Copyright | (C) 2012-16 Edward Kmett |
---|---|
License | BSD-style (see the file LICENSE) |
Maintainer | Edward Kmett <ekmett@gmail.com> |
Stability | provisional |
Portability | Control.Exception |
Safe Haskell | Trustworthy |
Language | Haskell98 |
Control.Exception
provides an example of a large open hierarchy
that we can model with prisms and isomorphisms.
Additional combinators for working with IOException
results can
be found in System.IO.Error.Lens.
The combinators in this module have been generalized to work with
MonadCatch
instead of just IO
. This enables them to be used
more easily in Monad
transformer stacks.
- catching :: MonadCatch m => Getting (First a) SomeException a -> m r -> (a -> m r) -> m r
- catching_ :: MonadCatch m => Getting (First a) SomeException a -> m r -> m r -> m r
- handling :: MonadCatch m => Getting (First a) SomeException a -> (a -> m r) -> m r -> m r
- handling_ :: MonadCatch m => Getting (First a) SomeException a -> m r -> m r -> m r
- trying :: MonadCatch m => Getting (First a) SomeException a -> m r -> m (Either a r)
- trying_ :: MonadCatch m => Getting (First a) SomeException a -> m r -> m (Maybe r)
- throwing :: AReview SomeException b -> b -> r
- throwingM :: MonadThrow m => AReview SomeException b -> b -> m r
- throwingTo :: MonadIO m => ThreadId -> AReview SomeException b -> b -> m ()
- mappedException :: (Exception e, Exception e') => Setter s s e e'
- mappedException' :: Exception e' => Setter s s SomeException e'
- exception :: Exception a => Prism' SomeException a
- pattern Exception :: () => Exception t => t -> SomeException
- class Handleable e m h | h -> e m where
- class AsIOException t where
- pattern IOException_ :: () => AsIOException s => IOException -> s
- class AsArithException t where
- _Overflow :: AsArithException t => Prism' t ()
- _Underflow :: AsArithException t => Prism' t ()
- _LossOfPrecision :: AsArithException t => Prism' t ()
- _DivideByZero :: AsArithException t => Prism' t ()
- _Denormal :: AsArithException t => Prism' t ()
- _RatioZeroDenominator :: AsArithException t => Prism' t ()
- pattern ArithException_ :: () => AsArithException s => ArithException -> s
- pattern Overflow_ :: () => AsArithException s => s
- pattern Underflow_ :: () => AsArithException s => s
- pattern LossOfPrecision_ :: () => AsArithException s => s
- pattern DivideByZero_ :: () => AsArithException s => s
- pattern Denormal_ :: () => AsArithException s => s
- pattern RatioZeroDenominator_ :: () => AsArithException s => s
- class AsArrayException t where
- _IndexOutOfBounds :: AsArrayException t => Prism' t String
- _UndefinedElement :: AsArrayException t => Prism' t String
- pattern ArrayException_ :: () => AsArrayException s => ArrayException -> s
- pattern IndexOutOfBounds_ :: () => AsArrayException s => String -> s
- pattern UndefinedElement_ :: () => AsArrayException s => String -> s
- class AsAssertionFailed t where
- _AssertionFailed :: Prism' t String
- pattern AssertionFailed_ :: () => AsAssertionFailed s => String -> s
- class AsAsyncException t where
- _StackOverflow :: AsAsyncException t => Prism' t ()
- _HeapOverflow :: AsAsyncException t => Prism' t ()
- _ThreadKilled :: AsAsyncException t => Prism' t ()
- _UserInterrupt :: AsAsyncException t => Prism' t ()
- pattern AsyncException_ :: () => AsAsyncException s => AsyncException -> s
- pattern StackOverflow_ :: () => AsAsyncException s => s
- pattern HeapOverflow_ :: () => AsAsyncException s => s
