Safe Haskell | Safe-Inferred |
---|---|
Language | Haskell2010 |
Synopsis
- data MetaKind
- allMetaKinds :: [MetaKind]
- data KeepMetas
- class (MonadConstraint m, MonadReduce m, MonadAddContext m, MonadTCEnv m, ReadTCState m, HasBuiltins m, HasConstInfo m, MonadDebug m) => MonadMetaSolver m where
- newMeta' :: MetaInstantiation -> Frozen -> MetaInfo -> MetaPriority -> Permutation -> Judgement a -> m MetaId
- assignV :: CompareDirection -> MetaId -> Args -> Term -> CompareAs -> m ()
- assignTerm' :: MonadMetaSolver m => MetaId -> [Arg ArgName] -> Term -> m ()
- etaExpandMeta :: [MetaKind] -> MetaId -> m ()
- updateMetaVar :: MetaId -> (MetaVariable -> MetaVariable) -> m ()
- speculateMetas :: m () -> m KeepMetas -> m ()
- dontAssignMetas :: (MonadTCEnv m, HasOptions m, MonadDebug m) => m a -> m a
- isRemoteMeta :: ReadTCState m => m (MetaId -> Bool)
- nextLocalMeta :: ReadTCState m => m MetaId
- data LocalMetaStores = LocalMetaStores {}
- metasCreatedBy :: forall m a. ReadTCState m => m a -> m (a, LocalMetaStores)
- lookupLocalMeta' :: ReadTCState m => MetaId -> m (Maybe MetaVariable)
- lookupLocalMeta :: (HasCallStack, MonadDebug m, ReadTCState m) => MetaId -> m MetaVariable
- lookupMeta :: ReadTCState m => MetaId -> m (Maybe (Either RemoteMetaVariable MetaVariable))
- lookupMetaInstantiation :: ReadTCState m => MetaId -> m MetaInstantiation
- lookupMetaJudgement :: ReadTCState m => MetaId -> m (Judgement MetaId)
- lookupMetaModality :: ReadTCState m => MetaId -> m Modality
- metaType :: ReadTCState m => MetaId -> m Type
- updateMetaVarTCM :: HasCallStack => MetaId -> (MetaVariable -> MetaVariable) -> TCM ()
- insertMetaVar :: MetaId -> MetaVariable -> TCM ()
- getMetaPriority :: (HasCallStack, MonadDebug m, ReadTCState m) => MetaId -> m MetaPriority
- isSortMeta :: ReadTCState m => MetaId -> m Bool
- isSortMeta_ :: MetaVariable -> Bool
- isSortJudgement :: Judgement a -> Bool
- getMetaType :: ReadTCState m => MetaId -> m Type
- getMetaContextArgs :: MonadTCEnv m => MetaVariable -> m Args
- getMetaTypeInContext :: (HasBuiltins m, HasCallStack, MonadDebug m, MonadReduce m, MonadTCEnv m, ReadTCState m) => MetaId -> m Type
- isGeneralizableMeta :: (HasCallStack, MonadDebug m, ReadTCState m) => MetaId -> m DoGeneralize
- class IsInstantiatedMeta a where
- isInstantiatedMeta :: (MonadFail m, ReadTCState m) => a -> m Bool
- isInstantiatedMeta' :: (MonadFail m, ReadTCState m) => MetaId -> m (Maybe Term)
- constraintMetas :: Constraint -> TCM (Set MetaId)
- createMetaInfo :: (MonadTCEnv m, ReadTCState m) => m MetaInfo
- createMetaInfo' :: (MonadTCEnv m, ReadTCState m) => RunMetaOccursCheck -> m MetaInfo
- setValueMetaName :: MonadMetaSolver m => Term -> MetaNameSuggestion -> m ()
- getMetaNameSuggestion :: (HasCallStack, MonadDebug m, ReadTCState m) => MetaId -> m MetaNameSuggestion
- setMetaNameSuggestion :: MonadMetaSolver m => MetaId -> MetaNameSuggestion -> m ()
- setMetaGeneralizableArgInfo :: MonadMetaSolver m => MetaId -> ArgInfo -> m ()
- updateMetaVarRange :: MonadMetaSolver m => MetaId -> Range -> m ()
- setMetaOccursCheck :: MonadMetaSolver m => MetaId -> RunMetaOccursCheck -> m ()
- class (MonadTCEnv m, ReadTCState m) => MonadInteractionPoints m where
- freshInteractionId :: m InteractionId
- modifyInteractionPoints :: (InteractionPoints -> InteractionPoints) -> m ()
