{-# LANGUAGE CPP #-} {-# OPTIONS_GHC -fno-cse #-} {-# OPTIONS_GHC -fno-warn-orphans #-} module Agda.Interaction.InteractionTop ( module Agda.Interaction.InteractionTop ) where import Prelude hiding (null) import Control.Applicative hiding (empty) import Control.Concurrent import Control.Concurrent.Async import Control.Concurrent.STM.TChan import Control.Concurrent.STM.TVar import qualified Control.Exception as E import Control.Monad.Identity import Control.Monad.Reader import Control.Monad.State import Control.Monad.STM import qualified Data.Char as Char import Data.Foldable (Foldable) import Data.Function import qualified Data.List as List import Data.Maybe import Data.Map (Map) import qualified Data.Map as Map import Data.Monoid import Data.Traversable (Traversable) import qualified Data.Traversable as Trav import System.Directory import System.FilePath import Agda.TypeChecking.Monad as TM hiding (initState, setCommandLineOptions) import qualified Agda.TypeChecking.Monad as TM import qualified Agda.TypeChecking.Pretty as TCP import Agda.TypeChecking.Rules.Term (checkExpr, isType_) import Agda.TypeChecking.Errors import Agda.Syntax.Fixity import Agda.Syntax.Position import Agda.Syntax.Parser import Agda.Syntax.Common import Agda.Syntax.Literal import Agda.Syntax.Concrete as C import Agda.Syntax.Concrete.Generic as C import Agda.Syntax.Concrete.Pretty () import Agda.Syntax.Abstract as A import Agda.Syntax.Abstract.Pretty import qualified Agda.Syntax.Internal as I import Agda.Syntax.Info (mkDefInfo) import Agda.Syntax.Translation.ConcreteToAbstract import Agda.Syntax.Translation.AbstractToConcrete hiding (withScope) import Agda.Syntax.Scope.Base import Agda.Interaction.FindFile import Agda.Interaction.Options import Agda.Interaction.Options.Lenses as Lenses import Agda.Interaction.MakeCase import Agda.Interaction.SearchAbout import Agda.Interaction.Response hiding (Function, ExtendedLambda) import qualified Agda.Interaction.Response as R import qualified Agda.Interaction.BasicOps as B import Agda.Interaction.BasicOps hiding (whyInScope) import Agda.Interaction.Highlighting.Precise hiding (Error, Postulate) import qualified Agda.Interaction.Imports as Imp import Agda.TypeChecking.Warnings import Agda.Interaction.Highlighting.Generate import qualified Agda.Interaction.Highlighting.LaTeX as LaTeX import qualified Agda.Interaction.Highlighting.Range as H import Agda.Compiler.Common (IsMain (..)) import Agda.Compiler.Backend import Agda.Auto.Auto as Auto import Agda.Utils.Except ( ExceptT , mkExceptT , MonadError(catchError, throwError) , runExceptT ) import Agda.Utils.Either import Agda.Utils.FileName import Agda.Utils.Function import Agda.Utils.Hash import qualified Agda.Utils.HashMap as HMap import Agda.Utils.Lens import Agda.Utils.Maybe import qualified Agda.Utils.Maybe.Strict as Strict import Agda.Utils.Monad import Agda.Utils.Null import Agda.Utils.Pretty as P import Agda.Utils.String import Agda.Utils.Time import Agda.Utils.Tuple #include "undefined.h" import Agda.Utils.Impossible ------------------------------------------------------------------------ -- The CommandM monad -- | Auxiliary state of an interactive computation. data CommandState = CommandState { theInteractionPoints :: [InteractionId] -- ^ The interaction points of the buffer, in the order in which -- they appear in the buffer. The interaction points are -- recorded in 'theTCState', but when new interaction points are -- added by give or refine Agda does not ensure that the ranges -- of later interaction points are updated. , theCurrentFile :: Maybe (AbsolutePath, ClockTime) -- ^ The file which the state applies to. Only stored if the -- module was successfully type checked (potentially with -- warnings). The 'ClockTime' is the modification time stamp of -- the file when it was last loaded. , optionsOnReload :: CommandLineOptions -- ^ Reset the options on each reload to these. , oldInteractionScopes :: !OldInteractionScopes -- ^ We remember (the scope of) old interaction points to make it -- possible to parse and compute highlighting information for the -- expression that it got replaced by. , commandQueue :: !CommandQueue -- ^ The command queue. -- -- This queue should only be manipulated by -- 'initialiseCommandQueue' and 'maybeAbort'. } type OldInteractionScopes = Map InteractionId ScopeInfo -- | Initial auxiliary interaction state initCommandState :: CommandQueue -> CommandState initCommandState commandQueue = CommandState { theInteractionPoints = [] , theCurrentFile = Nothing , optionsOnReload = defaultOptions , oldInteractionScopes = Map.empty , commandQueue = commandQueue } -- | Monad for computing answers to interactive commands. -- -- 'CommandM' is 'TCM' extended with state 'CommandState'. type CommandM = StateT CommandState TCM -- | Restore both 'TCState' and 'CommandState'. localStateCommandM :: CommandM a -> CommandM a localStateCommandM m = do cSt <- get tcSt <- getTC x <- m putTC tcSt put cSt return x -- | Restore 'TCState', do not touch 'CommandState'. liftLocalState :: TCM a -> CommandM a liftLocalState = lift . localTCState -- | Build an opposite action to 'lift' for state monads. revLift :: MonadState st m => (forall c . m c -> st -> k (c, st)) -- ^ run -> (forall b . k b -> m b) -- ^ lift -> (forall x . (m a -> k x) -> k x) -> m a -- ^ reverse lift in double negative position revLift run lift f = do st <- get (a, st) <- lift $ f (`run` st) put st return a revLiftTC :: MonadTCState m => (forall c . m c -> TCState -> k (c, TCState)) -- ^ run -> (forall b . k b -> m b) -- ^ lift -> (forall x . (m a -> k x) -> k x) -> m a -- ^ reverse lift in double negative position revLiftTC run lift f = do st <- getTC (a, st) <- lift $ f (`run` st) putTC st return a -- | Opposite of 'liftIO' for 'CommandM'. -- Use only if main errors are already catched. commandMToIO :: (forall x . (CommandM a -> IO x) -> IO x) -> CommandM a commandMToIO ci_i = revLift runStateT lift $ \ct -> revLiftTC runSafeTCM liftIO $ ci_i . (. ct) -- | Lift a TCM action transformer to a CommandM action transformer. liftCommandMT :: (forall a . TCM a -> TCM a) -> CommandM a -> CommandM a liftCommandMT f m = revLift runStateT lift $ f . ($ m) -- | Ditto, but restore state. liftCommandMTLocalState :: (forall a . TCM a -> TCM a) -> CommandM a -> CommandM a liftCommandMTLocalState f = liftCommandMT f . localStateCommandM -- | Put a response by the callback function given by 'stInteractionOutputCallback'. putResponse :: Response -> CommandM () putResponse = lift . appInteractionOutputCallback -- | A Lens for 'theInteractionPoints'. modifyTheInteractionPoints :: ([InteractionId] -> [InteractionId]) -> CommandM () modifyTheInteractionPoints f = modify $ \ s -> s { theInteractionPoints = f (theInteractionPoints s) } -- * Operations for manipulating 'oldInteractionScopes'. -- | A Lens for 'oldInteractionScopes'. modifyOldInteractionScopes :: (OldInteractionScopes -> OldInteractionScopes) -> CommandM () modifyOldInteractionScopes f = modify $ \ s -> s { oldInteractionScopes = f $ oldInteractionScopes s } insertOldInteractionScope :: InteractionId -> ScopeInfo -> CommandM () insertOldInteractionScope ii scope = do lift $ reportSLn "interaction.scope" 20 $ "inserting old interaction scope " ++ show ii modifyOldInteractionScopes $ Map.insert ii scope removeOldInteractionScope :: InteractionId -> CommandM () removeOldInteractionScope ii = do lift $ reportSLn "interaction.scope" 20 $ "removing old interaction scope " ++ show ii modifyOldInteractionScopes $ Map.delete ii getOldInteractionScope :: InteractionId -> CommandM ScopeInfo getOldInteractionScope ii = do ms <- gets $ Map.lookup ii . oldInteractionScopes case ms of Nothing -> fail $ "not an old interaction point: " ++ show ii Just scope -> return scope -- | Do setup and error handling for a command. handleCommand_ :: CommandM () -> CommandM () handleCommand_ = handleCommand id (return ()) handleCommand :: (forall a. CommandM a -> CommandM a) -> CommandM () -> CommandM () -> CommandM () handleCommand wrap onFail cmd = handleNastyErrors $ wrap $ do oldState <- getTC -- -- Andreas, 2016-11-18 OLD CODE: -- -- onFail and handleErr are executed in "new" command state (not TCState). -- -- But it seems that if an exception is raised, it is identical to the old state, -- -- see code for catchErr. -- res <- (`catchErr` (return . Just)) $ Nothing <$ cmd -- maybe (return ()) (\ e -> onFail >> handleErr e) res -- Andreas, 2016-11-18 NEW CODE: execute onFail and handleErr in handler -- which means (looking at catchErr) they run in state s rathern than s'. -- Yet, it looks like s == s' in case the command failed. cmd `catchErr` \ e -> do onFail handleErr e -- Andreas, 2016-11-18, issue #2174 -- Reset TCState after error is handled, to get rid of metas created during failed command lift $ do newPersistentState <- useTC lensPersistentState putTC oldState lensPersistentState `setTCLens` newPersistentState where -- Preserves state so we can do unsolved meta highlighting catchErr :: CommandM a -> (TCErr -> CommandM a) -> CommandM a catchErr m h = do s <- get (x, s') <- lift $ do runStateT m s `catchError_` \ e -> runStateT (h e) s put s' return x -- | Handle every possible kind of error (#637), except for -- ThreadKilled, which is used to abort Agda. handleNastyErrors :: CommandM () -> CommandM () handleNastyErrors m = commandMToIO $ \ toIO -> do let handle e = Right <$> (toIO $ handleErr $ Exception noRange $ text $ show e) asyncHandler e@AsyncCancelled = return (Left e) generalHandler (e :: E.SomeException) = handle e r <- ((Right <$> toIO m) `E.catch` asyncHandler) `E.catch` generalHandler case r of Right x -> return x Left e -> E.throwIO e -- | Displays an error and instructs Emacs to jump to the site of the -- error. Because this function may switch the focus to another file -- the status information is also updated. handleErr e = do unsolvedNotOK <- lift $ not . optAllowUnsolved <$> pragmaOptions meta <- lift $ computeUnsolvedMetaWarnings constr <- lift $ computeUnsolvedConstraints err <- lift $ errorHighlighting e modFile <- lift $ useTC stModuleToSource method <- lift $ viewTC eHighlightingMethod let info = compress $ mconcat $ -- Errors take precedence over unsolved things. err : if unsolvedNotOK then [meta, constr] else [] s1 <- lift $ prettyError e s2 <- lift $ prettyTCWarnings' =<< Imp.getAllWarningsOfTCErr e let strErr = if null s2 then s1 else delimiter "Error" ++ "\n" ++ s1 let strWarn = List.intercalate "\n" $ delimiter "Warning(s)" : filter (not . null) s2 let str = if null s2 then strErr else strErr ++ "\n\n" ++ strWarn x <- lift $ optShowImplicit <$> useTC stPragmaOptions unless (null s1) $ mapM_ putResponse $ [ Resp_DisplayInfo $ Info_Error str ] ++ tellEmacsToJumpToError (getRange e) ++ [ Resp_HighlightingInfo info KeepHighlighting method modFile ] ++ [ Resp_Status $ Status { sChecked = False , sShowImplicitArguments = x } ] -- | Run an 'IOTCM' value, catch the exceptions, emit output -- -- If an error happens the state of 'CommandM' does not change, -- but stPersistent may change (which contains successfully -- loaded interfaces for example). runInteraction :: IOTCM -> CommandM () runInteraction (IOTCM current highlighting highlightingMethod cmd) = handleCommand inEmacs onFail $ do current <- liftIO $ absolute current -- Raises an error if the given file is not the one currently -- loaded. cf <- gets theCurrentFile when (not (independent cmd) && Just current /= (fst <$> cf)) $ lift $ typeError $ GenericError "Error: First load the file." withCurrentFile $ interpret cmd cf <- gets theCurrentFile when (updateInteractionPointsAfter cmd && Just current == (fst <$> cf)) $ putResponse . Resp_InteractionPoints =<< gets theInteractionPoints where inEmacs = liftCommandMT $ withEnv $ initEnv { envHighlightingLevel = highlighting , envHighlightingMethod = highlightingMethod } -- If an independent command fails we should reset theCurrentFile (Issue853). onFail | independent cmd = modify $ \ s -> s { theCurrentFile = Nothing } | otherwise = return () ------------------------------------------------------------------------ -- Command queues -- | A generalised command type. data Command' a = Command !a -- ^ A command. | Done -- ^ Stop processing commands. | Error String -- ^ An error message for a command that could not be parsed. deriving Show -- | IOTCM commands. type Command = Command' IOTCM -- | Command queues. data CommandQueue = CommandQueue { commands :: !(TChan (Integer, Command)) -- ^ Commands that should be processed, in the order in which they -- should be processed. Each command is associated with a number, -- and the numbers are strictly increasing. Abort commands are not -- put on this queue. , abort :: !(TVar (Maybe Integer)) -- ^ When this variable is set to @Just n@ an attempt is made to -- abort all commands with a command number that is at most @n@. } -- | If the next command from the command queue is anything but an -- actual command, then the command is returned. -- -- If the command is an 'IOTCM' command, then the following happens: -- The given computation is applied to the command and executed. If an -- abort command is encountered (and acted upon), then the computation -- is interrupted, the persistent state and all options are restored, -- and some commands are sent to the frontend. If the computation was -- not interrupted, then its result is returned. -- TODO: It might be nice if some of the changes to the persistent -- state inflicted by the interrupted computation were preserved. maybeAbort :: (IOTCM -> CommandM a) -> CommandM (Command' (Maybe a)) maybeAbort m = do commandState <- get let q = commandQueue commandState (n, c) <- liftIO $ atomically $ readTChan (commands q) case c of Done -> return Done Error e -> return (Error e) Command c -> do tcState <- getTC tcEnv <- askTC result <- liftIO $ race (runTCM tcEnv tcState $ runStateT (m c) commandState) (waitForAbort n q) case result