- pattern ThreadKilled_ :: () => AsAsyncException s => s
- pattern UserInterrupt_ :: () => AsAsyncException s => s
- class AsNonTermination t where
- _NonTermination :: Prism' t ()
- pattern NonTermination_ :: () => AsNonTermination s => s
- class AsNestedAtomically t where
- _NestedAtomically :: Prism' t ()
- pattern NestedAtomically_ :: () => AsNestedAtomically s => s
- class AsBlockedIndefinitelyOnMVar t where
- _BlockedIndefinitelyOnMVar :: Prism' t ()
- pattern BlockedIndefinitelyOnMVar_ :: () => AsBlockedIndefinitelyOnMVar s => s
- class AsBlockedIndefinitelyOnSTM t where
- _BlockedIndefinitelyOnSTM :: Prism' t ()
- pattern BlockedIndefinitelyOnSTM_ :: () => AsBlockedIndefinitelyOnSTM s => s
- class AsDeadlock t where
- pattern Deadlock_ :: () => AsDeadlock s => s
- class AsNoMethodError t where
- _NoMethodError :: Prism' t String
- pattern NoMethodError_ :: () => AsNoMethodError s => String -> s
- class AsPatternMatchFail t where
- pattern PatternMatchFail_ :: () => AsPatternMatchFail s => String -> s
- class AsRecConError t where
- _RecConError :: Prism' t String
- class AsRecSelError t where
- _RecSelError :: Prism' t String
- class AsRecUpdError t where
- _RecUpdError :: Prism' t String
- pattern RecConError_ :: () => AsRecConError s => String -> s
- pattern RecSelError_ :: () => AsRecSelError s => String -> s
- pattern RecUpdError_ :: () => AsRecUpdError s => String -> s
- class AsErrorCall t where
- _ErrorCall :: Prism' t String
- pattern ErrorCall_ :: () => AsErrorCall s => String -> s
- class AsHandlingException t where
- _HandlingException :: Prism' t ()
- pattern HandlingException_ :: () => AsHandlingException s => s
Handling
catching :: MonadCatch m => Getting (First a) SomeException a -> m r -> (a -> m r) -> m r Source
Catch exceptions that match a given Prism
(or any Fold
, really).
>>>
catching _AssertionFailed (assert False (return "uncaught")) $ \ _ -> return "caught"
"caught"
catching
::MonadCatch
m =>Prism'
SomeException
a -> m r -> (a -> m r) -> m rcatching
::MonadCatch
m =>Lens'
SomeException
a -> m r -> (a -> m r) -> m rcatching
::MonadCatch
m =>Traversal'
SomeException
a -> m r -> (a -> m r) -> m rcatching
::MonadCatch
m =>Iso'
SomeException
a -> m r -> (a -> m r) -> m rcatching
::MonadCatch
m =>Getter
SomeException
a -> m r -> (a -> m r) -> m rcatching
::MonadCatch
m =>Fold
SomeException
a -> m r -> (a -> m r) -> m r
catching_ :: MonadCatch m => Getting (First a) SomeException a -> m r -> m r -> m r Source
Catch exceptions that match a given Prism
(or any Getter
), discarding
the information about the match. This is particuarly useful when you have
a
where the result of the Prism'
e ()Prism
or Fold
isn't
particularly valuable, just the fact that it matches.
>>>
catching_ _AssertionFailed (assert False (return "uncaught")) $ return "caught"
"caught"
catching_
::MonadCatch
m =>Prism'
SomeException
a -> m r -> m r -> m rcatching_
::MonadCatch
m =>Lens'
SomeException
a -> m r -> m r -> m rcatching_
::MonadCatch
m =>Traversal'
SomeException
a -> m r -> m r -> m rcatching_
::MonadCatch
m =>Iso'
SomeException
a -> m r -> m r -> m rcatching_
::MonadCatch
m =>Getter
SomeException
a -> m r -> m r -> m rcatching_
::MonadCatch
m =>Fold
SomeException
a -> m r -> m r -> m r
handling :: MonadCatch m => Getting (First a) SomeException a -> (a -> m r) -> m r -> m r Source
A version of catching
with the arguments swapped around; useful in
situations where the code for the handler is shorter.
