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Improvements in hte editor.

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This commit is contained in:
aarne
2003-09-24 14:26:35 +00:00
parent b1402e8bd6
commit 6e9258558a
19 changed files with 219 additions and 111 deletions
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20
src/GF/API.hs
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@@ -138,11 +138,13 @@ randomTreesIO :: Options -> GFGrammar -> Int -> IO [Tree]
randomTreesIO opts gr n = do
gen <- myStdGen mx
t <- err (\s -> putStrLnFlush s >> return []) (return . singleton) $
mkRandomTree gen mx g cat
mkRandomTree gen mx g catfun
ts <- if n==1 then return [] else randomTreesIO opts gr (n-1)
return $ t ++ ts
where
cat = firstAbsCat opts gr
catfun = case getOptVal opts withFun of
Just fun -> Right $ (absId gr, I.identC fun)
_ -> Left $ firstAbsCat opts gr
g = grammar gr
mx = optIntOrN opts flagDepth 41
@@ -156,10 +158,18 @@ optLinearizeTreeVal :: Options -> GFGrammar -> Tree -> String
optLinearizeTreeVal opts gr = err id id . optLinearizeTree opts gr
optLinearizeTree :: Options -> GFGrammar -> Tree -> Err String
optLinearizeTree opts gr t
| oElem showRecord opts = liftM prt $ linearizeNoMark g c t
| otherwise = return $ linTree2string g c t
optLinearizeTree opts gr t = case getOptVal opts markLin of
Just mk
| mk == markOptXML -> lin markXML t
| mk == markOptJava -> lin markXMLjgf t
| mk == markOptStruct -> lin markBracket t
| mk == markOptFocus -> lin markFocus t
| otherwise -> lin noMark t
_ -> lin noMark t
where
lin mk
| oElem showRecord opts = liftM prt . linearizeNoMark g c
| otherwise = return . linTree2string mk g c
g = grammar gr
c = cncId gr

9
src/GF/CF/CFIdent.hs
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@@ -107,6 +107,10 @@ idents2CFCat m c = ident2CFCat (CIQ m c) (identC "s")
catVarCF :: CFCat
catVarCF = ident2CFCat (mkCIdent "_" "#Var") (identC "_") ----
cat2CFCat :: (Ident,Ident) -> CFCat
cat2CFCat = uncurry idents2CFCat
{- ----
uCFCat :: CFCat
uCFCat = cat2CFCat uCat
@@ -116,9 +120,8 @@ moduleOfCFCat :: CFCat -> Ident
moduleOfCFCat (CFCat (CIQ m _, _)) = m
-- the opposite direction
cfCat2Cat :: CFCat -> CIdent
cfCat2Cat (CFCat (s,_)) = s
cfCat2Cat :: CFCat -> (Ident,Ident)
cfCat2Cat (CFCat (CIQ m c,_)) = (m,c)
-- to construct CF tokens

