forked from GitHub/gf-core
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7 Commits
lpgf-memo
...
pgf2-compl
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84fd431afd | ||
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588cd6ddb1 | ||
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437bd8e7f9 | ||
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e56d1b2959 | ||
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450368f9bb | ||
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60bc752a6f | ||
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91278e2b4b |
15
WebSetup.hs
15
WebSetup.hs
@@ -26,6 +26,14 @@ import Distribution.PackageDescription(PackageDescription(..))
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so users won't see this message unless they check the log.)
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-}
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-- | Notice about contrib grammars
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noContribMsg :: IO ()
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noContribMsg = putStr $ unlines
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[ "Example grammars are no longer included in the main GF repository, but have moved to gf-contrib."
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, "If you want them to be built, clone the following repository in the same directory as gf-core:"
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, "https://github.com/GrammaticalFramework/gf-contrib.git"
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]
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example_grammars :: [(String, String, [String])] -- [(pgf, subdir, source modules)]
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example_grammars =
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[("Letter.pgf","letter",letterSrc)
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@@ -50,11 +58,8 @@ buildWeb gf flags (pkg,lbi) = do
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contrib_exists <- doesDirectoryExist contrib_dir
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if contrib_exists
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then mapM_ build_pgf example_grammars
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else putStr $ unlines
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[ "Example grammars are no longer included in the main GF repository, but have moved to gf-contrib."
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, "If you want these example grammars to be built, clone this repository in the same top-level directory as GF:"
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, "https://github.com/GrammaticalFramework/gf-contrib.git"
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]
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-- else noContribMsg
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else return ()
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where
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gfo_dir = buildDir lbi </> "examples"
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@@ -1,7 +1,11 @@
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## 1.3.0
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- Add completion support.
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## 1.2.1
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- Remove deprecated pgf_print_expr_tuple
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- Added an API for cloning expressions/types/literals
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- Remove deprecated `pgf_print_expr_tuple`.
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- Added an API for cloning expressions/types/literals.
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## 1.2.0
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@@ -43,30 +43,28 @@ module PGF2 (-- * PGF
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mkCId,
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exprHash, exprSize, exprFunctions, exprSubstitute,
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treeProbability,
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-- ** Types
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Type, Hypo, BindType(..), startCat,
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readType, showType, showContext,
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mkType, unType,
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-- ** Type checking
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-- | Dynamically-built expressions should always be type-checked before using in other functions,
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-- as the exceptions thrown by using invalid expressions may not catchable.
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checkExpr, inferExpr, checkType,
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-- ** Computing
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compute,
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-- * Concrete syntax
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ConcName,Concr,languages,concreteName,languageCode,
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-- ** Linearization
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linearize,linearizeAll,tabularLinearize,tabularLinearizeAll,bracketedLinearize,bracketedLinearizeAll,
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FId, BracketedString(..), showBracketedString, flattenBracketedString,
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printName, categoryFields,
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alignWords,
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-- ** Parsing
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ParseOutput(..), parse, parseWithHeuristics,
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parseToChart, PArg(..),
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complete,
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-- ** Sentence Lookup
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lookupSentence,
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-- ** Generation
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@@ -180,7 +178,7 @@ languageCode c = unsafePerformIO (peekUtf8CString =<< pgf_language_code (concr c
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-- | Generates an exhaustive possibly infinite list of
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-- all abstract syntax expressions of the given type.
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-- all abstract syntax expressions of the given type.
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-- The expressions are ordered by their probability.
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generateAll :: PGF -> Type -> [(Expr,Float)]
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generateAll p (Type ctype _) =
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@@ -469,21 +467,21 @@ newGraphvizOptions pool opts = do
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-- Functions using Concr
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-- Morpho analyses, parsing & linearization
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-- | This triple is returned by all functions that deal with
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-- | This triple is returned by all functions that deal with
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-- the grammar's lexicon. Its first element is the name of an abstract
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-- lexical function which can produce a given word or
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-- lexical function which can produce a given word or
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-- a multiword expression (i.e. this is the lemma).