>>>
handling _NonTermination (\_ -> return "caught") $ throwIO NonTermination
"caught"
handling
::MonadCatch
m =>Prism'
SomeException
a -> (a -> m r) -> m r -> m rhandling
::MonadCatch
m =>Lens'
SomeException
a -> (a -> m r) -> m r -> m rhandling
::MonadCatch
m =>Traversal'
SomeException
a -> (a -> m r) -> m r -> m rhandling
::MonadCatch
m =>Iso'
SomeException
a -> (a -> m r) -> m r -> m rhandling
::MonadCatch
m =>Fold
SomeException
a -> (a -> m r) -> m r -> m rhandling
::MonadCatch
m =>Getter
SomeException
a -> (a -> m r) -> m r -> m r
handling_ :: MonadCatch m => Getting (First a) SomeException a -> m r -> m r -> m r Source
A version of catching_
with the arguments swapped around; useful in
situations where the code for the handler is shorter.
>>>
handling_ _NonTermination (return "caught") $ throwIO NonTermination
"caught"
handling_
::MonadCatch
m =>Prism'
SomeException
a -> m r -> m r -> m rhandling_
::MonadCatch
m =>Lens'
SomeException
a -> m r -> m r -> m rhandling_
::MonadCatch
m =>Traversal'
SomeException
a -> m r -> m r -> m rhandling_
::MonadCatch
m =>Iso'
SomeException
a -> m r -> m r -> m rhandling_
::MonadCatch
m =>Getter
SomeException
a -> m r -> m r -> m rhandling_
::MonadCatch
m =>Fold
SomeException
a -> m r -> m r -> m r
Trying
trying :: MonadCatch m => Getting (First a) SomeException a -> m r -> m (Either a r) Source
A variant of try
that takes a Prism
(or any Fold
) to select which
exceptions are caught (c.f. tryJust
, catchJust
). If the
Exception
does not match the predicate, it is re-thrown.
trying
::MonadCatch
m =>Prism'
SomeException
a -> m r -> m (Either
a r)trying
::MonadCatch
m =>Lens'
SomeException
a -> m r -> m (Either
a r)trying
::MonadCatch
m =>Traversal'
SomeException
a -> m r -> m (Either
a r)trying
::MonadCatch
m =>Iso'
SomeException
a -> m r -> m (Either
a r)trying
::MonadCatch
m =>Getter
SomeException
a -> m r -> m (Either
a r)trying
::MonadCatch
m =>Fold
SomeException
a -> m r -> m (Either
a r)
trying_ :: MonadCatch m => Getting (First a) SomeException a -> m r -> m (Maybe r) Source
A version of trying
that discards the specific exception thrown.
trying_
::MonadCatch
m =>Prism'
SomeException
a -> m r -> m (Maybe r)trying_
::MonadCatch
m =>Lens'
SomeException
a -> m r -> m (Maybe r)trying_
::MonadCatch
m =>Traversal'
SomeException
a -> m r -> m (Maybe r)trying_
::MonadCatch
m =>Iso'
SomeException
a -> m r -> m (Maybe r)trying_
::MonadCatch
m =>Getter
SomeException
a -> m r -> m (Maybe r)trying_
::MonadCatch
m =>Fold
SomeException
a -> m r -> m (Maybe r)
Throwing
throwing :: AReview SomeException b -> b -> r Source
throwingM :: MonadThrow m => AReview SomeException b -> b -> m r Source
A variant of throwing
that can only be used within the IO
Monad
(or any other MonadCatch
instance) to throw an Exception
described
by a Prism
.
Although throwingM
has a type that is a specialization of the type of
throwing
, the two functions are subtly different:
throwing
l e `seq` x ≡throwing
ethrowingM
l e `seq` x ≡ x
The first example will cause the Exception
e
to be raised, whereas the
second one won't. In fact, throwingM
will only cause an Exception
to
be raised when it is used within the MonadCatch
instance. The throwingM
variant should be used in preference to throwing
to raise an Exception
within the Monad
because it guarantees ordering with respect to other
monadic operations, whereas throwing
does not.
throwingM
l ≡reviews
lthrow
throwingM
::MonadThrow
m =>Prism'
SomeException
t -> t -> m rthrowingM
::MonadThrow
m =>Iso'
SomeException
t -> t -> m r
throwingTo :: MonadIO m => ThreadId -> AReview SomeException b -> b -> m () Source
throwingTo
raises an Exception
specified by a Prism
in the target thread.
throwingTo
thread l ≡reviews
l (throwTo
thread)
throwingTo
::ThreadId
->Prism'
SomeException
t -> t -> m athrowingTo
::ThreadId
->Iso'
SomeException
t -> t -> m a
Mapping
mappedException :: (Exception e, Exception e') => Setter s s e e' Source
This Setter
can be used to purely map over the Exception
s an
arbitrary expression might throw; it is a variant of mapException
in
the same way that mapped
is a variant of fmap
.