52
src/GF/Canon/CMacros.hs
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@@ -3,6 +3,8 @@ module CMacros where
import AbsGFC
import GFC
import qualified Ident as A ---- no need to qualif? 21/9
import qualified Values as V
import qualified MMacros as M
import PrGrammar
import Str
@@ -13,21 +15,53 @@ import Monad
-- macros for concrete syntax in GFC that do not need lookup in a grammar
markFocus :: Term -> Term
markFocus = markSubterm "[*" "*]"
-- how to mark subtrees, dep. on node, position, whether focus
type Marker = V.TrNode -> [Int] -> Bool -> (String, String)
markSubterm :: String -> String -> Term -> Term
markSubterm beg end t = case t of
markSubtree :: Marker -> V.TrNode -> [Int] -> Bool -> Term -> Term
markSubtree mk n is = markSubterm . mk n is
-- if no marking is wanted, use the following
noMark :: Marker
noMark _ _ _ = ("","")
-- for vanilla brackets, focus, and position, use
markBracket :: Marker
markBracket n p b = if b then ("[*" ++ show p,"*]") else ("[" ++ show p,"]")
-- for focus only
markFocus :: Marker
markFocus n p b = if b then ("[*","*]") else ("","")
-- for XML, use
markXML :: Marker
markXML n i b =
if b
then ("<focus" +++ p +++ c ++ ">", "</focus>")
else ("<subtree" +++ p +++ c ++ ">", "</subtree>")
where
c = "type=" ++ prt (M.valNode n)
p = "position=" ++ show i
-- for XML in JGF 1, use
markXMLjgf :: Marker
markXMLjgf n p b =
if b
then ("<focus" +++ c ++ ">", "</focus>")
else ("","")
where
c = "type=" ++ prt (M.valNode n)
-- the marking engine
markSubterm :: (String,String) -> Term -> Term
markSubterm (beg, end) t = case t of
R rs -> R $ map markField rs
T ty cs -> T ty [Cas p (mark v) | Cas p v <- cs]
_ -> foldr1 C [tK beg, t, tK end] -- t : Str guaranteed?
where
mark = markSubterm beg end
mark = markSubterm (beg, end)
markField lt@(Ass l t) = if isLinLabel l then (Ass l (mark t)) else lt
isLinLabel (L (A.IC s)) = case s of ----
's':cs -> all isDigit cs
_ -> False
tK :: String -> Term
tK = K . KS

2
src/GF/Compile/PGrammar.hs
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@@ -43,12 +43,14 @@ string2formsAndTerm s = case s of
(x,_:y) -> (pTrms (tail x), pTrm y)
_ -> ([],pTrm s)
_ -> ([], pTrm s)
-}
string2ident :: String -> Err Ident
string2ident s = return $ case s of
c:'_':i -> identV (readIntArg i,[c]) ---
_ -> zIdent s
{-
-- reads the Haskell datatype
readGrammar :: String -> Err GrammarST
readGrammar s = case [x | (x,t) <- reads s, ("","") <- lex t] of

19
src/GF/Compile/ShellState.hs
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@@ -3,8 +3,11 @@ module ShellState where
import Operations
import GFC
import AbsGFC
---import CMacros
import Macros
import MMacros
import Look
import LookAbs
import qualified Modules as M
import qualified Grammar as G
import qualified PrGrammar as P
@@ -108,15 +111,12 @@ updateShellState opts sh (gr,(sgr,rts)) = do
notInrts f = notElem f $ map fst rts
cfs <- mapM (canon2cf opts cgr) concrs --- would not need to update all...
let funs = [] ---- funRulesOf cgr
let cats = [] ---- allCatsOf cgr
let csi = [] ----
{-
[(c,(co,
let funs = funRulesOf cgr
let cats = allCatsOf cgr
let csi = [(c,(co,
[(fun,typ) | (fun,typ) <- funs, compatType tc typ],
funsOnTypeFs compatType funs tc))
| (c,co) <- cats, let tc = cat2type c]
-}
| (c,co) <- cats, let tc = cat2val co c]
let deps = True ---- not $ null $ allDepCats cgr
let binds = [] ---- allCatsWithBind cgr
@@ -163,6 +163,9 @@ greatestAbstract gr = case allAbstracts gr of
[] -> Nothing
a -> return $ last a
qualifTop :: StateGrammar -> G.QIdent -> G.QIdent
qualifTop gr (_,c) = (absId gr,c)
-- all concretes for a given abstract
allConcretes :: CanonGrammar -> Ident -> [Ident]
allConcretes gr a = [i | (i,M.ModMod m) <- M.modules gr, M.mtype m== M.MTConcrete a]