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-- After that follows a string which describes
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-- After that follows a string which describes
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-- the particular inflection form.
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--
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-- The last element is a logarithm from the
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-- the probability of the function. The probability is not
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-- the probability of the function. The probability is not
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-- conditionalized on the category of the function. This makes it
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-- possible to compare the likelihood of two functions even if they
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-- have different types.
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-- have different types.
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type MorphoAnalysis = (Fun,String,Float)
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-- | 'lookupMorpho' takes a string which must be a single word or
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-- | 'lookupMorpho' takes a string which must be a single word or
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-- a multiword expression. It then computes the list of all possible
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-- morphological analyses.
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lookupMorpho :: Concr -> String -> [MorphoAnalysis]
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@@ -541,12 +539,12 @@ lookupCohorts lang@(Concr concr master) sent =
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return ((start,tok,ans,end):cohs)
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filterBest :: [(Int,String,[MorphoAnalysis],Int)] -> [(Int,String,[MorphoAnalysis],Int)]
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filterBest ans =
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filterBest ans =
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reverse (iterate (maxBound :: Int) [(0,0,[],ans)] [] [])
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where
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iterate v0 [] [] res = res
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iterate v0 [] new res = iterate v0 new [] res
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iterate v0 ((_,v,conf, []):old) new res =
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iterate v0 ((_,v,conf, []):old) new res =
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case compare v0 v of
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LT -> res
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EQ -> iterate v0 old new (merge conf res)
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@@ -649,7 +647,7 @@ getAnalysis ref self c_lemma c_anal prob exn = do
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data ParseOutput a
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= ParseFailed Int String -- ^ The integer is the position in number of unicode characters where the parser failed.
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-- The string is the token where the parser have failed.
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| ParseOk a -- ^ If the parsing and the type checking are successful
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| ParseOk a -- ^ If the parsing and the type checking are successful
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-- we get the abstract syntax trees as either a list or a chart.
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| ParseIncomplete -- ^ The sentence is not complete.
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@@ -659,9 +657,9 @@ parse lang ty sent = parseWithHeuristics lang ty sent (-1.0) []
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parseWithHeuristics :: Concr -- ^ the language with which we parse
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-> Type -- ^ the start category
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-> String -- ^ the input sentence
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-> Double -- ^ the heuristic factor.
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-- A negative value tells the parser
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-- to lookup up the default from
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-> Double -- ^ the heuristic factor.
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-- A negative value tells the parser
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-- to lookup up the default from
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-- the grammar flags
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-> [(Cat, String -> Int -> Maybe (Expr,Float,Int))]
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-- ^ a list of callbacks for literal categories.
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@@ -715,9 +713,9 @@ parseWithHeuristics lang (Type ctype touchType) sent heuristic callbacks =
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parseToChart :: Concr -- ^ the language with which we parse
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-> Type -- ^ the start category
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-> String -- ^ the input sentence
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-> Double -- ^ the heuristic factor.
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-- A negative value tells the parser
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-- to lookup up the default from
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-> Double -- ^ the heuristic factor.
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-- A negative value tells the parser
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-- to lookup up the default from
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-- the grammar flags
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-> [(Cat, String -> Int -> Maybe (Expr,Float,Int))]
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-- ^ a list of callbacks for literal categories.
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@@ -886,7 +884,7 @@ lookupSentence lang (Type ctype _) sent =
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-- | The oracle is a triple of functions.
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-- The first two take a category name and a linearization field name
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-- and they should return True/False when the corresponding
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-- and they should return True/False when the corresponding
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-- prediction or completion is appropriate. The third function
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-- is the oracle for literals.
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type Oracle = (Maybe (Cat -> String -> Int -> Bool)
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@@ -974,6 +972,67 @@ parseWithOracle lang cat sent (predict,complete,literal) =
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return ep
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Nothing -> do return nullPtr
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-- | Returns possible completions of the current partial input.
