{-# LANGUAGE BangPatterns #-} module Distribution.Solver.Modular.Message ( Message(..), showMessages ) where import qualified Data.List as L import Prelude hiding (pi) import Distribution.Text -- from Cabal import Distribution.Solver.Modular.Dependency import Distribution.Solver.Modular.Flag import Distribution.Solver.Modular.Package import Distribution.Solver.Modular.Tree ( FailReason(..), POption(..) ) import Distribution.Solver.Types.ConstraintSource import Distribution.Solver.Types.PackagePath import Distribution.Solver.Types.Progress data Message = Enter -- ^ increase indentation level | Leave -- ^ decrease indentation level | TryP QPN POption | TryF QFN Bool | TryS QSN Bool | Next (Goal QPN) | Success | Failure ConflictSet FailReason -- | Transforms the structured message type to actual messages (strings). -- -- Takes an additional relevance predicate. The predicate gets a stack of goal -- variables and can decide whether messages regarding these goals are relevant. -- You can plug in 'const True' if you're interested in a full trace. If you -- want a slice of the trace concerning a particular conflict set, then plug in -- a predicate returning 'True' on the empty stack and if the head is in the -- conflict set. -- -- The second argument indicates if the level numbers should be shown. This is -- recommended for any trace that involves backtracking, because only the level -- numbers will allow to keep track of backjumps. showMessages :: ([Var QPN] -> Bool) -> Bool -> Progress Message a b -> Progress String a b showMessages p sl = go [] 0 where -- The stack 'v' represents variables that are currently assigned by the -- solver. 'go' pushes a variable for a recursive call when it encounters -- 'TryP', 'TryF', or 'TryS' and pops a variable when it encounters 'Leave'. -- When 'go' processes a package goal, or a package goal followed by a -- 'Failure', it calls 'atLevel' with the goal variable at the head of the -- stack so that the predicate can also select messages relating to package -- goal choices. go :: [Var QPN] -> Int -> Progress Message a b -> Progress String a b go !_ !_ (Done x) = Done x go !_ !_ (Fail x) = Fail x -- complex patterns go !v !l (Step (TryP qpn i) (Step Enter (Step (Failure c fr) (Step Leave ms)))) = goPReject v l qpn [i] c fr ms go !v !l (Step (TryF qfn b) (Step Enter (Step (Failure c fr) (Step Leave ms)))) = (atLevel (add (F qfn) v) l $ "rejecting: " ++ showQFNBool qfn b ++ showFR c fr) (go v l ms) go !v !l (Step (TryS qsn b) (Step Enter (Step (Failure c fr) (Step Leave ms)))) = (atLevel (add (S qsn) v) l $ "rejecting: " ++ showQSNBool qsn b ++ showFR c fr) (go v l ms) go !v !l (Step (Next (Goal (P qpn) gr)) (Step (TryP qpn' i) ms@(Step Enter (Step (Next _) _)))) = (atLevel (add (P qpn) v) l $ "trying: " ++ showQPNPOpt qpn' i ++ showGR gr) (go (add (P qpn) v) l ms) go !v !l (Step (Next (Goal (P qpn) gr)) ms@(Fail _)) = (atLevel (add (P qpn) v) l $ "unknown package: " ++ showQPN qpn ++ showGR gr) $ go v l ms -- the previous case potentially arises in the error output, because we remove the backjump itself -- if we cut the log after the first error go !v !l (Step (Next (Goal (P qpn) gr)) ms@(Step (Failure _c Backjump) _)) = (atLevel (add (P qpn) v) l $ "unknown package: " ++ showQPN qpn ++ showGR gr) $ go v l ms go !v !l (Step (Next (Goal (P qpn) gr)) (Step (Failure c fr) ms)) = let v' = add (P qpn) v in (atLevel v' l $ showPackageGoal qpn gr) $ (atLevel v' l $ showFailure c fr) (go v l ms) go !v !l (Step (Failure c Backjump) ms@(Step Leave (Step (Failure c' Backjump) _))) | c == c' = go v l ms -- standard display go !v !l (Step Enter ms) = go v (l+1) ms go !v !l (Step Leave ms) = go (drop 1 v) (l-1) ms go !v !l (Step (TryP qpn i) ms) = (atLevel (add (P qpn) v) l $ "trying: " ++ showQPNPOpt qpn i) (go (add (P qpn) v) l ms) go !v !l (Step (TryF qfn b) ms) = (atLevel (add (F qfn) v) l $ "trying: " ++ showQFNBool qfn b) (go (add (F qfn) v) l ms) go !v !l (Step (TryS qsn b) ms) = (atLevel (add (S qsn) v) l $ "trying: " ++ showQSNBool qsn b) (go (add (S qsn) v) l ms) go !v !l (Step (Next (Goal (P qpn) gr)) ms) = (atLevel (add (P qpn) v) l $ showPackageGoal qpn gr) (go v l ms) go !v !l (Step (Next _) ms) = go v l ms -- ignore flag goals in the log go !v !l (Step (Success) ms) = (atLevel v l $ "done") (go v l ms) go !v !l (Step (Failure c fr) ms) = (atLevel v l $ showFailure c fr) (go v l ms) showPackageGoal :: QPN -> QGoalReason -> String showPackageGoal qpn gr = "next goal: " ++ showQPN qpn ++ showGR gr showFailure :: ConflictSet -> FailReason -> String showFailure c fr = "fail" ++ showFR c fr add :: Var QPN -> [Var QPN] -> [Var QPN] add v vs = simplifyVar v : vs -- special handler for many subsequent package rejections goPReject :: [Var QPN] -> Int -> QPN -> [POption] -> ConflictSet -> FailReason -> Progress Message a b -> Progress String a b goPReject v l qpn is c fr (Step (TryP qpn' i) (Step Enter (Step (Failure _ fr') (Step Leave ms)))) | qpn == qpn' && fr == fr' = goPReject v l qpn (i : is) c fr ms goPReject v l qpn is c fr ms = (atLevel (P qpn : v) l $ "rejecting: " ++ L.intercalate ", " (map (showQPNPOpt qpn) (reverse is)) ++ showFR c fr) (go v l ms) -- write a message, but only if it's relevant; we can also enable or disable the display of the current level atLevel :: [Var QPN] -> Int -> String -> Progress String a b -> Progress String a b atLevel v l x xs | sl && p v = let s = show l in Step ("[" ++ replicate (3 - length s) '_' ++ s ++ "] " ++ x) xs | p v = Step x xs | otherwise = xs showQPNPOpt :: QPN -> POption -> String showQPNPOpt qpn@(Q _pp pn) (POption i linkedTo) = case linkedTo of Nothing -> showPI (PI qpn i) -- Consistent with prior to POption Just pp' -> showQPN qpn ++ "~>" ++ showPI (PI (Q pp' pn) i) showGR :: QGoalReason -> String showGR UserGoal = " (user goal)" showGR (PDependency pi) = " (dependency of " ++ showPI pi ++ ")" showGR (FDependency qfn b) = " (dependency of " ++ showQFNBool qfn b ++ ")" showGR (SDependency qsn) = " (dependency of " ++ showQSNBool qsn True ++ ")" showFR :: ConflictSet -> FailReason -> String showFR _ InconsistentInitialConstraints = " (inconsistent initial constraints)" showFR _ (Conflicting ds) = " (conflict: " ++ L.intercalate ", " (map showDep ds) ++ ")" showFR _ CannotInstall = " (only already installed instances can be used)" showFR _ CannotReinstall = " (avoiding to reinstall a package with same version but new dependencies)" showFR _ Shadowed = " (shadowed by another installed package with same version)" showFR _ Broken = " (package is broken)" showFR _ (GlobalConstraintVersion vr src) = " (" ++ constraintSource src ++ " requires " ++ display vr ++ ")" showFR _ (GlobalConstraintInstalled src) = " (" ++ constraintSource src ++ " requires installed instance)" showFR _ (GlobalConstraintSource src) = " (" ++ constraintSource src ++ " requires source instance)" showFR _ (GlobalConstraintFlag src) = " (" ++ constraintSource src ++ " requires opposite flag selection)" showFR _ ManualFlag = " (manual flag can only be changed explicitly)" showFR c Backjump = " (backjumping, conflict set: " ++ showConflictSet c ++ ")" showFR _ MultipleInstances = " (multiple instances)" showFR c (DependenciesNotLinked msg) = " (dependencies not linked: " ++ msg ++ "; conflict set: " ++ showConflictSet c ++ ")" showFR c CyclicDependencies = " (cyclic dependencies; conflict set: " ++ showConflictSet c ++ ")" -- The following are internal failures. They should not occur. In the -- interest of not crashing unnecessarily, we still just print an error -- message though. showFR _ (MalformedFlagChoice qfn) = " (INTERNAL ERROR: MALFORMED FLAG CHOICE: " ++ showQFN qfn ++ ")" showFR _ (MalformedStanzaChoice qsn) = " (INTERNAL ERROR: MALFORMED STANZA CHOICE: " ++ showQSN qsn ++ ")" showFR _ EmptyGoalChoice = " (INTERNAL ERROR: EMPTY GOAL CHOICE)" constraintSource :: ConstraintSource -> String constraintSource src = "constraint from " ++ showConstraintSource src