2
src/GF/Fudgets/CommandF.hs
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@@ -14,7 +14,7 @@ import EventF
fudlogueEditF :: CEnv -> IO ()
fudlogueEditF env =
fudlogue $ gfSizeP $ shellF ("GF 1.1 Fudget Editor") (gfF env)
fudlogue $ gfSizeP $ shellF ("GF 2.0- Fudget Editor") (gfF env)
gfF env = nameLayoutF gfLayout $ (gfOutputF env >==< gfCommandF env) >+< quitButF

1
src/GF/Grammar/LookAbs.hs
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@@ -97,7 +97,6 @@ funsOnTypeFs compat fs val = [((fun,i),typ) |
(i,arg) <- zip [0..] (map snd args),
compat val arg]
-- this is needed at compile time
lookupFunTypeSrc :: Grammar -> Ident -> Ident -> Err Type

7
src/GF/Grammar/MMacros.hs
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@@ -231,6 +231,13 @@ fun2wrap oldvars ((fun,i),typ) exp = do
let vars = mkFreshVars (length cont) oldvars
return $ mkAbs vars $ if n==i then exp else mExp
-- weak heuristics: sameness of value category
compatType :: Val -> Type -> Bool
compatType v t = errVal True $ do
cat1 <- val2cat v
cat2 <- valCat t
return $ cat1 == cat2
---
mkJustProd cont typ = mkProd (cont,typ,[])

6
src/GF/Grammar/TypeCheck.hs
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@@ -229,3 +229,9 @@ editAsTermCommand gr c e = err (const []) singleton $ do
t <- annotate gr $ refreshMetas [] e
t' <- c $ tree2loc t
return $ tree2exp $ loc2tree t'
exp2termCommand :: GFCGrammar -> (Exp -> Err Exp) -> Tree -> Err Tree
exp2termCommand gr f t = do
let exp = tree2exp t
exp2 <- f exp
annotate gr exp2

8
src/GF/Grammar/Values.hs
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@@ -50,3 +50,11 @@ tree2exp (Tr (N (bi,at,_,_,_),ts)) = foldr Abs (foldl App at' ts') bi' where
AtI s -> EInt s
bi' = map fst bi
ts' = map tree2exp ts
loc2treeFocus :: Loc TrNode -> Tree
loc2treeFocus (Loc (Tr (a,ts),p)) =
loc2tree (Loc (Tr (mark a, map (mapTr nomark) ts), mapPath nomark p))
where
(mark, nomark) = (\(N (a,b,c,d,_)) -> N(a,b,c,d,True),
\(N (a,b,c,d,_)) -> N(a,b,c,d,False))

12
src/GF/Infra/Option.hs
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@@ -20,6 +20,10 @@ oArg s = s -- value of option argument
oElem :: Option -> Options -> Bool
oElem o (Opts os) = elem o os
eqOpt :: String -> Option -> Bool
eqOpt s (Opt (o, [])) = s == o
eqOpt s _ = False
type OptFun = String -> Option
getOptVal :: Options -> OptFun -> Maybe String
@@ -164,6 +168,7 @@ absView = iOpt "Abs"
useTokenizer = aOpt "lexer"
useUntokenizer = aOpt "unlexer"
useParser = aOpt "parser"
withFun = aOpt "fun"
firstCat = aOpt "cat" -- used on command line
gStartCat = aOpt "startcat" -- used in grammar, to avoid clash w res word
useLanguage = aOpt "lang"
@@ -182,6 +187,13 @@ noDepTypes = aOpt "nodeptypes"
extractGr = aOpt "extract"
pathList = aOpt "path"
markLin = aOpt "mark"
markOptXML = oArg "xml"
markOptJava = oArg "java"
markOptStruct = oArg "struct"
markOptFocus = oArg "focus"
-- refinement order
nextRefine = aOpt "nextrefine"
firstRefine = oArg "first"

