let unl = unlex opts lang in case opts of _ | isOpt "all" opts -> unlines . concat . intersperse [[]] . map (map (unl . snd)) . tabularLinearizes pgf lang _ | isOpt "list" opts -> commaList . concat . intersperse [[]] . map (map (unl . snd)) . tabularLinearizes pgf lang _ | isOpt "table" opts -> unlines . concat . intersperse [[]] . map (map (\(p,v) -> p+++":"+++unl v)) . tabularLinearizes pgf lang _ | isOpt "bracket" opts -> showBracketedString . bracketedLinearize pgf lang _ -> unl . linearize pgf lang -- replace each non-atomic constructor with mkC, where C is the val cat tree2mk pgf = showExpr [] . tree2expr . t2m . expr2tree where t2m t = case t of Fun cid [] -> t Fun cid ts -> Fun (mk cid) (map t2m ts) _ -> t mk = mkCId . ("mk" ++) . showCId . lookValCat (abstract pgf) unlex opts lang = stringOps Nothing (getUnlex opts lang ++ map prOpt opts) ---- getUnlex opts lang = case words (valStrOpts "unlexer" "" opts) of lexs -> case lookup lang [(mkCId la,tail le) | lex <- lexs, let (la,le) = span (/='=') lex, not (null le)] of Just le -> chunks ',' le _ -> [] commaList [] = [] commaList ws = concat $ head ws : map (", " ++) (tail ws) -- Proposed logic of coding in unlexing: -- - If lang has no coding flag, or -to_utf8 is not in opts, just opts are used. -- - If lang has flag coding=utf8, -to_utf8 is ignored. -- - If lang has coding=other, and -to_utf8 is in opts, from_other is applied first. -- THIS DOES NOT WORK UNFORTUNATELY - can't use the grammar flag properly unlexx opts lang = {- trace (unwords optsC) $ -} stringOps Nothing optsC where ---- optsC = case lookConcrFlag pgf (mkCId lang) (mkCId "coding") of Just (LStr "utf8") -> filter (/="to_utf8") $ map prOpt opts Just (LStr other) | isOpt "to_utf8" opts -> let cod = ("from_" ++ other) in cod : filter (/=cod) (map prOpt opts) _ -> map prOpt opts optRestricted opts = restrictPGF (\f -> and [hasLin pgf la f | la <- optLangs opts]) pgf optLang = optLangFlag "lang" optLangs = optLangsFlag "lang" optLangsFlag f opts = case valStrOpts f "" opts of "" -> languages pgf lang -> map completeLang (chunks ',' lang) completeLang la = let cla = (mkCId la) in if elem cla (languages pgf) then cla else (mkCId (showCId (abstractName pgf) ++ la)) optLangFlag f opts = head $ optLangsFlag f opts ++ [wildCId] optOpenTypes opts = case valStrOpts "openclass" "" opts of "" -> [] cats -> mapMaybe readType (chunks ',' cats) optProbs opts pgf = case valStrOpts "probs" "" opts of "" -> return pgf file -> do probs <- readProbabilitiesFromFile file pgf return (setProbabilities probs pgf) optTranslit opts = case (valStrOpts "to" "" opts, valStrOpts "from" "" opts) of ("","") -> return id (file,"") -> do src <- readFile file return $ transliterateWithFile file src False (_,file) -> do src <- readFile file return $ transliterateWithFile file src True optFile opts = valStrOpts "file" "_gftmp" opts optType opts = let str = valStrOpts "cat" (showCId $ lookStartCat pgf) opts in case readType str of Just ty -> case checkType pgf ty of Left tcErr -> error $ render (ppTcError tcErr) Right ty -> ty Nothing -> error ("Can't parse '"++str++"' as a type") optComm opts = valStrOpts "command" "" opts optViewFormat opts = valStrOpts "format" "png" opts optViewGraph opts = valStrOpts "view" "open" opts optNum opts = valIntOpts "number" 1 opts optNumInf opts = valIntOpts "number" 1000000000 opts ---- 10^9 takeOptNum opts = take (optNumInf opts) fromExprs es = (es,unlines (map (showExpr []) es)) fromStrings ss = (map (ELit . LStr) ss, unlines ss) fromString s = ([ELit (LStr s)], s) toStrings = map showAsString toString = unwords . toStrings fromParse opts [] = ([],"") fromParse opts ((s,(po,bs)):ps) | isOpt "bracket" opts = (es, showBracketedString bs ++ "\n" ++ msg) | otherwise = case po of ParseOk ts -> let (es',msg') = fromExprs ts in (es'++es,msg'++msg) TypeError errs -> ([], render (text "The parsing is successful but the type checking failed with error(s):" $$ nest 2 (vcat (map (ppTcError . snd) errs))) ++ "\n" ++ msg) ParseFailed i -> ([], "The parser failed at token " ++ show (words s !! max 0 (i-1)) ++ "\n" ++ msg) ParseIncomplete-> ([], "The sentence is not complete") where (es,msg) = fromParse opts ps returnFromExprs es = return $ case es of [] -> ([], "no trees found") _ -> fromExprs es prGrammar opts | isOpt "pgf" opts = do let pgf1 = if isOpt "opt" opts then optimizePGF pgf else pgf let outfile = valStrOpts "file" (showCId (abstractName pgf) ++ ".pgf") opts encodeFile outfile pgf1 putStrLn $ "wrote file " ++ outfile return void | isOpt "cats" opts = return $ fromString $ unwords $ map showCId $ categories pgf | isOpt "funs" opts = return $ fromString $ unlines $ map showFun $ funsigs pgf | isOpt "fullform" opts = return $ fromString $ concatMap (morpho "" prFullFormLexicon) $ optLangs opts | isOpt "langs" opts = return $ fromString $ unwords $ map showCId $ languages pgf | isOpt "lexc" opts = return $ fromString $ concatMap (morpho "" prLexcLexicon) $ optLangs opts | isOpt "missing" opts = return $ fromString $ unlines $ [unwords (showCId la:":": map showCId cs) | la <- optLangs opts, let cs = missingLins pgf la] | isOpt "words" opts = return $ fromString $ concatMap (morpho "" prAllWords) $ optLangs opts | otherwise = do fmt <- readOutputFormat (valStrOpts "printer" "pgf_pretty" opts) return $ fromString $ concatMap snd $ exportPGF noOptions fmt pgf funsigs pgf = [(f,ty) | (f,(ty,_,_,_)) <- Map.assocs (funs (abstract pgf))] showFun (f,ty) = showCId f ++ " : " ++ showType [] ty ++ " ;" morphos opts s = [(s,morpho [] (\mo -> lookupMorpho mo s) la) | la <- optLangs opts] morpho z f la = maybe z f $ Map.lookup la mos optMorpho opts = morpho (error "no morpho") id (head (optLangs opts)) optClitics opts = case valStrOpts "clitics" "" opts of "" -> [] cs -> map reverse $ chunks ',' cs mexp xs = case xs of t:_ -> Just t _ -> Nothing -- ps -f -g s returns g (f s) stringOps menv opts s = foldr (menvop . app) s (reverse opts) where app f = maybe id id (stringOp f) menvop op = maybe op (\ (b,e) -> opInEnv b e op) menv envFlag fs = case valStrOpts "env" "global" fs of "quotes" -> Just ("\"","\"") _ -> Nothing treeOps opts s = foldr app s (reverse opts) where app (OOpt op) | Just (Left f) <- treeOp pgf op = f app (OFlag op (VId x)) | Just (Right f) <- treeOp pgf op = f (mkCId x) app _ = id showAsString t = case t of ELit (LStr s) -> s _ -> "\n" ++ showExpr [] t --- newline needed in other cases than the first stringOpOptions = sort $ [ ("bind","bind tokens separated by Prelude.BIND, i.e. &+"), ("chars","lexer that makes every non-space character a token"), ("from_cp1251","decode from cp1251 (Cyrillic used in Bulgarian resource)"), ("from_utf8","decode from utf8 (default)"), ("lextext","text-like lexer"), ("lexcode","code-like lexer"), ("lexmixed","mixture of text and code (code between $...