- registerInteractionPoint :: forall m. MonadInteractionPoints m => Bool -> Range -> Maybe Nat -> m InteractionId
- findInteractionPoint_ :: Range -> InteractionPoints -> Maybe InteractionId
- connectInteractionPoint :: MonadInteractionPoints m => InteractionId -> MetaId -> m ()
- removeInteractionPoint :: MonadInteractionPoints m => InteractionId -> m ()
- getInteractionPoints :: ReadTCState m => m [InteractionId]
- getInteractionMetas :: ReadTCState m => m [MetaId]
- getUniqueMetasRanges :: (HasCallStack, MonadDebug m, ReadTCState m) => [MetaId] -> m [Range]
- getUnsolvedMetas :: (HasCallStack, MonadDebug m, ReadTCState m) => m [Range]
- getUnsolvedInteractionMetas :: (HasCallStack, MonadDebug m, ReadTCState m) => m [Range]
- getInteractionIdsAndMetas :: ReadTCState m => m [(InteractionId, MetaId)]
- isInteractionMeta :: ReadTCState m => MetaId -> m (Maybe InteractionId)
- lookupInteractionPoint :: (MonadFail m, ReadTCState m, MonadError TCErr m) => InteractionId -> m InteractionPoint
- lookupInteractionId :: (MonadFail m, ReadTCState m, MonadError TCErr m, MonadTCEnv m) => InteractionId -> m MetaId
- lookupInteractionMeta :: ReadTCState m => InteractionId -> m (Maybe MetaId)
- lookupInteractionMeta_ :: InteractionId -> InteractionPoints -> Maybe MetaId
- newMeta :: MonadMetaSolver m => Frozen -> MetaInfo -> MetaPriority -> Permutation -> Judgement a -> m MetaId
- newMetaTCM' :: MetaInstantiation -> Frozen -> MetaInfo -> MetaPriority -> Permutation -> Judgement a -> TCM MetaId
- getInteractionRange :: (MonadInteractionPoints m, MonadFail m, MonadError TCErr m) => InteractionId -> m Range
- getMetaRange :: (HasCallStack, MonadDebug m, ReadTCState m) => MetaId -> m Range
- getInteractionScope :: (MonadDebug m, MonadFail m, ReadTCState m, MonadError TCErr m, MonadTCEnv m) => InteractionId -> m ScopeInfo
- withMetaInfo' :: (MonadTCEnv m, ReadTCState m, MonadTrace m) => MetaVariable -> m a -> m a
- withMetaInfo :: (MonadTCEnv m, ReadTCState m, MonadTrace m) => Closure Range -> m a -> m a
- withInteractionId :: (MonadDebug m, MonadFail m, ReadTCState m, MonadError TCErr m, MonadTCEnv m, MonadTrace m) => InteractionId -> m a -> m a
- withMetaId :: (HasCallStack, MonadDebug m, MonadTCEnv m, MonadTrace m, ReadTCState m) => MetaId -> m a -> m a
- getOpenMetas :: ReadTCState m => m [MetaId]
- isOpenMeta :: MetaInstantiation -> Bool
- listenToMeta :: MonadMetaSolver m => Listener -> MetaId -> m ()
- unlistenToMeta :: MonadMetaSolver m => Listener -> MetaId -> m ()
- getMetaListeners :: (HasCallStack, MonadDebug m, ReadTCState m) => MetaId -> m [Listener]
- clearMetaListeners :: MonadMetaSolver m => MetaId -> m ()
- etaExpandMetaSafe :: MonadMetaSolver m => MetaId -> m ()
- etaExpandListeners :: MonadMetaSolver m => MetaId -> m ()
- wakeupListener :: MonadMetaSolver m => Listener -> m ()
- solveAwakeConstraints :: MonadConstraint m => m ()
- solveAwakeConstraints' :: MonadConstraint m => Bool -> m ()
- freezeMetas :: MonadTCState m => LocalMetaStore -> m (Set MetaId)
- unfreezeMetas :: TCM ()
- isFrozen :: (HasCallStack, MonadDebug m, ReadTCState m) => MetaId -> m Bool
- withFrozenMetas :: (MonadMetaSolver m, MonadTCState m) => m a -> m a
- class UnFreezeMeta a where
- unfreezeMeta :: MonadMetaSolver m => a -> m ()
Documentation
Various kinds of metavariables.