4
src/GF/Shell.hs
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@@ -143,8 +143,8 @@ execC co@(comm, opts0) sa@((st,(h,_)),a) = case comm of
CImport file | oElem showOld opts -> useIOE sa $ batchCompileOld file >> return sa
CImport file -> useIOE sa $ do
st <- shellStateFromFiles opts st file
ioeIO $ changeState (const st) sa --- \ ((_,h),a) -> ((st,h), a))
st1 <- shellStateFromFiles opts st file
ioeIO $ changeState (const st1) sa --- \ ((_,h),a) -> ((st,h), a))
CEmptyState -> changeState reinitShellState sa
{-

84
src/GF/Shell/Commands.hs
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@@ -9,6 +9,7 @@ import GFC
import qualified AbsGFC ---- Atom
import CMacros
import LookAbs
import Values (loc2treeFocus)----
import GetTree
import API
@@ -27,7 +28,7 @@ import Unicode
import Option
import CF
----- import CFIdent (cat2CFCat, cfCat2Cat)
import CFIdent (cat2CFCat, cfCat2Cat)
import Linear
import Randomized
import Editing
@@ -114,20 +115,19 @@ initSStateEnv env = case getOptVal (stateOptions sgr) gStartCat of
execCommand :: CEnv -> Command -> SState -> IO (CEnv,SState)
execCommand env c s = case c of
{- ----
-- these commands do need IO
CCEnvImport file -> do
gr <- optFile2grammar noOptions (maybeStateAbstract env) file
let lan = getLangNameOpt noOptions file
return (updateLanguage file (lan, getStateConcrete gr)
(initWithAbstract (stateAbstract gr) env), s)
CCEnvImport file -> useIOE (env,s) $ do
st <- shellStateFromFiles opts env file
return (st,s)
{- ----
CCEnvEmptyAndImport file -> do
gr <- optFile2grammar noOptions Nothing file
let lan = getLangNameOpt noOptions file
return (updateLanguage file (lan, getStateConcrete gr)
(initWithAbstract (stateAbstract gr) emptyShellState), initSState)
-}
CCEnvEmpty -> do
return (emptyShellState, initSState)
@@ -137,6 +137,7 @@ execCommand env c s = case c of
(msg,(env',_)) <- Shell.execLines False cs (Shell.initHState env)
return (env', changeMsg msg s) ----
{- ----
CCEnvOpenTerm file -> do
c <- readFileIf file
let (fs,t) = envAndTerm file c
@@ -159,10 +160,11 @@ execCommand env c s = case c of
state1 <- return $
refineByExps True gr (parseAny agrs cat t) $ changeState state0 s
return (env', state1)
CCEnvOn name -> return (languageOn (language name) env,s)
CCEnvOff name -> return (languageOff (language name) env,s)
-}
---- CCEnvOn name -> return (languageOn (language name) env,s)
---- CCEnvOff name -> return (languageOff (language name) env,s)
-- this command is improved by the use of IO
CRefineRandom -> do
g <- newStdGen
@@ -196,12 +198,10 @@ execECommand env c = case c of
CNewCat cat -> action2commandNext $ \x -> do
s' <- newCat cgr cat x
uniqueRefinements cgr s'
{- ----
CNewTree s -> action2commandNext $ \x -> do
t <- string2treeErr gr s
s' <- newTree t x
uniqueRefinements cgr s'
-}
CAhead n -> action2command (goAheadN n)
CBack n -> action2command (goBackN n)
CTop -> action2command $ return . goRoot
@@ -215,34 +215,43 @@ execECommand env c = case c of
CWrapWithFun fi -> action2commandNext $ wrapWithFun cgr fi
CChangeHead f -> action2commandNext $ changeFunHead cgr f
CPeelHead -> action2commandNext $ peelFunHead cgr
{- ----
CAlphaConvert s -> action2commandNext $ \x ->
string2varPair s >>= \xy -> alphaConvert gr xy x
string2varPair s >>= \xy -> alphaConvert cgr xy x
{- ----
CRefineWithTree s -> action2commandNext $ \x ->
(string2treeErr gr s x >>= \t -> refineWithTree der gr t x)
(string2treeErr cgr s x >>=
\t -> refineWithTree der cgr t x)
CRefineParse str -> \s -> refineByExps der gr
CRefineParse str -> \s -> refineByTrees der cgr
(parseAny agrs (cat2CFCat (actCat (stateSState s))) str) s
-}
CRefineParse str -> \s ->
let cat = cat2CFCat (qualifTop sgr (actCat (stateSState s)))
ts = parseAny agrs cat str
in (if null ts ---- debug
then withMsg [str, "parse failed in cat" +++ show cat]
else id)
(refineByTrees der cgr ts) s
CRefineRandom -> \s -> action2commandNext
(refineRandom (stdGenCEnv env s) 41 cgr) s