'mapException' ≡ 'over' 'mappedException'
This view that every Haskell expression can be regarded as carrying a bag
of Exception
s is detailed in “A Semantics for Imprecise Exceptions” by
Peyton Jones & al. at PLDI ’99.
The following maps failed assertions to arithmetic overflow:
>>>
handling _Overflow (\_ -> return "caught") $ assert False (return "uncaught") & mappedException %~ \ (AssertionFailed _) -> Overflow
"caught"
mappedException' :: Exception e' => Setter s s SomeException e' Source
This is a type restricted version of mappedException
, which avoids
the type ambiguity in the input Exception
when using set
.
The following maps any exception to arithmetic overflow:
>>>
handling _Overflow (\_ -> return "caught") $ assert False (return "uncaught") & mappedException' .~ Overflow
"caught"
Exceptions
exception :: Exception a => Prism' SomeException a Source
Traverse the strongly typed Exception
contained in SomeException
where the type of your function matches
the desired Exception
.
exception
:: (Applicative
f,Exception
a) => (a -> f a) ->SomeException
-> fSomeException
pattern Exception :: () => Exception t => t -> SomeException Source
Exception Handlers
class Handleable e m h | h -> e m where Source
Both exceptions
and Control.Exception provide a Handler
type.
This lets us write combinators to build handlers that are agnostic about the choice of which of these they use.
handler :: Typeable a => Getting (First a) e a -> (a -> m r) -> h r Source
This builds a Handler
for just the targets of a given Prism
(or any Getter
, really).
catches
... [handler
_AssertionFailed
(s ->$
"Assertion Failed\n"++
s) ,handler
_ErrorCall
(s ->$
"Error\n"++
s) ]
This works ith both the Handler
type provided by Control.Exception
:
handler
::Getter
SomeException
a -> (a ->IO
r) ->Handler
rhandler
::Fold
SomeException
a -> (a ->IO
r) ->Handler
rhandler
::Prism'
SomeException
a -> (a ->IO
r) ->Handler
rhandler
::Lens'
SomeException
a -> (a ->IO
r) ->Handler
rhandler
::Traversal'
SomeException
a -> (a ->IO
r) ->Handler
r
and with the Handler
type provided by Control.Monad.Catch
:
handler
::Getter
SomeException
a -> (a -> m r) ->Handler
m rhandler
::Fold
SomeException
a -> (a -> m r) ->Handler
m rhandler
::Prism'
SomeException
a -> (a -> m r) ->Handler
m rhandler
::Lens'
SomeException
a -> (a -> m r) ->Handler
m rhandler
::Traversal'
SomeException
a -> (a -> m r) ->Handler
m r
and with the Handler
type provided by Control.Monad.Error.Lens
:
handler
::Getter
e a -> (a -> m r) ->Handler
e m rhandler
::Fold
e a -> (a -> m r) ->Handler
e m rhandler
::Prism'
e a -> (a -> m r) ->Handler
e m rhandler
::Lens'
e a -> (a -> m r) ->Handler
e m rhandler
::Traversal'
e a -> (a -> m r) ->Handler
e m r
handler_ :: Typeable a => Getting (First a) e a -> m r -> h r Source
This builds a Handler
for just the targets of a given Prism
(or any Getter
, really).
that ignores its input and just recovers with the stated monadic action.