of Left ((x, commandState), tcState) -> do putTC tcState put commandState return (Command (Just x)) Right a -> do liftIO $ popAbortedCommands q a putTC $ initState { stPersistentState = stPersistentState tcState , stPreScopeState = (stPreScopeState initState) { stPrePragmaOptions = stPrePragmaOptions (stPreScopeState tcState) } } put $ (initCommandState (commandQueue commandState)) { optionsOnReload = optionsOnReload commandState } putResponse Resp_DoneAborting displayStatus return (Command Nothing) where -- | Returns if the currently executing command should be aborted. -- The "abort number" is returned. waitForAbort :: Integer -- ^ The number of the currently executing command. -> CommandQueue -- ^ The command queue. -> IO Integer waitForAbort n q = do atomically $ do a <- readTVar (abort q) case a of Just a | n <= a -> return a _ -> retry -- | Removes every command for which the command number is at most -- the given number (the "abort number") from the command queue. -- -- New commands could be added to the end of the queue while this -- computation is running. This does not lead to a race condition, -- because those commands have higher command numbers, so they will -- not be removed. popAbortedCommands :: CommandQueue -> Integer -> IO () popAbortedCommands q n = do done <- atomically $ do c <- tryReadTChan (commands q) case c of Nothing -> return True Just c -> if fst c <= n then return False else do unGetTChan (commands q) c return True unless done $ popAbortedCommands q n -- | Creates a command queue, and forks a thread that writes commands -- to the queue. The queue is returned. initialiseCommandQueue :: IO Command -- ^ Returns the next command. -> IO CommandQueue initialiseCommandQueue next = do commands <- newTChanIO abort <- newTVarIO Nothing let -- Read commands. The argument is the number of the previous -- command (other than abort commands) that was read, if any. readCommands n = do c <- next case c of Command (IOTCM _ _ _ Cmd_abort) -> do atomically $ writeTVar abort (Just n) readCommands n _ -> do n <- return (succ n) atomically $ writeTChan commands (n, c) case c of Done -> return () _ -> readCommands n _ <- forkIO (readCommands 0) return (CommandQueue { .. }) ---------------------------------------------------------------------------- -- | An interactive computation. type Interaction = Interaction' Range data Interaction' range -- | @cmd_load m argv@ loads the module in file @m@, using -- @argv@ as the command-line options. = Cmd_load FilePath [String] -- | @cmd_compile b m argv@ compiles the module in file @m@ using -- the backend @b@, using @argv@ as the command-line options. | Cmd_compile CompilerBackend FilePath [String] | Cmd_constraints -- | Show unsolved metas. If there are no unsolved metas but unsolved constraints -- show those instead. | Cmd_metas -- | Shows all the top-level names in the given module, along with -- their types. Uses the top-level scope. | Cmd_show_module_contents_toplevel B.Rewrite String -- | Shows all the top-level names in scope which mention all the given -- identifiers in their type. | Cmd_search_about_toplevel B.Rewrite String -- | Solve (all goals / the goal at point) whose values are determined by -- the constraints. | Cmd_solveAll B.Rewrite | Cmd_solveOne B.Rewrite InteractionId range String -- | Solve (all goals / the goal at point) by using Auto. | Cmd_autoOne InteractionId range String | Cmd_autoAll -- | Parse the given expression (as if it were defined at the -- top-level of the current module) and infer its type. | Cmd_infer_toplevel B.Rewrite -- Normalise the type? String -- | Parse and type check the given expression (as if it were defined -- at the top-level of the current module) and normalise it. | Cmd_compute_toplevel B.ComputeMode String ------------------------------------------------------------------------ -- Syntax highlighting -- | @cmd_load_highlighting_info source@ loads syntax highlighting -- information for the module in @source@, and asks Emacs to apply -- highlighting info from this file. -- -- If the module does not exist, or its module name is malformed or -- cannot be determined, or the module has not already been visited, -- or the cached info is out of date, then no highlighting information -- is printed. -- -- This command is used to load syntax highlighting information when a -- new file is opened, and it would probably be annoying if jumping to -- the definition of an identifier reset the proof state, so this -- command tries not to do that. One result of this is that the -- command uses the current include directories, whatever they happen -- to be. | Cmd_load_highlighting_info FilePath -- | Tells Agda to compute token-based highlighting information -- for the file. -- -- This command works even if the file's module name does not -- match its location in the file system, or if the file is not -- scope-correct. Furthermore no file names are put in the -- generated output. Thus it is fine to put source code into a -- temporary file before calling this command. However, the file -- extension should be correct. -- -- If the second argument is 'Remove', then the (presumably -- temporary) file is removed after it has been read. | Cmd_tokenHighlighting FilePath Remove -- | Tells Agda to compute highlighting information for the expression just -- spliced into an interaction point. | Cmd_highlight InteractionId range String ------------------------------------------------------------------------ -- Implicit arguments -- | Tells Agda whether or not to show implicit arguments. | ShowImplicitArgs Bool -- Show them? -- | Toggle display of implicit arguments. | ToggleImplicitArgs ------------------------------------------------------------------------ -- | Goal commands -- -- If the range is 'noRange', then the string comes from the -- minibuffer rather than the goal. | Cmd_give UseForce InteractionId range String | Cmd_refine InteractionId range String | Cmd_intro Bool InteractionId range String | Cmd_refine_or_intro Bool InteractionId range String | Cmd_context B.Rewrite InteractionId range String | Cmd_helper_function B.Rewrite InteractionId range String | Cmd_infer B.Rewrite InteractionId range String | Cmd_goal_type B.Rewrite InteractionId range String -- | Grabs the current goal's type and checks the expression in the hole -- against it. Returns the elaborated term. | Cmd_elaborate_give B.Rewrite InteractionId range String -- | Displays the current goal and context. | Cmd_goal_type_context B.Rewrite InteractionId range String -- | Displays the current goal and context /and/ infers the type of an -- expression. | Cmd_goal_type_context_infer B.Rewrite InteractionId range String -- | Grabs the current goal's type and checks the expression in the hole -- against it. | Cmd_goal_type_context_check B.Rewrite InteractionId range String -- | Shows all the top-level names in the given module, along with -- their types. Uses the scope of the given goal. | Cmd_show_module_contents