CRefineRandom -> \s -> action2commandNext
(refineRandom (stdGenCEnv env s) 41 cgr) s
CSelectCand i -> selectCand cgr i
{- ----
CTermCommand c -> case c of
"paraphrase" -> \s ->
replaceByTermCommand gr c (actExp (stateSState s)) s
"transfer" -> action2commandNext $
transferSubTree (stateTransferFun sgr) gr
replaceByTermCommand der gr c (actTree (stateSState s)) s
---- "transfer" -> action2commandNext $
---- transferSubTree (stateTransferFun sgr) gr
_ -> replaceByEditCommand gr c
-}
---- CAddOption o -> changeStOptions (addOption o)
---- CRemoveOption o -> changeStOptions (removeOption o)
CDelete -> action2commandNext $ deleteSubTree cgr
CUndo -> undoCommand
---- CMenu -> \s -> changeMsg (menuState env s) s
CMenu -> \s -> changeMsg (menuState env s) s
CView -> changeView
CHelp h -> changeMsg [h env]
CVoid -> id
@@ -258,18 +267,16 @@ execECommand env c = case c of
--
{- ----
string2varPair :: String -> Err (I.Ident,I.Ident)
string2varPair s = case words s of
x : y : [] -> liftM2 (,) (string2ident x) (string2ident y)
_ -> Bad "expected format 'x y'"
-- seen on display
cMenuDisplay :: String -> Command
cMenuDisplay s = CAddOption (menuDisplay s)
-}
newCatMenu env = [(CNewCat c, prQIdent c) | ---- printname env initSState c) |
(c,[]) <- allCatsOf (canCEnv env)]
@@ -282,7 +289,7 @@ mkRefineMenuAll env sstate =
([],[],wraps) ->
[(CWrapWithFun fi, prWrap fit) | fit@(fi,_) <- wraps] ++
[(CChangeHead f, prChangeHead f) | f <- headChangesState cgr state] ++
[(CPeelHead, (ifShort "ph" "PeelHead", "ph")) | canPeelState cgr state] ++
[(CPeelHead, (ifShort "ph" "PeelHead", "ph")) | canPeelState cgr state] ++
[(CDelete, (ifShort "d" "Delete", "d"))]
(refs,[],_) -> [(CRefineWithAtom (prRefinement f), prRef t) | t@(f,_) <- refs]
(_,cands,_) -> [(CSelectCand i, prCand (t,i)) | (t,i) <- zip cands [0..]]
@@ -327,14 +334,17 @@ emptyMenuItem = (CVoid,("",""))
---- allStringCommands = snd $ customInfo customStringCommand
termCommandMenu, stringCommandMenu :: [(Command,String)]
termCommandMenu = []
termCommandMenu = [(CTermCommand s, s) | s <- allTermCommands]
allTermCommands = snd $ customInfo customEditCommand
stringCommandMenu = []
displayCommandMenu :: CEnv -> [(Command,String)]
displayCommandMenu env = []
{- ----
---- allTermCommands = snd $ customInfo customEditCommand
termCommandMenu = [(CTermCommand s, s) | s <- allTermCommands]
termCommandMenu =
stringCommandMenu =
(CAddOption showStruct, "structured") :
@@ -367,7 +377,8 @@ displaySStateIn env state = (tree',msg,menu) where
grs = allStateGrammars env
lang = (viewSState state) `mod` (length grs + 3)
tree' = (tree : exp : linAll ++ separ (linAll ++ [tree])) !! lang
opts = addOptions (optsSState state) (globalOptions env) -- state opts override
opts = addOptions (optsSState state) -- state opts override
(addOption (markLin markOptFocus) (globalOptions env))
lin g = linearizeState fudWrap opts g zipper
exp = return $ tree2string $ loc2tree zipper
zipper = stateSState state
@@ -387,7 +398,8 @@ displaySStateJavaX env state = unlines $ tagXML "gfedit" $ concat [
(ls,grs) = unzip $ lgrs
lgrs = allStateGrammarsWithNames env --- allActiveStateGrammarsWithNames env
lins = (langAbstract, exp) : linAll
opts = addOptions (optsSState state) (globalOptions env) -- state opts override
opts = addOptions (optsSState state) -- state opts override
(addOption (markLin markOptJava) (globalOptions env))
lin (n,gr) = (n, map uni $ linearizeState noWrap opts gr zipper) where
uni = optEncodeUTF8 n gr . mkUnicode
exp = prprTree $ loc2tree zipper
@@ -402,7 +414,7 @@ langXML = language "XML"
linearizeState :: (String -> [String]) -> Options -> GFGrammar -> State -> [String]
linearizeState wrap opts gr =
wrap . strop . unt . optLinearizeTreeVal opts gr . loc2tree
wrap . strop . unt . optLinearizeTreeVal opts gr . loc2treeFocus
--- markedLinString br g
where
unt = id ---- customOrDefault (stateOptions g) useUntokenizer customUntokenizer g