catches
... [handler_
_NonTermination
(return
"looped") ,handler_
_StackOverflow
(return
"overflow") ]
This works with the Handler
type provided by Control.Exception
:
handler_
::Getter
SomeException
a ->IO
r ->Handler
rhandler_
::Fold
SomeException
a ->IO
r ->Handler
rhandler_
::Prism'
SomeException
a ->IO
r ->Handler
rhandler_
::Lens'
SomeException
a ->IO
r ->Handler
rhandler_
::Traversal'
SomeException
a ->IO
r ->Handler
r
and with the Handler
type provided by Control.Monad.Catch
:
handler_
::Getter
SomeException
a -> m r ->Handler
m rhandler_
::Fold
SomeException
a -> m r ->Handler
m rhandler_
::Prism'
SomeException
a -> m r ->Handler
m rhandler_
::Lens'
SomeException
a -> m r ->Handler
m rhandler_
::Traversal'
SomeException
a -> m r ->Handler
m r
and with the Handler
type provided by Control.Monad.Error.Lens
:
handler_
::Getter
e a -> m r ->Handler
e m rhandler_
::Fold
e a -> m r ->Handler
e m rhandler_
::Prism'
e a -> m r ->Handler
e m rhandler_
::Lens'
e a -> m r ->Handler
e m rhandler_
::Traversal'
e a -> m r ->Handler
e m r
Handleable SomeException IO Handler Source | |
Typeable (* -> *) m => Handleable SomeException m (Handler m) Source | |
Handleable e m (Handler e m) Source | |
IOExceptions
class AsIOException t where Source
Exceptions that occur in the IO
Monad
. An IOException
records a
more specific error type, a descriptive string and maybe the handle that was
used when the error was flagged.
Due to their richer structure relative to other exceptions, these have a more carefully overloaded signature.
Nothing
_IOException :: Prism' t IOException Source
Unfortunately the name ioException
is taken by base
for
throwing IOExceptions.
_IOException
::Prism'
IOException
IOException
_IOException
::Prism'
SomeException
IOException
Many combinators for working with an IOException
are available
in System.IO.Error.Lens.
pattern IOException_ :: () => AsIOException s => IOException -> s Source
Arithmetic Exceptions
_Overflow :: AsArithException t => Prism' t () Source
Handle arithmetic _Overflow
.
_Overflow
≡_ArithException
.
_Overflow
_Overflow
::Prism'
ArithException
ArithException
_Overflow
::Prism'
SomeException
ArithException
_Underflow :: AsArithException t => Prism' t () Source
Handle arithmetic _Underflow
.
_Underflow
≡_ArithException
.
_Underflow
_Underflow
::Prism'
ArithException
ArithException
_Underflow
::Prism'
SomeException
ArithException
_LossOfPrecision :: AsArithException t => Prism' t () Source
Handle arithmetic loss of precision.
_LossOfPrecision
≡_ArithException
.
_LossOfPrecision
_LossOfPrecision
::Prism'
ArithException
ArithException
_LossOfPrecision
::Prism'
SomeException
ArithException
_DivideByZero :: AsArithException t => Prism' t () Source
Handle division by zero.
_DivideByZero
≡_ArithException
.
_DivideByZero
_DivideByZero
::Prism'
ArithException
ArithException
_DivideByZero
::Prism'
SomeException
ArithException
_Denormal :: AsArithException t => Prism' t () Source
Handle exceptional _Denormalized floating pure.
_Denormal
≡_ArithException
.
_Denormal
_Denormal
::Prism'
ArithException
ArithException
_Denormal
::Prism'
SomeException
ArithException
_RatioZeroDenominator :: AsArithException t => Prism' t () Source
Added in base
4.6 in response to this libraries discussion:
http://haskell.1045720.n5.nabble.com/Data-Ratio-and-exceptions-td5711246.html
_RatioZeroDenominator
≡_ArithException
.
_RatioZeroDenominator
_RatioZeroDenominator
::Prism'
ArithException
ArithException
_RatioZeroDenominator
::Prism'
SomeException
ArithException
pattern ArithException_ :: () => AsArithException s => ArithException -> s Source
pattern Overflow_ :: () => AsArithException s => s Source
pattern Underflow_ :: () => AsArithException s => s Source
pattern LossOfPrecision_ :: () => AsArithException s => s Source
pattern DivideByZero_ :: () => AsArithException s => s Source
pattern Denormal_ :: () => AsArithException s => s Source
pattern RatioZeroDenominator_ :: () => AsArithException s => s Source
Array Exceptions
class AsArrayException t where Source
Exceptions generated by array operations.
Nothing
_ArrayException :: Prism' t ArrayException Source
Extract information about an ArrayException
.