Records | Meta variables of record type. |
SingletonRecords | Meta variables of "hereditarily singleton" record type. |
Levels | Meta variables of level type, if type-in-type is activated. |
Instances
Bounded MetaKind Source # | |
Defined in Agda.TypeChecking.Monad.MetaVars | |
Enum MetaKind Source # | |
Defined in Agda.TypeChecking.Monad.MetaVars | |
Show MetaKind Source # | |
Eq MetaKind Source # | |
allMetaKinds :: [MetaKind] Source #
All possible metavariable kinds.
class (MonadConstraint m, MonadReduce m, MonadAddContext m, MonadTCEnv m, ReadTCState m, HasBuiltins m, HasConstInfo m, MonadDebug m) => MonadMetaSolver m where Source #
Monad service class for creating, solving and eta-expanding of metavariables.
newMeta' :: MetaInstantiation -> Frozen -> MetaInfo -> MetaPriority -> Permutation -> Judgement a -> m MetaId Source #
Generate a new meta variable with some instantiation given.
For instance, the instantiation could be a PostponedTypeCheckingProblem
.
assignV :: CompareDirection -> MetaId -> Args -> Term -> CompareAs -> m () Source #
Assign to an open metavar which may not be frozen. First check that metavar args are in pattern fragment. Then do extended occurs check on given thing.
Assignment is aborted by throwing a PatternErr
via a call to
patternViolation
. This error is caught by catchConstraint
during equality checking (compareAtom
) and leads to
restoration of the original constraints.
assignTerm' :: MonadMetaSolver m => MetaId -> [Arg ArgName] -> Term -> m () Source #
Directly instantiate the metavariable. Skip pattern check, occurs check and frozen check. Used for eta expanding frozen metas.
etaExpandMeta :: [MetaKind] -> MetaId -> m () Source #
Eta-expand a local meta-variable, if it is of the specified kind. Don't do anything if the meta-variable is a blocked term.
updateMetaVar :: MetaId -> (MetaVariable -> MetaVariable) -> m () Source #
Update the status of the metavariable
speculateMetas :: m () -> m KeepMetas -> m () Source #
'speculateMetas fallback m' speculatively runs m
, but if the
result is RollBackMetas
any changes to metavariables are
rolled back and fallback
is run instead.
Instances
dontAssignMetas :: (MonadTCEnv m, HasOptions m, MonadDebug m) => m a -> m a Source #
Switch off assignment of metas.
isRemoteMeta :: ReadTCState m => m (MetaId -> Bool) Source #
Is the meta-variable from another top-level module?
nextLocalMeta :: ReadTCState m => m MetaId Source #
If another meta-variable is created, then it will get this
MetaId
(unless the state is changed too much, for instance by
setTopLevelModule
).
data LocalMetaStores Source #
Pairs of local meta-stores.
LocalMetaStores | |
|
metasCreatedBy :: forall m a. ReadTCState m => m a -> m (a, LocalMetaStores) Source #
Run a computation and record which new metas it created.
lookupLocalMeta' :: ReadTCState m => MetaId -> m (Maybe MetaVariable) Source #
Find information about the given local meta-variable, if any.
lookupLocalMeta :: (HasCallStack, MonadDebug m, ReadTCState m) => MetaId -> m MetaVariable Source #
Find information about the given local meta-variable.
lookupMeta :: ReadTCState m => MetaId -> m (Maybe (Either RemoteMetaVariable MetaVariable)) Source #
Find information about the (local or remote) meta-variable, if any.
If no meta-variable is found, then the reason could be that the
dead-code elimination
(eliminateDeadCode
) failed to find the
meta-variable, perhaps because some NamesIn
instance is
incorrectly defined.
lookupMetaInstantiation :: ReadTCState m => MetaId -> m MetaInstantiation Source #
Find the meta-variable's instantiation.
lookupMetaJudgement :: ReadTCState m => MetaId -> m (Judgement MetaId) Source #
Find the meta-variable's judgement.
lookupMetaModality :: ReadTCState m => MetaId -> m Modality Source #
Find the meta-variable's modality.
updateMetaVarTCM :: HasCallStack => MetaId -> (MetaVariable -> MetaVariable) -> TCM () Source #
Update the information associated with a local meta-variable.
insertMetaVar :: MetaId -> MetaVariable -> TCM () Source #
Insert a new meta-variable with associated information into the local meta store.
getMetaPriority :: (HasCallStack, MonadDebug m, ReadTCState m) => MetaId -> m MetaPriority Source #
Returns the MetaPriority
of the given local meta-variable.