37
src/GF/UseGrammar/Custom.hs
View File

@@ -3,6 +3,7 @@ module Custom where
import Operations
import Text
import Tokenize
import Values
import qualified Grammar as G
import qualified AbsGFC as A
import qualified GFC as C
@@ -22,6 +23,8 @@ import CFIdent
import PPrCF
import PrGrammar
import Zipper
----import Morphology
-----import GrammarToHaskell
-----import GrammarToCanon (showCanon, showCanonOpt)
@@ -34,6 +37,8 @@ import MoreCustom -- either small/ or big/. The one in Small is empty.
import UseIO
import Monad
-- minimal version also used in Hugs. AR 2/12/2002.
-- databases for customizable commands. AR 21/11/2001
@@ -59,10 +64,10 @@ customGrammarPrinter :: CustomData (StateGrammar -> String)
customSyntaxPrinter :: CustomData (GF.Grammar -> String)
-- termPrinter, "-printer=x"
customTermPrinter :: CustomData (StateGrammar -> A.Exp -> String)
customTermPrinter :: CustomData (StateGrammar -> Tree -> String)
-- termCommand, "-transform=x"
customTermCommand :: CustomData (StateGrammar -> A.Exp -> [A.Exp])
customTermCommand :: CustomData (StateGrammar -> Tree -> [Tree])
-- editCommand, "-edit=x"
customEditCommand :: CustomData (StateGrammar -> Action)
@@ -172,15 +177,15 @@ customTermCommand =
customData "Term transformers, selected by option -transform=x" $
[
(strCI "identity", \_ t -> [t]) -- DEFAULT
{- ----
,(strCI "compute", \g t -> err (const [t]) return (computeAbsTerm g t))
,(strCI "paraphrase", \g t -> mkParaphrases g t)
,(strCI "typecheck", \g t -> err (const []) return (checkIfValidExp g t))
,(strCI "solve", \g t -> editAsTermCommand g
(uniqueRefinements g) t)
,(strCI "context", \g t -> editAsTermCommand g
(contextRefinements g) t)
-}
,(strCI "compute", \g t -> let gr = grammar g in
err (const [t]) return
(exp2termCommand gr (computeAbsTerm gr) t))
---- ,(strCI "paraphrase", \g t -> mkParaphrases g t)
---- ,(strCI "typecheck", \g t -> err (const []) return (checkIfValidExp g t))
,(strCI "solve", \g t -> err (const [t]) (return . loc2tree)
(uniqueRefinements (grammar g) (tree2loc t)))
,(strCI "context", \g t -> err (const [t]) (return . loc2tree)
(contextRefinements (grammar g) (tree2loc t)))
--- ,(strCI "delete", \g t -> [MM.mExp0])
-- add your own term commands here
]
@@ -191,12 +196,10 @@ customEditCommand =
[
(strCI "identity", const return) -- DEFAULT
,(strCI "transfer", const return) --- done ad hoc on top level
{- ----
,(strCI "typecheck", reCheckState)
,(strCI "solve", solveAll)
,(strCI "context", contextRefinements)
,(strCI "compute", computeSubTree)
-}
,(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
-- add your own edit commands here
]