_ArrayException
::Prism'
ArrayException
ArrayException
_ArrayException
::Prism'
SomeException
ArrayException
_IndexOutOfBounds :: AsArrayException t => Prism' t String Source
An attempt was made to index an array outside its declared bounds.
_IndexOutOfBounds
≡_ArrayException
.
_IndexOutOfBounds
_IndexOutOfBounds
::Prism'
ArrayException
String
_IndexOutOfBounds
::Prism'
SomeException
String
_UndefinedElement :: AsArrayException t => Prism' t String Source
An attempt was made to evaluate an element of an array that had not been initialized.
_UndefinedElement
≡_ArrayException
.
_UndefinedElement
_UndefinedElement
::Prism'
ArrayException
String
_UndefinedElement
::Prism'
SomeException
String
pattern ArrayException_ :: () => AsArrayException s => ArrayException -> s Source
pattern IndexOutOfBounds_ :: () => AsArrayException s => String -> s Source
pattern UndefinedElement_ :: () => AsArrayException s => String -> s Source
Assertion Failed
class AsAssertionFailed t where Source
Nothing
_AssertionFailed :: Prism' t String Source
This Exception
contains provides information about what assertion failed in the String
.
>>>
handling _AssertionFailed (\ xs -> "caught" <$ guard ("<interactive>" `isInfixOf` xs) ) $ assert False (return "uncaught")
"caught"
_AssertionFailed
::Prism'
AssertionFailed
String
_AssertionFailed
::Prism'
SomeException
String
pattern AssertionFailed_ :: () => AsAssertionFailed s => String -> s Source
Async Exceptions
class AsAsyncException t where Source
Asynchronous exceptions.
Nothing
_AsyncException :: Prism' t AsyncException Source
There are several types of AsyncException
.
_AsyncException
::Equality'
AsyncException
AsyncException
_AsyncException
::Prism'
SomeException
AsyncException
_StackOverflow :: AsAsyncException t => Prism' t () Source
The current thread's stack exceeded its limit. Since an Exception
has
been raised, the thread's stack will certainly be below its limit again,
but the programmer should take remedial action immediately.
_StackOverflow
::Prism'
AsyncException
()_StackOverflow
::Prism'
SomeException
()
_HeapOverflow :: AsAsyncException t => Prism' t () Source
The program's heap is reaching its limit, and the program should take action to reduce the amount of live data it has.
Notes:
- It is undefined which thread receives this
Exception
. - GHC currently does not throw
HeapOverflow
exceptions.
_HeapOverflow
::Prism'
AsyncException
()_HeapOverflow
::Prism'
SomeException
()
_ThreadKilled :: AsAsyncException t => Prism' t () Source
This Exception
is raised by another thread calling
killThread
, or by the system if it needs to terminate
the thread for some reason.
_ThreadKilled
::Prism'
AsyncException
()_ThreadKilled
::Prism'
SomeException
()
_UserInterrupt :: AsAsyncException t => Prism' t () Source
This Exception
is raised by default in the main thread of the program when
the user requests to terminate the program via the usual mechanism(s)
(e.g. Control-C in the console).
_UserInterrupt
::Prism'
AsyncException
()_UserInterrupt
::Prism'
SomeException
()
pattern AsyncException_ :: () => AsAsyncException s => AsyncException -> s Source
pattern StackOverflow_ :: () => AsAsyncException s => s Source
pattern HeapOverflow_ :: () => AsAsyncException s => s Source
pattern ThreadKilled_ :: () => AsAsyncException s => s Source
pattern UserInterrupt_ :: () => AsAsyncException s => s Source
Non-Termination
class AsNonTermination t where Source
Thrown when the runtime system detects that the computation is guaranteed not to terminate. Note that there is no guarantee that the runtime system will notice whether any given computation is guaranteed to terminate or not.
Nothing
_NonTermination :: Prism' t () Source
There is no additional information carried in a NonTermination
Exception
.
_NonTermination
::Prism'
NonTermination
()_NonTermination
::Prism'
SomeException
()
pattern NonTermination_ :: () => AsNonTermination s => s Source
Nested Atomically
class AsNestedAtomically t where Source
Thrown when the program attempts to call atomically, from the
STM
package, inside another call to atomically.
Nothing
_NestedAtomically :: Prism' t () Source
There is no additional information carried in a NestedAtomically
Exception
.