isSortMeta :: ReadTCState m => MetaId -> m Bool Source #
isSortMeta_ :: MetaVariable -> Bool Source #
isSortJudgement :: Judgement a -> Bool Source #
getMetaType :: ReadTCState m => MetaId -> m Type Source #
getMetaContextArgs :: MonadTCEnv m => MetaVariable -> m Args Source #
Compute the context variables that a local meta-variable should be applied to, accounting for pruning.
getMetaTypeInContext :: (HasBuiltins m, HasCallStack, MonadDebug m, MonadReduce m, MonadTCEnv m, ReadTCState m) => MetaId -> m Type Source #
Given a local meta-variable, return the type applied to the current context.
isGeneralizableMeta :: (HasCallStack, MonadDebug m, ReadTCState m) => MetaId -> m DoGeneralize Source #
Is it a local meta-variable that might be generalized?
class IsInstantiatedMeta a where Source #
Check whether all metas are instantiated. Precondition: argument is a meta (in some form) or a list of metas.
isInstantiatedMeta :: (MonadFail m, ReadTCState m) => a -> m Bool Source #
Instances
isInstantiatedMeta' :: (MonadFail m, ReadTCState m) => MetaId -> m (Maybe Term) Source #
constraintMetas :: Constraint -> TCM (Set MetaId) Source #
Returns all metavariables in a constraint. Slightly complicated by the fact that blocked terms are represented by two meta variables. To find the second one we need to look up the meta listeners for the one in the UnBlock constraint. This is used for the purpose of deciding if a metavariable is constrained or if it can be generalized over (see Agda.TypeChecking.Generalize).
createMetaInfo :: (MonadTCEnv m, ReadTCState m) => m MetaInfo Source #
Create MetaInfo
in the current environment.
createMetaInfo' :: (MonadTCEnv m, ReadTCState m) => RunMetaOccursCheck -> m MetaInfo Source #
setValueMetaName :: MonadMetaSolver m => Term -> MetaNameSuggestion -> m () Source #
getMetaNameSuggestion :: (HasCallStack, MonadDebug m, ReadTCState m) => MetaId -> m MetaNameSuggestion Source #
setMetaNameSuggestion :: MonadMetaSolver m => MetaId -> MetaNameSuggestion -> m () Source #
setMetaGeneralizableArgInfo :: MonadMetaSolver m => MetaId -> ArgInfo -> m () Source #
Change the ArgInfo that will be used when generalizing over this local meta-variable.
updateMetaVarRange :: MonadMetaSolver m => MetaId -> Range -> m () Source #
setMetaOccursCheck :: MonadMetaSolver m => MetaId -> RunMetaOccursCheck -> m () Source #
Query and manipulate interaction points.
class (MonadTCEnv m, ReadTCState m) => MonadInteractionPoints m where Source #
Nothing
freshInteractionId :: m InteractionId Source #
default freshInteractionId :: (MonadTrans t, MonadInteractionPoints n, t n ~ m) => m InteractionId Source #
modifyInteractionPoints :: (InteractionPoints -> InteractionPoints) -> m () Source #
default modifyInteractionPoints :: (MonadTrans t, MonadInteractionPoints n, t n ~ m) => (InteractionPoints -> InteractionPoints) -> m () Source #
Instances
registerInteractionPoint :: forall m. MonadInteractionPoints m => Bool -> Range -> Maybe Nat -> m InteractionId Source #
Register an interaction point during scope checking. If there is no interaction id yet, create one.
findInteractionPoint_ :: Range -> InteractionPoints -> Maybe InteractionId Source #
Find an interaction point by Range'
by searching the whole map.
Issue 3000: Don't consider solved interaction points.
O(n): linear in the number of registered interaction points.
connectInteractionPoint :: MonadInteractionPoints m => InteractionId -> MetaId -> m () Source #
Hook up a local meta-variable to an interaction point.
removeInteractionPoint :: MonadInteractionPoints m => InteractionId -> m () Source #
Mark an interaction point as solved.
getInteractionPoints :: ReadTCState m => m [InteractionId] Source #
Get a list of interaction ids.
getInteractionMetas :: ReadTCState m => m [MetaId] Source #
Get all metas that correspond to unsolved interaction ids.
getUniqueMetasRanges :: (HasCallStack, MonadDebug m, ReadTCState m) => [MetaId] -> m [Range] Source #
getUnsolvedMetas :: (HasCallStack, MonadDebug m, ReadTCState m) => m [Range] Source #
getUnsolvedInteractionMetas :: (HasCallStack, MonadDebug m, ReadTCState m) => m [Range] Source #
getInteractionIdsAndMetas :: ReadTCState m => m [(InteractionId, MetaId)] Source #
Get all metas that correspond to unsolved interaction ids.
isInteractionMeta :: ReadTCState m => MetaId -> m (Maybe InteractionId) Source #
Does the meta variable correspond to an interaction point?