B.Rewrite InteractionId range String | Cmd_make_case InteractionId range String | Cmd_compute B.ComputeMode InteractionId range String | Cmd_why_in_scope InteractionId range String | Cmd_why_in_scope_toplevel String -- | Displays version of the running Agda | Cmd_show_version | Cmd_abort -- ^ Abort the current computation. -- -- Does nothing if no computation is in progress. deriving (Show, Read, Functor, Foldable, Traversable) type IOTCM = IOTCM' Range data IOTCM' range = IOTCM FilePath -- -^ The current file. If this file does not match -- 'theCurrentFile, and the 'Interaction' is not -- \"independent\", then an error is raised. HighlightingLevel HighlightingMethod (Interaction' range) -- -^ What to do deriving (Show, Read, Functor, Foldable, Traversable) -- | Used to indicate whether something should be removed or not. data Remove = Remove | Keep deriving (Show, Read) --------------------------------------------------------- -- Read instances -- | The 'Parse' monad. -- 'StateT' state holds the remaining input. type Parse a = ExceptT String (StateT String Identity) a -- | Converter from the type of 'reads' to 'Parse' -- The first paramter is part of the error message -- in case the parse fails. readsToParse :: String -> (String -> Maybe (a, String)) -> Parse a readsToParse s f = do st <- lift get case f st of Nothing -> throwError s Just (a, st) -> do lift $ put st return a parseToReadsPrec :: Parse a -> Int -> String -> [(a, String)] parseToReadsPrec p i s = case runIdentity . flip runStateT s . runExceptT $ parens' p of (Right a, s) -> [(a,s)] _ -> [] -- | Demand an exact string. exact :: String -> Parse () exact s = readsToParse (show s) $ fmap (\x -> ((),x)) . List.stripPrefix s . dropWhile (==' ') readParse :: Read a => Parse a readParse = readsToParse "read failed" $ listToMaybe . reads parens' :: Parse a -> Parse a parens' p = do exact "(" x <- p exact ")" return x `mplus` p instance Read InteractionId where readsPrec = parseToReadsPrec $ fmap InteractionId readParse -- | Note that the grammar implemented by this instance does not -- necessarily match the current representation of ranges. instance Read a => Read (Range' a) where readsPrec = parseToReadsPrec $ (exact "intervalsToRange" >> liftM2 intervalsToRange readParse readParse) `mplus` (exact "noRange" >> return noRange) instance Read a => Read (Interval' a) where readsPrec = parseToReadsPrec $ do exact "Interval" liftM2 Interval readParse readParse instance Read AbsolutePath where readsPrec = parseToReadsPrec $ do exact "mkAbsolute" fmap mkAbsolute readParse instance Read a => Read (Position' a) where readsPrec = parseToReadsPrec $ do exact "Pn" liftM4 Pn readParse readParse readParse readParse --------------------------------------------------------- -- | Can the command run even if the relevant file has not been loaded -- into the state? independent :: Interaction -> Bool independent (Cmd_load {}) = True independent (Cmd_compile {}) = True independent (Cmd_load_highlighting_info {}) = True independent Cmd_tokenHighlighting {} = True independent Cmd_show_version = True independent _ = False -- | Should 'Resp_InteractionPoints' be issued after the command has -- run? updateInteractionPointsAfter :: Interaction -> Bool updateInteractionPointsAfter Cmd_load{} = True updateInteractionPointsAfter Cmd_compile{} = True updateInteractionPointsAfter Cmd_constraints{} = False updateInteractionPointsAfter Cmd_metas{} = False updateInteractionPointsAfter Cmd_show_module_contents_toplevel{} = False updateInteractionPointsAfter Cmd_search_about_toplevel{} = False updateInteractionPointsAfter Cmd_solveAll{} = True updateInteractionPointsAfter Cmd_solveOne{} = True updateInteractionPointsAfter Cmd_infer_toplevel{} = False updateInteractionPointsAfter Cmd_compute_toplevel{} = False updateInteractionPointsAfter Cmd_load_highlighting_info{} = False updateInteractionPointsAfter Cmd_tokenHighlighting{} = False updateInteractionPointsAfter Cmd_highlight{} = True updateInteractionPointsAfter ShowImplicitArgs{} = False updateInteractionPointsAfter ToggleImplicitArgs{} = False updateInteractionPointsAfter Cmd_give{} = True updateInteractionPointsAfter Cmd_refine{} = True updateInteractionPointsAfter Cmd_intro{} = True updateInteractionPointsAfter Cmd_refine_or_intro{} = True updateInteractionPointsAfter Cmd_autoOne{} = True updateInteractionPointsAfter Cmd_autoAll{} = True updateInteractionPointsAfter Cmd_context{} = False updateInteractionPointsAfter Cmd_helper_function{} = False updateInteractionPointsAfter Cmd_infer{} = False updateInteractionPointsAfter Cmd_goal_type{} = False updateInteractionPointsAfter Cmd_elaborate_give{} = True updateInteractionPointsAfter Cmd_goal_type_context{} = False updateInteractionPointsAfter Cmd_goal_type_context_infer{} = False updateInteractionPointsAfter Cmd_goal_type_context_check{} = False updateInteractionPointsAfter Cmd_show_module_contents{} = False updateInteractionPointsAfter Cmd_make_case{} = True updateInteractionPointsAfter Cmd_compute{} = False updateInteractionPointsAfter Cmd_why_in_scope{} = False updateInteractionPointsAfter Cmd_why_in_scope_toplevel{} = False updateInteractionPointsAfter Cmd_show_version{} = False updateInteractionPointsAfter Cmd_abort{} = False -- | Interpret an interaction interpret :: Interaction -> CommandM () interpret (Cmd_load m argv) = cmd_load' m argv True Imp.TypeCheck $ \_ -> interpret Cmd_metas interpret (Cmd_compile b file argv) = cmd_load' file argv (b `elem` [LaTeX, QuickLaTeX]) (if b == QuickLaTeX then Imp.ScopeCheck else Imp.TypeCheck) $ \(i, mw) -> do mw <- lift $ Imp.applyFlagsToMaybeWarnings mw case mw of Imp.NoWarnings -> do lift $ case b of LaTeX -> LaTeX.generateLaTeX i QuickLaTeX -> LaTeX.generateLaTeX i OtherBackend "GHCNoMain" -> callBackend "GHC" NotMain i -- for backwards compatibility OtherBackend b -> callBackend b IsMain i (pwe, pwa) <- interpretWarnings display_info $ Info_CompilationOk pwa pwe Imp.SomeWarnings w -> do pw <- lift $ prettyTCWarnings w display_info $ Info_Error $ unlines [ "You need to fix the following errors before you can compile" , "the module:" , "" , pw ] interpret Cmd_constraints = display_info . Info_Constraints . show . vcat . map pretty =<< lift B.getConstraints interpret Cmd_metas = do -- CL.showMetas [] unsolvedNotOK <- lift $ not . optAllowUnsolved <$> pragmaOptions ms <- lift showOpenMetas (pwe, pwa) <- interpretWarnings display_info $ Info_AllGoalsWarnings (unlines ms) pwa pwe interpret (Cmd_show_module_contents_toplevel norm s) = liftCommandMT B.atTopLevel $ showModuleContents norm noRange s interpret (Cmd_search_about_toplevel norm s) = liftCommandMT B.atTopLevel $ searchAbout norm noRange s interpret (Cmd_solveAll norm) = solveInstantiatedGoals norm Nothing interpret (Cmd_solveOne norm ii _ _) = solveInstantiatedGoals norm' (Just ii) -- `solveOne` is called via `agda2-maybe-normalised` which does not use -- AsIs < Simplified < Normalised but rather Simplified < Instantiated < Normalised -- So we remap the Rewrite modifiers to match solveAll's behaviour. -- NB: instantiate is called in getSolvedInteractionPoints no matter what. where norm' = case norm of Simplified -> AsIs Instantiated -> Simplified _ -> norm interpret (Cmd_infer_toplevel norm s) = parseAndDoAtToplevel (prettyA <=< B.typeInCurrent norm) Info_InferredType s interpret (Cmd_compute_toplevel cmode s) = parseAndDoAtToplevel action Info_NormalForm $ computeWrapInput cmode s where action = allowNonTerminatingReductions . (if computeIgnoreAbstract cmode then ignoreAbstractMode else inConcreteMode) . (B.showComputed cmode <=< B.evalInCurrent) interpret (ShowImplicitArgs showImpl) = do opts <- lift commandLineOptions setCommandLineOpts $ opts { optPragmaOptions = (optPragmaOptions opts) { optShowImplicit = showImpl } } interpret ToggleImplicitArgs = do opts <- lift commandLineOptions let ps = optPragmaOptions opts setCommandLineOpts $ opts { optPragmaOptions = ps { optShowImplicit = not $ optShowImplicit ps } } interpret (Cmd_load_highlighting_info source) = do l <- asksTC envHighlightingLevel when (l /= None) $ do -- Make sure that the include directories have -- been set. setCommandLineOpts =<< lift commandLineOptions resp <- lift $ liftIO . tellToUpdateHighlighting =<< do ex <- liftIO $ doesFileExist source absSource <- liftIO $ absolute source case ex of False -> return Nothing True -> (do si <- Imp.sourceInfo absSource let m = Imp.siModuleName si checkModuleName m absSource Nothing mmi <- getVisitedModule m case mmi of Nothing -> return Nothing Just mi -> if hashText (Imp.siSource si) == iSourceHash (miInterface mi) then do modFile <- useTC stModuleToSource method <- viewTC eHighlightingMethod return $ Just (iHighlighting $ miInterface mi, method, modFile) else return Nothing) `catchError` \_ -> return Nothing mapM_ putResponse resp interpret (Cmd_tokenHighlighting source remove) = do info <- do l <- asksTC envHighlightingLevel if l == None then return Nothing else do source <- liftIO (absolute source) lift $ (Just <$> generateTokenInfo source) `catchError` \_ -> return Nothing `finally` case remove of Remove -> liftIO $ removeFile source Keep -> return () case info of Just info -> lift $ printHighlightingInfo RemoveHighlighting info Nothing -> return () interpret (Cmd_highlight ii rng s) = do l <- asksTC envHighlightingLevel when (l /= None) $ do scope <- getOldInteractionScope ii removeOldInteractionScope ii handle $ do e <- try ("Highlighting failed to parse expression in " ++ show ii) $ B.parseExpr rng s e <- try ("Highlighting failed to scope check expression in " ++ show ii) $ concreteToAbstract scope e lift $ printHighlightingInfo KeepHighlighting =<< generateTokenInfoFromString rng s lift $ highlightExpr e where handle :: ExceptT String TCM () -> CommandM () handle m = do res <- lift $ runExceptT m case res of Left s -> display_info $ Info_Error s Right _ -> return () try :: String -> TCM a -> ExceptT String TCM a try err m = mkExceptT $ do (mapLeft (const err) <$> freshTCM m) `catchError` \ _ -> return (Left err) -- freshTCM to avoid scope checking creating new interaction points interpret (Cmd_give force ii rng s) = give_gen force ii rng s Give interpret (Cmd_refine ii rng s) = give_gen WithoutForce ii rng s Refine interpret (Cmd_intro pmLambda ii rng _) = do ss <- lift $ B.introTactic pmLambda ii liftCommandMT (B.withInteractionId ii) $ case ss of [] -> do display_info $ Info_Intro $ "No introduction forms found." [s] -> give_gen WithoutForce ii rng s Intro _:_:_ -> do display_info $ Info_Intro $ sep [ "Don't know which constructor to introduce of" , let mkOr [] = [] mkOr [x, y] = [text x <+> "or" <+> text y] mkOr (x:xs) = text x : mkOr xs in nest 2 $ fsep $ punctuate comma (mkOr ss) ] interpret (Cmd_refine_or_intro pmLambda ii r s) = interpret $ let s' = trim s in (if null s' then Cmd_intro pmLambda else Cmd_refine) ii r s' interpret (Cmd_autoOne ii rng s) = do -- Andreas, 2014-07-05 Issue 1226: -- Save the state to have access to even those interaction ids -- that Auto solves (since Auto gives the solution right away). st <- getTC (time , res) <- maybeTimed $ Auto.auto ii rng s case autoProgress res of Solutions sols -> do lift $ reportSLn "auto" 10 $ "Auto produced the following solutions " ++ show sols forM_ sols $ \(ii, s) -> do -- Andreas, 2014-07-05 Issue 1226: -- For highlighting, Resp_GiveAction needs to access -- the @oldInteractionScope@s of the interaction points solved by Auto. -- We dig them out from the state before Auto was invoked. insertOldInteractionScope ii =<< liftLocalState (putTC st >> getInteractionScope ii) -- Andreas, 2014-07-07: NOT TRUE: -- -- Andreas, 2014-07-05: The following should be obsolete, -- -- as Auto has removed the interaction points already: -- modifyTheInteractionPoints $ filter (/= ii) putResponse $ Resp_GiveAction ii $ Give_String s -- Andreas, 2014-07-07: Remove the interaction points in one go. modifyTheInteractionPoints (List.\\ (map fst sols)) case autoMessage res of Nothing -> interpret Cmd_metas Just msg -> display_info $ Info_Auto msg FunClauses cs -> do case autoMessage res of Nothing -> return () Just msg -> display_info $ Info_Auto msg putResponse $ Resp_MakeCase R.Function cs Refinement s -> give_gen WithoutForce ii rng s Refine maybe (return ()) (display_info . Info_Time) time interpret Cmd_autoAll = do iis <- getInteractionPoints unless (null iis) $ do let time = 1000 `div` length iis st <- getTC solved <- forM iis $ \ ii -> do rng <- getInteractionRange ii res <- Auto.auto ii rng ("-t " ++ show time ++ "ms") case autoProgress res of Solutions sols -> forM sols $ \ (jj, s) -> do oldInteractionScope <- liftLocalState (putTC st >> getInteractionScope jj) insertOldInteractionScope jj oldInteractionScope putResponse $ Resp_GiveAction ii $ Give_String s return jj _ -> return [] modifyTheInteractionPoints (List.\\ concat solved) interpret (Cmd_context norm ii _ _) = display_info . Info_Context =<< liftLocalState (prettyContext norm False ii) interpret (Cmd_helper_function norm ii rng s) = display_info . Info_HelperFunction =<< liftLocalState (cmd_helper_function norm ii rng s) interpret (Cmd_infer norm ii rng s) = display_info . Info_InferredType =<< liftLocalState (B.withInteractionId ii (prettyATop =<< B.typeInMeta ii norm =<< B.parseExprIn ii rng s)) interpret (Cmd_goal_type norm ii _ _) = display_info . Info_CurrentGoal =<< liftLocalState (B.withInteractionId ii $ prettyTypeOfMeta norm ii) interpret (Cmd_elaborate_give norm ii rng s) = do have <- liftLocalState $ B.withInteractionId ii $ do expr <- B.parseExprIn ii rng s goal <- B.typeOfMeta AsIs ii term <- case goal of OfType _ ty -> checkExpr expr =<< isType_ ty _ -> __IMPOSSIBLE__ nf <- normalForm norm term txt <- localTC (\ e -> e { envPrintMetasBare = True }) (TCP.prettyTCM nf) return $ show txt give_gen WithoutForce ii rng have ElaborateGive interpret (Cmd_goal_type_context norm ii rng s) = cmd_goal_type_context_and