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complete :: Concr -- ^ the language with which we parse
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-> Type -- ^ the start category
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-> String -- ^ the input sentence (excluding token being completed)
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-> String -- ^ prefix (partial token being completed)
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-> ParseOutput [(String, CId, CId, Float)] -- ^ (token, category, function, probability)
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complete lang (Type ctype _) sent pfx =
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unsafePerformIO $ do
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parsePl <- gu_new_pool
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exn <- gu_new_exn parsePl
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sent <- newUtf8CString sent parsePl
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pfx <- newUtf8CString pfx parsePl
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enum <- pgf_complete (concr lang) ctype sent pfx exn parsePl
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failed <- gu_exn_is_raised exn
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if failed
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then do
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is_parse_error <- gu_exn_caught exn gu_exn_type_PgfParseError
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if is_parse_error
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then do
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c_err <- (#peek GuExn, data.data) exn
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c_offset <- (#peek PgfParseError, offset) c_err
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token_ptr <- (#peek PgfParseError, token_ptr) c_err
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token_len <- (#peek PgfParseError, token_len) c_err
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tok <- peekUtf8CStringLen token_ptr token_len
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gu_pool_free parsePl
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return (ParseFailed (fromIntegral (c_offset :: CInt)) tok)
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else do
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is_exn <- gu_exn_caught exn gu_exn_type_PgfExn
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if is_exn
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then do
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c_msg <- (#peek GuExn, data.data) exn
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msg <- peekUtf8CString c_msg
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gu_pool_free parsePl
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throwIO (PGFError msg)
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else do
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gu_pool_free parsePl
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throwIO (PGFError "Parsing failed")
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else do
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fpl <- newForeignPtr gu_pool_finalizer parsePl
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ParseOk <$> fromCompletions enum fpl
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where
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fromCompletions :: Ptr GuEnum -> ForeignPtr GuPool -> IO [(String, CId, CId, Float)]
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fromCompletions enum fpl =
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withGuPool $ \tmpPl -> do
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cmpEntry <- alloca $ \ptr ->
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withForeignPtr fpl $ \pl ->
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do gu_enum_next enum ptr pl
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peek ptr
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if cmpEntry == nullPtr
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then do
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finalizeForeignPtr fpl
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touchConcr lang
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return []
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else do
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tok <- peekUtf8CString =<< (#peek PgfTokenProb, tok) cmpEntry
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cat <- peekUtf8CString =<< (#peek PgfTokenProb, cat) cmpEntry
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fun <- peekUtf8CString =<< (#peek PgfTokenProb, fun) cmpEntry
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prob <- (#peek PgfTokenProb, prob) cmpEntry
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toks <- unsafeInterleaveIO (fromCompletions enum fpl)
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return ((tok, cat, fun, prob) : toks)
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-- | Returns True if there is a linearization defined for that function in that language
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hasLinearization :: Concr -> Fun -> Bool
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hasLinearization lang id = unsafePerformIO $
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@@ -1047,7 +1106,7 @@ linearizeAll lang e = unsafePerformIO $
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-- | Generates a table of linearizations for an expression
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tabularLinearize :: Concr -> Expr -> [(String, String)]
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tabularLinearize lang e =
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tabularLinearize lang e =
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case tabularLinearizeAll lang e of
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(lins:_) -> lins
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_ -> []
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@@ -1138,7 +1197,7 @@ data BracketedString
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-- the phrase. The 'FId' is an unique identifier for
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-- every phrase in the sentence. For context-free grammars
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-- i.e. without discontinuous constituents this identifier
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-- is also unique for every bracket. When there are discontinuous
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-- is also unique for every bracket. When there are discontinuous
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-- phrases then the identifiers are unique for every phrase but
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-- not for every bracket since the bracket represents a constituent.
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-- The different constituents could still be distinguished by using
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@@ -1148,7 +1207,7 @@ data BracketedString
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-- The second 'CId' is the name of the abstract function that generated
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-- this phrase.
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-- | Renders the bracketed string as a string where
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-- | Renders the bracketed string as a string where
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-- the brackets are shown as @(S ...)@ where
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-- @S@ is the category.
