- error: Lean.Syntax → Lean.MessageData → Lean.Exception
Error messages that are displayed to users.
ref
is used to provide position information. - internal: Lean.InternalExceptionId → optParam Lean.KVMap { entries := [] } → Lean.Exception
Internal exceptions that are not meant to be seen by users. Examples: "pospone elaboration", "stuck at universe constraint", etc
Exception type used in most Lean monads
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Convert exception into a structured message.
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Equations
- Lean.Exception.hasSyntheticSorry x = match x with | Lean.Exception.error ref msg => Lean.MessageData.hasSyntheticSorry msg | x => false
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Return syntax object providing position information for the exception. Recall that internal exceptions do not have position information.
Equations
- Lean.Exception.getRef x = match x with | Lean.Exception.error ref msg => ref | Lean.Exception.internal id extra => Lean.Syntax.missing
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Equations
- Lean.instInhabitedException = { default := Lean.Exception.error default default }
- add : Lean.Syntax → Lean.MessageData → m (Lean.Syntax × Lean.MessageData)
Similar to AddMessageContext
, but for error messages.
The default instance just uses AddMessageContext
.
In error messages, we may want to provide additional information (e.g., macro expansion stack),
and refine the (ref : Syntax)
.
Instances
Equations
- Lean.instAddErrorMessageContext m = { add := fun ref msg => do let msg ← Lean.addMessageContext msg pure (ref, msg) }
Instances
Throw an error exception using the given message data.
The result of getRef
is used as position information.
Recall that getRef
returns the current "reference" syntax.
Equations
- Lean.throwError msg = do let ref ← Lean.getRef let __discr ← Lean.AddErrorMessageContext.add ref msg match __discr with | (ref, msg) => throw (Lean.Exception.error ref msg)
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Thrown an unknown constant error message.
Equations
- Lean.throwUnknownConstant constName = Lean.throwError (Lean.toMessageData "unknown constant '" ++ Lean.toMessageData (Lean.mkConst constName) ++ Lean.toMessageData "'")
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Throw an error exception using the given message data and reference syntax.
Equations
- Lean.throwErrorAt ref msg = Lean.withRef ref (Lean.throwError msg)
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Convert an Except
into a m
monadic action, where m
is any monad that
implements MonadError
.
Equations
- Lean.ofExcept x = match x with | Except.ok a => pure a | Except.error e => Lean.throwError ((Lean.MessageData.ofFormat ∘ Std.format) (toString e))
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Throw an error exception for the given kernel exception.
Equations
- Lean.throwKernelException ex = do let __do_lift ← Lean.getOptions Lean.throwError (Lean.KernelException.toMessageData ex __do_lift)
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Lift from Except KernelException
to m
when m
can throw kernel exceptions.
Equations
- Lean.ofExceptKernelException x = match x with | Except.ok a => pure a | Except.error e => Lean.throwKernelException e
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- Lean.instMonadRecDepthStateRefT' = inferInstanceAs (Lean.MonadRecDepth (ReaderT (ST.Ref ω σ) fun α => m α))
Equations
- Lean.instMonadRecDepthMonadCacheT = inferInstanceAs (Lean.MonadRecDepth (StateRefT' ω (Lean.HashMap α β) m))
Throw a "maximum recursion depth has been reached" exception using the given reference syntax.
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Return true if ex
was generated by throwMaxRecDepthAt
.
This function is a bit hackish. The max rec depth exception should probably be an internal exception,
but it is also produced by MacroM
which implemented in the prelude, and internal exceptions have not
been defined yet.
Equations
- Lean.Exception.isMaxRecDepth ex = match ex with | Lean.Exception.error ref (Lean.MessageData.ofFormat (Std.Format.text msg)) => msg == Lean.maxRecDepthErrorMessage | x => false
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Increment the current recursion depth and then execute x
.
Throw an exception if maximum recursion depth has been reached.
We use this combinator to prevent stack overflows.
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Macro for throwing error exceptions. The argument can be an interpolated string.
It is a convenient way of building MessageData
objects.
The result of getRef
is used as position information.
Recall that getRef
returns the current "reference" syntax.
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Macro for throwing error exceptions. The argument can be an interpolated string.
It is a convenient way of building MessageData
objects.
The first argument must be a Syntax
that provides position information for
the error message.
throwErrorAt ref msg
is equivalent to withRef ref <| throwError msg
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