7
src/GF/UseGrammar/Editing.hs
View File

@@ -129,6 +129,13 @@ newCat gr cat@(m,c) _ = do
testErr (null cont) "start cat must have null context" -- for easier meta refresh
initStateCat cont cat
newFun :: CGrammar -> Fun -> Action
newFun gr fun@(m,c) _ = do
typ <- lookupFunType gr m c
cat <- valCat typ
st1 <- newCat gr cat initState
refineWithAtom True gr (qq fun) st1
newTree :: Tree -> Action
newTree t _ = return $ tree2loc t

24
src/GF/UseGrammar/Linear.hs
View File

@@ -24,19 +24,17 @@ import Monad
-- NB. Constants in trees are annotated by the name of the abstract module.
-- A concrete module name must be given to find (and choose) linearization rules.
-- If no marking is wanted, noMark :: Marker.
-- For xml marking, use markXML :: Marker
linearizeToRecord :: CanonGrammar -> Marker -> Ident -> A.Tree -> Err Term
linearizeToRecord gr mk m = lin [] where
lin ts t = errIn ("lint" +++ prt t) $ ----
if A.isFocusNode (A.nodeTree t)
then liftM markFocus $ lint ts t
else lint ts t
lint ts t@(Tr (n,xs)) = do
lin ts t@(Tr (n,xs)) = errIn ("linearization of" +++ prt t) $ do
let binds = A.bindsNode n
at = A.atomNode n
fmk = markSubtree mk n ts (A.isFocusNode n)
c <- A.val2cat $ A.valNode n
xs' <- mapM (\ (i,x) -> lin (i:ts) x) $ zip [0..] xs
@@ -47,7 +45,7 @@ linearizeToRecord gr mk m = lin [] where
A.AtV x -> lookCat c >>= comp [tK (prt at)]
A.AtM m -> lookCat c >>= comp [tK (prt at)]
return $ mk ts $ mkBinds binds r
return $ fmk $ mkBinds binds r
look = lookupLin gr . redirectIdent m . rtQIdent
comp = ccompute gr
@@ -59,12 +57,6 @@ linearizeToRecord gr mk m = lin [] where
lookCat = return . errVal defLindef . look
---- should always be given in the module
type Marker = [Int] -> Term -> Term
-- if no marking is wanted, use the following
noMark :: [Int] -> Term -> Term
noMark = const id
-- thus the special case:
@@ -115,9 +107,9 @@ strs2strings :: [[Str]] -> [String]
strs2strings = map unlex
-- finally, a top-level function to get a string from an expression
linTree2string :: CanonGrammar -> Ident -> A.Tree -> String
linTree2string gr m e = err id id $ do
t <- linearizeNoMark gr m e
linTree2string :: Marker -> CanonGrammar -> Ident -> A.Tree -> String
linTree2string mk gr m e = err id id $ do
t <- linearizeToRecord gr mk m e
r <- expandLinTables gr t
ts <- rec2strTables r
let ss = strs2strings $ sTables2strs $ strTables2sTables ts