empty norm ii rng s interpret (Cmd_goal_type_context_infer norm ii rng s) = do -- In case of the empty expression to type, don't fail with -- a stupid parse error, but just fall back to -- Cmd_goal_type_context. have <- if all Char.isSpace s then return empty else liftLocalState $ do typ <- B.withInteractionId ii $ prettyATop =<< B.typeInMeta ii norm =<< B.parseExprIn ii rng s return $ "Have:" <+> typ cmd_goal_type_context_and have norm ii rng s interpret (Cmd_goal_type_context_check norm ii rng s) = do have <- liftLocalState $ B.withInteractionId ii $ do expr <- B.parseExprIn ii rng s goal <- B.typeOfMeta AsIs ii term <- case goal of OfType _ ty -> checkExpr expr =<< isType_ ty _ -> __IMPOSSIBLE__ txt <- TCP.prettyTCM =<< normalForm norm term return $ "Elaborates to:" <+> txt cmd_goal_type_context_and have norm ii rng s interpret (Cmd_show_module_contents norm ii rng s) = liftCommandMT (B.withInteractionId ii) $ showModuleContents norm rng s interpret (Cmd_why_in_scope_toplevel s) = liftCommandMT B.atTopLevel $ whyInScope s interpret (Cmd_why_in_scope ii rng s) = liftCommandMT (B.withInteractionId ii) $ whyInScope s interpret (Cmd_make_case ii rng s) = do (f, casectxt, cs) <- lift $ makeCase ii rng s liftCommandMT (B.withInteractionId ii) $ do hidden <- lift $ showImplicitArguments tel <- lift $ lookupSection (qnameModule f) -- don't shadow the names in this telescope unicode <- getsTC $ optUseUnicode . getPragmaOptions pcs :: [Doc] <- lift $ inTopContext $ addContext tel $ mapM prettyA cs let pcs' :: [String] = List.map (extlam_dropName unicode casectxt . render) pcs lift $ reportSDoc "interaction.case" 60 $ TCP.vcat [ "InteractionTop.Cmd_make_case" , TCP.nest 2 $ TCP.vcat [ "cs = " TCP.<+> TCP.vcat (map prettyA cs) , "pcs = " TCP.<+> TCP.vcat (map return pcs) , "pcs' = " TCP.<+> TCP.vcat (map TCP.text pcs') ] ] lift $ reportSDoc "interaction.case" 90 $ TCP.vcat [ "InteractionTop.Cmd_make_case" , TCP.nest 2 $ TCP.vcat [ "cs = " TCP.<+> TCP.text (show cs) ] ] putResponse $ Resp_MakeCase (makeCaseVariant casectxt) pcs' where render = renderStyle (style { mode = OneLineMode }) makeCaseVariant :: CaseContext -> MakeCaseVariant makeCaseVariant Nothing = R.Function makeCaseVariant Just{} = R.ExtendedLambda -- very dirty hack, string manipulation by dropping the function name -- and replacing the last " = " with " -> ". It's important not to replace -- the equal sign in named implicit with an arrow! extlam_dropName :: Bool -> CaseContext -> String -> String extlam_dropName _ Nothing x = x extlam_dropName unicode Just{} x = unwords $ reverse $ replEquals $ reverse $ drop 1 $ words x where replEquals ("=" : ws) | unicode = "→" : ws | otherwise = "->" : ws replEquals (w : ws) = w : replEquals ws replEquals [] = [] interpret (Cmd_compute cmode ii rng s) = display_info . Info_NormalForm =<< do liftLocalState $ do e <- B.parseExprIn ii rng $ computeWrapInput cmode s B.withInteractionId ii $ do showComputed cmode =<< do applyWhen (computeIgnoreAbstract cmode) ignoreAbstractMode $ B.evalInCurrent e interpret Cmd_show_version = display_info Info_Version interpret Cmd_abort = return () -- | Show warnings interpretWarnings :: CommandM (String, String) interpretWarnings = do mws <- lift $ Imp.getMaybeWarnings AllWarnings case filter isNotMeta <$> mws of Imp.SomeWarnings ws@(_:_) -> do let (we, wa) = classifyWarnings ws pwe <- lift $ prettyTCWarnings we pwa <- lift $ prettyTCWarnings wa return (pwe, pwa) _ -> return ("", "") where isNotMeta w = case tcWarning w of UnsolvedInteractionMetas{} -> False UnsolvedMetaVariables{} -> False _ -> True -- | Solved goals already instantiated internally -- The second argument potentially limits it to one specific goal. solveInstantiatedGoals :: B.Rewrite -> Maybe InteractionId -> CommandM () solveInstantiatedGoals norm mii = do -- Andreas, 2016-10-23 issue #2280: throw away meta elims. out <- lift $ localTC (\ e -> e { envPrintMetasBare = True }) $ do sip <- B.getSolvedInteractionPoints False norm -- only solve metas which have a proper instantiation, i.e., not another meta let sip' = maybe id (\ ii -> filter ((ii ==) . fst3)) mii sip mapM prt sip' putResponse $ Resp_SolveAll out where prt (i, m, e) = do mi <- getMetaInfo <$> lookupMeta m e <- withMetaInfo mi $ abstractToConcreteCtx TopCtx e return (i, e) -- | Print open metas nicely. showOpenMetas :: TCM [String] showOpenMetas = do ims <- B.typesOfVisibleMetas B.AsIs di <- forM ims $ \ i -> B.withInteractionId (B.outputFormId $ B.OutputForm noRange [] i) $ prettyATop i -- Show unsolved implicit arguments simplified. unsolvedNotOK <- not . optAllowUnsolved <$> pragmaOptions hms <- (guard unsolvedNotOK >>) <$> B.typesOfHiddenMetas B.Simplified dh <- mapM showA' hms return $ map show di ++ dh where metaId (B.OfType i _) = i metaId (B.JustType i) = i metaId (B.JustSort i) = i metaId (B.Assign i e) = i metaId _ = __IMPOSSIBLE__ showA' :: B.OutputConstraint A.Expr NamedMeta -> TCM String showA' m = do let i = nmid $ metaId m r <- getMetaRange i d <- B.withMetaId i (prettyATop m) return $ show d ++ " [ at " ++ show r ++ " ]" -- | @cmd_load' file argv unsolvedOk cmd@ -- loads the module in file @file@, -- using @argv@ as the command-line options. -- -- If type checking completes without any exceptions having been -- encountered then the command @cmd r@ is executed, where @r@ is the -- result of 'Imp.typeCheckMain'. cmd_load' :: FilePath -> [String] -> Bool -- ^ Allow unsolved meta-variables? -> Imp.Mode -- ^ Full type-checking, or only -- scope-checking? -> ((Interface, Imp.MaybeWarnings) -> CommandM ()) -> CommandM () cmd_load' file argv unsolvedOK mode cmd = do f <- liftIO $ absolute file ex <- liftIO $ doesFileExist $ filePath f unless ex $ typeError $ GenericError $ "The file " ++ file ++ " was not found." -- Forget the previous "current file" and interaction points. modify $ \ st -> st { theInteractionPoints = [] , theCurrentFile = Nothing } t <- liftIO $ getModificationTime file -- Parse the file. si <- lift (Imp.sourceInfo f) -- All options are reset when a file is reloaded, including the -- choice of whether or not to display implicit arguments. opts0 <- gets optionsOnReload backends <- useTC stBackends z <- liftIO $ runOptM $ parseBackendOptions backends argv opts0 case z of Left err -> lift $ typeError $ GenericError err Right (_, opts) -> do let update o = o { optAllowUnsolved = unsolvedOK && optAllowUnsolved o} root = projectRoot f (Imp.siModuleName si) lift $ TM.setCommandLineOptions' root $ mapPragmaOptions update opts displayStatus -- Reset the state, preserving options and decoded modules. Note -- that if the include directories have changed, then the decoded -- modules are reset when cmd_load' is run by ioTCM. lift resetState -- Clear the info buffer to make room for information about which -- module is currently being type-checked. putResponse Resp_ClearRunningInfo -- Remove any prior syntax highlighting. putResponse (Resp_ClearHighlighting NotOnlyTokenBased) ok <- lift $ Imp.typeCheckMain f mode si -- The module type checked. If the file was not changed while the -- type checker was running then the interaction points and the -- "current file" are stored. t' <- liftIO $ getModificationTime file when (t == t') $ do is <- lift $ sortInteractionPoints =<< getInteractionPoints modify $ \st -> st { theInteractionPoints = is , theCurrentFile = Just (f, t) } cmd ok -- | Set 'envCurrentPath' to 'theCurrentFile', if any. withCurrentFile :: CommandM a -> CommandM a withCurrentFile m = do mfile <- fmap fst <$> gets theCurrentFile localTC (\ e -> e { envCurrentPath = mfile }) m -- | Available backends. data CompilerBackend = LaTeX | QuickLaTeX | OtherBackend String deriving (Eq) instance Show CompilerBackend where show LaTeX = "LaTeX" show QuickLaTeX = "QuickLaTeX" show (OtherBackend s) = s instance Read CompilerBackend where readsPrec _ s = do (t, s) <- lex s let b = case t of "LaTeX" -> LaTeX "QuickLaTeX" -> QuickLaTeX _ -> OtherBackend t return (b, s) data GiveRefine = Give | Refine | Intro | ElaborateGive deriving (Eq, Show) -- | A "give"-like action (give, refine, etc). -- -- @give_gen force ii rng s give_ref mk_newtxt@ -- acts on interaction point @ii@ -- occupying range @rng@, -- placing the new content given by string @s@, -- and replacing @ii@ by the newly created interaction points -- in the state if safety checks pass (unless @force@ is applied). give_gen :: UseForce -- ^ Should safety checks be skipped? -> InteractionId -> Range -> String -> GiveRefine -> CommandM () give_gen force ii rng s0 giveRefine = do let s = trim s0 lift $ reportSLn "interaction.give" 20 $ "give_gen " ++ s -- Andreas, 2015-02-26 if string is empty do nothing rather -- than giving a parse error. unless (null s) $ do let give_ref = case giveRefine of Give -> B.give Refine -> B.refine Intro -> B.refine ElaborateGive -> B.give -- save scope of the interaction point (for printing the given expr. later) scope <- lift $ getInteractionScope ii -- parse string and "give", obtaining an abstract expression -- and newly created interaction points (time, (ae, ae0, iis)) <- maybeTimed $ lift $ do mis <- getInteractionPoints reportSLn "interaction.give" 30 $ "interaction points before = " ++ show mis given <- B.parseExprIn ii rng s ae <- give_ref force ii Nothing given mis' <- getInteractionPoints reportSLn "interaction.give" 30 $ "interaction points after = " ++ show mis' return (ae, given, mis' List.\\ mis) -- favonia: backup the old scope for highlighting insertOldInteractionScope ii scope -- sort the new interaction points and put them into the state -- in replacement of the old interaction point iis <- lift $ sortInteractionPoints iis modifyTheInteractionPoints $ replace ii iis -- print abstract expr ce <- lift $ abstractToConcreteScope scope ae lift $ reportSLn "interaction.give" 30 $ unlines [ "ce = " ++ show ce , "scopePrecedence = " ++ show (scopePrecedence scope) ] -- if the command was @Give@, use the literal user input; -- Andreas, 2014-01-15, see issue 1020: -- Refine could solve a goal by introducing the sole constructor -- without arguments. Then there are no interaction metas, but -- we still cannot just `give' the user string (which may be empty). -- WRONG: also, if no interaction metas were created by @Refine@ -- WRONG: let literally = (giveRefine == Give || null iis) && rng /= noRange -- Ulf, 2015-03-30, if we're doing intro we can't do literal give since -- there is nothing in the hole (issue 1892). let literally = giveRefine /= Intro && giveRefine /= ElaborateGive && ae == ae0 && rng /= noRange -- Ulf, 2014-01-24: This works for give since we're highlighting the string -- that's already in the buffer. Doing it before the give action means that -- the highlighting is moved together with the text when the hole goes away. -- To make it work for refine we'd have to adjust the ranges. when literally $ lift $ do l <- asksTC envHighlightingLevel when (l /= None) $ do printHighlightingInfo KeepHighlighting =<< generateTokenInfoFromString rng s highlightExpr ae putResponse $ Resp_GiveAction ii $ mkNewTxt literally ce lift $ reportSLn "interaction.give" 30 $ "putResponse GiveAction passed" -- display new goal set (if not measuring time) maybe (interpret Cmd_metas) (display_info . Info_Time) time lift $ reportSLn "interaction.give" 30 $ "interpret Cmd_metas passed" where -- Substitutes xs for x in ys. replace x xs ys = concatMap (\ y -> if y == x then xs else [y]) ys -- For @Give@ we can replace the ii by the user given input. mkNewTxt True C.Paren{} = Give_Paren mkNewTxt True _ = Give_NoParen -- Otherwise, we replace it by the reified value Agda computed. mkNewTxt False ce = Give_String $ prettyShow ce highlightExpr :: A.Expr -> TCM () highlightExpr e = localTC (\e -> e { envModuleNestingLevel = 0 , envHighlightingLevel = NonInteractive , envHighlightingMethod = Direct }) $ generateAndPrintSyntaxInfo decl Full True where dummy = mkName_ (NameId 0 0) ("dummy" :: String) info = mkDefInfo (nameConcrete dummy) noFixity' PublicAccess ConcreteDef (getRange e) decl = A.Axiom NoFunSig info defaultArgInfo Nothing (qnameFromList [dummy]) e -- | Sorts interaction points based on their ranges. sortInteractionPoints :: [InteractionId] -> TCM [InteractionId] sortInteractionPoints is = map fst . List.sortBy (compare `on` snd) <$> do forM is $ \ i -> do (i,) <$> getInteractionRange i -- | Pretty-prints the type of the meta-variable. prettyTypeOfMeta :: B.Rewrite -> InteractionId -> TCM Doc prettyTypeOfMeta norm ii = do form <- B.typeOfMeta norm ii case form of B.OfType _ e -> prettyATop e _ -> prettyATop form -- | Pretty-prints the context of the given meta-variable. prettyContext :: B.Rewrite -- ^ Normalise? -> Bool -- ^ Print the elements in reverse order? -> InteractionId -> TCM Doc prettyContext norm rev ii = B.withInteractionId ii $ do ctx <- filter (not . shouldHide) <$> B.contextOfMeta ii norm es <- mapM (prettyATop . B.ofExpr) ctx xs <- mapM (abstractToConcrete_ . B.ofName) ctx let ns = map (nameConcrete . B.ofName) ctx ss = map C.isInScope xs return $ align 10 $ applyWhen rev reverse $ zip (zipWith prettyCtxName ns xs) (zipWith prettyCtxType es ss) where shouldHide (OfType' n e) = isNoName n || nameIsRecordName n prettyCtxName :: C.Name -> C.Name -> String prettyCtxName n x | n == x = prettyShow x | isInScope n == InScope = prettyShow n ++ " = " ++ prettyShow x | otherwise = prettyShow x prettyCtxType e nis = ":" <+> (e P.