$)"), ("to_cp1251","encode to cp1251 (Cyrillic used in Bulgarian resource)"), ("to_html","wrap in a html file with linebreaks"), ("to_utf8","encode to utf8 (default)"), ("unlextext","text-like unlexer"), ("unlexcode","code-like unlexer"), ("unlexmixed","mixture of text and code (code between $...$)"), ("unchars","unlexer that puts no spaces between tokens"), ("unwords","unlexer that puts a single space between tokens (default)"), ("words","lexer that assumes tokens separated by spaces (default)") ] ++ concat [ [("from_" ++ p, "from unicode to GF " ++ n ++ " transliteration"), ("to_" ++ p, "from GF " ++ n ++ " transliteration to unicode")] | (p,n) <- transliterationPrintNames] treeOpOptions pgf = [(op,expl) | (op,(expl,Left _)) <- allTreeOps pgf] treeOpFlags pgf = [(op,expl) | (op,(expl,Right _)) <- allTreeOps pgf] translationQuiz :: Maybe Expr -> PGF -> Language -> Language -> Type -> IO () translationQuiz mex pgf ig og typ = do tts <- translationList mex pgf ig og typ infinity mkQuiz "Welcome to GF Translation Quiz." tts morphologyQuiz :: Maybe Expr -> PGF -> Language -> Type -> IO () morphologyQuiz mex pgf ig typ = do tts <- morphologyList mex pgf ig typ infinity mkQuiz "Welcome to GF Morphology Quiz." tts -- | the maximal number of precompiled quiz problems infinity :: Int infinity = 256 prLexcLexicon :: Morpho -> String prLexcLexicon mo = unlines $ "LEXICON" : [prLexc l p ++ ":" ++ w ++ " # ;" | (w,lps) <- morpho, (l,p) <- lps] ++ ["END"] where morpho = fullFormLexicon mo prLexc l p = showCId l ++ mkTags (words p) mkTags p = case p of "s":ws -> mkTags ws --- remove record field ws -> concat $ "+" : intersperse "+" ws prFullFormLexicon :: Morpho -> String prFullFormLexicon mo = unlines (map prMorphoAnalysis (fullFormLexicon mo)) prAllWords :: Morpho -> String prAllWords mo = unwords [w | (w,_) <- fullFormLexicon mo] prMorphoAnalysis :: (String,[(Lemma,Analysis)]) -> String prMorphoAnalysis (w,lps) = unlines (w:[showCId l ++ " : " ++ p | (l,p) <- lps]) -- This function is to be excuted when the command 'tok' is parsed execToktok :: PGFEnv -> [Option] -> [Expr] -> IO CommandOutput execToktok (pgf, _) opts exprs = do let tokenizers = Map.fromList [ (l, mkTokenizer pgf l) | l <- languages pgf] case getLang opts of Nothing -> do let output = concatMap toStringList [t input | (_,t) <- Map.toList tokenizers] return ([ELit $ LStr o | o <- output],unlines output) Just lang -> case Map.lookup lang tokenizers of Just tok -> do let output = toStringList $ tok input return ([ELit $ LStr o | o <- output],unlines output) Nothing -> return ([],"Unknown language: " ++ show lang) where input = case exprs of [ELit (LStr s)] -> s _ -> "" toStringList :: Maybe [String] -> [String] toStringList Nothing = [] toStringList (Just l) = l getLang :: [Option] -> Maybe Language getLang [] = Nothing getLang (OFlag "lang" (VId l):_) = readLanguage l getLang (_:os) = getLang os