moo/stix/kernel/Except.st

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##
## TODO: is it better to inherit from Object???
## or treat Exception specially like UndefinedObject or Class???
##
class Exception(Apex)
{
dcl signalContext handlerContext messageText.
method(#class) signal
{
^self new signal
}
method(#class) signal: text
{
^self new signal: text
}
method handlerContext: context
{
self.handlerContext := context.
}
method messageText
{
^self.messageText
}
method asString
{
^(self class name) & ' - ' & self.messageText.
}
method __signal
{
self.signalContext := thisContext.
((thisContext sender) findExceptionContext) handleException: self.
}
method signal
{
| exctx exblk retval actpos |
self.signalContext := thisContext.
exctx := (thisContext sender) findExceptionContext.
[exctx notNil] whileTrue: [
exblk := exctx findExceptionHandlerFor: (self class).
(exblk notNil and:
[actpos := exctx basicSize - 1. exctx basicAt: actpos]) ifTrue: [
self.handlerContext := exctx.
exctx basicAt: actpos put: false.
[ retval := exblk value: self ] ensure: [
exctx basicAt: actpos put: true
].
thisContext unwindTo: (exctx sender) return: nil.
Processor return: retval to: (exctx sender).
].
exctx := (exctx sender) findExceptionContext.
].
## -----------------------------------------------------------------
## FATAL ERROR - no exception handler.
## -----------------------------------------------------------------
##thisContext unwindTo: nil return: nil.
##thisContext unwindTo: (Processor activeProcess initialContext) return: nil.
thisContext unwindTo: (thisProcess initialContext) return: nil.
('### EXCEPTION NOT HANDLED #### ' & self class name & ' - ' & self messageText) dump.
## TODO: debug the current process???? "
##Processor activeProcess terminate.
thisProcess terminate.
}
method signal: text
{
self.messageText := text.
^self signal.
}
method pass
{
## pass the exception to the outer context
((self.handlerContext sender) findExceptionContext) handleException: self.
}
method return: value
{
(self.handlerContext notNil) ifTrue: [
Processor return: value to: self.handlerContext.
].
}
method retry
{
## TODO: verify if return:to: causes unnecessary stack growth.
(self.handlerContext notNil) ifTrue: [
self.handlerContext pc: 0.
Processor return: self to: self.handlerContext.
].
}
method resume: value
{
## TODO: verify if return:to: causes unnecessary stack growth.
## is this correct???
(self.signalContext notNil and: [self.handlerContext notNil]) ifTrue: [
| ctx |
ctx := self.signalContext sender.
self.signalContext := nil.
self.handlerContext := nil.
Processor return: value to: ctx.
].
}
method resume
{
^self resume: nil.
}
}
##============================================================================
extend Context
{
method isExceptionContext
{
^false
}
method isEnsureContext
{
^false
}
method ensureBlock
{
^nil
}
method findExceptionContext
{
| ctx |
ctx := self.
[ ctx notNil ] whileTrue: [
(ctx isExceptionContext) ifTrue: [^ctx].
ctx := ctx sender.
].
^nil
}
method unwindTo: context return: retval
{
## -------------------------------------------------------------------
## <<private>>
## private: called by VM upon unwinding
## -------------------------------------------------------------------
| ctx stop |
ctx := self.
stop := false.
[stop] whileFalse: [
| eb |
eb := ctx ensureBlock.
(eb notNil) ifTrue: [
| donepos |
donepos := ctx basicSize - 1.
(ctx basicAt: donepos) ifFalse: [
ctx basicAt: donepos put: true.
eb value.
].
].
stop := (ctx == context).
ctx := ctx sender.
## stop ifFalse: [ stop := ctx isNil ].
].
^retval
}
}
##============================================================================
extend MethodContext
{
method isExceptionContext
{
## 10 - STIX_METHOD_PREAMBLE_EXCEPTION in VM.
^self.method preambleCode == 10.
}
method isEnsureContext
{
## 10 - STIX_METHOD_PREAMBLE_ENSURE in VM.
^self.method preambleCode == 11
}
method ensureBlock
{
## TODO: change 8 to a constant when stix is enhanced to support constant definition
(* [ value-block ] ensure: [ ensure-block ]
* assuming ensure block is a parameter the ensure: method to a
* block context, the first parameter is placed after the fixed
* instance variables of the method context. As MethodContex has
* 8 instance variables, the ensure block must be at the 9th position
* which translates to index 8 *)
(self.method preambleCode == 11) ifFalse: [^nil].
^self basicAt: 8.
}
method findExceptionHandlerFor: exception_class
{
(* find an exception handler block for a given exception class.
*
* for this to work, self must be an exception handler context.
* For a single on:do: call,
* self class specNumInstVars must return 8.(i.e.MethodContext has 8 instance variables.)
* basicAt: 8 must be the on: argument.
* basicAt: 9 must be the do: argument *)
## TODO: change 8 to a constant when stix is enhanced to support constant definition
## or calcuate the minimum size using the class information.
(self isExceptionContext) ifTrue: [
| size exc |
(* NOTE: the following loop scans all parameters to the on:do: method.