<> notInScopeMarker nis) notInScopeMarker nis = case isInScope nis of C.InScope -> "" C.NotInScope -> " (not in scope)" -- | Create type of application of new helper function that would solve the goal. cmd_helper_function :: B.Rewrite -> InteractionId -> Range -> String -> TCM Doc cmd_helper_function norm ii r s = B.withInteractionId ii $ inTopContext $ prettyATop =<< B.metaHelperType norm ii r s -- | Displays the current goal, the given document, and the current -- context. -- -- Should not modify the state. cmd_goal_type_context_and :: Doc -> B.Rewrite -> InteractionId -> Range -> String -> StateT CommandState (TCMT IO) () cmd_goal_type_context_and doc norm ii _ _ = display_info . Info_GoalType =<< do lift $ do goal <- B.withInteractionId ii $ prettyTypeOfMeta norm ii ctx <- prettyContext norm True ii return $ vcat [ "Goal:" <+> goal , doc , text (replicate 60 '\x2014') , ctx ] -- | Shows all the top-level names in the given module, along with -- their types. showModuleContents :: B.Rewrite -> Range -> String -> CommandM () showModuleContents norm rng s = display_info . Info_ModuleContents =<< do liftLocalState $ do (modules, tel, types) <- B.moduleContents norm rng s types' <- addContext tel $ forM types $ \ (x, t) -> do t <- TCP.prettyTCM t return (prettyShow x, ":" <+> t) return $ vcat [ "Modules" , nest 2 $ vcat $ map pretty modules , "Names" , nest 2 $ align 10 types' ] -- | Shows all the top-level names in scope which mention all the given -- identifiers in their type. searchAbout :: B.Rewrite -> Range -> String -> CommandM () searchAbout norm rg nm = do let tnm = trim nm unless (null tnm) $ do fancy <- lift $ B.atTopLevel $ do hits <- findMentions norm rg tnm forM hits $ \ (x, t) -> do t <- TCP.prettyTCM t return (prettyShow x, ":" <+> t) display_info $ Info_SearchAbout $ "Definitions about" <+> text (List.intercalate ", " $ words nm) $$ nest 2 (align 10 fancy) -- | Explain why something is in scope. whyInScope :: String -> CommandM () whyInScope s = display_info . Info_WhyInScope =<< do Just (file, _) <- gets theCurrentFile let cwd = takeDirectory $ filePath file liftLocalState $ do (v, xs, ms) <- B.whyInScope s explanation cwd v xs ms where explanation _ Nothing [] [] = TCP.text (s ++ " is not in scope.") explanation cwd v xs ms = TCP.vcat [ TCP.text (s ++ " is in scope as") , TCP.nest 2 $ TCP.vcat [variable v xs, modules ms] ] where prettyRange :: Range -> TCM Doc prettyRange r = pretty . (fmap . fmap) mkRel <$> do return r mkRel = makeRelative cwd . filePath -- variable :: Maybe _ -> [_] -> TCM Doc variable Nothing xs = names xs variable (Just x) xs | null xs = asVar | otherwise = TCP.vcat [ TCP.sep [ asVar, TCP.nest 2 $ shadowing x] , TCP.nest 2 $ names xs ] where asVar :: TCM Doc asVar = do "* a variable bound at" TCP.<+> TCP.prettyTCM (nameBindingSite $ localVar x) shadowing :: LocalVar -> TCM Doc shadowing (LocalVar _ _ []) = "shadowing" shadowing _ = "in conflict with" names xs = TCP.vcat $ map pName xs modules ms = TCP.vcat $ map pMod ms pKind DefName = "defined name" pKind ConName = "constructor" pKind FldName = "record field" pKind PatternSynName = "pattern synonym" pKind GeneralizeName = "generalizable variable" pKind DisallowedGeneralizeName = "generalizable variable from let open" pKind MacroName = "macro name" pKind QuotableName = "quotable name" pName :: AbstractName -> TCM Doc pName a = TCP.sep [ "* a" TCP.<+> pKind (anameKind a) TCP.<+> TCP.text (prettyShow $ anameName a) , TCP.nest 2 $ "brought into scope by" ] TCP.$$ TCP.nest 2 (pWhy (nameBindingSite $ qnameName $ anameName a) (anameLineage a)) pMod :: AbstractModule -> TCM Doc pMod a = TCP.sep [ "* a module" TCP.<+> TCP.text (prettyShow $ amodName a) , TCP.nest 2 $ "brought into scope by" ] TCP.$$ TCP.nest 2 (pWhy (nameBindingSite $ qnameName $ mnameToQName $ amodName a) (amodLineage a)) pWhy :: Range -> WhyInScope -> TCM Doc pWhy r Defined = "- its definition at" TCP.<+> TCP.prettyTCM r pWhy r (Opened (C.QName x) w) | isNoName x = pWhy r w pWhy r (Opened m w) = "- the opening of" TCP.<+> TCP.prettyTCM m TCP.<+> "at" TCP.<+> TCP.prettyTCM (getRange m) TCP.$$ pWhy r w pWhy r (Applied m w) = "- the application of" TCP.<+> TCP.prettyTCM m TCP.<+> "at" TCP.<+> TCP.prettyTCM (getRange m) TCP.$$ pWhy r w -- | Sets the command line options and updates the status information. setCommandLineOpts :: CommandLineOptions -> CommandM () setCommandLineOpts opts = do lift $ TM.setCommandLineOptions opts displayStatus -- | Computes some status information. -- -- Does not change the state. status :: CommandM Status status = do cf <- gets theCurrentFile showImpl <- lift showImplicitArguments -- Check if the file was successfully type checked, and has not -- changed since. Note: This code does not check if any dependencies -- have changed, and uses a time stamp to check for changes. checked <- lift $ case cf of Nothing -> return False Just (f, t) -> do t' <- liftIO $ getModificationTime $ filePath f case t == t' of False -> return False True -> do mm <- lookupModuleFromSource f case mm of Nothing -> return False -- work-around for Issue1007 Just m -> maybe False (not . miWarnings) <$> getVisitedModule m return $ Status { sShowImplicitArguments = showImpl , sChecked = checked } -- | Displays or updates status information. -- -- Does not change the state. displayStatus :: CommandM () displayStatus = putResponse . Resp_Status =<< status -- | @display_info@ does what @'display_info'' False@ does, but -- additionally displays some status information (see 'status' and -- 'displayStatus'). display_info :: DisplayInfo -> CommandM () display_info info = do displayStatus putResponse $ Resp_DisplayInfo info refreshStr :: [String] -> String -> ([String], String) refreshStr taken s = go nameModifiers where go (m:mods) = let s' = s ++ m in if s' `elem` taken then go mods else (s':taken, s') go _ = __IMPOSSIBLE__ nameModifiers :: [String] nameModifiers = "" : "'" : "''" : [show i | i <-[3..]] -- | Parses and scope checks an expression (using the \"inside scope\" -- as the scope), performs the given command with the expression as -- input, and displays the result. parseAndDoAtToplevel :: (A.Expr -> TCM Doc) -- ^ The command to perform. -> (Doc -> DisplayInfo) -- ^ The name to use for the buffer displaying the output. -> String -- ^ The expression to parse. -> CommandM () parseAndDoAtToplevel cmd title s = do (time, res) <- localStateCommandM $ do e <- lift $ runPM $ parse exprParser s maybeTimed $ lift $ B.atTopLevel $ do cmd =<< concreteToAbstract_ e display_info $ title $ fromMaybe empty time $$ res maybeTimed :: CommandM a -> CommandM (Maybe Doc, a) maybeTimed work = do doTime <- lift $ hasVerbosity "profile.interactive" 10 if not doTime then (Nothing,) <$> work else do (r, time) <- measureTime work return (Just $ "Time:" <+> pretty time, r) -- | Tell to highlight the code using the given highlighting -- info (unless it is @Nothing@). tellToUpdateHighlighting :: Maybe (HighlightingInfo, HighlightingMethod, ModuleToSource) -> IO [Response] tellToUpdateHighlighting Nothing = return [] tellToUpdateHighlighting (Just (info, method, modFile)) = return [Resp_HighlightingInfo info KeepHighlighting method modFile] -- | Tells the Emacs mode to go to the first error position (if any). tellEmacsToJumpToError :: Range -> [Response] tellEmacsToJumpToError r = case rStart r of Nothing -> [] Just (Pn { srcFile = Strict.Nothing }) -> [] Just (Pn { srcFile = Strict.Just f, posPos = p }) -> [ Resp_JumpToError (filePath f) p ]