10
src/GF/UseGrammar/Randomized.hs
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@@ -15,16 +15,18 @@ import Random --- (mkStdGen, StdGen, randoms) --- bad import for hbc
myStdGen = mkStdGen ---
-- build one random tree; use mx to prevent infinite search
mkRandomTree :: StdGen -> Int -> CGrammar -> QIdent -> Err Tree
mkRandomTree :: StdGen -> Int -> CGrammar -> Either Cat Fun -> Err Tree
mkRandomTree gen mx gr cat = mkTreeFromInts (take mx (randoms gen)) gr cat
refineRandom :: StdGen -> Int -> CGrammar -> Action
refineRandom gen mx = mkStateFromInts $ take mx $ map abs (randoms gen)
-- build a tree from a list of integers
mkTreeFromInts :: [Int] -> CGrammar -> QIdent -> Err Tree
mkTreeFromInts ints gr cat = do
st0 <- newCat gr cat initState
mkTreeFromInts :: [Int] -> CGrammar -> Either Cat Fun -> Err Tree
mkTreeFromInts ints gr catfun = do
st0 <- either (\cat -> newCat gr cat initState)
(\fun -> newFun gr fun initState)
catfun
state <- mkStateFromInts ints gr st0
return $ loc2tree state

24
src/GF/UseGrammar/Session.hs
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@@ -2,8 +2,9 @@ module Session where
import Abstract
import Option
---- import Custom
import Custom
import Editing
import ShellState ---- grammar
import Operations
@@ -50,6 +51,9 @@ changeMsg m ((s,ts,(_,b)):ss) = (s,ts,(m,b)) : ss -- just change message
changeView :: ECommand
changeView ((s,ts,(m,(v,b))):ss) = (s,ts,(m,(v+1,b))) : ss -- toggle view
withMsg :: [String] -> ECommand -> ECommand
withMsg m c = changeMsg m . c
changeStOptions :: (Options -> Options) -> ECommand
changeStOptions f ((s,ts,(m,(v,o))):ss) = (s,ts,(m,(v, f o))) : ss
@@ -90,21 +94,25 @@ refineByExps der gr trees = case trees of
[t] -> action2commandNext (refineWithExpTC der gr t)
_ -> changeCands trees
refineByTrees :: Bool -> CGrammar -> [Tree] -> ECommand
refineByTrees der gr trees = case trees of
[t] -> action2commandNext (refineWithTree der gr t)
_ -> changeCands $ map tree2exp trees
replaceByTrees :: CGrammar -> [Exp] -> ECommand
replaceByTrees gr trees = case trees of
[t] -> action2commandNext (\s ->
annotateExpInState gr t s >>= flip replaceSubTree s)
_ -> changeCands trees
{- ----
replaceByEditCommand :: CGrammar -> String -> ECommand
replaceByEditCommand :: StateGrammar -> String -> ECommand
replaceByEditCommand gr co =
action2command $
maybe return ($ gr) $
lookupCustom customEditCommand (strCI co)
replaceByTermCommand :: CGrammar -> String -> Exp -> ECommand
replaceByTermCommand gr co exp =
replaceByTrees gr $ maybe [exp] (\f -> f (abstractOf gr) exp) $
lookupCustom customTermCommand (strCI co)
-}
replaceByTermCommand :: Bool -> StateGrammar -> String -> Tree -> ECommand ----
replaceByTermCommand der gr co exp =
let g = grammar gr in
refineByTrees der g $ maybe [exp] (\f -> f gr exp) $
lookupCustom customTermCommand (strCI co)

2
src/Today.hs
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@@ -1 +1 @@
module Today where today = "Mon Sep 22 15:54:44 CEST 2003"
module Today where today = "Wed Sep 24 17:15:34 CEST 2003"