Time: O(log n)
where n
is the number of interaction metas.
lookupInteractionPoint :: (MonadFail m, ReadTCState m, MonadError TCErr m) => InteractionId -> m InteractionPoint Source #
Get the information associated to an interaction point.
lookupInteractionId :: (MonadFail m, ReadTCState m, MonadError TCErr m, MonadTCEnv m) => InteractionId -> m MetaId Source #
Get MetaId
for an interaction point.
Precondition: interaction point is connected.
lookupInteractionMeta :: ReadTCState m => InteractionId -> m (Maybe MetaId) Source #
Check whether an interaction id is already associated with a meta variable.
lookupInteractionMeta_ :: InteractionId -> InteractionPoints -> Maybe MetaId Source #
newMeta :: MonadMetaSolver m => Frozen -> MetaInfo -> MetaPriority -> Permutation -> Judgement a -> m MetaId Source #
Generate new meta variable.
newMetaTCM' :: MetaInstantiation -> Frozen -> MetaInfo -> MetaPriority -> Permutation -> Judgement a -> TCM MetaId Source #
Generate a new meta variable with some instantiation given.
For instance, the instantiation could be a PostponedTypeCheckingProblem
.
getInteractionRange :: (MonadInteractionPoints m, MonadFail m, MonadError TCErr m) => InteractionId -> m Range Source #
Get the Range'
for an interaction point.
getMetaRange :: (HasCallStack, MonadDebug m, ReadTCState m) => MetaId -> m Range Source #
Get the Range'
for a local meta-variable.
getInteractionScope :: (MonadDebug m, MonadFail m, ReadTCState m, MonadError TCErr m, MonadTCEnv m) => InteractionId -> m ScopeInfo Source #
withMetaInfo' :: (MonadTCEnv m, ReadTCState m, MonadTrace m) => MetaVariable -> m a -> m a Source #
withMetaInfo :: (MonadTCEnv m, ReadTCState m, MonadTrace m) => Closure Range -> m a -> m a Source #
withInteractionId :: (MonadDebug m, MonadFail m, ReadTCState m, MonadError TCErr m, MonadTCEnv m, MonadTrace m) => InteractionId -> m a -> m a Source #
withMetaId :: (HasCallStack, MonadDebug m, MonadTCEnv m, MonadTrace m, ReadTCState m) => MetaId -> m a -> m a Source #
getOpenMetas :: ReadTCState m => m [MetaId] Source #
isOpenMeta :: MetaInstantiation -> Bool Source #
listenToMeta :: MonadMetaSolver m => Listener -> MetaId -> m () Source #
listenToMeta l m
: register l
as a listener to m
. This is done
when the type of l is blocked by m
.
unlistenToMeta :: MonadMetaSolver m => Listener -> MetaId -> m () Source #
Unregister a listener.
getMetaListeners :: (HasCallStack, MonadDebug m, ReadTCState m) => MetaId -> m [Listener] Source #
Get the listeners for a local meta-variable.
clearMetaListeners :: MonadMetaSolver m => MetaId -> m () Source #
etaExpandMetaSafe :: MonadMetaSolver m => MetaId -> m () Source #
Do safe eta-expansions for meta (SingletonRecords,Levels
).
etaExpandListeners :: MonadMetaSolver m => MetaId -> m () Source #
Eta expand metavariables listening on the current meta.
wakeupListener :: MonadMetaSolver m => Listener -> m () Source #
Wake up a meta listener and let it do its thing
solveAwakeConstraints :: MonadConstraint m => m () Source #
solveAwakeConstraints' :: MonadConstraint m => Bool -> m () Source #
Freezing and unfreezing metas.
freezeMetas :: MonadTCState m => LocalMetaStore -> m (Set MetaId) Source #
Freeze the given meta-variables (but only if they are open) and return those that were not already frozen.
unfreezeMetas :: TCM () Source #
Thaw all open meta variables.
isFrozen :: (HasCallStack, MonadDebug m, ReadTCState m) => MetaId -> m Bool Source #
withFrozenMetas :: (MonadMetaSolver m, MonadTCState m) => m a -> m a Source #
class UnFreezeMeta a where Source #
Unfreeze a meta and its type if this is a meta again. Does not unfreeze deep occurrences of meta-variables or remote meta-variables.
unfreezeMeta :: MonadMetaSolver m => a -> m () Source #