_NestedAtomically
::Prism'
NestedAtomically
()_NestedAtomically
::Prism'
SomeException
()
pattern NestedAtomically_ :: () => AsNestedAtomically s => s Source
Blocked Indefinitely
on MVar
class AsBlockedIndefinitelyOnMVar t where Source
The thread is blocked on an MVar
, but there
are no other references to the MVar
so it can't
ever continue.
Nothing
_BlockedIndefinitelyOnMVar :: Prism' t () Source
There is no additional information carried in a BlockedIndefinitelyOnMVar
Exception
.
_BlockedIndefinitelyOnMVar
::Prism'
BlockedIndefinitelyOnMVar
()_BlockedIndefinitelyOnMVar
::Prism'
SomeException
()
pattern BlockedIndefinitelyOnMVar_ :: () => AsBlockedIndefinitelyOnMVar s => s Source
on STM
class AsBlockedIndefinitelyOnSTM t where Source
The thread is waiting to retry an STM
transaction,
but there are no other references to any TVars involved, so it can't ever
continue.
Nothing
_BlockedIndefinitelyOnSTM :: Prism' t () Source
There is no additional information carried in a BlockedIndefinitelyOnSTM
Exception
.
_BlockedIndefinitelyOnSTM
::Prism'
BlockedIndefinitelyOnSTM
()_BlockedIndefinitelyOnSTM
::Prism'
SomeException
()
pattern BlockedIndefinitelyOnSTM_ :: () => AsBlockedIndefinitelyOnSTM s => s Source
Deadlock
class AsDeadlock t where Source
There are no runnable threads, so the program is deadlocked. The
Deadlock
Exception
is raised in the main thread only.
Nothing
pattern Deadlock_ :: () => AsDeadlock s => s Source
No Such Method
class AsNoMethodError t where Source
A class method without a definition (neither a default definition, nor a definition in the appropriate instance) was called.
Nothing
_NoMethodError :: Prism' t String Source
Extract a description of the missing method.
_NoMethodError
::Prism'
NoMethodError
String
_NoMethodError
::Prism'
SomeException
String
pattern NoMethodError_ :: () => AsNoMethodError s => String -> s Source
Pattern Match Failure
class AsPatternMatchFail t where Source
A pattern match failed.
Nothing
_PatternMatchFail :: Prism' t String Source
Information about the source location of the pattern.
_PatternMatchFail
::Prism'
PatternMatchFail
String
_PatternMatchFail
::Prism'
SomeException
String
pattern PatternMatchFail_ :: () => AsPatternMatchFail s => String -> s Source
Record
class AsRecConError t where Source
An uninitialised record field was used.
Nothing
_RecConError :: Prism' t String Source
Information about the source location where the record was constructed.
_RecConError
::Prism'
RecConError
String
_RecConError
::Prism'
SomeException
String
class AsRecSelError t where Source
A record selector was applied to a constructor without the appropriate field. This can only happen with a datatype with multiple constructors, where some fields are in one constructor but not another.
Nothing
_RecSelError :: Prism' t String Source
Information about the source location where the record selection occurred.
class AsRecUpdError t where Source
A record update was performed on a constructor without the appropriate field. This can only happen with a datatype with multiple constructors, where some fields are in one constructor but not another.
Nothing
_RecUpdError :: Prism' t String Source
Information about the source location where the record was updated.
pattern RecConError_ :: () => AsRecConError s => String -> s Source
pattern RecSelError_ :: () => AsRecSelError s => String -> s Source
pattern RecUpdError_ :: () => AsRecUpdError s => String -> s Source
Error Call
class AsErrorCall t where Source
This is thrown when the user calls error
.
Nothing
_ErrorCall :: Prism' t String Source
pattern ErrorCall_ :: () => AsErrorCall s => String -> s Source
Handling Exceptions
class AsHandlingException t where Source
This Exception
is thrown by lens
when the user somehow manages to rethrow
an internal HandlingException
.
Nothing
_HandlingException :: Prism' t () Source
There is no information carried in a HandlingException
.
_HandlingException
::Prism'
HandlingException
()_HandlingException
::Prism'
SomeException
()
pattern HandlingException_ :: () => AsHandlingException s => s Source