* if the on:do: method contains local temporary variables,
* those must be skipped from scanning. *)
size := self basicSize.
8 priorTo: size by: 2 do: [ :i |
exc := self basicAt: i.
((exception_class == exc) or: [exception_class inheritsFrom: exc]) ifTrue: [^self basicAt: (i + 1)].
]
].
^nil.
}
method handleException: exception
{
(* -----------------------------------------------------------------
* <<private>>
* called by Exception>>signal.
* this method only exists in the MethodContext and UndefinedObject.
* the caller must make sure that the receiver object is
* a method context or nil. Exception>>signal invokes this method
* only for an exception context which is a method context. it
* invokes it for nil when no exception context is found.
* ---------------------------------------------------------------- *)
| excblk retval actpos |
(* position of the temporary variable 'active' in MethodContext>>on:do.
* for this code to work, it must be the last temporary variable in the method. *)
actpos := (self basicSize) - 1.
excblk := self findExceptionHandlerFor: (exception class).
(excblk isNil or: [(self basicAt: actpos) not]) ifTrue: [
## self is an exception context but doesn't have a matching
## exception handler or the exception context is already
## in the middle of evaluation.
^(self.sender findExceptionContext) handleException: exception.
].
exception handlerContext: self.
(* -----------------------------------------------------------------
* if an exception occurs within an exception handler block,
* the search will reach this context again as the exception block
* is evaluated before actual unwinding. set the temporary variable
* in the exception context to mask out this context from the search
* list.
* ---------------------------------------------------------------- *)
self basicAt: actpos put: false.
[ retval := excblk value: exception ] ensure: [
self basicAt: actpos put: true
].
##(self.sender isNil) ifTrue: [ "TODO: CANNOT RETURN" ].
(* -----------------------------------------------------------------
* return to self.sender which is a caller of the exception context (on:do:)
* pass the first ensure context between thisContext and self.sender.
* [ [Exception signal: 'xxx'] ensure: [20] ] on: Exception do: [:ex | ...]
* ---------------------------------------------------------------- *)
thisContext unwindTo: self.sender return: nil.
Processor return: retval to: self.sender.
}
}
##============================================================================
extend BlockContext
{
method on: anException do: anExceptionBlock
{
| exception_active |
<exception>
(* -------------------------------
thisContext isExceptionContext dump.
(thisContext basicSize) dump.
(thisContext basicAt: 8) dump. ## this should be anException
(thisContext basicAt: 9) dump. ## this should be anExceptionBlock
(thisContext basicAt: 10) dump. ## this should be handlerActive
'on:do: ABOUT TO EVALUE THE RECEIVER BLOCK' dump.
---------------------------------- *)
exception_active := true.
^self value.
}
method on: exc1 do: blk1 on: exc2 do: blk2
{
| exception_active |
<exception>
exception_active := true.
^self value.
}
method ensure: aBlock
{
| retval done |
<ensure>
done := false.
retval := self value.
## the temporary variable 'done' may get changed
## during evaluation for exception handling.
done ifFalse: [
done := true.
aBlock value.
].
^retval
}
method ifCurtailed: aBlock
{
| v ok |
ok := false.
[ v := self value. ok := true. ] ensure: [ ok ifFalse: [aBlock value] ].
^v.
}
}
##============================================================================
class InstantiationFailureException(Exception)
{
}
class NoSuchMessageException(Exception)
{
}
class PrimitiveFailureException(Exception)
{
}
class IndexOutOfRangeException(Exception)
{
}
class SubclassResponsibilityException(Exception)
{
}
class InvalidArgumentException(Exception)
{
}
class ErrorExceptionizationFailureException(Exception)
{
}
extend Apex
{
method(#class) primitiveFailed
{
## TODO: implement this
## experimental backtrace...
| ctx |
ctx := thisContext.
[ctx notNil] whileTrue: [
(ctx class == MethodContext)
ifTrue: [ (ctx method owner name & '>>' & ctx method name) dump ].
## TODO: include blockcontext???
ctx := ctx sender.
].
'------ END OF BACKTRACE -----------' dump.
PrimitiveFailureException signal: 'PRIMITIVE FAILED'.
}
method(#class) cannotInstantiate
{
## TOOD: accept a class
InstantiationFailureException signal: 'Cannot instantiate'.
}
method(#class) doesNotUnderstand: message_name
{
## TODO: implement this properly
NoSuchMessageException signal: (message_name & ' not understood by ' & (self name)).
}
method(#class) index: index outOfRange: ubound
{
IndexOutOfRangeException signal: 'Out of range'.
}
method(#class) subclassResponsibility: message_name
{
SubclassResponsibilityException signal: ('Subclass must implment ' & message_name).
}
method(#class) cannotExceptionizeError
{
## todo: accept the object
ErrorExceptionizationFailureException signal: 'Cannot exceptionize an error'
}
}