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showBracketedString :: BracketedString -> String
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@@ -1166,7 +1225,7 @@ flattenBracketedString (Bracket _ _ _ _ bss) = concatMap flattenBracketedString
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bracketedLinearize :: Concr -> Expr -> [BracketedString]
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bracketedLinearize lang e = unsafePerformIO $
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withGuPool $ \pl ->
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withGuPool $ \pl ->
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do exn <- gu_new_exn pl
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cts <- pgf_lzr_concretize (concr lang) (expr e) exn pl
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failed <- gu_exn_is_raised exn
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@@ -1192,7 +1251,7 @@ bracketedLinearize lang e = unsafePerformIO $
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bracketedLinearizeAll :: Concr -> Expr -> [[BracketedString]]
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bracketedLinearizeAll lang e = unsafePerformIO $
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withGuPool $ \pl ->
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withGuPool $ \pl ->
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do exn <- gu_new_exn pl
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cts <- pgf_lzr_concretize (concr lang) (expr e) exn pl
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failed <- gu_exn_is_raised exn
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@@ -1467,7 +1526,7 @@ type LiteralCallback =
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literalCallbacks :: [(AbsName,[(Cat,LiteralCallback)])]
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literalCallbacks = [("App",[("PN",nerc),("Symb",chunk)])]
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-- | Named entity recognition for the App grammar
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-- | Named entity recognition for the App grammar
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-- (based on ../java/org/grammaticalframework/pgf/NercLiteralCallback.java)
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nerc :: LiteralCallback
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nerc pgf (lang,concr) sentence lin_idx offset =
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@@ -103,7 +103,7 @@ foreign import ccall unsafe "gu/file.h gu_file_in"
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foreign import ccall safe "gu/enum.h gu_enum_next"
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gu_enum_next :: Ptr a -> Ptr (Ptr b) -> Ptr GuPool -> IO ()
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foreign import ccall unsafe "gu/string.h gu_string_buf_freeze"
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gu_string_buf_freeze :: Ptr GuStringBuf -> Ptr GuPool -> IO CString
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@@ -241,7 +241,7 @@ newSequence elem_size pokeElem values pool = do
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type FId = Int
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data PArg = PArg [FId] {-# UNPACK #-} !FId deriving (Eq,Ord,Show)
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peekFId :: Ptr a -> IO FId
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peekFId :: Ptr a -> IO FId
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peekFId c_ccat = do
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c_fid <- (#peek PgfCCat, fid) c_ccat
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return (fromIntegral (c_fid :: CInt))
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@@ -256,6 +256,7 @@ data PgfApplication
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data PgfConcr
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type PgfExpr = Ptr ()
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data PgfExprProb
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data PgfTokenProb
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data PgfExprParser
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data PgfFullFormEntry
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data PgfMorphoCallback
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@@ -422,6 +423,9 @@ foreign import ccall
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foreign import ccall "pgf/pgf.h pgf_parse_with_oracle"
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pgf_parse_with_oracle :: Ptr PgfConcr -> CString -> CString -> Ptr PgfOracleCallback -> Ptr GuExn -> Ptr GuPool -> Ptr GuPool -> IO (Ptr GuEnum)
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foreign import ccall "pgf/pgf.h pgf_complete"
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pgf_complete :: Ptr PgfConcr -> PgfType -> CString -> CString -> Ptr GuExn -> Ptr GuPool -> IO (Ptr GuEnum)
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foreign import ccall "pgf/pgf.h pgf_lookup_morpho"
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pgf_lookup_morpho :: Ptr PgfConcr -> CString -> Ptr PgfMorphoCallback -> Ptr GuExn -> IO ()
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@@ -1,5 +1,5 @@
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name: pgf2
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version: 1.2.1
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version: 1.3.0
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synopsis: Bindings to the C version of the PGF runtime
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description:
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GF, Grammatical Framework, is a programming language for multilingual grammar applications.
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Reference in New Issue
Block a user